Merging upstream version 1.74.1+dfsg1.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

54 files changed, 0 insertions, 51360 deletions

diff --git a/vendor/gimli-0.27.3/.cargo-checksum.json b/vendor/gimli-0.27.3/.cargo-checksum.json
deleted file mode 100644
index 66eb6228b..000000000
--- a/vendor/gimli-0.27.3/.cargo-checksum.json
+++ /dev/null
@@ -1 +0,0 @@
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\ No newline at end of file
diff --git a/vendor/gimli-0.27.3/CHANGELOG.md b/vendor/gimli-0.27.3/CHANGELOG.md
deleted file mode 100644
index 579788522..000000000
--- a/vendor/gimli-0.27.3/CHANGELOG.md
+++ /dev/null
@@ -1,943 +0,0 @@
-# `gimli` Change Log
-
---------------------------------------------------------------------------------
-
-## 0.27.3
-
-Released 2023/06/14.
-
-### Changed
-
-* Excluded test fixtures from published package.
-  [#661](https://github.com/gimli-rs/gimli/pull/661)
-
-### Added
-
-* Added `FallibleIterator` implementation for `read::OperationIter`.
-  [#649](https://github.com/gimli-rs/gimli/pull/649)
-
-* Added `DW_AT_GNU_deleted` constant.
-  [#658](https://github.com/gimli-rs/gimli/pull/658)
-
---------------------------------------------------------------------------------
-
-## 0.27.2
-
-Released 2023/02/15.
-
-### Added
-
-* Added support for tombstones in `read::LineRows`.
-  [#642](https://github.com/gimli-rs/gimli/pull/642)
-
---------------------------------------------------------------------------------
-
-## 0.27.1
-
-Released 2023/01/23.
-
-### Added
-
-* Added `SectionId::xcoff_name` and `read::Section::xcoff_section_name`.
-  [#635](https://github.com/gimli-rs/gimli/pull/635)
-
-* Added `read::Dwarf::make_dwo` and `read::Unit::dwo_name`.
-  [#637](https://github.com/gimli-rs/gimli/pull/637)
-
-### Changed
-
-* Changed `read::DwarfPackage::sections` to handle supplementary files.
-  [#638](https://github.com/gimli-rs/gimli/pull/638)
-
---------------------------------------------------------------------------------
-
-## 0.27.0
-
-Released 2022/11/23.
-
-### Breaking changes
-
-* Added `read::Dwarf::abbreviations_cache` to cache abbreviations at offset 0.
-  Changed `read::Dwarf::abbreviations` to return `Result<Arc<Abbreviations>>`,
-  and changed `read::Unit::abbreviations` to `Arc<Abbreviations>`.
-  [#628](https://github.com/gimli-rs/gimli/pull/628)
-
-### Added
-
-* Added LoongArch register definitions.
-  [#624](https://github.com/gimli-rs/gimli/pull/624)
-
-* Added support for tombstones in `read::LocListIter` and `read::RngListIter`.
-  [#631](https://github.com/gimli-rs/gimli/pull/631)
-
---------------------------------------------------------------------------------
-
-## 0.26.2
-
-Released 2022/07/16.
-
-### Changed
-
-* Fixed CFI personality encoding when writing.
-  [#609](https://github.com/gimli-rs/gimli/pull/609)
-
-* Fixed use of raw pointer for mutation, detected by Miri.
-  [#614](https://github.com/gimli-rs/gimli/pull/614)
-
-* Fixed `DW_OP_GNU_implicit_pointer` handling for DWARF version 2.
-  [#618](https://github.com/gimli-rs/gimli/pull/618)
-
-### Added
-
-* Added `read::EhHdrTable::iter`.
-  [#619](https://github.com/gimli-rs/gimli/pull/619)
-
---------------------------------------------------------------------------------
-
-## 0.26.1
-
-Released 2021/11/02.
-
-### Changed
-
-* Fixed segmentation fault in `ArrayVec<Vec<T>>::into_vec`, which may be used by
-  `read::Evaluation::result`. This regression was introduced in 0.26.0.
-  [#601](https://github.com/gimli-rs/gimli/pull/601)
-
---------------------------------------------------------------------------------
-
-## 0.26.0
-
-Released 2021/10/24.
-
-### Breaking changes
-
-* Removed `read::UninitializedUnwindContext`. Use `Box<UnwindContext>` instead.
-  [#593](https://github.com/gimli-rs/gimli/pull/593)
-
-* Renamed `read::Error::CfiStackFull` to `StackFull`.
-  [#595](https://github.com/gimli-rs/gimli/pull/595)
-
-* Added `UnwindContextStorage` type parameter to `read::UnwindContext`, `read::UnwindTable`,
-  `read::UnwindTableRow`, and `read::RegisterRuleMap`.
-  [#595](https://github.com/gimli-rs/gimli/pull/595)
-
-* Added `EvaluationStorage` type parameter to `read::Evaluation`.
-  [#595](https://github.com/gimli-rs/gimli/pull/595)
-
-* Added `read::SectionId::DebugCuIndex` and `read::SectionId::DebugTuIndex`.
-  [#588](https://github.com/gimli-rs/gimli/pull/588)
-
-### Changed
-
-* Fixed `DW_EH_PE_pcrel` handling in default `write::Writer::write_eh_pointer` implementation.
-  [#576](https://github.com/gimli-rs/gimli/pull/576)
-
-* Fixed `read::AttributeSpecification::size` for some forms.
-  [#597](https://github.com/gimli-rs/gimli/pull/597)
-
-* Display more unit details in dwarfdump.
-  [#584](https://github.com/gimli-rs/gimli/pull/584)
-
-### Added
-
-* Added `write::DebuggingInformationEntry::delete_child`.
-  [#570](https://github.com/gimli-rs/gimli/pull/570)
-
-* Added ARM and AArch64 register definitions.
-  [#574](https://github.com/gimli-rs/gimli/pull/574)
-  [#577](https://github.com/gimli-rs/gimli/pull/577)
-
-* Added RISC-V register definitions.
-  [#579](https://github.com/gimli-rs/gimli/pull/579)
-
-* Added `read::DwarfPackage`, `read::DebugCuIndex`, and `read::DebugTuIndex`.
-  [#588](https://github.com/gimli-rs/gimli/pull/588)
-
-* Added `read-core` feature to allow building without `liballoc`.
-  [#596](https://github.com/gimli-rs/gimli/pull/596)
-
-* Added `read::EntriesRaw::skip_attributes`.
-  [#597](https://github.com/gimli-rs/gimli/pull/597)
-
---------------------------------------------------------------------------------
-
-## 0.25.0
-
-Released 2021/07/26.
-
-### Breaking changes
-
-* `read::FrameDescriptionEntry::unwind_info_for_address` now returns a reference
-  instead of cloning.
-  [#557](https://github.com/gimli-rs/gimli/pull/557)
-
-* `read::AttributeValue::RangeListsRef` now contains a `RawRangeListsOffset`
-  to allow handling of GNU split DWARF extensions.
-  Use `read::Dwarf::ranges_offset_from_raw` to handle it.
-  [#568](https://github.com/gimli-rs/gimli/pull/568)
-  [#569](https://github.com/gimli-rs/gimli/pull/569)
-
-* Added `read::Unit::dwo_id`.
-  [#569](https://github.com/gimli-rs/gimli/pull/569)
-
-### Changed
-
-* `.debug_aranges` parsing now accepts version 3.
-  [#560](https://github.com/gimli-rs/gimli/pull/560)
-
-* `read::Dwarf::attr_ranges_offset` and its callers now handle GNU split DWARF extensions.
-  [#568](https://github.com/gimli-rs/gimli/pull/568)
-  [#569](https://github.com/gimli-rs/gimli/pull/569)
-
-### Added
-
-* Added `read::DebugLineStr::new`.
-  [#556](https://github.com/gimli-rs/gimli/pull/556)
-
-* Added `read::UnwindTable::into_current_row`.
-  [#557](https://github.com/gimli-rs/gimli/pull/557)
-
-* Added more `DW_LANG` constants.
-  [#565](https://github.com/gimli-rs/gimli/pull/565)
-
-* dwarfdump: added DWO parent support.
-  [#568](https://github.com/gimli-rs/gimli/pull/568)
-
-* Added `read::Dwarf` methods: `ranges_offset_from_raw`, `raw_ranges`, and `raw_locations`.
-  [#568](https://github.com/gimli-rs/gimli/pull/568)
-  [#569](https://github.com/gimli-rs/gimli/pull/569)
-
---------------------------------------------------------------------------------
-
-## 0.24.0
-
-Released 2021/05/01.
-
-### Breaking changes
-
-* Minimum Rust version increased to 1.42.0.
-
-* Added `read::Dwarf::debug_aranges`.
-  [#539](https://github.com/gimli-rs/gimli/pull/539)
-
-* Replaced `read::DebugAranges::items` with `read::DebugAranges::headers`.
-  [#539](https://github.com/gimli-rs/gimli/pull/539)
-
-* Added `read::Operation::Wasm*`.
-  [#546](https://github.com/gimli-rs/gimli/pull/546)
-
-* `read::LineRow::line` now returns `Option<NonZeroU64>`.
-  The `read::ColumnType::Column` variant now contains a `NonZeroU64`.
-  [#551](https://github.com/gimli-rs/gimli/pull/551)
-
-* Replaced `read::Dwarf::debug_str_sup` with `read::Dwarf::sup`.
-  Deleted `sup` parameter of `read::Dwarf::load`.
-  Added `read::Dwarf::load_sup`.
-  [#554](https://github.com/gimli-rs/gimli/pull/554)
-
-### Added
-
-* dwarfdump: Supplementary object file support.
-  [#552](https://github.com/gimli-rs/gimli/pull/552)
-
-### Changed
-
-* Support `DW_FORM_addrx*` for `DW_AT_low_pc`/`DW_AT_high_pc` in `read::Dwarf`.
-  [#541](https://github.com/gimli-rs/gimli/pull/541)
-
-* Performance improvement in `EndianReader`.
-  [#549](https://github.com/gimli-rs/gimli/pull/549)
-
---------------------------------------------------------------------------------
-
-## 0.23.0
-
-Released 2020/10/27.
-
-### Breaking changes
-
-* Added more variants to `read::UnitType`.
-  Added `read::AttributeValue::DwoId`
-  [#521](https://github.com/gimli-rs/gimli/pull/521)
-
-* Replaced `CompilationUnitHeader` and `TypeUnitHeader` with `UnitHeader`.
-  Replaced `CompilationUnitHeadersIter` with `DebugInfoUnitHeadersIter`.
-  Replaced `TypeUnitHeadersIter` with `DebugTypesUnitHeadersIter`.
-  [#523](https://github.com/gimli-rs/gimli/pull/523)
-
-
-### Added
-
-* Added read support for split DWARF.
-  [#527](https://github.com/gimli-rs/gimli/pull/527)
-  [#529](https://github.com/gimli-rs/gimli/pull/529)
-
-* Added `read::Dwarf::attr_address`.
-  [#524](https://github.com/gimli-rs/gimli/pull/524)
-
-* Added read support for `DW_AT_GNU_addr_base` and `DW_AT_GNU_ranges_base`.
-  [#525](https://github.com/gimli-rs/gimli/pull/525)
-
-* dwarfdump: Display index values for attributes.
-  [#526](https://github.com/gimli-rs/gimli/pull/526)
-
-* Added `name_to_register`.
-  [#532](https://github.com/gimli-rs/gimli/pull/532)
-
---------------------------------------------------------------------------------
-
-## 0.22.0
-
-Released 2020/07/03.
-
-### Breaking changes
-
-* Fixed `UnitHeader::size_of_header` for DWARF 5 units.
-  [#518](https://github.com/gimli-rs/gimli/pull/518)
-
-### Added
-
-* Added fuzz targets in CI.
-  [#512](https://github.com/gimli-rs/gimli/pull/512)
-
-* Added read support for `DW_OP_GNU_addr_index` and `DW_OP_GNU_const_index`.
-  [#516](https://github.com/gimli-rs/gimli/pull/516)
-
-* Added `.dwo` support to dwarfdump.
-  [#516](https://github.com/gimli-rs/gimli/pull/516)
-
-* Added `SectionId::dwo_name` and `Section::dwo_section_name`.
-  [#517](https://github.com/gimli-rs/gimli/pull/517)
-
-### Fixed
-
-* Fixed panic when reading `DW_FORM_indirect` combined with `DW_FORM_implicit_const`.
-  [#502](https://github.com/gimli-rs/gimli/pull/502)
-
-* Fixed panic for `read::Abbreviations::get(0)`.
-  [#505](https://github.com/gimli-rs/gimli/pull/505)
-
-* Fixed arithmetic overflow when reading `.debug_line`.
-  [#508](https://github.com/gimli-rs/gimli/pull/508)
-
-* Fixed arithmetic overflow when reading CFI.
-  [#509](https://github.com/gimli-rs/gimli/pull/509)
-
-* Fixed arithmetic overflow and division by zero when reading `.debug_aranges`.
-  [#510](https://github.com/gimli-rs/gimli/pull/510)
-
-* Don't return error from `read::Unit::new` when `DW_AT_name` or `DW_AT_comp_dir` is missing.
-  [#515](https://github.com/gimli-rs/gimli/pull/515)
-
---------------------------------------------------------------------------------
-
-## 0.21.0
-
-Released 2020/05/12.
-
-### Breaking changes
-
-* Minimum Rust version increased to 1.38.0.
-
-* Replaced `read::Operation::Literal` with `Operation::UnsignedConstant` and `Operation::SignedConstant`.
-  Changed `read::Operation::Bra` and `read::Operation::Skip` to contain the target offset instead of the bytecode.
-  [#479](https://github.com/gimli-rs/gimli/pull/479)
-
-* Changed `write::Expression` to support references. Existing users can convert to use `Expression::raw`.
-  [#479](https://github.com/gimli-rs/gimli/pull/479)
-
-* Replaced `write::AttributeValue::AnyUnitEntryRef` with `DebugInfoRef`.
-  Renamed `write::AttributeValue::ThisUnitEntryRef` to `UnitRef`.
-  [#479](https://github.com/gimli-rs/gimli/pull/479)
-
-* Added more optional features: `endian-reader` and `fallible-iterator`.
-  [#495](https://github.com/gimli-rs/gimli/pull/495)
-  [#498](https://github.com/gimli-rs/gimli/pull/498)
-
-### Added
-
-* Added `read::Expression::operations`
-  [#479](https://github.com/gimli-rs/gimli/pull/479)
-
-### Fixed
-
-* Fixed newlines in `dwarfdump` example.
-  [#470](https://github.com/gimli-rs/gimli/pull/470)
-
-* Ignore zero terminators when reading `.debug_frame` sections.
-  [#486](https://github.com/gimli-rs/gimli/pull/486)
-
-* Increase the number of CFI register rules supported by `read::UnwindContext`.
-  [#487](https://github.com/gimli-rs/gimli/pull/487)
-
-* Fixed version handling and return register encoding when reading `.eh_frame` sections.
-  [#493](https://github.com/gimli-rs/gimli/pull/493)
-
-### Changed
-
-* Added `EhFrame` and `DebugFrame` to `write::Sections`.
-  [#492](https://github.com/gimli-rs/gimli/pull/492)
-
-* Improved performance of `write::LineProgram::generate_row`.
-  [#476](https://github.com/gimli-rs/gimli/pull/476)
-
-* Removed use of the `byteorder`, `arrayvec` and `smallvec` crates.
-  [#494](https://github.com/gimli-rs/gimli/pull/494)
-  [#496](https://github.com/gimli-rs/gimli/pull/496)
-  [#497](https://github.com/gimli-rs/gimli/pull/497)
-
---------------------------------------------------------------------------------
-
-## 0.20.0
-
-Released 2020/01/11.
-
-### Breaking changes
-
-* Changed type of `DwTag`, `DwAt`, and `DwForm` constants.
-  [#451](https://github.com/gimli-rs/gimli/pull/451)
-
-* Added `read/write::AttributeValue::DebugMacroRef`, and returned where
-  required in `read::Attribute::value`. Added `SectionId::DebugMacro`.
-  [#454](https://github.com/gimli-rs/gimli/pull/454)
-
-* Deleted `alloc` feature, and fixed `no-std` builds with stable rust.
-  [#459](https://github.com/gimli-rs/gimli/pull/459)
-
-* Deleted `read::Error::description`, and changed `<read::Error as Display>`
-  to display what was previously the description.
-  [#462](https://github.com/gimli-rs/gimli/pull/462)
-
-### Added
-
-* Added GNU view constants.
-  [#434](https://github.com/gimli-rs/gimli/pull/434)
-
-* Added `read::EntriesRaw` for low level DIE parsing.
-  [#455](https://github.com/gimli-rs/gimli/pull/455)
-
-* Added `examples/simple-line.rs`.
-  [#460](https://github.com/gimli-rs/gimli/pull/460)
-
-### Fixed
-
-* Fixed handling of CFI augmentations without data.
-  [#438](https://github.com/gimli-rs/gimli/pull/438)
-
-* dwarfdump: fix panic for malformed expressions.
-  [#447](https://github.com/gimli-rs/gimli/pull/447)
-
-* dwarfdump: fix handling of Mach-O relocations.
-  [#449](https://github.com/gimli-rs/gimli/pull/449)
-
-### Changed
-
-* Improved abbreviation parsing performance.
-  [#451](https://github.com/gimli-rs/gimli/pull/451)
-
---------------------------------------------------------------------------------
-
-## 0.19.0
-
-Released 2019/07/08.
-
-### Breaking changes
-
-* Small API changes related to `.debug_loc` and `.debug_loclists`:
-  added `read::RawLocListEntry::AddressOrOffsetPair` enum variant,
-  added `write::Sections::debug_loc/debug_loclists` public members,
-  and replaced `write::AttributeValue::LocationListsRef` with `LocationListRef`.
-  [#425](https://github.com/gimli-rs/gimli/pull/425)
-
-### Added
-
-* Added `read::Attribute::exprloc_value` and `read::AttributeValue::exprloc_value`.
-  [#422](https://github.com/gimli-rs/gimli/pull/422)
-
-* Added support for writing `.debug_loc` and `.debug_loclists` sections.
-  [#425](https://github.com/gimli-rs/gimli/pull/425)
-
-* Added `-G` flag to `dwarfdump` example to display global offsets.
-  [#427](https://github.com/gimli-rs/gimli/pull/427)
-
-* Added `examples/simple.rs`.
-  [#429](https://github.com/gimli-rs/gimli/pull/429)
-
-### Fixed
-
-* `write::LineProgram::from` no longer requires `DW_AT_name` or `DW_AT_comp_dir`
-  attributes to be present in the unit DIE.
-  [#430](https://github.com/gimli-rs/gimli/pull/430)
-
---------------------------------------------------------------------------------
-
-## 0.18.0
-
-Released 2019/04/25.
-
-The focus of this release has been on improving support for reading CFI,
-and adding support for writing CFI.
-
-### Breaking changes
-
-* For types which have an `Offset` type parameter, the default `Offset`
-  has changed from `usize` to `R::Offset`.
-  [#392](https://github.com/gimli-rs/gimli/pull/392)
-
-* Added an `Offset` type parameter to the `read::Unit` type to allow variance.
-  [#393](https://github.com/gimli-rs/gimli/pull/393)
-
-* Changed the `UninitializedUnwindContext::initialize` method to borrow `self`,
-  and return `&mut UnwindContext`. Deleted the `InitializedUnwindContext` type.
-  [#395](https://github.com/gimli-rs/gimli/pull/395)
-
-* Deleted the `UnwindSection` type parameters from the `CommonInformationEntry`,
-  `FrameDescriptionEntry`, `UninitializedUnwindContext`,
-  `UnwindContext`, and `UnwindTable` types.
-  [#399](https://github.com/gimli-rs/gimli/pull/399)
-
-* Changed the signature of the `get_cie` callback parameter for various functions.
-  The signature now matches the `UnwindSection::cie_from_offset` method, so
-  that method can be used as the parameter.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Reduced the number of lifetime parameters for the `UnwindTable` type.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Updated `fallible-iterator` to version 0.2.0.
-  [#407](https://github.com/gimli-rs/gimli/pull/407)
-
-* Added a parameter to the `Error::UnexpectedEof` enum variant.
-  [#408](https://github.com/gimli-rs/gimli/pull/408)
-
-### Added
-
-* Update to 2018 edition.
-  [#391](https://github.com/gimli-rs/gimli/pull/391)
-
-* Added the `FrameDescriptionEntry::unwind_info_for_address` method.
-  [#396](https://github.com/gimli-rs/gimli/pull/396)
-
-* Added the `FrameDescriptionEntry::rows` method.
-  [#396](https://github.com/gimli-rs/gimli/pull/396)
-
-* Added the `EhHdrTable::unwind_info_for_address` method.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Added the `EhHdrTable::fde_for_address` method and deprecated the
-  `EhHdrTable::lookup_and_parse` method.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Added the `EhHdrTable::pointer_to_offset` method.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Added the `UnwindSection::fde_for_address` method.
-  [#396](https://github.com/gimli-rs/gimli/pull/396)
-
-* Added the `UnwindSection::fde_from_offset` method.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Added the `UnwindSection::partial_fde_from_offset` method.
-  [#400](https://github.com/gimli-rs/gimli/pull/400)
-
-* Added the `Section::id` method.
-  [#406](https://github.com/gimli-rs/gimli/pull/406)
-
-* Added the `Dwarf::load` method, and corresponding methods for individual sections.
-  [#406](https://github.com/gimli-rs/gimli/pull/406)
-
-* Added the `Dwarf::borrow` method, and corresponding methods for individual sections.
-  [#406](https://github.com/gimli-rs/gimli/pull/406)
-
-* Added the `Dwarf::format_error` method.
-  [#408](https://github.com/gimli-rs/gimli/pull/408)
-
-* Added the `Dwarf::die_ranges` method.
-  [#417](https://github.com/gimli-rs/gimli/pull/417)
-
-* Added the `Dwarf::unit_ranges` method.
-  [#417](https://github.com/gimli-rs/gimli/pull/417)
-
-* Added support for writing `.debug_frame` and `.eh_frame` sections.
-  [#412](https://github.com/gimli-rs/gimli/pull/412)
-  [#419](https://github.com/gimli-rs/gimli/pull/419)
-
-### Fixed
-
-* The `code_alignment_factor` is now used when evaluating CFI instructions
-  that advance the location.
-  [#401](https://github.com/gimli-rs/gimli/pull/401)
-
-* Fixed parsing of pointers encoded with `DW_EH_PE_funcrel`.
-  [#402](https://github.com/gimli-rs/gimli/pull/402)
-
-* Use the FDE address encoding from the augmentation when parsing `DW_CFA_set_loc`.
-  [#403](https://github.com/gimli-rs/gimli/pull/403)
-
-* Fixed setting of `.eh_frame` base addresses in dwarfdump.
-  [#410](https://github.com/gimli-rs/gimli/pull/410)
-
-## 0.17.0
-
-Released 2019/02/21.
-
-The focus of this release has been on improving DWARF 5 support, and
-adding support for writing DWARF.
-
-### Breaking changes
-
-* Changed register values to a `Register` type instead of `u8`/`u64`.
-  [#328](https://github.com/gimli-rs/gimli/pull/328)
-
-* Replaced `BaseAddresses::set_cfi` with `set_eh_frame_hdr` and `set_eh_frame`.
-  Replaced `BaseAddresses::set_data` with `set_got`.
-  You should now use the same `BaseAddresses` value for parsing both
-  `.eh_frame` and `.eh_frame_hdr`.
-  [#351](https://github.com/gimli-rs/gimli/pull/351)
-
-* Renamed many types and functions related to `.debug_line`.
-  Renamed `LineNumberProgram` to `LineProgram`.
-  Renamed `IncompleteLineNumberProgram` to `IncompleteLineProgram`.
-  Renamed `CompleteLineNumberProgram` to `CompleteLineProgram`.
-  Renamed `LineNumberProgramHeader` to `LineProgramHeader`.
-  Renamed `LineNumberRow` to `LineRow`.
-  Renamed `StateMachine` to `LineRows`.
-  Renamed `Opcode` to `LineInstruction`.
-  Renamed `OpcodesIter` to `LineInstructions`.
-  Renamed `LineNumberSequence` to `LineSequence`.
-  [#359](https://github.com/gimli-rs/gimli/pull/359)
-
-* Added `Offset` type parameter to `AttributeValue`, `LineProgram`,
-  `IncompleteLineProgram`, `CompleteLineProgram`, `LineRows`, `LineInstruction`,
-  and `FileEntry`.
-  [#324](https://github.com/gimli-rs/gimli/pull/324)
-
-* Changed `FileEntry::path_name`, `FileEntry::directory`, and
-  `LineProgramHeader::directory` to return an `AttributeValue` instead
-  of a `Reader`.
-  [#366](https://github.com/gimli-rs/gimli/pull/366)
-
-* Renamed `FileEntry::last_modification` to `FileEntry::timestamp`
-  and renamed `FileEntry::length` to `FileEntry::size`.
-  [#366](https://github.com/gimli-rs/gimli/pull/366)
-
-* Added an `Encoding` type. Changed many functions that previously accepted
-  `Format`, version or address size parameters to accept an `Encoding`
-  parameter instead.
-  Notable changes are `LocationLists::locations`, `RangeLists::ranges`,
-  and `Expression::evaluation`.
-  [#364](https://github.com/gimli-rs/gimli/pull/364)
-
-* Changed return type of `LocationLists::new` and `RangeLists::new`.
-  [#370](https://github.com/gimli-rs/gimli/pull/370)
-
-* Added parameters to `LocationsLists::locations` and `RangeLists::ranges`
-  to support `.debug_addr`.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-* Added more `AttributeValue` variants: `DebugAddrBase`, `DebugAddrIndex`,
-  `DebugLocListsBase`, `DebugLocListsIndex`, `DebugRngListsBase`, `DebugRngListsIndex`,
-  `DebugStrOffsetsBase`, `DebugStrOffsetsIndex`, `DebugLineStrRef`.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-* Changed `AttributeValue::Data*` attributes to native endian integers instead
-  of byte arrays.
-  [#365](https://github.com/gimli-rs/gimli/pull/365)
-
-* Replaced `EvaluationResult::TextBase` with
-  `EvaluationResult::RequiresRelocatedAddress`. The handling of `TextBase`
-  was incorrect.
-  [#335](https://github.com/gimli-rs/gimli/pull/335)
-
-* Added `EvaluationResult::IndexedAddress` for operations that require an
-  address from `.debug_addr`.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-* Added `Reader::read_slice`. Added a default implementation of
-  `Reader::read_u8_array` which uses this.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-### Added
-
-* Added initial support for writing DWARF. This is targeted at supporting
-  line number information only.
-  [#340](https://github.com/gimli-rs/gimli/pull/340)
-  [#344](https://github.com/gimli-rs/gimli/pull/344)
-  [#346](https://github.com/gimli-rs/gimli/pull/346)
-  [#361](https://github.com/gimli-rs/gimli/pull/361)
-  [#362](https://github.com/gimli-rs/gimli/pull/362)
-  [#365](https://github.com/gimli-rs/gimli/pull/365)
-  [#368](https://github.com/gimli-rs/gimli/pull/368)
-  [#382](https://github.com/gimli-rs/gimli/pull/382)
-
-* Added `read` and `write` Cargo features. Both are enabled by default.
-  [#343](https://github.com/gimli-rs/gimli/pull/343)
-
-* Added support for reading DWARF 5 `.debug_line` and `.debug_line_str` sections.
-  [#366](https://github.com/gimli-rs/gimli/pull/366)
-
-* Added support for reading DWARF 5 `.debug_str_offsets` sections, including
-  parsing `DW_FORM_strx*` attributes.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-* Added support for reading DWARF 5 `.debug_addr` sections, including parsing
-  `DW_FORM_addrx*` attributes and evaluating `DW_OP_addrx` and `DW_OP_constx`
-  operations.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-* Added support for reading DWARF 5 indexed addresses and offsets in
-  `.debug_loclists` and `.debug_rnglists`, including parsing `DW_FORM_rnglistx`
-  and `DW_FORM_loclistx` attributes.
-  [#358](https://github.com/gimli-rs/gimli/pull/358)
-
-* Added high level `Dwarf` and `Unit` types. Existing code does not need to
-  switch to using these types, but doing so will make DWARF 5 support simpler.
-  [#352](https://github.com/gimli-rs/gimli/pull/352)
-  [#380](https://github.com/gimli-rs/gimli/pull/380)
-  [#381](https://github.com/gimli-rs/gimli/pull/381)
-
-* Added `EhFrame::set_address_size` and `DebugFrame::set_address_size` methods
-  to allow parsing non-native CFI sections. The default address size is still
-  the native size.
-  [#325](https://github.com/gimli-rs/gimli/pull/325)
-
-* Added architecture specific definitions for `Register` values and names.
-  Changed dwarfdump to print them.
-  [#328](https://github.com/gimli-rs/gimli/pull/328)
-
-* Added support for reading relocatable DWARF sections.
-  [#337](https://github.com/gimli-rs/gimli/pull/337)
-
-* Added parsing of `DW_FORM_data16`.
-  [#366](https://github.com/gimli-rs/gimli/pull/366)
-
-### Fixed
-
-* Fixed parsing DWARF 5 ranges with `start == end == 0`.
-  [#323](https://github.com/gimli-rs/gimli/pull/323)
-
-* Changed `LineRows` to be covariant in its `Reader` type parameter.
-  [#324](https://github.com/gimli-rs/gimli/pull/324)
-
-* Fixed handling of empty units in dwarfdump.
-  [#330](https://github.com/gimli-rs/gimli/pull/330)
-
-* Fixed `UnitHeader::length_including_self` for `Dwarf64`.
-  [#342](https://github.com/gimli-rs/gimli/pull/342)
-
-* Fixed parsing of `DW_CFA_set_loc`.
-  [#355](https://github.com/gimli-rs/gimli/pull/355)
-
-* Fixed handling of multiple headers in `.debug_loclists` and `.debug_rnglists`.
-  [#370](https://github.com/gimli-rs/gimli/pull/370)
-
---------------------------------------------------------------------------------
-
-## 0.16.1
-
-Released 2018/08/28.
-
-### Added
-
-* Added `EhFrameHdr::lookup_and_parse`. [#316][]
-* Added support for `DW_CFA_GNU_args_size`. [#319][]
-
-### Fixed
-
-* Implement `Send`/`Sync` for `SubRange`. [#305][]
-* Fixed `alloc` support on nightly. [#306][] [#310][]
-
-[#305]: https://github.com/gimli-rs/gimli/pull/305
-[#306]: https://github.com/gimli-rs/gimli/pull/306
-[#310]: https://github.com/gimli-rs/gimli/pull/310
-[#316]: https://github.com/gimli-rs/gimli/pull/316
-[#319]: https://github.com/gimli-rs/gimli/pull/319
-
---------------------------------------------------------------------------------
-
-## 0.16.0
-
-Released 2018/06/01.
-
-### Added
-
-* Added support for building in `#![no_std]` environments, when the `alloc`
-  crate is available. Disable the "std" feature and enable the "alloc"
-  feature. [#138][] [#271][]
-
-* Added support for DWARF 5 `.debug_rnglists` and `.debug_loclists`
-  sections. [#272][]
-
-* Added support for DWARF 5 `DW_FORM_ref_sup` and `DW_FORM_strp_sup` attribute
-  forms. [#288][]
-
-* Added support for DWARF 5 operations on typed values. [#293][]
-
-* A `dwarf-validate` example program that checks the integrity of the given
-  DWARF and its references between sections. [#290][]
-
-* Added the `EndianReader<T>` type, an easy way to define a custom `Reader`
-  implementation with a reference to a generic buffer of bytes and an associated
-  endianity. [#298][] [#302][]
-
-### Changed
-
-* Various speed improvements for evaluating `.debug_line` line number
-  programs. [#276][]
-
-* The example `dwarfdump` clone is a [whole lot faster
-  now][dwarfdump-faster]. [#282][] [#284][] [#285][]
-
-### Deprecated
-
-* `EndianBuf` has been renamed to `EndianSlice`, use that name instead. [#295][]
-
-### Fixed
-
-* Evaluating the `DW_CFA_restore_state` opcode properly maintains the current
-  location. Previously it would incorrectly restore the old location when
-  popping from evaluation stack. [#274][]
-
-[#271]: https://github.com/gimli-rs/gimli/issues/271
-[#138]: https://github.com/gimli-rs/gimli/issues/138
-[#274]: https://github.com/gimli-rs/gimli/issues/274
-[#272]: https://github.com/gimli-rs/gimli/issues/272
-[#276]: https://github.com/gimli-rs/gimli/issues/276
-[#282]: https://github.com/gimli-rs/gimli/issues/282
-[#285]: https://github.com/gimli-rs/gimli/issues/285
-[#284]: https://github.com/gimli-rs/gimli/issues/284
-[#288]: https://github.com/gimli-rs/gimli/issues/288
-[#290]: https://github.com/gimli-rs/gimli/issues/290
-[#293]: https://github.com/gimli-rs/gimli/issues/293
-[#295]: https://github.com/gimli-rs/gimli/issues/295
-[#298]: https://github.com/gimli-rs/gimli/issues/298
-[#302]: https://github.com/gimli-rs/gimli/issues/302
-[dwarfdump-faster]: https://robert.ocallahan.org/2018/03/speeding-up-dwarfdump-with-rust.html
-
---------------------------------------------------------------------------------
-
-## 0.15.0
-
-Released 2017/12/01.
-
-### Added
-
-* Added the `EndianBuf::to_string()` method. [#233][]
-
-* Added more robust error handling in our example `dwarfdump` clone. [#234][]
-
-* Added `FrameDescriptionEntry::initial_address` method. [#237][]
-
-* Added `FrameDescriptionEntry::len` method. [#237][]
-
-* Added the `FrameDescriptionEntry::entry_len` method. [#241][]
-
-* Added the `CommonInformationEntry::offset` method. [#241][]
-
-* Added the `CommonInformationEntry::entry_len` method. [#241][]
-
-* Added the `CommonInformationEntry::version` method. [#241][]
-
-* Added the `CommonInformationEntry::augmentation` method. [#241][]
-
-* Added the `CommonInformationEntry::code_alignment_factor` method. [#241][]
-
-* Added the `CommonInformationEntry::data_alignment_factor` method. [#241][]
-
-* Added the `CommonInformationEntry::return_address_register` method. [#241][]
-
-* Added support for printing `.eh_frame` sections to our example `dwarfdump`
-  clone. [#241][]
-
-* Added support for parsing the `.eh_frame_hdr` section. On Linux, the
-  `.eh_frame_hdr` section provides a pointer to the already-mapped-in-memory
-  `.eh_frame` data, so that it doesn't need to be duplicated, and a binary
-  search table of its entries for faster unwinding information lookups. [#250][]
-
-* Added support for parsing DWARF 5 compilation unit headers. [#257][]
-
-* Added support for DWARF 5's `DW_FORM_implicit_const`. [#257][]
-
-### Changed
-
-* Unwinding methods now give ownership of the unwinding context back to the
-  caller if errors are encountered, not just on the success path. This allows
-  recovering from errors in signal-safe code, where constructing a new unwinding
-  context is not an option because it requires allocation. This is a **breaking
-  change** affecting `UnwindSection::unwind_info_for_address` and
-  `UninitializedUnwindContext::initialize`. [#241][]
-
-* `CfaRule` and `RegisterRule` now expose their `DW_OP` expressions as
-  `Expression`. This is a minor **breaking change**. [#241][]
-
-* The `Error::UnknownVersion` variant now contains the unknown version
-  number. This is a minor **breaking change**. [#245][]
-
-* `EvaluationResult::RequiresEntryValue` requires an `Expression` instead of a
-  `Reader` now. This is a minor **breaking change**. [#256][]
-
-
-[#233]: https://github.com/gimli-rs/gimli/pull/233
-[#234]: https://github.com/gimli-rs/gimli/pull/234
-[#237]: https://github.com/gimli-rs/gimli/pull/237
-[#241]: https://github.com/gimli-rs/gimli/pull/241
-[#245]: https://github.com/gimli-rs/gimli/pull/245
-[#250]: https://github.com/gimli-rs/gimli/pull/250
-[#256]: https://github.com/gimli-rs/gimli/pull/256
-[#257]: https://github.com/gimli-rs/gimli/pull/257
-
---------------------------------------------------------------------------------
-
-## 0.14.0
-
-Released 2017/08/08.
-
-### Added
-
-* All `pub` types now `derive(Hash)`. [#192][]
-
-* All the constants from DWARF 5 are now defined. [#193][]
-
-* Added support for the `DW_OP_GNU_parameter_ref` GNU extension to parsing and
-  evaluation DWARF opcodes. [#208][]
-
-* Improved LEB128 parsing performance. [#216][]
-
-* Improved `.debug_{aranges,pubnames,pubtypes}` parsing performance. [#218][]
-
-* Added the ability to choose endianity dynamically at run time, rather than
-  only statically at compile time. [#219][]
-
-### Changed
-
-* The biggest change of this release is that `gimli` no longer requires the
-  object file's section be fully loaded into memory. This enables using `gimli`
-  on 32 bit platforms where there often isn't enough contiguous virtual memory
-  address space to load debugging information into. The default behavior is
-  still geared for 64 bit platforms, where address space overfloweth, and you
-  can still load the whole sections of the object file (or the entire object
-  file) into memory. This is abstracted over with the `gimli::Reader`
-  trait. This manifests as small (but many) breaking changes to much of the
-  public API. [#182][]
-
-### Fixed
-
-* The `DW_END_*` constants for defining endianity of a compilation unit were
-  previously incorrect. [#193][]
-
-* The `DW_OP_addr` opcode is relative to the base address of the `.text` section
-  of the binary, but we were incorrectly treating it as an absolute value. [#210][]
-
-[GitHub]: https://github.com/gimli-rs/gimli
-[crates.io]: https://crates.io/crates/gimli
-[contributing]: https://github.com/gimli-rs/gimli/blob/master/CONTRIBUTING.md
-[easy]: https://github.com/gimli-rs/gimli/issues?q=is%3Aopen+is%3Aissue+label%3Aeasy
-[#192]: https://github.com/gimli-rs/gimli/pull/192
-[#193]: https://github.com/gimli-rs/gimli/pull/193
-[#182]: https://github.com/gimli-rs/gimli/issues/182
-[#208]: https://github.com/gimli-rs/gimli/pull/208
-[#210]: https://github.com/gimli-rs/gimli/pull/210
-[#216]: https://github.com/gimli-rs/gimli/pull/216
-[#218]: https://github.com/gimli-rs/gimli/pull/218
-[#219]: https://github.com/gimli-rs/gimli/pull/219
diff --git a/vendor/gimli-0.27.3/Cargo.lock b/vendor/gimli-0.27.3/Cargo.lock
deleted file mode 100644
index 027a0f908..000000000
--- a/vendor/gimli-0.27.3/Cargo.lock
+++ /dev/null
@@ -1,345 +0,0 @@
-# This file is automatically @generated by Cargo.
-# It is not intended for manual editing.
-version = 3
-
-[[package]]
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deleted file mode 100644
index 16fe87b06..000000000
--- a/vendor/gimli-0.27.3/LICENSE-APACHE
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-                              Apache License
-                        Version 2.0, January 2004
-                     http://www.apache.org/licenses/
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-   with Licensor regarding such Contributions.
-
-6. Trademarks. This License does not grant permission to use the trade
-   names, trademarks, service marks, or product names of the Licensor,
-   except as required for reasonable and customary use in describing the
-   origin of the Work and reproducing the content of the NOTICE file.
-
-7. Disclaimer of Warranty. Unless required by applicable law or
-   agreed to in writing, Licensor provides the Work (and each
-   Contributor provides its Contributions) on an "AS IS" BASIS,
-   WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
-   implied, including, without limitation, any warranties or conditions
-   of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A
-   PARTICULAR PURPOSE. You are solely responsible for determining the
-   appropriateness of using or redistributing the Work and assume any
-   risks associated with Your exercise of permissions under this License.
-
-8. Limitation of Liability. In no event and under no legal theory,
-   whether in tort (including negligence), contract, or otherwise,
-   unless required by applicable law (such as deliberate and grossly
-   negligent acts) or agreed to in writing, shall any Contributor be
-   liable to You for damages, including any direct, indirect, special,
-   incidental, or consequential damages of any character arising as a
-   result of this License or out of the use or inability to use the
-   Work (including but not limited to damages for loss of goodwill,
-   work stoppage, computer failure or malfunction, or any and all
-   other commercial damages or losses), even if such Contributor
-   has been advised of the possibility of such damages.
-
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-   the Work or Derivative Works thereof, You may choose to offer,
-   and charge a fee for, acceptance of support, warranty, indemnity,
-   or other liability obligations and/or rights consistent with this
-   License. However, in accepting such obligations, You may act only
-   on Your own behalf and on Your sole responsibility, not on behalf
-   of any other Contributor, and only if You agree to indemnify,
-   defend, and hold each Contributor harmless for any liability
-   incurred by, or claims asserted against, such Contributor by reason
-   of your accepting any such warranty or additional liability.
-
-END OF TERMS AND CONDITIONS
-
-APPENDIX: How to apply the Apache License to your work.
-
-   To apply the Apache License to your work, attach the following
-   boilerplate notice, with the fields enclosed by brackets "[]"
-   replaced with your own identifying information. (Don't include
-   the brackets!)  The text should be enclosed in the appropriate
-   comment syntax for the file format. We also recommend that a
-   file or class name and description of purpose be included on the
-   same "printed page" as the copyright notice for easier
-   identification within third-party archives.
-
-Copyright [yyyy] [name of copyright owner]
-
-Licensed under the Apache License, Version 2.0 (the "License");
-you may not use this file except in compliance with the License.
-You may obtain a copy of the License at
-
-	http://www.apache.org/licenses/LICENSE-2.0
-
-Unless required by applicable law or agreed to in writing, software
-distributed under the License is distributed on an "AS IS" BASIS,
-WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-See the License for the specific language governing permissions and
-limitations under the License.
diff --git a/vendor/gimli-0.27.3/LICENSE-MIT b/vendor/gimli-0.27.3/LICENSE-MIT
deleted file mode 100644
index e69282e38..000000000
--- a/vendor/gimli-0.27.3/LICENSE-MIT
+++ /dev/null
@@ -1,25 +0,0 @@
-Copyright (c) 2015 The Rust Project Developers
-
-Permission is hereby granted, free of charge, to any
-person obtaining a copy of this software and associated
-documentation files (the "Software"), to deal in the
-Software without restriction, including without
-limitation the rights to use, copy, modify, merge,
-publish, distribute, sublicense, and/or sell copies of
-the Software, and to permit persons to whom the Software
-is furnished to do so, subject to the following
-conditions:
-
-The above copyright notice and this permission notice
-shall be included in all copies or substantial portions
-of the Software.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
-ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
-TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
-PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
-SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
-CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
-OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR
-IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
-DEALINGS IN THE SOFTWARE.
diff --git a/vendor/gimli-0.27.3/README.md b/vendor/gimli-0.27.3/README.md
deleted file mode 100644
index 95f2c6809..000000000
--- a/vendor/gimli-0.27.3/README.md
+++ /dev/null
@@ -1,78 +0,0 @@
-# `gimli`
-
-[![](https://img.shields.io/crates/v/gimli.svg) ![](https://img.shields.io/crates/d/gimli.svg)](https://crates.io/crates/gimli)
-[![](https://docs.rs/gimli/badge.svg)](https://docs.rs/gimli/)
-[![Build Status](https://github.com/gimli-rs/gimli/workflows/Rust/badge.svg)](https://github.com/gimli-rs/gimli/actions)
-[![Coverage Status](https://coveralls.io/repos/github/gimli-rs/gimli/badge.svg?branch=master)](https://coveralls.io/github/gimli-rs/gimli?branch=master)
-
-`gimli` is a library for reading and writing the
-[DWARF debugging format](https://dwarfstd.org/).
-
-* **Zero copy:** everything is just a reference to the original input buffer. No
-  copies of the input data get made.
-
-* **Lazy:** you can iterate compilation units without parsing their
-  contents. Parse only as many debugging information entry (DIE) trees as you
-  iterate over. `gimli` also uses `DW_AT_sibling` references to avoid parsing a
-  DIE's children to find its next sibling, when possible.
-
-* **Cross-platform:** `gimli` makes no assumptions about what kind of object
-  file you're working with. The flipside to that is that it's up to you to
-  provide an ELF loader on Linux or Mach-O loader on macOS.
-
-  * Unsure which object file parser to use? Try the cross-platform
-  [`object`](https://github.com/gimli-rs/object) crate. See the
-  [`examples/`](./examples) directory for usage with `gimli`.
-
-## Install
-
-Add this to your `Cargo.toml`:
-
-```toml
-[dependencies]
-gimli = "0.27.3"
-```
-
-The minimum supported Rust version is 1.42.0.
-
-## Documentation
-
-* [Documentation on docs.rs](https://docs.rs/gimli/)
-
-* Example programs:
-
-  * [A simple `.debug_info` parser](./examples/simple.rs)
-
-  * [A simple `.debug_line` parser](./examples/simple_line.rs)
-
-  * [A `dwarfdump` clone](./examples/dwarfdump.rs)
-
-  * [An `addr2line` clone](https://github.com/gimli-rs/addr2line)
-
-  * [`ddbug`](https://github.com/gimli-rs/ddbug), a utility giving insight into
-    code generation by making debugging information readable.
-
-  * [`dwprod`](https://github.com/fitzgen/dwprod), a tiny utility to list the
-    compilers used to create each compilation unit within a shared library or
-    executable (via `DW_AT_producer`).
-
-  * [`dwarf-validate`](./examples/dwarf-validate.rs), a program to validate the
-    integrity of some DWARF and its references between sections and compilation
-    units.
-
-## License
-
-Licensed under either of
-
-  * Apache License, Version 2.0 ([`LICENSE-APACHE`](./LICENSE-APACHE) or https://www.apache.org/licenses/LICENSE-2.0)
-  * MIT license ([`LICENSE-MIT`](./LICENSE-MIT) or https://opensource.org/licenses/MIT)
-
-at your option.
-
-## Contribution
-
-See [CONTRIBUTING.md](./CONTRIBUTING.md) for hacking.
-
-Unless you explicitly state otherwise, any contribution intentionally submitted
-for inclusion in the work by you, as defined in the Apache-2.0 license, shall be
-dual licensed as above, without any additional terms or conditions.
diff --git a/vendor/gimli-0.27.3/examples/dwarf-validate.rs b/vendor/gimli-0.27.3/examples/dwarf-validate.rs
deleted file mode 100644
index 54d8f3a1d..000000000
--- a/vendor/gimli-0.27.3/examples/dwarf-validate.rs
+++ /dev/null
@@ -1,267 +0,0 @@
-// Allow clippy lints when building without clippy.
-#![allow(unknown_lints)]
-
-use gimli::{AttributeValue, UnitHeader};
-use object::{Object, ObjectSection};
-use rayon::prelude::*;
-use std::borrow::{Borrow, Cow};
-use std::env;
-use std::fs;
-use std::io::{self, BufWriter, Write};
-use std::iter::Iterator;
-use std::path::{Path, PathBuf};
-use std::process;
-use std::sync::Mutex;
-use typed_arena::Arena;
-
-trait Reader: gimli::Reader<Offset = usize> + Send + Sync {
-    type SyncSendEndian: gimli::Endianity + Send + Sync;
-}
-
-impl<'input, Endian> Reader for gimli::EndianSlice<'input, Endian>
-where
-    Endian: gimli::Endianity + Send + Sync,
-{
-    type SyncSendEndian = Endian;
-}
-
-struct ErrorWriter<W: Write + Send> {
-    inner: Mutex<(W, usize)>,
-    path: PathBuf,
-}
-
-impl<W: Write + Send> ErrorWriter<W> {
-    #[allow(clippy::needless_pass_by_value)]
-    fn error(&self, s: String) {
-        let mut lock = self.inner.lock().unwrap();
-        writeln!(&mut lock.0, "DWARF error in {}: {}", self.path.display(), s).unwrap();
-        lock.1 += 1;
-    }
-}
-
-fn main() {
-    let mut w = BufWriter::new(io::stdout());
-    let mut errors = 0;
-    for arg in env::args_os().skip(1) {
-        let path = Path::new(&arg);
-        let file = match fs::File::open(&path) {
-            Ok(file) => file,
-            Err(err) => {
-                eprintln!("Failed to open file '{}': {}", path.display(), err);
-                errors += 1;
-                continue;
-            }
-        };
-        let file = match unsafe { memmap2::Mmap::map(&file) } {
-            Ok(mmap) => mmap,
-            Err(err) => {
-                eprintln!("Failed to map file '{}': {}", path.display(), &err);
-                errors += 1;
-                continue;
-            }
-        };
-        let file = match object::File::parse(&*file) {
-            Ok(file) => file,
-            Err(err) => {
-                eprintln!("Failed to parse file '{}': {}", path.display(), err);
-                errors += 1;
-                continue;
-            }
-        };
-
-        let endian = if file.is_little_endian() {
-            gimli::RunTimeEndian::Little
-        } else {
-            gimli::RunTimeEndian::Big
-        };
-        let mut error_writer = ErrorWriter {
-            inner: Mutex::new((&mut w, 0)),
-            path: path.to_owned(),
-        };
-        validate_file(&mut error_writer, &file, endian);
-        errors += error_writer.inner.into_inner().unwrap().1;
-    }
-    // Flush any errors.
-    drop(w);
-    if errors > 0 {
-        process::exit(1);
-    }
-}
-
-fn validate_file<W, Endian>(w: &mut ErrorWriter<W>, file: &object::File, endian: Endian)
-where
-    W: Write + Send,
-    Endian: gimli::Endianity + Send + Sync,
-{
-    let arena = Arena::new();
-
-    fn load_section<'a, 'file, 'input, S, Endian>(
-        arena: &'a Arena<Cow<'file, [u8]>>,
-        file: &'file object::File<'input>,
-        endian: Endian,
-    ) -> S
-    where
-        S: gimli::Section<gimli::EndianSlice<'a, Endian>>,
-        Endian: gimli::Endianity + Send + Sync,
-        'file: 'input,
-        'a: 'file,
-    {
-        let data = match file.section_by_name(S::section_name()) {
-            Some(ref section) => section
-                .uncompressed_data()
-                .unwrap_or(Cow::Borrowed(&[][..])),
-            None => Cow::Borrowed(&[][..]),
-        };
-        let data_ref = (*arena.alloc(data)).borrow();
-        S::from(gimli::EndianSlice::new(data_ref, endian))
-    }
-
-    // Variables representing sections of the file. The type of each is inferred from its use in the
-    // validate_info function below.
-    let debug_abbrev = &load_section(&arena, file, endian);
-    let debug_info = &load_section(&arena, file, endian);
-
-    validate_info(w, debug_info, debug_abbrev);
-}
-
-struct UnitSummary {
-    // True if we successfully parsed all the DIEs and attributes in the compilation unit
-    internally_valid: bool,
-    offset: gimli::DebugInfoOffset,
-    die_offsets: Vec<gimli::UnitOffset>,
-    global_die_references: Vec<(gimli::UnitOffset, gimli::DebugInfoOffset)>,
-}
-
-fn validate_info<W, R>(
-    w: &mut ErrorWriter<W>,
-    debug_info: &gimli::DebugInfo<R>,
-    debug_abbrev: &gimli::DebugAbbrev<R>,
-) where
-    W: Write + Send,
-    R: Reader,
-{
-    let mut units = Vec::new();
-    let mut units_iter = debug_info.units();
-    let mut last_offset = 0;
-    loop {
-        let u = match units_iter.next() {
-            Err(err) => {
-                w.error(format!(
-                    "Can't read unit header at offset {:#x}, stopping reading units: {}",
-                    last_offset, err
-                ));
-                break;
-            }
-            Ok(None) => break,
-            Ok(Some(u)) => u,
-        };
-        last_offset = u.offset().as_debug_info_offset().unwrap().0 + u.length_including_self();
-        units.push(u);
-    }
-    let process_unit = |unit: UnitHeader<R>| -> UnitSummary {
-        let unit_offset = unit.offset().as_debug_info_offset().unwrap();
-        let mut ret = UnitSummary {
-            internally_valid: false,
-            offset: unit_offset,
-            die_offsets: Vec::new(),
-            global_die_references: Vec::new(),
-        };
-        let abbrevs = match unit.abbreviations(debug_abbrev) {
-            Ok(abbrevs) => abbrevs,
-            Err(err) => {
-                w.error(format!(
-                    "Invalid abbrevs for unit {:#x}: {}",
-                    unit_offset.0, &err
-                ));
-                return ret;
-            }
-        };
-        let mut entries = unit.entries(&abbrevs);
-        let mut unit_refs = Vec::new();
-        loop {
-            let (_, entry) = match entries.next_dfs() {
-                Err(err) => {
-                    w.error(format!(
-                        "Invalid DIE for unit {:#x}: {}",
-                        unit_offset.0, &err
-                    ));
-                    return ret;
-                }
-                Ok(None) => break,
-                Ok(Some(entry)) => entry,
-            };
-            ret.die_offsets.push(entry.offset());
-
-            let mut attrs = entry.attrs();
-            loop {
-                let attr = match attrs.next() {
-                    Err(err) => {
-                        w.error(format!(
-                            "Invalid attribute for unit {:#x} at DIE {:#x}: {}",
-                            unit_offset.0,
-                            entry.offset().0,
-                            &err
-                        ));
-                        return ret;
-                    }
-                    Ok(None) => break,
-                    Ok(Some(attr)) => attr,
-                };
-                match attr.value() {
-                    AttributeValue::UnitRef(offset) => {
-                        unit_refs.push((entry.offset(), offset));
-                    }
-                    AttributeValue::DebugInfoRef(offset) => {
-                        ret.global_die_references.push((entry.offset(), offset));
-                    }
-                    _ => (),
-                }
-            }
-        }
-        ret.internally_valid = true;
-        ret.die_offsets.shrink_to_fit();
-        ret.global_die_references.shrink_to_fit();
-
-        // Check intra-unit references
-        for (from, to) in unit_refs {
-            if ret.die_offsets.binary_search(&to).is_err() {
-                w.error(format!(
-                    "Invalid intra-unit reference in unit {:#x} from DIE {:#x} to {:#x}",
-                    unit_offset.0, from.0, to.0
-                ));
-            }
-        }
-
-        ret
-    };
-    let processed_units = units.into_par_iter().map(process_unit).collect::<Vec<_>>();
-
-    let check_unit = |summary: &UnitSummary| {
-        if !summary.internally_valid {
-            return;
-        }
-        for &(from, to) in summary.global_die_references.iter() {
-            let u = match processed_units.binary_search_by_key(&to, |v| v.offset) {
-                Ok(i) => &processed_units[i],
-                Err(i) => {
-                    if i > 0 {
-                        &processed_units[i - 1]
-                    } else {
-                        w.error(format!("Invalid cross-unit reference in unit {:#x} from DIE {:#x} to global DIE {:#x}: no unit found",
-                                        summary.offset.0, from.0, to.0));
-                        continue;
-                    }
-                }
-            };
-            if !u.internally_valid {
-                continue;
-            }
-            let to_offset = gimli::UnitOffset(to.0 - u.offset.0);
-            if u.die_offsets.binary_search(&to_offset).is_err() {
-                w.error(format!("Invalid cross-unit reference in unit {:#x} from DIE {:#x} to global DIE {:#x}: unit at {:#x} contains no DIE {:#x}",
-                                summary.offset.0, from.0, to.0, u.offset.0, to_offset.0));
-            }
-        }
-    };
-    processed_units.par_iter().for_each(check_unit);
-}
diff --git a/vendor/gimli-0.27.3/examples/dwarfdump.rs b/vendor/gimli-0.27.3/examples/dwarfdump.rs
deleted file mode 100644
index 30bf809d7..000000000
--- a/vendor/gimli-0.27.3/examples/dwarfdump.rs
+++ /dev/null
@@ -1,2369 +0,0 @@
-// Allow clippy lints when building without clippy.
-#![allow(unknown_lints)]
-
-use fallible_iterator::FallibleIterator;
-use gimli::{Section, UnitHeader, UnitOffset, UnitSectionOffset, UnitType, UnwindSection};
-use object::{Object, ObjectSection, ObjectSymbol};
-use regex::bytes::Regex;
-use std::borrow::Cow;
-use std::cmp::min;
-use std::collections::HashMap;
-use std::env;
-use std::fmt::{self, Debug};
-use std::fs;
-use std::io;
-use std::io::{BufWriter, Write};
-use std::iter::Iterator;
-use std::mem;
-use std::process;
-use std::result;
-use std::sync::{Condvar, Mutex};
-use typed_arena::Arena;
-
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum Error {
-    GimliError(gimli::Error),
-    ObjectError(object::read::Error),
-    IoError,
-}
-
-impl fmt::Display for Error {
-    #[inline]
-    fn fmt(&self, f: &mut fmt::Formatter) -> ::std::result::Result<(), fmt::Error> {
-        Debug::fmt(self, f)
-    }
-}
-
-fn writeln_error<W: Write, R: Reader>(
-    w: &mut W,
-    dwarf: &gimli::Dwarf<R>,
-    err: Error,
-    msg: &str,
-) -> io::Result<()> {
-    writeln!(
-        w,
-        "{}: {}",
-        msg,
-        match err {
-            Error::GimliError(err) => dwarf.format_error(err),
-            Error::ObjectError(err) =>
-                format!("{}:{:?}", "An object error occurred while reading", err),
-            Error::IoError => "An I/O error occurred while writing.".to_string(),
-        }
-    )
-}
-
-impl From<gimli::Error> for Error {
-    fn from(err: gimli::Error) -> Self {
-        Error::GimliError(err)
-    }
-}
-
-impl From<io::Error> for Error {
-    fn from(_: io::Error) -> Self {
-        Error::IoError
-    }
-}
-
-impl From<object::read::Error> for Error {
-    fn from(err: object::read::Error) -> Self {
-        Error::ObjectError(err)
-    }
-}
-
-pub type Result<T> = result::Result<T, Error>;
-
-fn parallel_output<W, II, F>(w: &mut W, max_workers: usize, iter: II, f: F) -> Result<()>
-where
-    W: Write + Send,
-    F: Sync + Fn(II::Item, &mut Vec<u8>) -> Result<()>,
-    II: IntoIterator,
-    II::IntoIter: Send,
-{
-    struct ParallelOutputState<I, W> {
-        iterator: I,
-        current_worker: usize,
-        result: Result<()>,
-        w: W,
-    }
-
-    let state = Mutex::new(ParallelOutputState {
-        iterator: iter.into_iter().fuse(),
-        current_worker: 0,
-        result: Ok(()),
-        w,
-    });
-    let workers = min(max_workers, num_cpus::get());
-    let mut condvars = Vec::new();
-    for _ in 0..workers {
-        condvars.push(Condvar::new());
-    }
-    {
-        let state_ref = &state;
-        let f_ref = &f;
-        let condvars_ref = &condvars;
-        crossbeam::scope(|scope| {
-            for i in 0..workers {
-                scope.spawn(move |_| {
-                    let mut v = Vec::new();
-                    let mut lock = state_ref.lock().unwrap();
-                    while lock.current_worker != i {
-                        lock = condvars_ref[i].wait(lock).unwrap();
-                    }
-                    loop {
-                        let item = if lock.result.is_ok() {
-                            lock.iterator.next()
-                        } else {
-                            None
-                        };
-                        lock.current_worker = (i + 1) % workers;
-                        condvars_ref[lock.current_worker].notify_one();
-                        mem::drop(lock);
-
-                        let ret = if let Some(item) = item {
-                            v.clear();
-                            f_ref(item, &mut v)
-                        } else {
-                            return;
-                        };
-
-                        lock = state_ref.lock().unwrap();
-                        while lock.current_worker != i {
-                            lock = condvars_ref[i].wait(lock).unwrap();
-                        }
-                        if lock.result.is_ok() {
-                            let ret2 = lock.w.write_all(&v);
-                            if ret.is_err() {
-                                lock.result = ret;
-                            } else {
-                                lock.result = ret2.map_err(Error::from);
-                            }
-                        }
-                    }
-                });
-            }
-        })
-        .unwrap();
-    }
-    state.into_inner().unwrap().result
-}
-
-trait Reader: gimli::Reader<Offset = usize> + Send + Sync {}
-
-impl<'input, Endian> Reader for gimli::EndianSlice<'input, Endian> where
-    Endian: gimli::Endianity + Send + Sync
-{
-}
-
-type RelocationMap = HashMap<usize, object::Relocation>;
-
-fn add_relocations(
-    relocations: &mut RelocationMap,
-    file: &object::File,
-    section: &object::Section,
-) {
-    for (offset64, mut relocation) in section.relocations() {
-        let offset = offset64 as usize;
-        if offset as u64 != offset64 {
-            continue;
-        }
-        let offset = offset as usize;
-        match relocation.kind() {
-            object::RelocationKind::Absolute => {
-                match relocation.target() {
-                    object::RelocationTarget::Symbol(symbol_idx) => {
-                        match file.symbol_by_index(symbol_idx) {
-                            Ok(symbol) => {
-                                let addend =
-                                    symbol.address().wrapping_add(relocation.addend() as u64);
-                                relocation.set_addend(addend as i64);
-                            }
-                            Err(_) => {
-                                eprintln!(
-                                    "Relocation with invalid symbol for section {} at offset 0x{:08x}",
-                                    section.name().unwrap(),
-                                    offset
-                                );
-                            }
-                        }
-                    }
-                    _ => {}
-                }
-                if relocations.insert(offset, relocation).is_some() {
-                    eprintln!(
-                        "Multiple relocations for section {} at offset 0x{:08x}",
-                        section.name().unwrap(),
-                        offset
-                    );
-                }
-            }
-            _ => {
-                eprintln!(
-                    "Unsupported relocation for section {} at offset 0x{:08x}",
-                    section.name().unwrap(),
-                    offset
-                );
-            }
-        }
-    }
-}
-
-/// Apply relocations to addresses and offsets during parsing,
-/// instead of requiring the data to be fully relocated prior
-/// to parsing.
-///
-/// Pros
-/// - allows readonly buffers, we don't need to implement writing of values back to buffers
-/// - potentially allows us to handle addresses and offsets differently
-/// - potentially allows us to add metadata from the relocation (eg symbol names)
-/// Cons
-/// - maybe incomplete
-#[derive(Debug, Clone)]
-struct Relocate<'a, R: gimli::Reader<Offset = usize>> {
-    relocations: &'a RelocationMap,
-    section: R,
-    reader: R,
-}
-
-impl<'a, R: gimli::Reader<Offset = usize>> Relocate<'a, R> {
-    fn relocate(&self, offset: usize, value: u64) -> u64 {
-        if let Some(relocation) = self.relocations.get(&offset) {
-            match relocation.kind() {
-                object::RelocationKind::Absolute => {
-                    if relocation.has_implicit_addend() {
-                        // Use the explicit addend too, because it may have the symbol value.
-                        return value.wrapping_add(relocation.addend() as u64);
-                    } else {
-                        return relocation.addend() as u64;
-                    }
-                }
-                _ => {}
-            }
-        };
-        value
-    }
-}
-
-impl<'a, R: gimli::Reader<Offset = usize>> gimli::Reader for Relocate<'a, R> {
-    type Endian = R::Endian;
-    type Offset = R::Offset;
-
-    fn read_address(&mut self, address_size: u8) -> gimli::Result<u64> {
-        let offset = self.reader.offset_from(&self.section);
-        let value = self.reader.read_address(address_size)?;
-        Ok(self.relocate(offset, value))
-    }
-
-    fn read_length(&mut self, format: gimli::Format) -> gimli::Result<usize> {
-        let offset = self.reader.offset_from(&self.section);
-        let value = self.reader.read_length(format)?;
-        <usize as gimli::ReaderOffset>::from_u64(self.relocate(offset, value as u64))
-    }
-
-    fn read_offset(&mut self, format: gimli::Format) -> gimli::Result<usize> {
-        let offset = self.reader.offset_from(&self.section);
-        let value = self.reader.read_offset(format)?;
-        <usize as gimli::ReaderOffset>::from_u64(self.relocate(offset, value as u64))
-    }
-
-    fn read_sized_offset(&mut self, size: u8) -> gimli::Result<usize> {
-        let offset = self.reader.offset_from(&self.section);
-        let value = self.reader.read_sized_offset(size)?;
-        <usize as gimli::ReaderOffset>::from_u64(self.relocate(offset, value as u64))
-    }
-
-    #[inline]
-    fn split(&mut self, len: Self::Offset) -> gimli::Result<Self> {
-        let mut other = self.clone();
-        other.reader.truncate(len)?;
-        self.reader.skip(len)?;
-        Ok(other)
-    }
-
-    // All remaining methods simply delegate to `self.reader`.
-
-    #[inline]
-    fn endian(&self) -> Self::Endian {
-        self.reader.endian()
-    }
-
-    #[inline]
-    fn len(&self) -> Self::Offset {
-        self.reader.len()
-    }
-
-    #[inline]
-    fn empty(&mut self) {
-        self.reader.empty()
-    }
-
-    #[inline]
-    fn truncate(&mut self, len: Self::Offset) -> gimli::Result<()> {
-        self.reader.truncate(len)
-    }
-
-    #[inline]
-    fn offset_from(&self, base: &Self) -> Self::Offset {
-        self.reader.offset_from(&base.reader)
-    }
-
-    #[inline]
-    fn offset_id(&self) -> gimli::ReaderOffsetId {
-        self.reader.offset_id()
-    }
-
-    #[inline]
-    fn lookup_offset_id(&self, id: gimli::ReaderOffsetId) -> Option<Self::Offset> {
-        self.reader.lookup_offset_id(id)
-    }
-
-    #[inline]
-    fn find(&self, byte: u8) -> gimli::Result<Self::Offset> {
-        self.reader.find(byte)
-    }
-
-    #[inline]
-    fn skip(&mut self, len: Self::Offset) -> gimli::Result<()> {
-        self.reader.skip(len)
-    }
-
-    #[inline]
-    fn to_slice(&self) -> gimli::Result<Cow<[u8]>> {
-        self.reader.to_slice()
-    }
-
-    #[inline]
-    fn to_string(&self) -> gimli::Result<Cow<str>> {
-        self.reader.to_string()
-    }
-
-    #[inline]
-    fn to_string_lossy(&self) -> gimli::Result<Cow<str>> {
-        self.reader.to_string_lossy()
-    }
-
-    #[inline]
-    fn read_slice(&mut self, buf: &mut [u8]) -> gimli::Result<()> {
-        self.reader.read_slice(buf)
-    }
-}
-
-impl<'a, R: Reader> Reader for Relocate<'a, R> {}
-
-#[derive(Default)]
-struct Flags<'a> {
-    eh_frame: bool,
-    goff: bool,
-    info: bool,
-    line: bool,
-    pubnames: bool,
-    pubtypes: bool,
-    aranges: bool,
-    dwo: bool,
-    dwp: bool,
-    dwo_parent: Option<object::File<'a>>,
-    sup: Option<object::File<'a>>,
-    raw: bool,
-    match_units: Option<Regex>,
-}
-
-fn print_usage(opts: &getopts::Options) -> ! {
-    let brief = format!("Usage: {} <options> <file>", env::args().next().unwrap());
-    write!(&mut io::stderr(), "{}", opts.usage(&brief)).ok();
-    process::exit(1);
-}
-
-fn main() {
-    let mut opts = getopts::Options::new();
-    opts.optflag(
-        "",
-        "eh-frame",
-        "print .eh-frame exception handling frame information",
-    );
-    opts.optflag("G", "", "show global die offsets");
-    opts.optflag("i", "", "print .debug_info and .debug_types sections");
-    opts.optflag("l", "", "print .debug_line section");
-    opts.optflag("p", "", "print .debug_pubnames section");
-    opts.optflag("r", "", "print .debug_aranges section");
-    opts.optflag("y", "", "print .debug_pubtypes section");
-    opts.optflag(
-        "",
-        "dwo",
-        "print the .dwo versions of the selected sections",
-    );
-    opts.optflag(
-        "",
-        "dwp",
-        "print the .dwp versions of the selected sections",
-    );
-    opts.optopt(
-        "",
-        "dwo-parent",
-        "use the specified file as the parent of the dwo or dwp (e.g. for .debug_addr)",
-        "library path",
-    );
-    opts.optflag("", "raw", "print raw data values");
-    opts.optopt(
-        "u",
-        "match-units",
-        "print compilation units whose output matches a regex",
-        "REGEX",
-    );
-    opts.optopt("", "sup", "path to supplementary object file", "PATH");
-
-    let matches = match opts.parse(env::args().skip(1)) {
-        Ok(m) => m,
-        Err(e) => {
-            writeln!(&mut io::stderr(), "{:?}\n", e).ok();
-            print_usage(&opts);
-        }
-    };
-    if matches.free.is_empty() {
-        print_usage(&opts);
-    }
-
-    let mut all = true;
-    let mut flags = Flags::default();
-    if matches.opt_present("eh-frame") {
-        flags.eh_frame = true;
-        all = false;
-    }
-    if matches.opt_present("G") {
-        flags.goff = true;
-    }
-    if matches.opt_present("i") {
-        flags.info = true;
-        all = false;
-    }
-    if matches.opt_present("l") {
-        flags.line = true;
-        all = false;
-    }
-    if matches.opt_present("p") {
-        flags.pubnames = true;
-        all = false;
-    }
-    if matches.opt_present("y") {
-        flags.pubtypes = true;
-        all = false;
-    }
-    if matches.opt_present("r") {
-        flags.aranges = true;
-        all = false;
-    }
-    if matches.opt_present("dwo") {
-        flags.dwo = true;
-    }
-    if matches.opt_present("dwp") {
-        flags.dwp = true;
-    }
-    if matches.opt_present("raw") {
-        flags.raw = true;
-    }
-    if all {
-        // .eh_frame is excluded even when printing all information.
-        // cosmetic flags like -G must be set explicitly too.
-        flags.info = true;
-        flags.line = true;
-        flags.pubnames = true;
-        flags.pubtypes = true;
-        flags.aranges = true;
-    }
-    flags.match_units = if let Some(r) = matches.opt_str("u") {
-        match Regex::new(&r) {
-            Ok(r) => Some(r),
-            Err(e) => {
-                eprintln!("Invalid regular expression {}: {}", r, e);
-                process::exit(1);
-            }
-        }
-    } else {
-        None
-    };
-
-    let arena_mmap = Arena::new();
-    let load_file = |path| {
-        let file = match fs::File::open(&path) {
-            Ok(file) => file,
-            Err(err) => {
-                eprintln!("Failed to open file '{}': {}", path, err);
-                process::exit(1);
-            }
-        };
-        let mmap = match unsafe { memmap2::Mmap::map(&file) } {
-            Ok(mmap) => mmap,
-            Err(err) => {
-                eprintln!("Failed to map file '{}': {}", path, err);
-                process::exit(1);
-            }
-        };
-        let mmap_ref = arena_mmap.alloc(mmap);
-        match object::File::parse(&**mmap_ref) {
-            Ok(file) => Some(file),
-            Err(err) => {
-                eprintln!("Failed to parse file '{}': {}", path, err);
-                process::exit(1);
-            }
-        }
-    };
-
-    flags.sup = matches.opt_str("sup").and_then(load_file);
-    flags.dwo_parent = matches.opt_str("dwo-parent").and_then(load_file);
-    if flags.dwo_parent.is_some() && !flags.dwo && !flags.dwp {
-        eprintln!("--dwo-parent also requires --dwo or --dwp");
-        process::exit(1);
-    }
-    if flags.dwo_parent.is_none() && flags.dwp {
-        eprintln!("--dwp also requires --dwo-parent");
-        process::exit(1);
-    }
-
-    for file_path in &matches.free {
-        if matches.free.len() != 1 {
-            println!("{}", file_path);
-            println!();
-        }
-
-        let file = match fs::File::open(&file_path) {
-            Ok(file) => file,
-            Err(err) => {
-                eprintln!("Failed to open file '{}': {}", file_path, err);
-                continue;
-            }
-        };
-        let file = match unsafe { memmap2::Mmap::map(&file) } {
-            Ok(mmap) => mmap,
-            Err(err) => {
-                eprintln!("Failed to map file '{}': {}", file_path, err);
-                continue;
-            }
-        };
-        let file = match object::File::parse(&*file) {
-            Ok(file) => file,
-            Err(err) => {
-                eprintln!("Failed to parse file '{}': {}", file_path, err);
-                continue;
-            }
-        };
-
-        let endian = if file.is_little_endian() {
-            gimli::RunTimeEndian::Little
-        } else {
-            gimli::RunTimeEndian::Big
-        };
-        let ret = dump_file(&file, endian, &flags);
-        match ret {
-            Ok(_) => (),
-            Err(err) => eprintln!("Failed to dump '{}': {}", file_path, err,),
-        }
-    }
-}
-
-fn empty_file_section<'input, 'arena, Endian: gimli::Endianity>(
-    endian: Endian,
-    arena_relocations: &'arena Arena<RelocationMap>,
-) -> Relocate<'arena, gimli::EndianSlice<'arena, Endian>> {
-    let reader = gimli::EndianSlice::new(&[], endian);
-    let section = reader;
-    let relocations = RelocationMap::default();
-    let relocations = arena_relocations.alloc(relocations);
-    Relocate {
-        relocations,
-        section,
-        reader,
-    }
-}
-
-fn load_file_section<'input, 'arena, Endian: gimli::Endianity>(
-    id: gimli::SectionId,
-    file: &object::File<'input>,
-    endian: Endian,
-    is_dwo: bool,
-    arena_data: &'arena Arena<Cow<'input, [u8]>>,
-    arena_relocations: &'arena Arena<RelocationMap>,
-) -> Result<Relocate<'arena, gimli::EndianSlice<'arena, Endian>>> {
-    let mut relocations = RelocationMap::default();
-    let name = if is_dwo {
-        id.dwo_name()
-    } else if file.format() == object::BinaryFormat::Xcoff {
-        id.xcoff_name()
-    } else {
-        Some(id.name())
-    };
-
-    let data = match name.and_then(|name| file.section_by_name(&name)) {
-        Some(ref section) => {
-            // DWO sections never have relocations, so don't bother.
-            if !is_dwo {
-                add_relocations(&mut relocations, file, section);
-            }
-            section.uncompressed_data()?
-        }
-        // Use a non-zero capacity so that `ReaderOffsetId`s are unique.
-        None => Cow::Owned(Vec::with_capacity(1)),
-    };
-    let data_ref = arena_data.alloc(data);
-    let reader = gimli::EndianSlice::new(data_ref, endian);
-    let section = reader;
-    let relocations = arena_relocations.alloc(relocations);
-    Ok(Relocate {
-        relocations,
-        section,
-        reader,
-    })
-}
-
-fn dump_file<Endian>(file: &object::File, endian: Endian, flags: &Flags) -> Result<()>
-where
-    Endian: gimli::Endianity + Send + Sync,
-{
-    let arena_data = Arena::new();
-    let arena_relocations = Arena::new();
-
-    let dwo_parent = if let Some(dwo_parent_file) = flags.dwo_parent.as_ref() {
-        let mut load_dwo_parent_section = |id: gimli::SectionId| -> Result<_> {
-            load_file_section(
-                id,
-                dwo_parent_file,
-                endian,
-                false,
-                &arena_data,
-                &arena_relocations,
-            )
-        };
-        Some(gimli::Dwarf::load(&mut load_dwo_parent_section)?)
-    } else {
-        None
-    };
-    let dwo_parent = dwo_parent.as_ref();
-
-    let dwo_parent_units = if let Some(dwo_parent) = dwo_parent {
-        Some(
-            match dwo_parent
-                .units()
-                .map(|unit_header| dwo_parent.unit(unit_header))
-                .filter_map(|unit| Ok(unit.dwo_id.map(|dwo_id| (dwo_id, unit))))
-                .collect()
-            {
-                Ok(units) => units,
-                Err(err) => {
-                    eprintln!("Failed to process --dwo-parent units: {}", err);
-                    return Ok(());
-                }
-            },
-        )
-    } else {
-        None
-    };
-    let dwo_parent_units = dwo_parent_units.as_ref();
-
-    let mut load_section = |id: gimli::SectionId| -> Result<_> {
-        load_file_section(
-            id,
-            file,
-            endian,
-            flags.dwo || flags.dwp,
-            &arena_data,
-            &arena_relocations,
-        )
-    };
-
-    let w = &mut BufWriter::new(io::stdout());
-    if flags.dwp {
-        let empty = empty_file_section(endian, &arena_relocations);
-        let dwp = gimli::DwarfPackage::load(&mut load_section, empty)?;
-        dump_dwp(w, &dwp, dwo_parent.unwrap(), dwo_parent_units, flags)?;
-        w.flush()?;
-        return Ok(());
-    }
-
-    let mut dwarf = gimli::Dwarf::load(&mut load_section)?;
-    if flags.dwo {
-        if let Some(dwo_parent) = dwo_parent {
-            dwarf.make_dwo(&dwo_parent);
-        } else {
-            dwarf.file_type = gimli::DwarfFileType::Dwo;
-        }
-    }
-
-    if let Some(sup_file) = flags.sup.as_ref() {
-        let mut load_sup_section = |id: gimli::SectionId| -> Result<_> {
-            // Note: we really only need the `.debug_str` section,
-            // but for now we load them all.
-            load_file_section(id, sup_file, endian, false, &arena_data, &arena_relocations)
-        };
-        dwarf.load_sup(&mut load_sup_section)?;
-    }
-
-    if flags.eh_frame {
-        let eh_frame = gimli::EhFrame::load(&mut load_section).unwrap();
-        dump_eh_frame(w, file, eh_frame)?;
-    }
-    if flags.info {
-        dump_info(w, &dwarf, dwo_parent_units, flags)?;
-        dump_types(w, &dwarf, dwo_parent_units, flags)?;
-    }
-    if flags.line {
-        dump_line(w, &dwarf)?;
-    }
-    if flags.pubnames {
-        let debug_pubnames = &gimli::Section::load(&mut load_section).unwrap();
-        dump_pubnames(w, debug_pubnames, &dwarf.debug_info)?;
-    }
-    if flags.aranges {
-        let debug_aranges = &gimli::Section::load(&mut load_section).unwrap();
-        dump_aranges(w, debug_aranges)?;
-    }
-    if flags.pubtypes {
-        let debug_pubtypes = &gimli::Section::load(&mut load_section).unwrap();
-        dump_pubtypes(w, debug_pubtypes, &dwarf.debug_info)?;
-    }
-    w.flush()?;
-    Ok(())
-}
-
-fn dump_eh_frame<R: Reader, W: Write>(
-    w: &mut W,
-    file: &object::File,
-    mut eh_frame: gimli::EhFrame<R>,
-) -> Result<()> {
-    // TODO: this might be better based on the file format.
-    let address_size = file
-        .architecture()
-        .address_size()
-        .map(|w| w.bytes())
-        .unwrap_or(mem::size_of::<usize>() as u8);
-    eh_frame.set_address_size(address_size);
-
-    fn register_name_none(_: gimli::Register) -> Option<&'static str> {
-        None
-    }
-    let arch_register_name = match file.architecture() {
-        object::Architecture::Arm | object::Architecture::Aarch64 => gimli::Arm::register_name,
-        object::Architecture::I386 => gimli::X86::register_name,
-        object::Architecture::X86_64 => gimli::X86_64::register_name,
-        _ => register_name_none,
-    };
-    let register_name = &|register| match arch_register_name(register) {
-        Some(name) => Cow::Borrowed(name),
-        None => Cow::Owned(format!("{}", register.0)),
-    };
-
-    let mut bases = gimli::BaseAddresses::default();
-    if let Some(section) = file.section_by_name(".eh_frame_hdr") {
-        bases = bases.set_eh_frame_hdr(section.address());
-    }
-    if let Some(section) = file.section_by_name(".eh_frame") {
-        bases = bases.set_eh_frame(section.address());
-    }
-    if let Some(section) = file.section_by_name(".text") {
-        bases = bases.set_text(section.address());
-    }
-    if let Some(section) = file.section_by_name(".got") {
-        bases = bases.set_got(section.address());
-    }
-
-    // TODO: Print "__eh_frame" here on macOS, and more generally use the
-    // section that we're actually looking at, which is what the canonical
-    // dwarfdump does.
-    writeln!(
-        w,
-        "Exception handling frame information for section .eh_frame"
-    )?;
-
-    let mut cies = HashMap::new();
-
-    let mut entries = eh_frame.entries(&bases);
-    loop {
-        match entries.next()? {
-            None => return Ok(()),
-            Some(gimli::CieOrFde::Cie(cie)) => {
-                writeln!(w)?;
-                writeln!(w, "{:#010x}: CIE", cie.offset())?;
-                writeln!(w, "        length: {:#010x}", cie.entry_len())?;
-                // TODO: CIE_id
-                writeln!(w, "       version: {:#04x}", cie.version())?;
-                // TODO: augmentation
-                writeln!(w, "    code_align: {}", cie.code_alignment_factor())?;
-                writeln!(w, "    data_align: {}", cie.data_alignment_factor())?;
-                writeln!(
-                    w,
-                    "   ra_register: {}",
-                    register_name(cie.return_address_register())
-                )?;
-                if let Some(encoding) = cie.lsda_encoding() {
-                    writeln!(
-                        w,
-                        " lsda_encoding: {}/{}",
-                        encoding.application(),
-                        encoding.format()
-                    )?;
-                }
-                if let Some((encoding, personality)) = cie.personality_with_encoding() {
-                    write!(
-                        w,
-                        "   personality: {}/{} ",
-                        encoding.application(),
-                        encoding.format()
-                    )?;
-                    dump_pointer(w, personality)?;
-                    writeln!(w)?;
-                }
-                if let Some(encoding) = cie.fde_address_encoding() {
-                    writeln!(
-                        w,
-                        "  fde_encoding: {}/{}",
-                        encoding.application(),
-                        encoding.format()
-                    )?;
-                }
-                let instructions = cie.instructions(&eh_frame, &bases);
-                dump_cfi_instructions(w, instructions, true, register_name)?;
-                writeln!(w)?;
-            }
-            Some(gimli::CieOrFde::Fde(partial)) => {
-                let mut offset = None;
-                let fde = partial.parse(|_, bases, o| {
-                    offset = Some(o);
-                    cies.entry(o)
-                        .or_insert_with(|| eh_frame.cie_from_offset(bases, o))
-                        .clone()
-                })?;
-
-                writeln!(w)?;
-                writeln!(w, "{:#010x}: FDE", fde.offset())?;
-                writeln!(w, "        length: {:#010x}", fde.entry_len())?;
-                writeln!(w, "   CIE_pointer: {:#010x}", offset.unwrap().0)?;
-                // TODO: symbolicate the start address like the canonical dwarfdump does.
-                writeln!(w, "    start_addr: {:#018x}", fde.initial_address())?;
-                writeln!(
-                    w,
-                    "    range_size: {:#018x} (end_addr = {:#018x})",
-                    fde.len(),
-                    fde.initial_address() + fde.len()
-                )?;
-                if let Some(lsda) = fde.lsda() {
-                    write!(w, "          lsda: ")?;
-                    dump_pointer(w, lsda)?;
-                    writeln!(w)?;
-                }
-                let instructions = fde.instructions(&eh_frame, &bases);
-                dump_cfi_instructions(w, instructions, false, register_name)?;
-                writeln!(w)?;
-            }
-        }
-    }
-}
-
-fn dump_pointer<W: Write>(w: &mut W, p: gimli::Pointer) -> Result<()> {
-    match p {
-        gimli::Pointer::Direct(p) => {
-            write!(w, "{:#018x}", p)?;
-        }
-        gimli::Pointer::Indirect(p) => {
-            write!(w, "({:#018x})", p)?;
-        }
-    }
-    Ok(())
-}
-
-#[allow(clippy::unneeded_field_pattern)]
-fn dump_cfi_instructions<R: Reader, W: Write>(
-    w: &mut W,
-    mut insns: gimli::CallFrameInstructionIter<R>,
-    is_initial: bool,
-    register_name: &dyn Fn(gimli::Register) -> Cow<'static, str>,
-) -> Result<()> {
-    use gimli::CallFrameInstruction::*;
-
-    // TODO: we need to actually evaluate these instructions as we iterate them
-    // so we can print the initialized state for CIEs, and each unwind row's
-    // registers for FDEs.
-    //
-    // TODO: We should print DWARF expressions for the CFI instructions that
-    // embed DWARF expressions within themselves.
-
-    if !is_initial {
-        writeln!(w, "  Instructions:")?;
-    }
-
-    loop {
-        match insns.next() {
-            Err(e) => {
-                writeln!(w, "Failed to decode CFI instruction: {}", e)?;
-                return Ok(());
-            }
-            Ok(None) => {
-                if is_initial {
-                    writeln!(w, "  Instructions: Init State:")?;
-                }
-                return Ok(());
-            }
-            Ok(Some(op)) => match op {
-                SetLoc { address } => {
-                    writeln!(w, "                DW_CFA_set_loc ({:#x})", address)?;
-                }
-                AdvanceLoc { delta } => {
-                    writeln!(w, "                DW_CFA_advance_loc ({})", delta)?;
-                }
-                DefCfa { register, offset } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_def_cfa ({}, {})",
-                        register_name(register),
-                        offset
-                    )?;
-                }
-                DefCfaSf {
-                    register,
-                    factored_offset,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_def_cfa_sf ({}, {})",
-                        register_name(register),
-                        factored_offset
-                    )?;
-                }
-                DefCfaRegister { register } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_def_cfa_register ({})",
-                        register_name(register)
-                    )?;
-                }
-                DefCfaOffset { offset } => {
-                    writeln!(w, "                DW_CFA_def_cfa_offset ({})", offset)?;
-                }
-                DefCfaOffsetSf { factored_offset } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_def_cfa_offset_sf ({})",
-                        factored_offset
-                    )?;
-                }
-                DefCfaExpression { expression: _ } => {
-                    writeln!(w, "                DW_CFA_def_cfa_expression (...)")?;
-                }
-                Undefined { register } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_undefined ({})",
-                        register_name(register)
-                    )?;
-                }
-                SameValue { register } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_same_value ({})",
-                        register_name(register)
-                    )?;
-                }
-                Offset {
-                    register,
-                    factored_offset,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_offset ({}, {})",
-                        register_name(register),
-                        factored_offset
-                    )?;
-                }
-                OffsetExtendedSf {
-                    register,
-                    factored_offset,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_offset_extended_sf ({}, {})",
-                        register_name(register),
-                        factored_offset
-                    )?;
-                }
-                ValOffset {
-                    register,
-                    factored_offset,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_val_offset ({}, {})",
-                        register_name(register),
-                        factored_offset
-                    )?;
-                }
-                ValOffsetSf {
-                    register,
-                    factored_offset,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_val_offset_sf ({}, {})",
-                        register_name(register),
-                        factored_offset
-                    )?;
-                }
-                Register {
-                    dest_register,
-                    src_register,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_register ({}, {})",
-                        register_name(dest_register),
-                        register_name(src_register)
-                    )?;
-                }
-                Expression {
-                    register,
-                    expression: _,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_expression ({}, ...)",
-                        register_name(register)
-                    )?;
-                }
-                ValExpression {
-                    register,
-                    expression: _,
-                } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_val_expression ({}, ...)",
-                        register_name(register)
-                    )?;
-                }
-                Restore { register } => {
-                    writeln!(
-                        w,
-                        "                DW_CFA_restore ({})",
-                        register_name(register)
-                    )?;
-                }
-                RememberState => {
-                    writeln!(w, "                DW_CFA_remember_state")?;
-                }
-                RestoreState => {
-                    writeln!(w, "                DW_CFA_restore_state")?;
-                }
-                ArgsSize { size } => {
-                    writeln!(w, "                DW_CFA_GNU_args_size ({})", size)?;
-                }
-                Nop => {
-                    writeln!(w, "                DW_CFA_nop")?;
-                }
-            },
-        }
-    }
-}
-
-fn dump_dwp<R: Reader, W: Write + Send>(
-    w: &mut W,
-    dwp: &gimli::DwarfPackage<R>,
-    dwo_parent: &gimli::Dwarf<R>,
-    dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
-    flags: &Flags,
-) -> Result<()>
-where
-    R::Endian: Send + Sync,
-{
-    if dwp.cu_index.unit_count() != 0 {
-        writeln!(
-            w,
-            "\n.debug_cu_index: version = {}, sections = {}, units = {}, slots = {}",
-            dwp.cu_index.version(),
-            dwp.cu_index.section_count(),
-            dwp.cu_index.unit_count(),
-            dwp.cu_index.slot_count(),
-        )?;
-        for i in 1..=dwp.cu_index.unit_count() {
-            writeln!(w, "\nCU index {}", i)?;
-            dump_dwp_sections(
-                w,
-                &dwp,
-                dwo_parent,
-                dwo_parent_units,
-                flags,
-                dwp.cu_index.sections(i)?,
-            )?;
-        }
-    }
-
-    if dwp.tu_index.unit_count() != 0 {
-        writeln!(
-            w,
-            "\n.debug_tu_index: version = {}, sections = {}, units = {}, slots = {}",
-            dwp.tu_index.version(),
-            dwp.tu_index.section_count(),
-            dwp.tu_index.unit_count(),
-            dwp.tu_index.slot_count(),
-        )?;
-        for i in 1..=dwp.tu_index.unit_count() {
-            writeln!(w, "\nTU index {}", i)?;
-            dump_dwp_sections(
-                w,
-                &dwp,
-                dwo_parent,
-                dwo_parent_units,
-                flags,
-                dwp.tu_index.sections(i)?,
-            )?;
-        }
-    }
-
-    Ok(())
-}
-
-fn dump_dwp_sections<R: Reader, W: Write + Send>(
-    w: &mut W,
-    dwp: &gimli::DwarfPackage<R>,
-    dwo_parent: &gimli::Dwarf<R>,
-    dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
-    flags: &Flags,
-    sections: gimli::UnitIndexSectionIterator<R>,
-) -> Result<()>
-where
-    R::Endian: Send + Sync,
-{
-    for section in sections.clone() {
-        writeln!(
-            w,
-            "  {}: offset = 0x{:x}, size = 0x{:x}",
-            section.section.dwo_name().unwrap(),
-            section.offset,
-            section.size
-        )?;
-    }
-    let dwarf = dwp.sections(sections, dwo_parent)?;
-    if flags.info {
-        dump_info(w, &dwarf, dwo_parent_units, flags)?;
-        dump_types(w, &dwarf, dwo_parent_units, flags)?;
-    }
-    if flags.line {
-        dump_line(w, &dwarf)?;
-    }
-    Ok(())
-}
-
-fn dump_info<R: Reader, W: Write + Send>(
-    w: &mut W,
-    dwarf: &gimli::Dwarf<R>,
-    dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
-    flags: &Flags,
-) -> Result<()>
-where
-    R::Endian: Send + Sync,
-{
-    writeln!(w, "\n.debug_info")?;
-
-    let units = match dwarf.units().collect::<Vec<_>>() {
-        Ok(units) => units,
-        Err(err) => {
-            writeln_error(
-                w,
-                dwarf,
-                Error::GimliError(err),
-                "Failed to read unit headers",
-            )?;
-            return Ok(());
-        }
-    };
-    let process_unit = |header: UnitHeader<R>, buf: &mut Vec<u8>| -> Result<()> {
-        dump_unit(buf, header, dwarf, dwo_parent_units, flags)?;
-        if !flags
-            .match_units
-            .as_ref()
-            .map(|r| r.is_match(&buf))
-            .unwrap_or(true)
-        {
-            buf.clear();
-        }
-        Ok(())
-    };
-    // Don't use more than 16 cores even if available. No point in soaking hundreds
-    // of cores if you happen to have them.
-    parallel_output(w, 16, units, process_unit)
-}
-
-fn dump_types<R: Reader, W: Write>(
-    w: &mut W,
-    dwarf: &gimli::Dwarf<R>,
-    dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
-    flags: &Flags,
-) -> Result<()> {
-    writeln!(w, "\n.debug_types")?;
-
-    let mut iter = dwarf.type_units();
-    while let Some(header) = iter.next()? {
-        dump_unit(w, header, dwarf, dwo_parent_units, flags)?;
-    }
-    Ok(())
-}
-
-fn dump_unit<R: Reader, W: Write>(
-    w: &mut W,
-    header: UnitHeader<R>,
-    dwarf: &gimli::Dwarf<R>,
-    dwo_parent_units: Option<&HashMap<gimli::DwoId, gimli::Unit<R>>>,
-    flags: &Flags,
-) -> Result<()> {
-    write!(w, "\nUNIT<")?;
-    match header.offset() {
-        UnitSectionOffset::DebugInfoOffset(o) => {
-            write!(w, ".debug_info+0x{:08x}", o.0)?;
-        }
-        UnitSectionOffset::DebugTypesOffset(o) => {
-            write!(w, ".debug_types+0x{:08x}", o.0)?;
-        }
-    }
-    writeln!(w, ">: length = 0x{:x}, format = {:?}, version = {}, address_size = {}, abbrev_offset = 0x{:x}",
-        header.unit_length(),
-        header.format(),
-        header.version(),
-        header.address_size(),
-        header.debug_abbrev_offset().0,
-    )?;
-
-    match header.type_() {
-        UnitType::Compilation | UnitType::Partial => (),
-        UnitType::Type {
-            type_signature,
-            type_offset,
-        }
-        | UnitType::SplitType {
-            type_signature,
-            type_offset,
-        } => {
-            write!(w, "  signature        = ")?;
-            dump_type_signature(w, type_signature)?;
-            writeln!(w)?;
-            writeln!(w, "  type_offset      = 0x{:x}", type_offset.0,)?;
-        }
-        UnitType::Skeleton(dwo_id) | UnitType::SplitCompilation(dwo_id) => {
-            write!(w, "  dwo_id           = ")?;
-            writeln!(w, "0x{:016x}", dwo_id.0)?;
-        }
-    }
-
-    let mut unit = match dwarf.unit(header) {
-        Ok(unit) => unit,
-        Err(err) => {
-            writeln_error(w, dwarf, err.into(), "Failed to parse unit root entry")?;
-            return Ok(());
-        }
-    };
-
-    if let Some(dwo_parent_units) = dwo_parent_units {
-        if let Some(dwo_id) = unit.dwo_id {
-            if let Some(parent_unit) = dwo_parent_units.get(&dwo_id) {
-                unit.copy_relocated_attributes(parent_unit);
-            }
-        }
-    }
-
-    let entries_result = dump_entries(w, unit, dwarf, flags);
-    if let Err(err) = entries_result {
-        writeln_error(w, dwarf, err, "Failed to dump entries")?;
-    }
-    Ok(())
-}
-
-fn spaces(buf: &mut String, len: usize) -> &str {
-    while buf.len() < len {
-        buf.push(' ');
-    }
-    &buf[..len]
-}
-
-// " GOFF=0x{:08x}" adds exactly 16 spaces.
-const GOFF_SPACES: usize = 16;
-
-fn write_offset<R: Reader, W: Write>(
-    w: &mut W,
-    unit: &gimli::Unit<R>,
-    offset: gimli::UnitOffset<R::Offset>,
-    flags: &Flags,
-) -> Result<()> {
-    write!(w, "<0x{:08x}", offset.0)?;
-    if flags.goff {
-        let goff = match offset.to_unit_section_offset(unit) {
-            UnitSectionOffset::DebugInfoOffset(o) => o.0,
-            UnitSectionOffset::DebugTypesOffset(o) => o.0,
-        };
-        write!(w, " GOFF=0x{:08x}", goff)?;
-    }
-    write!(w, ">")?;
-    Ok(())
-}
-
-fn dump_entries<R: Reader, W: Write>(
-    w: &mut W,
-    unit: gimli::Unit<R>,
-    dwarf: &gimli::Dwarf<R>,
-    flags: &Flags,
-) -> Result<()> {
-    let mut spaces_buf = String::new();
-
-    let mut entries = unit.entries_raw(None)?;
-    while !entries.is_empty() {
-        let offset = entries.next_offset();
-        let depth = entries.next_depth();
-        let abbrev = entries.read_abbreviation()?;
-
-        let mut indent = if depth >= 0 {
-            depth as usize * 2 + 2
-        } else {
-            2
-        };
-        write!(w, "<{}{}>", if depth < 10 { " " } else { "" }, depth)?;
-        write_offset(w, &unit, offset, flags)?;
-        writeln!(
-            w,
-            "{}{}",
-            spaces(&mut spaces_buf, indent),
-            abbrev.map(|x| x.tag()).unwrap_or(gimli::DW_TAG_null)
-        )?;
-
-        indent += 18;
-        if flags.goff {
-            indent += GOFF_SPACES;
-        }
-
-        for spec in abbrev.map(|x| x.attributes()).unwrap_or(&[]) {
-            let attr = entries.read_attribute(*spec)?;
-            w.write_all(spaces(&mut spaces_buf, indent).as_bytes())?;
-            if let Some(n) = attr.name().static_string() {
-                let right_padding = 27 - std::cmp::min(27, n.len());
-                write!(w, "{}{} ", n, spaces(&mut spaces_buf, right_padding))?;
-            } else {
-                write!(w, "{:27} ", attr.name())?;
-            }
-            if flags.raw {
-                writeln!(w, "{:?}", attr.raw_value())?;
-            } else {
-                match dump_attr_value(w, &attr, &unit, dwarf) {
-                    Ok(_) => (),
-                    Err(err) => writeln_error(w, dwarf, err, "Failed to dump attribute value")?,
-                };
-            }
-        }
-    }
-    Ok(())
-}
-
-fn dump_attr_value<R: Reader, W: Write>(
-    w: &mut W,
-    attr: &gimli::Attribute<R>,
-    unit: &gimli::Unit<R>,
-    dwarf: &gimli::Dwarf<R>,
-) -> Result<()> {
-    let value = attr.value();
-    match value {
-        gimli::AttributeValue::Addr(address) => {
-            writeln!(w, "0x{:08x}", address)?;
-        }
-        gimli::AttributeValue::Block(data) => {
-            for byte in data.to_slice()?.iter() {
-                write!(w, "{:02x}", byte)?;
-            }
-            writeln!(w)?;
-        }
-        gimli::AttributeValue::Data1(_)
-        | gimli::AttributeValue::Data2(_)
-        | gimli::AttributeValue::Data4(_)
-        | gimli::AttributeValue::Data8(_) => {
-            if let (Some(udata), Some(sdata)) = (attr.udata_value(), attr.sdata_value()) {
-                if sdata >= 0 {
-                    writeln!(w, "{}", udata)?;
-                } else {
-                    writeln!(w, "{} ({})", udata, sdata)?;
-                }
-            } else {
-                writeln!(w, "{:?}", value)?;
-            }
-        }
-        gimli::AttributeValue::Sdata(data) => {
-            match attr.name() {
-                gimli::DW_AT_data_member_location => {
-                    writeln!(w, "{}", data)?;
-                }
-                _ => {
-                    if data >= 0 {
-                        writeln!(w, "0x{:08x}", data)?;
-                    } else {
-                        writeln!(w, "0x{:08x} ({})", data, data)?;
-                    }
-                }
-            };
-        }
-        gimli::AttributeValue::Udata(data) => {
-            match attr.name() {
-                gimli::DW_AT_high_pc => {
-                    writeln!(w, "<offset-from-lowpc>{}", data)?;
-                }
-                gimli::DW_AT_data_member_location => {
-                    if let Some(sdata) = attr.sdata_value() {
-                        // This is a DW_FORM_data* value.
-                        // libdwarf-dwarfdump displays this as signed too.
-                        if sdata >= 0 {
-                            writeln!(w, "{}", data)?;
-                        } else {
-                            writeln!(w, "{} ({})", data, sdata)?;
-                        }
-                    } else {
-                        writeln!(w, "{}", data)?;
-                    }
-                }
-                gimli::DW_AT_lower_bound | gimli::DW_AT_upper_bound => {
-                    writeln!(w, "{}", data)?;
-                }
-                _ => {
-                    writeln!(w, "0x{:08x}", data)?;
-                }
-            };
-        }
-        gimli::AttributeValue::Exprloc(ref data) => {
-            if let gimli::AttributeValue::Exprloc(_) = attr.raw_value() {
-                write!(w, "len 0x{:04x}: ", data.0.len())?;
-                for byte in data.0.to_slice()?.iter() {
-                    write!(w, "{:02x}", byte)?;
-                }
-                write!(w, ": ")?;
-            }
-            dump_exprloc(w, unit.encoding(), data)?;
-            writeln!(w)?;
-        }
-        gimli::AttributeValue::Flag(true) => {
-            writeln!(w, "yes")?;
-        }
-        gimli::AttributeValue::Flag(false) => {
-            writeln!(w, "no")?;
-        }
-        gimli::AttributeValue::SecOffset(offset) => {
-            writeln!(w, "0x{:08x}", offset)?;
-        }
-        gimli::AttributeValue::DebugAddrBase(base) => {
-            writeln!(w, "<.debug_addr+0x{:08x}>", base.0)?;
-        }
-        gimli::AttributeValue::DebugAddrIndex(index) => {
-            write!(w, "(indirect address, index {:#x}): ", index.0)?;
-            let address = dwarf.address(unit, index)?;
-            writeln!(w, "0x{:08x}", address)?;
-        }
-        gimli::AttributeValue::UnitRef(offset) => {
-            write!(w, "0x{:08x}", offset.0)?;
-            match offset.to_unit_section_offset(unit) {
-                UnitSectionOffset::DebugInfoOffset(goff) => {
-                    write!(w, "<.debug_info+0x{:08x}>", goff.0)?;
-                }
-                UnitSectionOffset::DebugTypesOffset(goff) => {
-                    write!(w, "<.debug_types+0x{:08x}>", goff.0)?;
-                }
-            }
-            writeln!(w)?;
-        }
-        gimli::AttributeValue::DebugInfoRef(offset) => {
-            writeln!(w, "<.debug_info+0x{:08x}>", offset.0)?;
-        }
-        gimli::AttributeValue::DebugInfoRefSup(offset) => {
-            writeln!(w, "<.debug_info(sup)+0x{:08x}>", offset.0)?;
-        }
-        gimli::AttributeValue::DebugLineRef(offset) => {
-            writeln!(w, "<.debug_line+0x{:08x}>", offset.0)?;
-        }
-        gimli::AttributeValue::LocationListsRef(offset) => {
-            dump_loc_list(w, offset, unit, dwarf)?;
-        }
-        gimli::AttributeValue::DebugLocListsBase(base) => {
-            writeln!(w, "<.debug_loclists+0x{:08x}>", base.0)?;
-        }
-        gimli::AttributeValue::DebugLocListsIndex(index) => {
-            write!(w, "(indirect location list, index {:#x}): ", index.0)?;
-            let offset = dwarf.locations_offset(unit, index)?;
-            dump_loc_list(w, offset, unit, dwarf)?;
-        }
-        gimli::AttributeValue::DebugMacinfoRef(offset) => {
-            writeln!(w, "<.debug_macinfo+0x{:08x}>", offset.0)?;
-        }
-        gimli::AttributeValue::DebugMacroRef(offset) => {
-            writeln!(w, "<.debug_macro+0x{:08x}>", offset.0)?;
-        }
-        gimli::AttributeValue::RangeListsRef(offset) => {
-            let offset = dwarf.ranges_offset_from_raw(unit, offset);
-            dump_range_list(w, offset, unit, dwarf)?;
-        }
-        gimli::AttributeValue::DebugRngListsBase(base) => {
-            writeln!(w, "<.debug_rnglists+0x{:08x}>", base.0)?;
-        }
-        gimli::AttributeValue::DebugRngListsIndex(index) => {
-            write!(w, "(indirect range list, index {:#x}): ", index.0)?;
-            let offset = dwarf.ranges_offset(unit, index)?;
-            dump_range_list(w, offset, unit, dwarf)?;
-        }
-        gimli::AttributeValue::DebugTypesRef(signature) => {
-            dump_type_signature(w, signature)?;
-            writeln!(w, " <type signature>")?;
-        }
-        gimli::AttributeValue::DebugStrRef(offset) => {
-            if let Ok(s) = dwarf.debug_str.get_str(offset) {
-                writeln!(w, "{}", s.to_string_lossy()?)?;
-            } else {
-                writeln!(w, "<.debug_str+0x{:08x}>", offset.0)?;
-            }
-        }
-        gimli::AttributeValue::DebugStrRefSup(offset) => {
-            if let Some(s) = dwarf
-                .sup()
-                .and_then(|sup| sup.debug_str.get_str(offset).ok())
-            {
-                writeln!(w, "{}", s.to_string_lossy()?)?;
-            } else {
-                writeln!(w, "<.debug_str(sup)+0x{:08x}>", offset.0)?;
-            }
-        }
-        gimli::AttributeValue::DebugStrOffsetsBase(base) => {
-            writeln!(w, "<.debug_str_offsets+0x{:08x}>", base.0)?;
-        }
-        gimli::AttributeValue::DebugStrOffsetsIndex(index) => {
-            write!(w, "(indirect string, index {:#x}): ", index.0)?;
-            let offset = dwarf.debug_str_offsets.get_str_offset(
-                unit.encoding().format,
-                unit.str_offsets_base,
-                index,
-            )?;
-            if let Ok(s) = dwarf.debug_str.get_str(offset) {
-                writeln!(w, "{}", s.to_string_lossy()?)?;
-            } else {
-                writeln!(w, "<.debug_str+0x{:08x}>", offset.0)?;
-            }
-        }
-        gimli::AttributeValue::DebugLineStrRef(offset) => {
-            if let Ok(s) = dwarf.debug_line_str.get_str(offset) {
-                writeln!(w, "{}", s.to_string_lossy()?)?;
-            } else {
-                writeln!(w, "<.debug_line_str=0x{:08x}>", offset.0)?;
-            }
-        }
-        gimli::AttributeValue::String(s) => {
-            writeln!(w, "{}", s.to_string_lossy()?)?;
-        }
-        gimli::AttributeValue::Encoding(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::DecimalSign(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Endianity(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Accessibility(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Visibility(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Virtuality(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Language(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::AddressClass(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::IdentifierCase(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::CallingConvention(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Inline(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::Ordering(value) => {
-            writeln!(w, "{}", value)?;
-        }
-        gimli::AttributeValue::FileIndex(value) => {
-            write!(w, "0x{:08x}", value)?;
-            dump_file_index(w, value, unit, dwarf)?;
-            writeln!(w)?;
-        }
-        gimli::AttributeValue::DwoId(value) => {
-            writeln!(w, "0x{:016x}", value.0)?;
-        }
-    }
-
-    Ok(())
-}
-
-fn dump_type_signature<W: Write>(w: &mut W, signature: gimli::DebugTypeSignature) -> Result<()> {
-    write!(w, "0x{:016x}", signature.0)?;
-    Ok(())
-}
-
-fn dump_file_index<R: Reader, W: Write>(
-    w: &mut W,
-    file_index: u64,
-    unit: &gimli::Unit<R>,
-    dwarf: &gimli::Dwarf<R>,
-) -> Result<()> {
-    if file_index == 0 && unit.header.version() <= 4 {
-        return Ok(());
-    }
-    let header = match unit.line_program {
-        Some(ref program) => program.header(),
-        None => return Ok(()),
-    };
-    let file = match header.file(file_index) {
-        Some(file) => file,
-        None => {
-            writeln!(w, "Unable to get header for file {}", file_index)?;
-            return Ok(());
-        }
-    };
-    write!(w, " ")?;
-    if let Some(directory) = file.directory(header) {
-        let directory = dwarf.attr_string(unit, directory)?;
-        let directory = directory.to_string_lossy()?;
-        if file.directory_index() != 0 && !directory.starts_with('/') {
-            if let Some(ref comp_dir) = unit.comp_dir {
-                write!(w, "{}/", comp_dir.to_string_lossy()?,)?;
-            }
-        }
-        write!(w, "{}/", directory)?;
-    }
-    write!(
-        w,
-        "{}",
-        dwarf
-            .attr_string(unit, file.path_name())?
-            .to_string_lossy()?
-    )?;
-    Ok(())
-}
-
-fn dump_exprloc<R: Reader, W: Write>(
-    w: &mut W,
-    encoding: gimli::Encoding,
-    data: &gimli::Expression<R>,
-) -> Result<()> {
-    let mut pc = data.0.clone();
-    let mut space = false;
-    while pc.len() != 0 {
-        let pc_clone = pc.clone();
-        match gimli::Operation::parse(&mut pc, encoding) {
-            Ok(op) => {
-                if space {
-                    write!(w, " ")?;
-                } else {
-                    space = true;
-                }
-                dump_op(w, encoding, pc_clone, op)?;
-            }
-            Err(gimli::Error::InvalidExpression(op)) => {
-                writeln!(w, "WARNING: unsupported operation 0x{:02x}", op.0)?;
-                return Ok(());
-            }
-            Err(gimli::Error::UnsupportedRegister(register)) => {
-                writeln!(w, "WARNING: unsupported register {}", register)?;
-                return Ok(());
-            }
-            Err(gimli::Error::UnexpectedEof(_)) => {
-                writeln!(w, "WARNING: truncated or malformed expression")?;
-                return Ok(());
-            }
-            Err(e) => {
-                writeln!(w, "WARNING: unexpected operation parse error: {}", e)?;
-                return Ok(());
-            }
-        }
-    }
-    Ok(())
-}
-
-fn dump_op<R: Reader, W: Write>(
-    w: &mut W,
-    encoding: gimli::Encoding,
-    mut pc: R,
-    op: gimli::Operation<R>,
-) -> Result<()> {
-    let dwop = gimli::DwOp(pc.read_u8()?);
-    write!(w, "{}", dwop)?;
-    match op {
-        gimli::Operation::Deref {
-            base_type, size, ..
-        } => {
-            if dwop == gimli::DW_OP_deref_size || dwop == gimli::DW_OP_xderef_size {
-                write!(w, " {}", size)?;
-            }
-            if base_type != UnitOffset(0) {
-                write!(w, " type 0x{:08x}", base_type.0)?;
-            }
-        }
-        gimli::Operation::Pick { index } => {
-            if dwop == gimli::DW_OP_pick {
-                write!(w, " {}", index)?;
-            }
-        }
-        gimli::Operation::PlusConstant { value } => {
-            write!(w, " {}", value as i64)?;
-        }
-        gimli::Operation::Bra { target } => {
-            write!(w, " {}", target)?;
-        }
-        gimli::Operation::Skip { target } => {
-            write!(w, " {}", target)?;
-        }
-        gimli::Operation::SignedConstant { value } => match dwop {
-            gimli::DW_OP_const1s
-            | gimli::DW_OP_const2s
-            | gimli::DW_OP_const4s
-            | gimli::DW_OP_const8s
-            | gimli::DW_OP_consts => {
-                write!(w, " {}", value)?;
-            }
-            _ => {}
-        },
-        gimli::Operation::UnsignedConstant { value } => match dwop {
-            gimli::DW_OP_const1u
-            | gimli::DW_OP_const2u
-            | gimli::DW_OP_const4u
-            | gimli::DW_OP_const8u
-            | gimli::DW_OP_constu => {
-                write!(w, " {}", value)?;
-            }
-            _ => {
-                // These have the value encoded in the operation, eg DW_OP_lit0.
-            }
-        },
-        gimli::Operation::Register { register } => {
-            if dwop == gimli::DW_OP_regx {
-                write!(w, " {}", register.0)?;
-            }
-        }
-        gimli::Operation::RegisterOffset {
-            register,
-            offset,
-            base_type,
-        } => {
-            if dwop >= gimli::DW_OP_breg0 && dwop <= gimli::DW_OP_breg31 {
-                write!(w, "{:+}", offset)?;
-            } else {
-                write!(w, " {}", register.0)?;
-                if offset != 0 {
-                    write!(w, "{:+}", offset)?;
-                }
-                if base_type != UnitOffset(0) {
-                    write!(w, " type 0x{:08x}", base_type.0)?;
-                }
-            }
-        }
-        gimli::Operation::FrameOffset { offset } => {
-            write!(w, " {}", offset)?;
-        }
-        gimli::Operation::Call { offset } => match offset {
-            gimli::DieReference::UnitRef(gimli::UnitOffset(offset)) => {
-                write!(w, " 0x{:08x}", offset)?;
-            }
-            gimli::DieReference::DebugInfoRef(gimli::DebugInfoOffset(offset)) => {
-                write!(w, " 0x{:08x}", offset)?;
-            }
-        },
-        gimli::Operation::Piece {
-            size_in_bits,
-            bit_offset: None,
-        } => {
-            write!(w, " {}", size_in_bits / 8)?;
-        }
-        gimli::Operation::Piece {
-            size_in_bits,
-            bit_offset: Some(bit_offset),
-        } => {
-            write!(w, " 0x{:08x} offset 0x{:08x}", size_in_bits, bit_offset)?;
-        }
-        gimli::Operation::ImplicitValue { data } => {
-            let data = data.to_slice()?;
-            write!(w, " 0x{:08x} contents 0x", data.len())?;
-            for byte in data.iter() {
-                write!(w, "{:02x}", byte)?;
-            }
-        }
-        gimli::Operation::ImplicitPointer { value, byte_offset } => {
-            write!(w, " 0x{:08x} {}", value.0, byte_offset)?;
-        }
-        gimli::Operation::EntryValue { expression } => {
-            write!(w, "(")?;
-            dump_exprloc(w, encoding, &gimli::Expression(expression))?;
-            write!(w, ")")?;
-        }
-        gimli::Operation::ParameterRef { offset } => {
-            write!(w, " 0x{:08x}", offset.0)?;
-        }
-        gimli::Operation::Address { address } => {
-            write!(w, " 0x{:08x}", address)?;
-        }
-        gimli::Operation::AddressIndex { index } => {
-            write!(w, " 0x{:08x}", index.0)?;
-        }
-        gimli::Operation::ConstantIndex { index } => {
-            write!(w, " 0x{:08x}", index.0)?;
-        }
-        gimli::Operation::TypedLiteral { base_type, value } => {
-            write!(w, " type 0x{:08x} contents 0x", base_type.0)?;
-            for byte in value.to_slice()?.iter() {
-                write!(w, "{:02x}", byte)?;
-            }
-        }
-        gimli::Operation::Convert { base_type } => {
-            write!(w, " type 0x{:08x}", base_type.0)?;
-        }
-        gimli::Operation::Reinterpret { base_type } => {
-            write!(w, " type 0x{:08x}", base_type.0)?;
-        }
-        gimli::Operation::WasmLocal { index }
-        | gimli::Operation::WasmGlobal { index }
-        | gimli::Operation::WasmStack { index } => {
-            let wasmop = pc.read_u8()?;
-            write!(w, " 0x{:x} 0x{:x}", wasmop, index)?;
-        }
-        gimli::Operation::Drop
-        | gimli::Operation::Swap
-        | gimli::Operation::Rot
-        | gimli::Operation::Abs
-        | gimli::Operation::And
-        | gimli::Operation::Div
-        | gimli::Operation::Minus
-        | gimli::Operation::Mod
-        | gimli::Operation::Mul
-        | gimli::Operation::Neg
-        | gimli::Operation::Not
-        | gimli::Operation::Or
-        | gimli::Operation::Plus
-        | gimli::Operation::Shl
-        | gimli::Operation::Shr
-        | gimli::Operation::Shra
-        | gimli::Operation::Xor
-        | gimli::Operation::Eq
-        | gimli::Operation::Ge
-        | gimli::Operation::Gt
-        | gimli::Operation::Le
-        | gimli::Operation::Lt
-        | gimli::Operation::Ne
-        | gimli::Operation::Nop
-        | gimli::Operation::PushObjectAddress
-        | gimli::Operation::TLS
-        | gimli::Operation::CallFrameCFA
-        | gimli::Operation::StackValue => {}
-    };
-    Ok(())
-}
-
-fn dump_range<W: Write>(w: &mut W, range: Option<gimli::Range>) -> Result<()> {
-    if let Some(range) = range {
-        write!(w, " [0x{:08x}, 0x{:08x}]", range.begin, range.end)?;
-    } else {
-        write!(w, " [ignored]")?;
-    }
-    Ok(())
-}
-
-fn dump_loc_list<R: Reader, W: Write>(
-    w: &mut W,
-    offset: gimli::LocationListsOffset<R::Offset>,
-    unit: &gimli::Unit<R>,
-    dwarf: &gimli::Dwarf<R>,
-) -> Result<()> {
-    let mut locations = dwarf.locations(unit, offset)?;
-    writeln!(
-        w,
-        "<loclist at {}+0x{:08x}>",
-        if unit.encoding().version < 5 {
-            ".debug_loc"
-        } else {
-            ".debug_loclists"
-        },
-        offset.0,
-    )?;
-    let mut i = 0;
-    while let Some(raw) = locations.next_raw()? {
-        write!(w, "\t\t\t[{:2}]", i)?;
-        i += 1;
-        let range = locations
-            .convert_raw(raw.clone())?
-            .map(|location| location.range);
-        match raw {
-            gimli::RawLocListEntry::BaseAddress { addr } => {
-                writeln!(w, "<base-address 0x{:08x}>", addr)?;
-            }
-            gimli::RawLocListEntry::BaseAddressx { addr } => {
-                let addr_val = dwarf.address(unit, addr)?;
-                writeln!(w, "<base-addressx [{}]0x{:08x}>", addr.0, addr_val)?;
-            }
-            gimli::RawLocListEntry::StartxEndx {
-                begin,
-                end,
-                ref data,
-            } => {
-                let begin_val = dwarf.address(unit, begin)?;
-                let end_val = dwarf.address(unit, end)?;
-                write!(
-                    w,
-                    "<startx-endx [{}]0x{:08x}, [{}]0x{:08x}>",
-                    begin.0, begin_val, end.0, end_val,
-                )?;
-                dump_range(w, range)?;
-                dump_exprloc(w, unit.encoding(), data)?;
-                writeln!(w)?;
-            }
-            gimli::RawLocListEntry::StartxLength {
-                begin,
-                length,
-                ref data,
-            } => {
-                let begin_val = dwarf.address(unit, begin)?;
-                write!(
-                    w,
-                    "<startx-length [{}]0x{:08x}, 0x{:08x}>",
-                    begin.0, begin_val, length,
-                )?;
-                dump_range(w, range)?;
-                dump_exprloc(w, unit.encoding(), data)?;
-                writeln!(w)?;
-            }
-            gimli::RawLocListEntry::AddressOrOffsetPair {
-                begin,
-                end,
-                ref data,
-            }
-            | gimli::RawLocListEntry::OffsetPair {
-                begin,
-                end,
-                ref data,
-            } => {
-                write!(w, "<offset-pair 0x{:08x}, 0x{:08x}>", begin, end)?;
-                dump_range(w, range)?;
-                dump_exprloc(w, unit.encoding(), data)?;
-                writeln!(w)?;
-            }
-            gimli::RawLocListEntry::DefaultLocation { ref data } => {
-                write!(w, "<default location>")?;
-                dump_exprloc(w, unit.encoding(), data)?;
-                writeln!(w)?;
-            }
-            gimli::RawLocListEntry::StartEnd {
-                begin,
-                end,
-                ref data,
-            } => {
-                write!(w, "<start-end 0x{:08x}, 0x{:08x}>", begin, end)?;
-                dump_range(w, range)?;
-                dump_exprloc(w, unit.encoding(), data)?;
-                writeln!(w)?;
-            }
-            gimli::RawLocListEntry::StartLength {
-                begin,
-                length,
-                ref data,
-            } => {
-                write!(w, "<start-length 0x{:08x}, 0x{:08x}>", begin, length)?;
-                dump_range(w, range)?;
-                dump_exprloc(w, unit.encoding(), data)?;
-                writeln!(w)?;
-            }
-        };
-    }
-    Ok(())
-}
-
-fn dump_range_list<R: Reader, W: Write>(
-    w: &mut W,
-    offset: gimli::RangeListsOffset<R::Offset>,
-    unit: &gimli::Unit<R>,
-    dwarf: &gimli::Dwarf<R>,
-) -> Result<()> {
-    let mut ranges = dwarf.ranges(unit, offset)?;
-    writeln!(
-        w,
-        "<rnglist at {}+0x{:08x}>",
-        if unit.encoding().version < 5 {
-            ".debug_ranges"
-        } else {
-            ".debug_rnglists"
-        },
-        offset.0,
-    )?;
-    let mut i = 0;
-    while let Some(raw) = ranges.next_raw()? {
-        write!(w, "\t\t\t[{:2}] ", i)?;
-        i += 1;
-        let range = ranges.convert_raw(raw.clone())?;
-        match raw {
-            gimli::RawRngListEntry::BaseAddress { addr } => {
-                writeln!(w, "<new base address 0x{:08x}>", addr)?;
-            }
-            gimli::RawRngListEntry::BaseAddressx { addr } => {
-                let addr_val = dwarf.address(unit, addr)?;
-                writeln!(w, "<new base addressx [{}]0x{:08x}>", addr.0, addr_val)?;
-            }
-            gimli::RawRngListEntry::StartxEndx { begin, end } => {
-                let begin_val = dwarf.address(unit, begin)?;
-                let end_val = dwarf.address(unit, end)?;
-                write!(
-                    w,
-                    "<startx-endx [{}]0x{:08x}, [{}]0x{:08x}>",
-                    begin.0, begin_val, end.0, end_val,
-                )?;
-                dump_range(w, range)?;
-                writeln!(w)?;
-            }
-            gimli::RawRngListEntry::StartxLength { begin, length } => {
-                let begin_val = dwarf.address(unit, begin)?;
-                write!(
-                    w,
-                    "<startx-length [{}]0x{:08x}, 0x{:08x}>",
-                    begin.0, begin_val, length,
-                )?;
-                dump_range(w, range)?;
-                writeln!(w)?;
-            }
-            gimli::RawRngListEntry::AddressOrOffsetPair { begin, end }
-            | gimli::RawRngListEntry::OffsetPair { begin, end } => {
-                write!(w, "<offset-pair 0x{:08x}, 0x{:08x}>", begin, end)?;
-                dump_range(w, range)?;
-                writeln!(w)?;
-            }
-            gimli::RawRngListEntry::StartEnd { begin, end } => {
-                write!(w, "<start-end 0x{:08x}, 0x{:08x}>", begin, end)?;
-                dump_range(w, range)?;
-                writeln!(w)?;
-            }
-            gimli::RawRngListEntry::StartLength { begin, length } => {
-                write!(w, "<start-length 0x{:08x}, 0x{:08x}>", begin, length)?;
-                dump_range(w, range)?;
-                writeln!(w)?;
-            }
-        };
-    }
-    Ok(())
-}
-
-fn dump_line<R: Reader, W: Write>(w: &mut W, dwarf: &gimli::Dwarf<R>) -> Result<()> {
-    let mut iter = dwarf.units();
-    while let Some(header) = iter.next()? {
-        writeln!(
-            w,
-            "\n.debug_line: line number info for unit at .debug_info offset 0x{:08x}",
-            header.offset().as_debug_info_offset().unwrap().0
-        )?;
-        let unit = match dwarf.unit(header) {
-            Ok(unit) => unit,
-            Err(err) => {
-                writeln_error(
-                    w,
-                    dwarf,
-                    err.into(),
-                    "Failed to parse unit root entry for dump_line",
-                )?;
-                continue;
-            }
-        };
-        match dump_line_program(w, &unit, dwarf) {
-            Ok(_) => (),
-            Err(Error::IoError) => return Err(Error::IoError),
-            Err(err) => writeln_error(w, dwarf, err, "Failed to dump line program")?,
-        }
-    }
-    Ok(())
-}
-
-fn dump_line_program<R: Reader, W: Write>(
-    w: &mut W,
-    unit: &gimli::Unit<R>,
-    dwarf: &gimli::Dwarf<R>,
-) -> Result<()> {
-    if let Some(program) = unit.line_program.clone() {
-        {
-            let header = program.header();
-            writeln!(w)?;
-            writeln!(
-                w,
-                "Offset:                             0x{:x}",
-                header.offset().0
-            )?;
-            writeln!(
-                w,
-                "Length:                             {}",
-                header.unit_length()
-            )?;
-            writeln!(
-                w,
-                "DWARF version:                      {}",
-                header.version()
-            )?;
-            writeln!(
-                w,
-                "Address size:                       {}",
-                header.address_size()
-            )?;
-            writeln!(
-                w,
-                "Prologue length:                    {}",
-                header.header_length()
-            )?;
-            writeln!(
-                w,
-                "Minimum instruction length:         {}",
-                header.minimum_instruction_length()
-            )?;
-            writeln!(
-                w,
-                "Maximum operations per instruction: {}",
-                header.maximum_operations_per_instruction()
-            )?;
-            writeln!(
-                w,
-                "Default is_stmt:                    {}",
-                header.default_is_stmt()
-            )?;
-            writeln!(
-                w,
-                "Line base:                          {}",
-                header.line_base()
-            )?;
-            writeln!(
-                w,
-                "Line range:                         {}",
-                header.line_range()
-            )?;
-            writeln!(
-                w,
-                "Opcode base:                        {}",
-                header.opcode_base()
-            )?;
-
-            writeln!(w)?;
-            writeln!(w, "Opcodes:")?;
-            for (i, length) in header
-                .standard_opcode_lengths()
-                .to_slice()?
-                .iter()
-                .enumerate()
-            {
-                writeln!(w, "  Opcode {} has {} args", i + 1, length)?;
-            }
-
-            let base = if header.version() >= 5 { 0 } else { 1 };
-            writeln!(w)?;
-            writeln!(w, "The Directory Table:")?;
-            for (i, dir) in header.include_directories().iter().enumerate() {
-                writeln!(
-                    w,
-                    "  {} {}",
-                    base + i,
-                    dwarf.attr_string(unit, dir.clone())?.to_string_lossy()?
-                )?;
-            }
-
-            writeln!(w)?;
-            writeln!(w, "The File Name Table")?;
-            write!(w, "  Entry\tDir\tTime\tSize")?;
-            if header.file_has_md5() {
-                write!(w, "\tMD5\t\t\t\t")?;
-            }
-            writeln!(w, "\tName")?;
-            for (i, file) in header.file_names().iter().enumerate() {
-                write!(
-                    w,
-                    "  {}\t{}\t{}\t{}",
-                    base + i,
-                    file.directory_index(),
-                    file.timestamp(),
-                    file.size(),
-                )?;
-                if header.file_has_md5() {
-                    let md5 = file.md5();
-                    write!(w, "\t")?;
-                    for i in 0..16 {
-                        write!(w, "{:02X}", md5[i])?;
-                    }
-                }
-                writeln!(
-                    w,
-                    "\t{}",
-                    dwarf
-                        .attr_string(unit, file.path_name())?
-                        .to_string_lossy()?
-                )?;
-            }
-
-            writeln!(w)?;
-            writeln!(w, "Line Number Instructions:")?;
-            let mut instructions = header.instructions();
-            while let Some(instruction) = instructions.next_instruction(header)? {
-                writeln!(w, "  {}", instruction)?;
-            }
-
-            writeln!(w)?;
-            writeln!(w, "Line Number Rows:")?;
-            writeln!(w, "<pc>        [lno,col]")?;
-        }
-        let mut rows = program.rows();
-        let mut file_index = std::u64::MAX;
-        while let Some((header, row)) = rows.next_row()? {
-            let line = match row.line() {
-                Some(line) => line.get(),
-                None => 0,
-            };
-            let column = match row.column() {
-                gimli::ColumnType::Column(column) => column.get(),
-                gimli::ColumnType::LeftEdge => 0,
-            };
-            write!(w, "0x{:08x}  [{:4},{:2}]", row.address(), line, column)?;
-            if row.is_stmt() {
-                write!(w, " NS")?;
-            }
-            if row.basic_block() {
-                write!(w, " BB")?;
-            }
-            if row.end_sequence() {
-                write!(w, " ET")?;
-            }
-            if row.prologue_end() {
-                write!(w, " PE")?;
-            }
-            if row.epilogue_begin() {
-                write!(w, " EB")?;
-            }
-            if row.isa() != 0 {
-                write!(w, " IS={}", row.isa())?;
-            }
-            if row.discriminator() != 0 {
-                write!(w, " DI={}", row.discriminator())?;
-            }
-            if file_index != row.file_index() {
-                file_index = row.file_index();
-                if let Some(file) = row.file(header) {
-                    if let Some(directory) = file.directory(header) {
-                        write!(
-                            w,
-                            " uri: \"{}/{}\"",
-                            dwarf.attr_string(unit, directory)?.to_string_lossy()?,
-                            dwarf
-                                .attr_string(unit, file.path_name())?
-                                .to_string_lossy()?
-                        )?;
-                    } else {
-                        write!(
-                            w,
-                            " uri: \"{}\"",
-                            dwarf
-                                .attr_string(unit, file.path_name())?
-                                .to_string_lossy()?
-                        )?;
-                    }
-                }
-            }
-            writeln!(w)?;
-        }
-    }
-    Ok(())
-}
-
-fn dump_pubnames<R: Reader, W: Write>(
-    w: &mut W,
-    debug_pubnames: &gimli::DebugPubNames<R>,
-    debug_info: &gimli::DebugInfo<R>,
-) -> Result<()> {
-    writeln!(w, "\n.debug_pubnames")?;
-
-    let mut cu_offset;
-    let mut cu_die_offset = gimli::DebugInfoOffset(0);
-    let mut prev_cu_offset = None;
-    let mut pubnames = debug_pubnames.items();
-    while let Some(pubname) = pubnames.next()? {
-        cu_offset = pubname.unit_header_offset();
-        if Some(cu_offset) != prev_cu_offset {
-            let cu = debug_info.header_from_offset(cu_offset)?;
-            cu_die_offset = gimli::DebugInfoOffset(cu_offset.0 + cu.header_size());
-            prev_cu_offset = Some(cu_offset);
-        }
-        let die_in_cu = pubname.die_offset();
-        let die_in_sect = cu_offset.0 + die_in_cu.0;
-        writeln!(w,
-            "global die-in-sect 0x{:08x}, cu-in-sect 0x{:08x}, die-in-cu 0x{:08x}, cu-header-in-sect 0x{:08x} '{}'",
-            die_in_sect,
-            cu_die_offset.0,
-            die_in_cu.0,
-            cu_offset.0,
-            pubname.name().to_string_lossy()?
-        )?;
-    }
-    Ok(())
-}
-
-fn dump_pubtypes<R: Reader, W: Write>(
-    w: &mut W,
-    debug_pubtypes: &gimli::DebugPubTypes<R>,
-    debug_info: &gimli::DebugInfo<R>,
-) -> Result<()> {
-    writeln!(w, "\n.debug_pubtypes")?;
-
-    let mut cu_offset;
-    let mut cu_die_offset = gimli::DebugInfoOffset(0);
-    let mut prev_cu_offset = None;
-    let mut pubtypes = debug_pubtypes.items();
-    while let Some(pubtype) = pubtypes.next()? {
-        cu_offset = pubtype.unit_header_offset();
-        if Some(cu_offset) != prev_cu_offset {
-            let cu = debug_info.header_from_offset(cu_offset)?;
-            cu_die_offset = gimli::DebugInfoOffset(cu_offset.0 + cu.header_size());
-            prev_cu_offset = Some(cu_offset);
-        }
-        let die_in_cu = pubtype.die_offset();
-        let die_in_sect = cu_offset.0 + die_in_cu.0;
-        writeln!(w,
-            "pubtype die-in-sect 0x{:08x}, cu-in-sect 0x{:08x}, die-in-cu 0x{:08x}, cu-header-in-sect 0x{:08x} '{}'",
-            die_in_sect,
-            cu_die_offset.0,
-            die_in_cu.0,
-            cu_offset.0,
-            pubtype.name().to_string_lossy()?
-        )?;
-    }
-    Ok(())
-}
-
-fn dump_aranges<R: Reader, W: Write>(
-    w: &mut W,
-    debug_aranges: &gimli::DebugAranges<R>,
-) -> Result<()> {
-    writeln!(w, "\n.debug_aranges")?;
-
-    let mut headers = debug_aranges.headers();
-    while let Some(header) = headers.next()? {
-        writeln!(
-            w,
-            "Address Range Header: length = 0x{:08x}, version = 0x{:04x}, cu_offset = 0x{:08x}, addr_size = 0x{:02x}, seg_size = 0x{:02x}",
-            header.length(),
-            header.encoding().version,
-            header.debug_info_offset().0,
-            header.encoding().address_size,
-            header.segment_size(),
-        )?;
-        let mut aranges = header.entries();
-        while let Some(arange) = aranges.next()? {
-            let range = arange.range();
-            if let Some(segment) = arange.segment() {
-                writeln!(
-                    w,
-                    "[0x{:016x},  0x{:016x}) segment 0x{:x}",
-                    range.begin, range.end, segment
-                )?;
-            } else {
-                writeln!(w, "[0x{:016x},  0x{:016x})", range.begin, range.end)?;
-            }
-        }
-    }
-    Ok(())
-}
diff --git a/vendor/gimli-0.27.3/examples/simple.rs b/vendor/gimli-0.27.3/examples/simple.rs
deleted file mode 100644
index 7c958d45c..000000000
--- a/vendor/gimli-0.27.3/examples/simple.rs
+++ /dev/null
@@ -1,67 +0,0 @@
-//! A simple example of parsing `.debug_info`.
-
-use object::{Object, ObjectSection};
-use std::{borrow, env, fs};
-
-fn main() {
-    for path in env::args().skip(1) {
-        let file = fs::File::open(&path).unwrap();
-        let mmap = unsafe { memmap2::Mmap::map(&file).unwrap() };
-        let object = object::File::parse(&*mmap).unwrap();
-        let endian = if object.is_little_endian() {
-            gimli::RunTimeEndian::Little
-        } else {
-            gimli::RunTimeEndian::Big
-        };
-        dump_file(&object, endian).unwrap();
-    }
-}
-
-fn dump_file(object: &object::File, endian: gimli::RunTimeEndian) -> Result<(), gimli::Error> {
-    // Load a section and return as `Cow<[u8]>`.
-    let load_section = |id: gimli::SectionId| -> Result<borrow::Cow<[u8]>, gimli::Error> {
-        match object.section_by_name(id.name()) {
-            Some(ref section) => Ok(section
-                .uncompressed_data()
-                .unwrap_or(borrow::Cow::Borrowed(&[][..]))),
-            None => Ok(borrow::Cow::Borrowed(&[][..])),
-        }
-    };
-
-    // Load all of the sections.
-    let dwarf_cow = gimli::Dwarf::load(&load_section)?;
-
-    // Borrow a `Cow<[u8]>` to create an `EndianSlice`.
-    let borrow_section: &dyn for<'a> Fn(
-        &'a borrow::Cow<[u8]>,
-    ) -> gimli::EndianSlice<'a, gimli::RunTimeEndian> =
-        &|section| gimli::EndianSlice::new(&*section, endian);
-
-    // Create `EndianSlice`s for all of the sections.
-    let dwarf = dwarf_cow.borrow(&borrow_section);
-
-    // Iterate over the compilation units.
-    let mut iter = dwarf.units();
-    while let Some(header) = iter.next()? {
-        println!(
-            "Unit at <.debug_info+0x{:x}>",
-            header.offset().as_debug_info_offset().unwrap().0
-        );
-        let unit = dwarf.unit(header)?;
-
-        // Iterate over the Debugging Information Entries (DIEs) in the unit.
-        let mut depth = 0;
-        let mut entries = unit.entries();
-        while let Some((delta_depth, entry)) = entries.next_dfs()? {
-            depth += delta_depth;
-            println!("<{}><{:x}> {}", depth, entry.offset().0, entry.tag());
-
-            // Iterate over the attributes in the DIE.
-            let mut attrs = entry.attrs();
-            while let Some(attr) = attrs.next()? {
-                println!("   {}: {:?}", attr.name(), attr.value());
-            }
-        }
-    }
-    Ok(())
-}
diff --git a/vendor/gimli-0.27.3/examples/simple_line.rs b/vendor/gimli-0.27.3/examples/simple_line.rs
deleted file mode 100644
index 87b224cda..000000000
--- a/vendor/gimli-0.27.3/examples/simple_line.rs
+++ /dev/null
@@ -1,106 +0,0 @@
-//! A simple example of parsing `.debug_line`.
-
-use object::{Object, ObjectSection};
-use std::{borrow, env, fs, path};
-
-fn main() {
-    for path in env::args().skip(1) {
-        let file = fs::File::open(&path).unwrap();
-        let mmap = unsafe { memmap2::Mmap::map(&file).unwrap() };
-        let object = object::File::parse(&*mmap).unwrap();
-        let endian = if object.is_little_endian() {
-            gimli::RunTimeEndian::Little
-        } else {
-            gimli::RunTimeEndian::Big
-        };
-        dump_file(&object, endian).unwrap();
-    }
-}
-
-fn dump_file(object: &object::File, endian: gimli::RunTimeEndian) -> Result<(), gimli::Error> {
-    // Load a section and return as `Cow<[u8]>`.
-    let load_section = |id: gimli::SectionId| -> Result<borrow::Cow<[u8]>, gimli::Error> {
-        match object.section_by_name(id.name()) {
-            Some(ref section) => Ok(section
-                .uncompressed_data()
-                .unwrap_or(borrow::Cow::Borrowed(&[][..]))),
-            None => Ok(borrow::Cow::Borrowed(&[][..])),
-        }
-    };
-
-    // Load all of the sections.
-    let dwarf_cow = gimli::Dwarf::load(&load_section)?;
-
-    // Borrow a `Cow<[u8]>` to create an `EndianSlice`.
-    let borrow_section: &dyn for<'a> Fn(
-        &'a borrow::Cow<[u8]>,
-    ) -> gimli::EndianSlice<'a, gimli::RunTimeEndian> =
-        &|section| gimli::EndianSlice::new(&*section, endian);
-
-    // Create `EndianSlice`s for all of the sections.
-    let dwarf = dwarf_cow.borrow(&borrow_section);
-
-    // Iterate over the compilation units.
-    let mut iter = dwarf.units();
-    while let Some(header) = iter.next()? {
-        println!(
-            "Line number info for unit at <.debug_info+0x{:x}>",
-            header.offset().as_debug_info_offset().unwrap().0
-        );
-        let unit = dwarf.unit(header)?;
-
-        // Get the line program for the compilation unit.
-        if let Some(program) = unit.line_program.clone() {
-            let comp_dir = if let Some(ref dir) = unit.comp_dir {
-                path::PathBuf::from(dir.to_string_lossy().into_owned())
-            } else {
-                path::PathBuf::new()
-            };
-
-            // Iterate over the line program rows.
-            let mut rows = program.rows();
-            while let Some((header, row)) = rows.next_row()? {
-                if row.end_sequence() {
-                    // End of sequence indicates a possible gap in addresses.
-                    println!("{:x} end-sequence", row.address());
-                } else {
-                    // Determine the path. Real applications should cache this for performance.
-                    let mut path = path::PathBuf::new();
-                    if let Some(file) = row.file(header) {
-                        path = comp_dir.clone();
-
-                        // The directory index 0 is defined to correspond to the compilation unit directory.
-                        if file.directory_index() != 0 {
-                            if let Some(dir) = file.directory(header) {
-                                path.push(
-                                    dwarf.attr_string(&unit, dir)?.to_string_lossy().as_ref(),
-                                );
-                            }
-                        }
-
-                        path.push(
-                            dwarf
-                                .attr_string(&unit, file.path_name())?
-                                .to_string_lossy()
-                                .as_ref(),
-                        );
-                    }
-
-                    // Determine line/column. DWARF line/column is never 0, so we use that
-                    // but other applications may want to display this differently.
-                    let line = match row.line() {
-                        Some(line) => line.get(),
-                        None => 0,
-                    };
-                    let column = match row.column() {
-                        gimli::ColumnType::LeftEdge => 0,
-                        gimli::ColumnType::Column(column) => column.get(),
-                    };
-
-                    println!("{:x} {}:{}:{}", row.address(), path.display(), line, column);
-                }
-            }
-        }
-    }
-    Ok(())
-}
diff --git a/vendor/gimli-0.27.3/src/arch.rs b/vendor/gimli-0.27.3/src/arch.rs
deleted file mode 100644
index abc872d83..000000000
--- a/vendor/gimli-0.27.3/src/arch.rs
+++ /dev/null
@@ -1,751 +0,0 @@
-use crate::common::Register;
-
-macro_rules! registers {
-    ($struct_name:ident, { $($name:ident = ($val:expr, $disp:expr)),+ $(,)? }
-        $(, aliases { $($alias_name:ident = ($alias_val:expr, $alias_disp:expr)),+ $(,)? })?) => {
-        #[allow(missing_docs)]
-        impl $struct_name {
-            $(
-                pub const $name: Register = Register($val);
-            )+
-            $(
-                $(pub const $alias_name: Register = Register($alias_val);)+
-            )*
-        }
-
-        impl $struct_name {
-            /// The name of a register, or `None` if the register number is unknown.
-            ///
-            /// Only returns the primary name for registers that alias with others.
-            pub fn register_name(register: Register) -> Option<&'static str> {
-                match register {
-                    $(
-                        Self::$name => Some($disp),
-                    )+
-                    _ => return None,
-                }
-            }
-
-	    /// Converts a register name into a register number.
-	    pub fn name_to_register(value: &str) -> Option<Register> {
-		match value {
-                    $(
-                        $disp => Some(Self::$name),
-                    )+
-                    $(
-                        $($alias_disp => Some(Self::$alias_name),)+
-                    )*
-                    _ => return None,
-		}
-	    }
-        }
-    };
-}
-
-/// ARM architecture specific definitions.
-///
-/// See [DWARF for the ARM Architecture](https://developer.arm.com/documentation/ihi0040/c/).
-#[derive(Debug, Clone, Copy)]
-pub struct Arm;
-
-registers!(Arm, {
-    R0 = (0, "R0"),
-    R1 = (1, "R1"),
-    R2 = (2, "R2"),
-    R3 = (3, "R3"),
-    R4 = (4, "R4"),
-    R5 = (5, "R5"),
-    R6 = (6, "R6"),
-    R7 = (7, "R7"),
-    R8 = (8, "R8"),
-    R9 = (9, "R9"),
-    R10 = (10, "R10"),
-    R11 = (11, "R11"),
-    R12 = (12, "R12"),
-    R13 = (13, "R13"),
-    R14 = (14, "R14"),
-    R15 = (15, "R15"),
-
-    WCGR0 = (104, "wCGR0"),
-    WCGR1 = (105, "wCGR1"),
-    WCGR2 = (106, "wCGR2"),
-    WCGR3 = (107, "wCGR3"),
-    WCGR4 = (108, "wCGR4"),
-    WCGR5 = (109, "wCGR5"),
-    WCGR6 = (110, "wCGR6"),
-    WCGR7 = (111, "wCGR7"),
-
-    WR0 = (112, "wR0"),
-    WR1 = (113, "wR1"),
-    WR2 = (114, "wR2"),
-    WR3 = (115, "wR3"),
-    WR4 = (116, "wR4"),
-    WR5 = (117, "wR5"),
-    WR6 = (118, "wR6"),
-    WR7 = (119, "wR7"),
-    WR8 = (120, "wR8"),
-    WR9 = (121, "wR9"),
-    WR10 = (122, "wR10"),
-    WR11 = (123, "wR11"),
-    WR12 = (124, "wR12"),
-    WR13 = (125, "wR13"),
-    WR14 = (126, "wR14"),
-    WR15 = (127, "wR15"),
-
-    SPSR = (128, "SPSR"),
-    SPSR_FIQ = (129, "SPSR_FIQ"),
-    SPSR_IRQ = (130, "SPSR_IRQ"),
-    SPSR_ABT = (131, "SPSR_ABT"),
-    SPSR_UND = (132, "SPSR_UND"),
-    SPSR_SVC = (133, "SPSR_SVC"),
-
-    R8_USR = (144, "R8_USR"),
-    R9_USR = (145, "R9_USR"),
-    R10_USR = (146, "R10_USR"),
-    R11_USR = (147, "R11_USR"),
-    R12_USR = (148, "R12_USR"),
-    R13_USR = (149, "R13_USR"),
-    R14_USR = (150, "R14_USR"),
-
-    R8_FIQ = (151, "R8_FIQ"),
-    R9_FIQ = (152, "R9_FIQ"),
-    R10_FIQ = (153, "R10_FIQ"),
-    R11_FIQ = (154, "R11_FIQ"),
-    R12_FIQ = (155, "R12_FIQ"),
-    R13_FIQ = (156, "R13_FIQ"),
-    R14_FIQ = (157, "R14_FIQ"),
-
-    R13_IRQ = (158, "R13_IRQ"),
-    R14_IRQ = (159, "R14_IRQ"),
-
-    R13_ABT = (160, "R13_ABT"),
-    R14_ABT = (161, "R14_ABT"),
-
-    R13_UND = (162, "R13_UND"),
-    R14_UND = (163, "R14_UND"),
-
-    R13_SVC = (164, "R13_SVC"),
-    R14_SVC = (165, "R14_SVC"),
-
-    WC0 = (192, "wC0"),
-    WC1 = (193, "wC1"),
-    WC2 = (194, "wC2"),
-    WC3 = (195, "wC3"),
-    WC4 = (196, "wC4"),
-    WC5 = (197, "wC5"),
-    WC6 = (198, "wC6"),
-    WC7 = (199, "wC7"),
-
-    D0 = (256, "D0"),
-    D1 = (257, "D1"),
-    D2 = (258, "D2"),
-    D3 = (259, "D3"),
-    D4 = (260, "D4"),
-    D5 = (261, "D5"),
-    D6 = (262, "D6"),
-    D7 = (263, "D7"),
-    D8 = (264, "D8"),
-    D9 = (265, "D9"),
-    D10 = (266, "D10"),
-    D11 = (267, "D11"),
-    D12 = (268, "D12"),
-    D13 = (269, "D13"),
-    D14 = (270, "D14"),
-    D15 = (271, "D15"),
-    D16 = (272, "D16"),
-    D17 = (273, "D17"),
-    D18 = (274, "D18"),
-    D19 = (275, "D19"),
-    D20 = (276, "D20"),
-    D21 = (277, "D21"),
-    D22 = (278, "D22"),
-    D23 = (279, "D23"),
-    D24 = (280, "D24"),
-    D25 = (281, "D25"),
-    D26 = (282, "D26"),
-    D27 = (283, "D27"),
-    D28 = (284, "D28"),
-    D29 = (285, "D29"),
-    D30 = (286, "D30"),
-    D31 = (287, "D31"),
-},
-aliases {
-    SP = (13, "SP"),
-    LR = (14, "LR"),
-    PC = (15, "PC"),
-
-    ACC0 = (104, "ACC0"),
-    ACC1 = (105, "ACC1"),
-    ACC2 = (106, "ACC2"),
-    ACC3 = (107, "ACC3"),
-    ACC4 = (108, "ACC4"),
-    ACC5 = (109, "ACC5"),
-    ACC6 = (110, "ACC6"),
-    ACC7 = (111, "ACC7"),
-
-    S0 = (256, "S0"),
-    S1 = (256, "S1"),
-    S2 = (257, "S2"),
-    S3 = (257, "S3"),
-    S4 = (258, "S4"),
-    S5 = (258, "S5"),
-    S6 = (259, "S6"),
-    S7 = (259, "S7"),
-    S8 = (260, "S8"),
-    S9 = (260, "S9"),
-    S10 = (261, "S10"),
-    S11 = (261, "S11"),
-    S12 = (262, "S12"),
-    S13 = (262, "S13"),
-    S14 = (263, "S14"),
-    S15 = (263, "S15"),
-    S16 = (264, "S16"),
-    S17 = (264, "S17"),
-    S18 = (265, "S18"),
-    S19 = (265, "S19"),
-    S20 = (266, "S20"),
-    S21 = (266, "S21"),
-    S22 = (267, "S22"),
-    S23 = (267, "S23"),
-    S24 = (268, "S24"),
-    S25 = (268, "S25"),
-    S26 = (269, "S26"),
-    S27 = (269, "S27"),
-    S28 = (270, "S28"),
-    S29 = (270, "S29"),
-    S30 = (271, "S30"),
-    S31 = (271, "S31"),
-});
-
-/// ARM 64-bit (AArch64) architecture specific definitions.
-///
-/// See [DWARF for the ARM 64-bit Architecture](https://developer.arm.com/documentation/ihi0057/b/).
-#[derive(Debug, Clone, Copy)]
-pub struct AArch64;
-
-registers!(AArch64, {
-    X0 = (0, "X0"),
-    X1 = (1, "X1"),
-    X2 = (2, "X2"),
-    X3 = (3, "X3"),
-    X4 = (4, "X4"),
-    X5 = (5, "X5"),
-    X6 = (6, "X6"),
-    X7 = (7, "X7"),
-    X8 = (8, "X8"),
-    X9 = (9, "X9"),
-    X10 = (10, "X10"),
-    X11 = (11, "X11"),
-    X12 = (12, "X12"),
-    X13 = (13, "X13"),
-    X14 = (14, "X14"),
-    X15 = (15, "X15"),
-    X16 = (16, "X16"),
-    X17 = (17, "X17"),
-    X18 = (18, "X18"),
-    X19 = (19, "X19"),
-    X20 = (20, "X20"),
-    X21 = (21, "X21"),
-    X22 = (22, "X22"),
-    X23 = (23, "X23"),
-    X24 = (24, "X24"),
-    X25 = (25, "X25"),
-    X26 = (26, "X26"),
-    X27 = (27, "X27"),
-    X28 = (28, "X28"),
-    X29 = (29, "X29"),
-    X30 = (30, "X30"),
-    SP = (31, "SP"),
-
-    V0 = (64, "V0"),
-    V1 = (65, "V1"),
-    V2 = (66, "V2"),
-    V3 = (67, "V3"),
-    V4 = (68, "V4"),
-    V5 = (69, "V5"),
-    V6 = (70, "V6"),
-    V7 = (71, "V7"),
-    V8 = (72, "V8"),
-    V9 = (73, "V9"),
-    V10 = (74, "V10"),
-    V11 = (75, "V11"),
-    V12 = (76, "V12"),
-    V13 = (77, "V13"),
-    V14 = (78, "V14"),
-    V15 = (79, "V15"),
-    V16 = (80, "V16"),
-    V17 = (81, "V17"),
-    V18 = (82, "V18"),
-    V19 = (83, "V19"),
-    V20 = (84, "V20"),
-    V21 = (85, "V21"),
-    V22 = (86, "V22"),
-    V23 = (87, "V23"),
-    V24 = (88, "V24"),
-    V25 = (89, "V25"),
-    V26 = (90, "V26"),
-    V27 = (91, "V27"),
-    V28 = (92, "V28"),
-    V29 = (93, "V29"),
-    V30 = (94, "V30"),
-    V31 = (95, "V31"),
-});
-
-/// LoongArch architecture specific definitions.
-///
-/// See [LoongArch ELF psABI specification](https://loongson.github.io/LoongArch-Documentation/LoongArch-ELF-ABI-EN.html).
-#[derive(Debug, Clone, Copy)]
-pub struct LoongArch;
-
-registers!(LoongArch, {
-    R0 = (0, "$r0"),
-    R1 = (1, "$r1"),
-    R2 = (2, "$r2"),
-    R3 = (3, "$r3"),
-    R4 = (4, "$r4"),
-    R5 = (5, "$r5"),
-    R6 = (6, "$r6"),
-    R7 = (7, "$r7"),
-    R8 = (8, "$r8"),
-    R9 = (9, "$r9"),
-    R10 = (10, "$r10"),
-    R11 = (11, "$r11"),
-    R12 = (12, "$r12"),
-    R13 = (13, "$r13"),
-    R14 = (14, "$r14"),
-    R15 = (15, "$r15"),
-    R16 = (16, "$r16"),
-    R17 = (17, "$r17"),
-    R18 = (18, "$r18"),
-    R19 = (19, "$r19"),
-    R20 = (20, "$r20"),
-    R21 = (21, "$r21"),
-    R22 = (22, "$r22"),
-    R23 = (23, "$r23"),
-    R24 = (24, "$r24"),
-    R25 = (25, "$r25"),
-    R26 = (26, "$r26"),
-    R27 = (27, "$r27"),
-    R28 = (28, "$r28"),
-    R29 = (29, "$r29"),
-    R30 = (30, "$r30"),
-    R31 = (31, "$r31"),
-
-    F0 = (32, "$f0"),
-    F1 = (33, "$f1"),
-    F2 = (34, "$f2"),
-    F3 = (35, "$f3"),
-    F4 = (36, "$f4"),
-    F5 = (37, "$f5"),
-    F6 = (38, "$f6"),
-    F7 = (39, "$f7"),
-    F8 = (40, "$f8"),
-    F9 = (41, "$f9"),
-    F10 = (42, "$f10"),
-    F11 = (43, "$f11"),
-    F12 = (44, "$f12"),
-    F13 = (45, "$f13"),
-    F14 = (46, "$f14"),
-    F15 = (47, "$f15"),
-    F16 = (48, "$f16"),
-    F17 = (49, "$f17"),
-    F18 = (50, "$f18"),
-    F19 = (51, "$f19"),
-    F20 = (52, "$f20"),
-    F21 = (53, "$f21"),
-    F22 = (54, "$f22"),
-    F23 = (55, "$f23"),
-    F24 = (56, "$f24"),
-    F25 = (57, "$f25"),
-    F26 = (58, "$f26"),
-    F27 = (59, "$f27"),
-    F28 = (60, "$f28"),
-    F29 = (61, "$f29"),
-    F30 = (62, "$f30"),
-    F31 = (63, "$f31"),
-    FCC0 = (64, "$fcc0"),
-    FCC1 = (65, "$fcc1"),
-    FCC2 = (66, "$fcc2"),
-    FCC3 = (67, "$fcc3"),
-    FCC4 = (68, "$fcc4"),
-    FCC5 = (69, "$fcc5"),
-    FCC6 = (70, "$fcc6"),
-    FCC7 = (71, "$fcc7"),
-},
-aliases {
-    ZERO = (0, "$zero"),
-    RA = (1, "$ra"),
-    TP = (2, "$tp"),
-    SP = (3, "$sp"),
-    A0 = (4, "$a0"),
-    A1 = (5, "$a1"),
-    A2 = (6, "$a2"),
-    A3 = (7, "$a3"),
-    A4 = (8, "$a4"),
-    A5 = (9, "$a5"),
-    A6 = (10, "$a6"),
-    A7 = (11, "$a7"),
-    T0 = (12, "$t0"),
-    T1 = (13, "$t1"),
-    T2 = (14, "$t2"),
-    T3 = (15, "$t3"),
-    T4 = (16, "$t4"),
-    T5 = (17, "$t5"),
-    T6 = (18, "$t6"),
-    T7 = (19, "$t7"),
-    T8 = (20, "$t8"),
-    FP = (22, "$fp"),
-    S0 = (23, "$s0"),
-    S1 = (24, "$s1"),
-    S2 = (25, "$s2"),
-    S3 = (26, "$s3"),
-    S4 = (27, "$s4"),
-    S5 = (28, "$s5"),
-    S6 = (29, "$s6"),
-    S7 = (30, "$s7"),
-    S8 = (31, "$s8"),
-
-    FA0 = (32, "$fa0"),
-    FA1 = (33, "$fa1"),
-    FA2 = (34, "$fa2"),
-    FA3 = (35, "$fa3"),
-    FA4 = (36, "$fa4"),
-    FA5 = (37, "$fa5"),
-    FA6 = (38, "$fa6"),
-    FA7 = (39, "$fa7"),
-    FT0 = (40, "$ft0"),
-    FT1 = (41, "$ft1"),
-    FT2 = (42, "$ft2"),
-    FT3 = (43, "$ft3"),
-    FT4 = (44, "$ft4"),
-    FT5 = (45, "$ft5"),
-    FT6 = (46, "$ft6"),
-    FT7 = (47, "$ft7"),
-    FT8 = (48, "$ft8"),
-    FT9 = (49, "$ft9"),
-    FT10 = (50, "$ft10"),
-    FT11 = (51, "$ft11"),
-    FT12 = (52, "$ft12"),
-    FT13 = (53, "$ft13"),
-    FT14 = (54, "$ft14"),
-    FT15 = (55, "$ft15"),
-    FS0 = (56, "$fs0"),
-    FS1 = (57, "$fs1"),
-    FS2 = (58, "$fs2"),
-    FS3 = (59, "$fs3"),
-    FS4 = (60, "$fs4"),
-    FS5 = (61, "$fs5"),
-    FS6 = (62, "$fs6"),
-    FS7 = (63, "$fs7"),
-});
-
-/// RISC-V architecture specific definitions.
-///
-/// See [RISC-V ELF psABI specification](https://github.com/riscv/riscv-elf-psabi-doc).
-#[derive(Debug, Clone, Copy)]
-pub struct RiscV;
-
-registers!(RiscV, {
-    X0 = (0, "x0"),
-    X1 = (1, "x1"),
-    X2 = (2, "x2"),
-    X3 = (3, "x3"),
-    X4 = (4, "x4"),
-    X5 = (5, "x5"),
-    X6 = (6, "x6"),
-    X7 = (7, "x7"),
-    X8 = (8, "x8"),
-    X9 = (9, "x9"),
-    X10 = (10, "x10"),
-    X11 = (11, "x11"),
-    X12 = (12, "x12"),
-    X13 = (13, "x13"),
-    X14 = (14, "x14"),
-    X15 = (15, "x15"),
-    X16 = (16, "x16"),
-    X17 = (17, "x17"),
-    X18 = (18, "x18"),
-    X19 = (19, "x19"),
-    X20 = (20, "x20"),
-    X21 = (21, "x21"),
-    X22 = (22, "x22"),
-    X23 = (23, "x23"),
-    X24 = (24, "x24"),
-    X25 = (25, "x25"),
-    X26 = (26, "x26"),
-    X27 = (27, "x27"),
-    X28 = (28, "x28"),
-    X29 = (29, "x29"),
-    X30 = (30, "x30"),
-    X31 = (31, "x31"),
-
-    F0 = (32, "f0"),
-    F1 = (33, "f1"),
-    F2 = (34, "f2"),
-    F3 = (35, "f3"),
-    F4 = (36, "f4"),
-    F5 = (37, "f5"),
-    F6 = (38, "f6"),
-    F7 = (39, "f7"),
-    F8 = (40, "f8"),
-    F9 = (41, "f9"),
-    F10 = (42, "f10"),
-    F11 = (43, "f11"),
-    F12 = (44, "f12"),
-    F13 = (45, "f13"),
-    F14 = (46, "f14"),
-    F15 = (47, "f15"),
-    F16 = (48, "f16"),
-    F17 = (49, "f17"),
-    F18 = (50, "f18"),
-    F19 = (51, "f19"),
-    F20 = (52, "f20"),
-    F21 = (53, "f21"),
-    F22 = (54, "f22"),
-    F23 = (55, "f23"),
-    F24 = (56, "f24"),
-    F25 = (57, "f25"),
-    F26 = (58, "f26"),
-    F27 = (59, "f27"),
-    F28 = (60, "f28"),
-    F29 = (61, "f29"),
-    F30 = (62, "f30"),
-    F31 = (63, "f31"),
-},
-aliases {
-    ZERO = (0, "zero"),
-    RA = (1, "ra"),
-    SP = (2, "sp"),
-    GP = (3, "gp"),
-    TP = (4, "tp"),
-    T0 = (5, "t0"),
-    T1 = (6, "t1"),
-    T2 = (7, "t2"),
-    S0 = (8, "s0"),
-    S1 = (9, "s1"),
-    A0 = (10, "a0"),
-    A1 = (11, "a1"),
-    A2 = (12, "a2"),
-    A3 = (13, "a3"),
-    A4 = (14, "a4"),
-    A5 = (15, "a5"),
-    A6 = (16, "a6"),
-    A7 = (17, "a7"),
-    S2 = (18, "s2"),
-    S3 = (19, "s3"),
-    S4 = (20, "s4"),
-    S5 = (21, "s5"),
-    S6 = (22, "s6"),
-    S7 = (23, "s7"),
-    S8 = (24, "s8"),
-    S9 = (25, "s9"),
-    S10 = (26, "s10"),
-    S11 = (27, "s11"),
-    T3 = (28, "t3"),
-    T4 = (29, "t4"),
-    T5 = (30, "t5"),
-    T6 = (31, "t6"),
-
-    FT0 = (32, "ft0"),
-    FT1 = (33, "ft1"),
-    FT2 = (34, "ft2"),
-    FT3 = (35, "ft3"),
-    FT4 = (36, "ft4"),
-    FT5 = (37, "ft5"),
-    FT6 = (38, "ft6"),
-    FT7 = (39, "ft7"),
-    FS0 = (40, "fs0"),
-    FS1 = (41, "fs1"),
-    FA0 = (42, "fa0"),
-    FA1 = (43, "fa1"),
-    FA2 = (44, "fa2"),
-    FA3 = (45, "fa3"),
-    FA4 = (46, "fa4"),
-    FA5 = (47, "fa5"),
-    FA6 = (48, "fa6"),
-    FA7 = (49, "fa7"),
-    FS2 = (50, "fs2"),
-    FS3 = (51, "fs3"),
-    FS4 = (52, "fs4"),
-    FS5 = (53, "fs5"),
-    FS6 = (54, "fs6"),
-    FS7 = (55, "fs7"),
-    FS8 = (56, "fs8"),
-    FS9 = (57, "fs9"),
-    FS10 = (58, "fs10"),
-    FS11 = (59, "fs11"),
-    FT8 = (60, "ft8"),
-    FT9 = (61, "ft9"),
-    FT10 = (62, "ft10"),
-    FT11 = (63, "ft11"),
-});
-
-/// Intel i386 architecture specific definitions.
-///
-/// See Intel386 psABi version 1.1 at the [X86 psABI wiki](https://github.com/hjl-tools/x86-psABI/wiki/X86-psABI).
-#[derive(Debug, Clone, Copy)]
-pub struct X86;
-
-registers!(X86, {
-    EAX = (0, "eax"),
-    ECX = (1, "ecx"),
-    EDX = (2, "edx"),
-    EBX = (3, "ebx"),
-    ESP = (4, "esp"),
-    EBP = (5, "ebp"),
-    ESI = (6, "esi"),
-    EDI = (7, "edi"),
-
-    // Return Address register. This is stored in `0(%esp, "")` and is not a physical register.
-    RA = (8, "RA"),
-
-    ST0 = (11, "st0"),
-    ST1 = (12, "st1"),
-    ST2 = (13, "st2"),
-    ST3 = (14, "st3"),
-    ST4 = (15, "st4"),
-    ST5 = (16, "st5"),
-    ST6 = (17, "st6"),
-    ST7 = (18, "st7"),
-
-    XMM0 = (21, "xmm0"),
-    XMM1 = (22, "xmm1"),
-    XMM2 = (23, "xmm2"),
-    XMM3 = (24, "xmm3"),
-    XMM4 = (25, "xmm4"),
-    XMM5 = (26, "xmm5"),
-    XMM6 = (27, "xmm6"),
-    XMM7 = (28, "xmm7"),
-
-    MM0 = (29, "mm0"),
-    MM1 = (30, "mm1"),
-    MM2 = (31, "mm2"),
-    MM3 = (32, "mm3"),
-    MM4 = (33, "mm4"),
-    MM5 = (34, "mm5"),
-    MM6 = (35, "mm6"),
-    MM7 = (36, "mm7"),
-
-    MXCSR = (39, "mxcsr"),
-
-    ES = (40, "es"),
-    CS = (41, "cs"),
-    SS = (42, "ss"),
-    DS = (43, "ds"),
-    FS = (44, "fs"),
-    GS = (45, "gs"),
-
-    TR = (48, "tr"),
-    LDTR = (49, "ldtr"),
-
-    FS_BASE = (93, "fs.base"),
-    GS_BASE = (94, "gs.base"),
-});
-
-/// AMD64 architecture specific definitions.
-///
-/// See x86-64 psABI version 1.0 at the [X86 psABI wiki](https://github.com/hjl-tools/x86-psABI/wiki/X86-psABI).
-#[derive(Debug, Clone, Copy)]
-pub struct X86_64;
-
-registers!(X86_64, {
-    RAX = (0, "rax"),
-    RDX = (1, "rdx"),
-    RCX = (2, "rcx"),
-    RBX = (3, "rbx"),
-    RSI = (4, "rsi"),
-    RDI = (5, "rdi"),
-    RBP = (6, "rbp"),
-    RSP = (7, "rsp"),
-
-    R8 = (8, "r8"),
-    R9 = (9, "r9"),
-    R10 = (10, "r10"),
-    R11 = (11, "r11"),
-    R12 = (12, "r12"),
-    R13 = (13, "r13"),
-    R14 = (14, "r14"),
-    R15 = (15, "r15"),
-
-    // Return Address register. This is stored in `0(%rsp, "")` and is not a physical register.
-    RA = (16, "RA"),
-
-    XMM0 = (17, "xmm0"),
-    XMM1 = (18, "xmm1"),
-    XMM2 = (19, "xmm2"),
-    XMM3 = (20, "xmm3"),
-    XMM4 = (21, "xmm4"),
-    XMM5 = (22, "xmm5"),
-    XMM6 = (23, "xmm6"),
-    XMM7 = (24, "xmm7"),
-
-    XMM8 = (25, "xmm8"),
-    XMM9 = (26, "xmm9"),
-    XMM10 = (27, "xmm10"),
-    XMM11 = (28, "xmm11"),
-    XMM12 = (29, "xmm12"),
-    XMM13 = (30, "xmm13"),
-    XMM14 = (31, "xmm14"),
-    XMM15 = (32, "xmm15"),
-
-    ST0 = (33, "st0"),
-    ST1 = (34, "st1"),
-    ST2 = (35, "st2"),
-    ST3 = (36, "st3"),
-    ST4 = (37, "st4"),
-    ST5 = (38, "st5"),
-    ST6 = (39, "st6"),
-    ST7 = (40, "st7"),
-
-    MM0 = (41, "mm0"),
-    MM1 = (42, "mm1"),
-    MM2 = (43, "mm2"),
-    MM3 = (44, "mm3"),
-    MM4 = (45, "mm4"),
-    MM5 = (46, "mm5"),
-    MM6 = (47, "mm6"),
-    MM7 = (48, "mm7"),
-
-    RFLAGS = (49, "rFLAGS"),
-    ES = (50, "es"),
-    CS = (51, "cs"),
-    SS = (52, "ss"),
-    DS = (53, "ds"),
-    FS = (54, "fs"),
-    GS = (55, "gs"),
-
-    FS_BASE = (58, "fs.base"),
-    GS_BASE = (59, "gs.base"),
-
-    TR = (62, "tr"),
-    LDTR = (63, "ldtr"),
-    MXCSR = (64, "mxcsr"),
-    FCW = (65, "fcw"),
-    FSW = (66, "fsw"),
-
-    XMM16 = (67, "xmm16"),
-    XMM17 = (68, "xmm17"),
-    XMM18 = (69, "xmm18"),
-    XMM19 = (70, "xmm19"),
-    XMM20 = (71, "xmm20"),
-    XMM21 = (72, "xmm21"),
-    XMM22 = (73, "xmm22"),
-    XMM23 = (74, "xmm23"),
-    XMM24 = (75, "xmm24"),
-    XMM25 = (76, "xmm25"),
-    XMM26 = (77, "xmm26"),
-    XMM27 = (78, "xmm27"),
-    XMM28 = (79, "xmm28"),
-    XMM29 = (80, "xmm29"),
-    XMM30 = (81, "xmm30"),
-    XMM31 = (82, "xmm31"),
-
-    K0 = (118, "k0"),
-    K1 = (119, "k1"),
-    K2 = (120, "k2"),
-    K3 = (121, "k3"),
-    K4 = (122, "k4"),
-    K5 = (123, "k5"),
-    K6 = (124, "k6"),
-    K7 = (125, "k7"),
-});
diff --git a/vendor/gimli-0.27.3/src/common.rs b/vendor/gimli-0.27.3/src/common.rs
deleted file mode 100644
index 3c8073622..000000000
--- a/vendor/gimli-0.27.3/src/common.rs
+++ /dev/null
@@ -1,381 +0,0 @@
-/// Whether the format of a compilation unit is 32- or 64-bit.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub enum Format {
-    /// 64-bit DWARF
-    Dwarf64 = 8,
-    /// 32-bit DWARF
-    Dwarf32 = 4,
-}
-
-impl Format {
-    /// Return the serialized size of an initial length field for the format.
-    #[inline]
-    pub fn initial_length_size(self) -> u8 {
-        match self {
-            Format::Dwarf32 => 4,
-            Format::Dwarf64 => 12,
-        }
-    }
-
-    /// Return the natural word size for the format
-    #[inline]
-    pub fn word_size(self) -> u8 {
-        match self {
-            Format::Dwarf32 => 4,
-            Format::Dwarf64 => 8,
-        }
-    }
-}
-
-/// Encoding parameters that are commonly used for multiple DWARF sections.
-///
-/// This is intended to be small enough to pass by value.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-// `address_size` and `format` are used more often than `version`, so keep
-// them first.
-#[repr(C)]
-pub struct Encoding {
-    /// The size of an address.
-    pub address_size: u8,
-
-    // The size of a segment selector.
-    // TODO: pub segment_size: u8,
-    /// Whether the DWARF format is 32- or 64-bit.
-    pub format: Format,
-
-    /// The DWARF version of the header.
-    pub version: u16,
-}
-
-/// Encoding parameters for a line number program.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct LineEncoding {
-    /// The size in bytes of the smallest target machine instruction.
-    pub minimum_instruction_length: u8,
-
-    /// The maximum number of individual operations that may be encoded in an
-    /// instruction.
-    pub maximum_operations_per_instruction: u8,
-
-    /// The initial value of the `is_stmt` register.
-    pub default_is_stmt: bool,
-
-    /// The minimum value which a special opcode can add to the line register.
-    pub line_base: i8,
-
-    /// The range of values which a special opcode can add to the line register.
-    pub line_range: u8,
-}
-
-impl Default for LineEncoding {
-    fn default() -> Self {
-        // Values from LLVM.
-        LineEncoding {
-            minimum_instruction_length: 1,
-            maximum_operations_per_instruction: 1,
-            default_is_stmt: true,
-            line_base: -5,
-            line_range: 14,
-        }
-    }
-}
-
-/// A DWARF register number.
-///
-/// The meaning of this value is ABI dependent. This is generally encoded as
-/// a ULEB128, but supported architectures need 16 bits at most.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)]
-pub struct Register(pub u16);
-
-/// An offset into the `.debug_abbrev` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DebugAbbrevOffset<T = usize>(pub T);
-
-/// An offset to a set of entries in the `.debug_addr` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugAddrBase<T = usize>(pub T);
-
-/// An index into a set of addresses in the `.debug_addr` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugAddrIndex<T = usize>(pub T);
-
-/// An offset into the `.debug_aranges` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugArangesOffset<T = usize>(pub T);
-
-/// An offset into the `.debug_info` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Hash)]
-pub struct DebugInfoOffset<T = usize>(pub T);
-
-/// An offset into the `.debug_line` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugLineOffset<T = usize>(pub T);
-
-/// An offset into the `.debug_line_str` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugLineStrOffset<T = usize>(pub T);
-
-/// An offset into either the `.debug_loc` section or the `.debug_loclists` section,
-/// depending on the version of the unit the offset was contained in.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct LocationListsOffset<T = usize>(pub T);
-
-/// An offset to a set of location list offsets in the `.debug_loclists` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugLocListsBase<T = usize>(pub T);
-
-/// An index into a set of location list offsets in the `.debug_loclists` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugLocListsIndex<T = usize>(pub T);
-
-/// An offset into the `.debug_macinfo` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DebugMacinfoOffset<T = usize>(pub T);
-
-/// An offset into the `.debug_macro` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DebugMacroOffset<T = usize>(pub T);
-
-/// An offset into either the `.debug_ranges` section or the `.debug_rnglists` section,
-/// depending on the version of the unit the offset was contained in.
-///
-/// If this is from a DWARF 4 DWO file, then it must additionally be offset by the
-/// value of `DW_AT_GNU_ranges_base`. You can use `Dwarf::ranges_offset_from_raw` to do this.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct RawRangeListsOffset<T = usize>(pub T);
-
-/// An offset into either the `.debug_ranges` section or the `.debug_rnglists` section,
-/// depending on the version of the unit the offset was contained in.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct RangeListsOffset<T = usize>(pub T);
-
-/// An offset to a set of range list offsets in the `.debug_rnglists` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugRngListsBase<T = usize>(pub T);
-
-/// An index into a set of range list offsets in the `.debug_rnglists` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugRngListsIndex<T = usize>(pub T);
-
-/// An offset into the `.debug_str` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugStrOffset<T = usize>(pub T);
-
-/// An offset to a set of entries in the `.debug_str_offsets` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugStrOffsetsBase<T = usize>(pub T);
-
-/// An index into a set of entries in the `.debug_str_offsets` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct DebugStrOffsetsIndex<T = usize>(pub T);
-
-/// An offset into the `.debug_types` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Hash)]
-pub struct DebugTypesOffset<T = usize>(pub T);
-
-/// A type signature as used in the `.debug_types` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DebugTypeSignature(pub u64);
-
-/// An offset into the `.debug_frame` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DebugFrameOffset<T = usize>(pub T);
-
-impl<T> From<T> for DebugFrameOffset<T> {
-    #[inline]
-    fn from(o: T) -> Self {
-        DebugFrameOffset(o)
-    }
-}
-
-/// An offset into the `.eh_frame` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct EhFrameOffset<T = usize>(pub T);
-
-impl<T> From<T> for EhFrameOffset<T> {
-    #[inline]
-    fn from(o: T) -> Self {
-        EhFrameOffset(o)
-    }
-}
-
-/// An offset into the `.debug_info` or `.debug_types` sections.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Hash)]
-pub enum UnitSectionOffset<T = usize> {
-    /// An offset into the `.debug_info` section.
-    DebugInfoOffset(DebugInfoOffset<T>),
-    /// An offset into the `.debug_types` section.
-    DebugTypesOffset(DebugTypesOffset<T>),
-}
-
-impl<T> From<DebugInfoOffset<T>> for UnitSectionOffset<T> {
-    fn from(offset: DebugInfoOffset<T>) -> Self {
-        UnitSectionOffset::DebugInfoOffset(offset)
-    }
-}
-
-impl<T> From<DebugTypesOffset<T>> for UnitSectionOffset<T> {
-    fn from(offset: DebugTypesOffset<T>) -> Self {
-        UnitSectionOffset::DebugTypesOffset(offset)
-    }
-}
-
-impl<T> UnitSectionOffset<T>
-where
-    T: Clone,
-{
-    /// Returns the `DebugInfoOffset` inside, or `None` otherwise.
-    pub fn as_debug_info_offset(&self) -> Option<DebugInfoOffset<T>> {
-        match self {
-            UnitSectionOffset::DebugInfoOffset(offset) => Some(offset.clone()),
-            UnitSectionOffset::DebugTypesOffset(_) => None,
-        }
-    }
-    /// Returns the `DebugTypesOffset` inside, or `None` otherwise.
-    pub fn as_debug_types_offset(&self) -> Option<DebugTypesOffset<T>> {
-        match self {
-            UnitSectionOffset::DebugInfoOffset(_) => None,
-            UnitSectionOffset::DebugTypesOffset(offset) => Some(offset.clone()),
-        }
-    }
-}
-
-/// An identifier for a DWARF section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Hash)]
-pub enum SectionId {
-    /// The `.debug_abbrev` section.
-    DebugAbbrev,
-    /// The `.debug_addr` section.
-    DebugAddr,
-    /// The `.debug_aranges` section.
-    DebugAranges,
-    /// The `.debug_cu_index` section.
-    DebugCuIndex,
-    /// The `.debug_frame` section.
-    DebugFrame,
-    /// The `.eh_frame` section.
-    EhFrame,
-    /// The `.eh_frame_hdr` section.
-    EhFrameHdr,
-    /// The `.debug_info` section.
-    DebugInfo,
-    /// The `.debug_line` section.
-    DebugLine,
-    /// The `.debug_line_str` section.
-    DebugLineStr,
-    /// The `.debug_loc` section.
-    DebugLoc,
-    /// The `.debug_loclists` section.
-    DebugLocLists,
-    /// The `.debug_macinfo` section.
-    DebugMacinfo,
-    /// The `.debug_macro` section.
-    DebugMacro,
-    /// The `.debug_pubnames` section.
-    DebugPubNames,
-    /// The `.debug_pubtypes` section.
-    DebugPubTypes,
-    /// The `.debug_ranges` section.
-    DebugRanges,
-    /// The `.debug_rnglists` section.
-    DebugRngLists,
-    /// The `.debug_str` section.
-    DebugStr,
-    /// The `.debug_str_offsets` section.
-    DebugStrOffsets,
-    /// The `.debug_tu_index` section.
-    DebugTuIndex,
-    /// The `.debug_types` section.
-    DebugTypes,
-}
-
-impl SectionId {
-    /// Returns the ELF section name for this kind.
-    pub fn name(self) -> &'static str {
-        match self {
-            SectionId::DebugAbbrev => ".debug_abbrev",
-            SectionId::DebugAddr => ".debug_addr",
-            SectionId::DebugAranges => ".debug_aranges",
-            SectionId::DebugCuIndex => ".debug_cu_index",
-            SectionId::DebugFrame => ".debug_frame",
-            SectionId::EhFrame => ".eh_frame",
-            SectionId::EhFrameHdr => ".eh_frame_hdr",
-            SectionId::DebugInfo => ".debug_info",
-            SectionId::DebugLine => ".debug_line",
-            SectionId::DebugLineStr => ".debug_line_str",
-            SectionId::DebugLoc => ".debug_loc",
-            SectionId::DebugLocLists => ".debug_loclists",
-            SectionId::DebugMacinfo => ".debug_macinfo",
-            SectionId::DebugMacro => ".debug_macro",
-            SectionId::DebugPubNames => ".debug_pubnames",
-            SectionId::DebugPubTypes => ".debug_pubtypes",
-            SectionId::DebugRanges => ".debug_ranges",
-            SectionId::DebugRngLists => ".debug_rnglists",
-            SectionId::DebugStr => ".debug_str",
-            SectionId::DebugStrOffsets => ".debug_str_offsets",
-            SectionId::DebugTuIndex => ".debug_tu_index",
-            SectionId::DebugTypes => ".debug_types",
-        }
-    }
-
-    /// Returns the ELF section name for this kind, when found in a .dwo or .dwp file.
-    pub fn dwo_name(self) -> Option<&'static str> {
-        Some(match self {
-            SectionId::DebugAbbrev => ".debug_abbrev.dwo",
-            SectionId::DebugCuIndex => ".debug_cu_index",
-            SectionId::DebugInfo => ".debug_info.dwo",
-            SectionId::DebugLine => ".debug_line.dwo",
-            // The debug_loc section can be present in the dwo when using the
-            // GNU split-dwarf extension to DWARF4.
-            SectionId::DebugLoc => ".debug_loc.dwo",
-            SectionId::DebugLocLists => ".debug_loclists.dwo",
-            SectionId::DebugMacro => ".debug_macro.dwo",
-            SectionId::DebugRngLists => ".debug_rnglists.dwo",
-            SectionId::DebugStr => ".debug_str.dwo",
-            SectionId::DebugStrOffsets => ".debug_str_offsets.dwo",
-            SectionId::DebugTuIndex => ".debug_tu_index",
-            SectionId::DebugTypes => ".debug_types.dwo",
-            _ => return None,
-        })
-    }
-
-    /// Returns the XCOFF section name for this kind.
-    pub fn xcoff_name(self) -> Option<&'static str> {
-        Some(match self {
-            SectionId::DebugAbbrev => ".dwabrev",
-            SectionId::DebugAranges => ".dwarnge",
-            SectionId::DebugFrame => ".dwframe",
-            SectionId::DebugInfo => ".dwinfo",
-            SectionId::DebugLine => ".dwline",
-            SectionId::DebugLoc => ".dwloc",
-            SectionId::DebugMacinfo => ".dwmac",
-            SectionId::DebugPubNames => ".dwpbnms",
-            SectionId::DebugPubTypes => ".dwpbtyp",
-            SectionId::DebugRanges => ".dwrnges",
-            SectionId::DebugStr => ".dwstr",
-            _ => return None,
-        })
-    }
-}
-
-/// An optionally-provided implementation-defined compilation unit ID to enable
-/// split DWARF and linking a split compilation unit back together.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DwoId(pub u64);
-
-/// The "type" of file with DWARF debugging information. This determines, among other things,
-/// which files DWARF sections should be loaded from.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum DwarfFileType {
-    /// A normal executable or object file.
-    Main,
-    /// A .dwo split DWARF file.
-    Dwo,
-    // TODO: Supplementary files, .dwps?
-}
-
-impl Default for DwarfFileType {
-    fn default() -> Self {
-        DwarfFileType::Main
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/constants.rs b/vendor/gimli-0.27.3/src/constants.rs
deleted file mode 100644
index a0a257a7b..000000000
--- a/vendor/gimli-0.27.3/src/constants.rs
+++ /dev/null
@@ -1,1426 +0,0 @@
-// This file originally from https://github.com/philipc/rust-dwarf/ and
-// distributed under either MIT or Apache 2.0 licenses.
-//
-// Copyright 2016 The rust-dwarf Developers
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-//     https://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-
-//! Constant definitions.
-//!
-//! The DWARF spec's `DW_AT_*` type is represented as `struct DwAt(u16)`,
-//! `DW_FORM_*` as `DwForm(u16)`, etc.
-//!
-//! There are also exported const definitions for each constant.
-
-#![allow(non_upper_case_globals)]
-#![allow(missing_docs)]
-
-use core::fmt;
-
-// The `dw!` macro turns this:
-//
-//     dw!(DwFoo(u32) {
-//         DW_FOO_bar = 0,
-//         DW_FOO_baz = 1,
-//         DW_FOO_bang = 2,
-//     });
-//
-// into this:
-//
-//     #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)]
-//     pub struct DwFoo(pub u32);
-//
-//     pub const DW_FOO_bar: DwFoo = DwFoo(0);
-//     pub const DW_FOO_baz: DwFoo = DwFoo(1);
-//     pub const DW_FOO_bang: DwFoo = DwFoo(2);
-//
-//     impl DwFoo {
-//         pub fn static_string(&self) -> Option<&'static str> {
-//             ...
-//         }
-//     }
-//
-//     impl fmt::Display for DwFoo {
-//         fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
-//             ...
-//         }
-//     }
-macro_rules! dw {
-    ($(#[$meta:meta])* $struct_name:ident($struct_type:ty) { $($name:ident = $val:expr),+ $(,)? }) => {
-        $(#[$meta])*
-        #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)]
-        pub struct $struct_name(pub $struct_type);
-
-        $(
-            pub const $name: $struct_name = $struct_name($val);
-        )+
-
-        impl $struct_name {
-            pub fn static_string(&self) -> Option<&'static str> {
-                Some(match *self {
-                    $(
-                        $name => stringify!($name),
-                    )+
-                    _ => return None,
-                })
-            }
-        }
-
-        impl fmt::Display for $struct_name {
-            fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
-                if let Some(s) = self.static_string() {
-                    f.pad(s)
-                } else {
-                    #[cfg(feature = "read")]
-                    {
-                        f.pad(&format!("Unknown {}: {}", stringify!($struct_name), self.0))
-                    }
-                    #[cfg(not(feature = "read"))]
-                    {
-                        write!(f, "Unknown {}: {}", stringify!($struct_name), self.0)
-                    }
-                }
-            }
-        }
-    };
-}
-
-dw!(
-/// The section type field in a `.dwp` unit index.
-///
-/// This is used for version 5 and later.
-///
-/// See Section 7.3.5.
-DwSect(u32) {
-    DW_SECT_INFO = 1,
-    DW_SECT_ABBREV = 3,
-    DW_SECT_LINE = 4,
-    DW_SECT_LOCLISTS = 5,
-    DW_SECT_STR_OFFSETS = 6,
-    DW_SECT_MACRO = 7,
-    DW_SECT_RNGLISTS = 8,
-});
-
-dw!(
-/// The section type field in a `.dwp` unit index with version 2.
-DwSectV2(u32) {
-    DW_SECT_V2_INFO = 1,
-    DW_SECT_V2_TYPES = 2,
-    DW_SECT_V2_ABBREV = 3,
-    DW_SECT_V2_LINE = 4,
-    DW_SECT_V2_LOC = 5,
-    DW_SECT_V2_STR_OFFSETS = 6,
-    DW_SECT_V2_MACINFO = 7,
-    DW_SECT_V2_MACRO = 8,
-});
-
-dw!(
-/// The unit type field in a unit header.
-///
-/// See Section 7.5.1, Table 7.2.
-DwUt(u8) {
-    DW_UT_compile = 0x01,
-    DW_UT_type = 0x02,
-    DW_UT_partial = 0x03,
-    DW_UT_skeleton = 0x04,
-    DW_UT_split_compile = 0x05,
-    DW_UT_split_type = 0x06,
-    DW_UT_lo_user = 0x80,
-    DW_UT_hi_user = 0xff,
-});
-
-dw!(
-/// The opcode for a call frame instruction.
-///
-/// Section 7.24:
-/// > Call frame instructions are encoded in one or more bytes. The primary
-/// > opcode is encoded in the high order two bits of the first byte (that is,
-/// > opcode = byte >> 6). An operand or extended opcode may be encoded in the
-/// > low order 6 bits. Additional operands are encoded in subsequent bytes.
-DwCfa(u8) {
-    DW_CFA_advance_loc = 0x01 << 6,
-    DW_CFA_offset = 0x02 << 6,
-    DW_CFA_restore = 0x03 << 6,
-    DW_CFA_nop = 0,
-    DW_CFA_set_loc = 0x01,
-    DW_CFA_advance_loc1 = 0x02,
-    DW_CFA_advance_loc2 = 0x03,
-    DW_CFA_advance_loc4 = 0x04,
-    DW_CFA_offset_extended = 0x05,
-    DW_CFA_restore_extended = 0x06,
-    DW_CFA_undefined = 0x07,
-    DW_CFA_same_value = 0x08,
-    DW_CFA_register = 0x09,
-    DW_CFA_remember_state = 0x0a,
-    DW_CFA_restore_state = 0x0b,
-    DW_CFA_def_cfa = 0x0c,
-    DW_CFA_def_cfa_register = 0x0d,
-    DW_CFA_def_cfa_offset = 0x0e,
-    DW_CFA_def_cfa_expression = 0x0f,
-    DW_CFA_expression = 0x10,
-    DW_CFA_offset_extended_sf = 0x11,
-    DW_CFA_def_cfa_sf = 0x12,
-    DW_CFA_def_cfa_offset_sf = 0x13,
-    DW_CFA_val_offset = 0x14,
-    DW_CFA_val_offset_sf = 0x15,
-    DW_CFA_val_expression = 0x16,
-
-    DW_CFA_lo_user = 0x1c,
-    DW_CFA_hi_user = 0x3f,
-
-    DW_CFA_MIPS_advance_loc8 = 0x1d,
-    DW_CFA_GNU_window_save = 0x2d,
-    DW_CFA_GNU_args_size = 0x2e,
-    DW_CFA_GNU_negative_offset_extended = 0x2f,
-});
-
-dw!(
-/// The child determination encodings for DIE attributes.
-///
-/// See Section 7.5.3, Table 7.4.
-DwChildren(u8) {
-    DW_CHILDREN_no = 0,
-    DW_CHILDREN_yes = 1,
-});
-
-dw!(
-/// The tag encodings for DIE attributes.
-///
-/// See Section 7.5.3, Table 7.3.
-DwTag(u16) {
-    DW_TAG_null = 0x00,
-
-    DW_TAG_array_type = 0x01,
-    DW_TAG_class_type = 0x02,
-    DW_TAG_entry_point = 0x03,
-    DW_TAG_enumeration_type = 0x04,
-    DW_TAG_formal_parameter = 0x05,
-    DW_TAG_imported_declaration = 0x08,
-    DW_TAG_label = 0x0a,
-    DW_TAG_lexical_block = 0x0b,
-    DW_TAG_member = 0x0d,
-    DW_TAG_pointer_type = 0x0f,
-    DW_TAG_reference_type = 0x10,
-    DW_TAG_compile_unit = 0x11,
-    DW_TAG_string_type = 0x12,
-    DW_TAG_structure_type = 0x13,
-    DW_TAG_subroutine_type = 0x15,
-    DW_TAG_typedef = 0x16,
-    DW_TAG_union_type = 0x17,
-    DW_TAG_unspecified_parameters = 0x18,
-    DW_TAG_variant = 0x19,
-    DW_TAG_common_block = 0x1a,
-    DW_TAG_common_inclusion = 0x1b,
-    DW_TAG_inheritance = 0x1c,
-    DW_TAG_inlined_subroutine = 0x1d,
-    DW_TAG_module = 0x1e,
-    DW_TAG_ptr_to_member_type = 0x1f,
-    DW_TAG_set_type = 0x20,
-    DW_TAG_subrange_type = 0x21,
-    DW_TAG_with_stmt = 0x22,
-    DW_TAG_access_declaration = 0x23,
-    DW_TAG_base_type = 0x24,
-    DW_TAG_catch_block = 0x25,
-    DW_TAG_const_type = 0x26,
-    DW_TAG_constant = 0x27,
-    DW_TAG_enumerator = 0x28,
-    DW_TAG_file_type = 0x29,
-    DW_TAG_friend = 0x2a,
-    DW_TAG_namelist = 0x2b,
-    DW_TAG_namelist_item = 0x2c,
-    DW_TAG_packed_type = 0x2d,
-    DW_TAG_subprogram = 0x2e,
-    DW_TAG_template_type_parameter = 0x2f,
-    DW_TAG_template_value_parameter = 0x30,
-    DW_TAG_thrown_type = 0x31,
-    DW_TAG_try_block = 0x32,
-    DW_TAG_variant_part = 0x33,
-    DW_TAG_variable = 0x34,
-    DW_TAG_volatile_type = 0x35,
-
-// DWARF 3.
-    DW_TAG_dwarf_procedure = 0x36,
-    DW_TAG_restrict_type = 0x37,
-    DW_TAG_interface_type = 0x38,
-    DW_TAG_namespace = 0x39,
-    DW_TAG_imported_module = 0x3a,
-    DW_TAG_unspecified_type = 0x3b,
-    DW_TAG_partial_unit = 0x3c,
-    DW_TAG_imported_unit = 0x3d,
-    DW_TAG_condition = 0x3f,
-    DW_TAG_shared_type = 0x40,
-
-// DWARF 4.
-    DW_TAG_type_unit = 0x41,
-    DW_TAG_rvalue_reference_type = 0x42,
-    DW_TAG_template_alias = 0x43,
-
-// DWARF 5.
-    DW_TAG_coarray_type = 0x44,
-    DW_TAG_generic_subrange = 0x45,
-    DW_TAG_dynamic_type = 0x46,
-    DW_TAG_atomic_type = 0x47,
-    DW_TAG_call_site = 0x48,
-    DW_TAG_call_site_parameter = 0x49,
-    DW_TAG_skeleton_unit = 0x4a,
-    DW_TAG_immutable_type = 0x4b,
-
-    DW_TAG_lo_user = 0x4080,
-    DW_TAG_hi_user = 0xffff,
-
-// SGI/MIPS extensions.
-    DW_TAG_MIPS_loop = 0x4081,
-
-// HP extensions.
-    DW_TAG_HP_array_descriptor = 0x4090,
-    DW_TAG_HP_Bliss_field = 0x4091,
-    DW_TAG_HP_Bliss_field_set = 0x4092,
-
-// GNU extensions.
-    DW_TAG_format_label = 0x4101,
-    DW_TAG_function_template = 0x4102,
-    DW_TAG_class_template = 0x4103,
-    DW_TAG_GNU_BINCL = 0x4104,
-    DW_TAG_GNU_EINCL = 0x4105,
-    DW_TAG_GNU_template_template_param = 0x4106,
-    DW_TAG_GNU_template_parameter_pack = 0x4107,
-    DW_TAG_GNU_formal_parameter_pack = 0x4108,
-    DW_TAG_GNU_call_site = 0x4109,
-    DW_TAG_GNU_call_site_parameter = 0x410a,
-
-    DW_TAG_APPLE_property = 0x4200,
-
-// SUN extensions.
-    DW_TAG_SUN_function_template = 0x4201,
-    DW_TAG_SUN_class_template = 0x4202,
-    DW_TAG_SUN_struct_template = 0x4203,
-    DW_TAG_SUN_union_template = 0x4204,
-    DW_TAG_SUN_indirect_inheritance = 0x4205,
-    DW_TAG_SUN_codeflags = 0x4206,
-    DW_TAG_SUN_memop_info = 0x4207,
-    DW_TAG_SUN_omp_child_func = 0x4208,
-    DW_TAG_SUN_rtti_descriptor = 0x4209,
-    DW_TAG_SUN_dtor_info = 0x420a,
-    DW_TAG_SUN_dtor = 0x420b,
-    DW_TAG_SUN_f90_interface = 0x420c,
-    DW_TAG_SUN_fortran_vax_structure = 0x420d,
-
-// ALTIUM extensions.
-    DW_TAG_ALTIUM_circ_type = 0x5101,
-    DW_TAG_ALTIUM_mwa_circ_type = 0x5102,
-    DW_TAG_ALTIUM_rev_carry_type = 0x5103,
-    DW_TAG_ALTIUM_rom = 0x5111,
-
-// Extensions for UPC.
-    DW_TAG_upc_shared_type = 0x8765,
-    DW_TAG_upc_strict_type = 0x8766,
-    DW_TAG_upc_relaxed_type = 0x8767,
-
-// PGI (STMicroelectronics) extensions.
-    DW_TAG_PGI_kanji_type = 0xa000,
-    DW_TAG_PGI_interface_block = 0xa020,
-
-// Borland extensions.
-    DW_TAG_BORLAND_property = 0xb000,
-    DW_TAG_BORLAND_Delphi_string = 0xb001,
-    DW_TAG_BORLAND_Delphi_dynamic_array = 0xb002,
-    DW_TAG_BORLAND_Delphi_set = 0xb003,
-    DW_TAG_BORLAND_Delphi_variant = 0xb004,
-});
-
-dw!(
-/// The attribute encodings for DIE attributes.
-///
-/// See Section 7.5.4, Table 7.5.
-DwAt(u16) {
-    DW_AT_null = 0x00,
-
-    DW_AT_sibling = 0x01,
-    DW_AT_location = 0x02,
-    DW_AT_name = 0x03,
-    DW_AT_ordering = 0x09,
-    DW_AT_byte_size = 0x0b,
-    DW_AT_bit_offset = 0x0c,
-    DW_AT_bit_size = 0x0d,
-    DW_AT_stmt_list = 0x10,
-    DW_AT_low_pc = 0x11,
-    DW_AT_high_pc = 0x12,
-    DW_AT_language = 0x13,
-    DW_AT_discr = 0x15,
-    DW_AT_discr_value = 0x16,
-    DW_AT_visibility = 0x17,
-    DW_AT_import = 0x18,
-    DW_AT_string_length = 0x19,
-    DW_AT_common_reference = 0x1a,
-    DW_AT_comp_dir = 0x1b,
-    DW_AT_const_value = 0x1c,
-    DW_AT_containing_type = 0x1d,
-    DW_AT_default_value = 0x1e,
-    DW_AT_inline = 0x20,
-    DW_AT_is_optional = 0x21,
-    DW_AT_lower_bound = 0x22,
-    DW_AT_producer = 0x25,
-    DW_AT_prototyped = 0x27,
-    DW_AT_return_addr = 0x2a,
-    DW_AT_start_scope = 0x2c,
-    DW_AT_bit_stride = 0x2e,
-    DW_AT_upper_bound = 0x2f,
-    DW_AT_abstract_origin = 0x31,
-    DW_AT_accessibility = 0x32,
-    DW_AT_address_class = 0x33,
-    DW_AT_artificial = 0x34,
-    DW_AT_base_types = 0x35,
-    DW_AT_calling_convention = 0x36,
-    DW_AT_count = 0x37,
-    DW_AT_data_member_location = 0x38,
-    DW_AT_decl_column = 0x39,
-    DW_AT_decl_file = 0x3a,
-    DW_AT_decl_line = 0x3b,
-    DW_AT_declaration = 0x3c,
-    DW_AT_discr_list = 0x3d,
-    DW_AT_encoding = 0x3e,
-    DW_AT_external = 0x3f,
-    DW_AT_frame_base = 0x40,
-    DW_AT_friend = 0x41,
-    DW_AT_identifier_case = 0x42,
-    DW_AT_macro_info = 0x43,
-    DW_AT_namelist_item = 0x44,
-    DW_AT_priority = 0x45,
-    DW_AT_segment = 0x46,
-    DW_AT_specification = 0x47,
-    DW_AT_static_link = 0x48,
-    DW_AT_type = 0x49,
-    DW_AT_use_location = 0x4a,
-    DW_AT_variable_parameter = 0x4b,
-    DW_AT_virtuality = 0x4c,
-    DW_AT_vtable_elem_location = 0x4d,
-
-// DWARF 3.
-    DW_AT_allocated = 0x4e,
-    DW_AT_associated = 0x4f,
-    DW_AT_data_location = 0x50,
-    DW_AT_byte_stride = 0x51,
-    DW_AT_entry_pc = 0x52,
-    DW_AT_use_UTF8 = 0x53,
-    DW_AT_extension = 0x54,
-    DW_AT_ranges = 0x55,
-    DW_AT_trampoline = 0x56,
-    DW_AT_call_column = 0x57,
-    DW_AT_call_file = 0x58,
-    DW_AT_call_line = 0x59,
-    DW_AT_description = 0x5a,
-    DW_AT_binary_scale = 0x5b,
-    DW_AT_decimal_scale = 0x5c,
-    DW_AT_small = 0x5d,
-    DW_AT_decimal_sign = 0x5e,
-    DW_AT_digit_count = 0x5f,
-    DW_AT_picture_string = 0x60,
-    DW_AT_mutable = 0x61,
-    DW_AT_threads_scaled = 0x62,
-    DW_AT_explicit = 0x63,
-    DW_AT_object_pointer = 0x64,
-    DW_AT_endianity = 0x65,
-    DW_AT_elemental = 0x66,
-    DW_AT_pure = 0x67,
-    DW_AT_recursive = 0x68,
-
-// DWARF 4.
-    DW_AT_signature = 0x69,
-    DW_AT_main_subprogram = 0x6a,
-    DW_AT_data_bit_offset = 0x6b,
-    DW_AT_const_expr = 0x6c,
-    DW_AT_enum_class = 0x6d,
-    DW_AT_linkage_name = 0x6e,
-
-// DWARF 5.
-    DW_AT_string_length_bit_size = 0x6f,
-    DW_AT_string_length_byte_size = 0x70,
-    DW_AT_rank = 0x71,
-    DW_AT_str_offsets_base = 0x72,
-    DW_AT_addr_base = 0x73,
-    DW_AT_rnglists_base = 0x74,
-    DW_AT_dwo_name = 0x76,
-    DW_AT_reference = 0x77,
-    DW_AT_rvalue_reference = 0x78,
-    DW_AT_macros = 0x79,
-    DW_AT_call_all_calls = 0x7a,
-    DW_AT_call_all_source_calls = 0x7b,
-    DW_AT_call_all_tail_calls = 0x7c,
-    DW_AT_call_return_pc = 0x7d,
-    DW_AT_call_value = 0x7e,
-    DW_AT_call_origin = 0x7f,
-    DW_AT_call_parameter = 0x80,
-    DW_AT_call_pc = 0x81,
-    DW_AT_call_tail_call = 0x82,
-    DW_AT_call_target = 0x83,
-    DW_AT_call_target_clobbered = 0x84,
-    DW_AT_call_data_location = 0x85,
-    DW_AT_call_data_value = 0x86,
-    DW_AT_noreturn = 0x87,
-    DW_AT_alignment = 0x88,
-    DW_AT_export_symbols = 0x89,
-    DW_AT_deleted = 0x8a,
-    DW_AT_defaulted = 0x8b,
-    DW_AT_loclists_base = 0x8c,
-
-    DW_AT_lo_user = 0x2000,
-    DW_AT_hi_user = 0x3fff,
-
-// SGI/MIPS extensions.
-    DW_AT_MIPS_fde = 0x2001,
-    DW_AT_MIPS_loop_begin = 0x2002,
-    DW_AT_MIPS_tail_loop_begin = 0x2003,
-    DW_AT_MIPS_epilog_begin = 0x2004,
-    DW_AT_MIPS_loop_unroll_factor = 0x2005,
-    DW_AT_MIPS_software_pipeline_depth = 0x2006,
-    DW_AT_MIPS_linkage_name = 0x2007,
-    DW_AT_MIPS_stride = 0x2008,
-    DW_AT_MIPS_abstract_name = 0x2009,
-    DW_AT_MIPS_clone_origin = 0x200a,
-    DW_AT_MIPS_has_inlines = 0x200b,
-    DW_AT_MIPS_stride_byte = 0x200c,
-    DW_AT_MIPS_stride_elem = 0x200d,
-    DW_AT_MIPS_ptr_dopetype = 0x200e,
-    DW_AT_MIPS_allocatable_dopetype = 0x200f,
-    DW_AT_MIPS_assumed_shape_dopetype = 0x2010,
-
-// This one appears to have only been implemented by Open64 for
-// fortran and may conflict with other extensions.
-    DW_AT_MIPS_assumed_size = 0x2011,
-
-// TODO: HP/CPQ extensions.
-// These conflict with the MIPS extensions.
-
-    DW_AT_INTEL_other_endian = 0x2026,
-
-// GNU extensions
-    DW_AT_sf_names = 0x2101,
-    DW_AT_src_info = 0x2102,
-    DW_AT_mac_info = 0x2103,
-    DW_AT_src_coords = 0x2104,
-    DW_AT_body_begin = 0x2105,
-    DW_AT_body_end = 0x2106,
-    DW_AT_GNU_vector = 0x2107,
-    DW_AT_GNU_guarded_by = 0x2108,
-    DW_AT_GNU_pt_guarded_by = 0x2109,
-    DW_AT_GNU_guarded = 0x210a,
-    DW_AT_GNU_pt_guarded = 0x210b,
-    DW_AT_GNU_locks_excluded = 0x210c,
-    DW_AT_GNU_exclusive_locks_required = 0x210d,
-    DW_AT_GNU_shared_locks_required = 0x210e,
-    DW_AT_GNU_odr_signature = 0x210f,
-    DW_AT_GNU_template_name = 0x2110,
-    DW_AT_GNU_call_site_value = 0x2111,
-    DW_AT_GNU_call_site_data_value = 0x2112,
-    DW_AT_GNU_call_site_target = 0x2113,
-    DW_AT_GNU_call_site_target_clobbered = 0x2114,
-    DW_AT_GNU_tail_call = 0x2115,
-    DW_AT_GNU_all_tail_call_sites = 0x2116,
-    DW_AT_GNU_all_call_sites = 0x2117,
-    DW_AT_GNU_all_source_call_sites = 0x2118,
-    DW_AT_GNU_macros = 0x2119,
-    DW_AT_GNU_deleted = 0x211a,
-
-// Extensions for Fission proposal.
-    DW_AT_GNU_dwo_name = 0x2130,
-    DW_AT_GNU_dwo_id = 0x2131,
-    DW_AT_GNU_ranges_base = 0x2132,
-    DW_AT_GNU_addr_base = 0x2133,
-    DW_AT_GNU_pubnames = 0x2134,
-    DW_AT_GNU_pubtypes = 0x2135,
-    DW_AT_GNU_discriminator = 0x2136,
-    DW_AT_GNU_locviews = 0x2137,
-    DW_AT_GNU_entry_view = 0x2138,
-
-// Conflict with Sun.
-// DW_AT_VMS_rtnbeg_pd_address = 0x2201,
-
-// Sun extensions.
-    DW_AT_SUN_template = 0x2201,
-    DW_AT_SUN_alignment = 0x2202,
-    DW_AT_SUN_vtable = 0x2203,
-    DW_AT_SUN_count_guarantee = 0x2204,
-    DW_AT_SUN_command_line = 0x2205,
-    DW_AT_SUN_vbase = 0x2206,
-    DW_AT_SUN_compile_options = 0x2207,
-    DW_AT_SUN_language = 0x2208,
-    DW_AT_SUN_browser_file = 0x2209,
-    DW_AT_SUN_vtable_abi = 0x2210,
-    DW_AT_SUN_func_offsets = 0x2211,
-    DW_AT_SUN_cf_kind = 0x2212,
-    DW_AT_SUN_vtable_index = 0x2213,
-    DW_AT_SUN_omp_tpriv_addr = 0x2214,
-    DW_AT_SUN_omp_child_func = 0x2215,
-    DW_AT_SUN_func_offset = 0x2216,
-    DW_AT_SUN_memop_type_ref = 0x2217,
-    DW_AT_SUN_profile_id = 0x2218,
-    DW_AT_SUN_memop_signature = 0x2219,
-    DW_AT_SUN_obj_dir = 0x2220,
-    DW_AT_SUN_obj_file = 0x2221,
-    DW_AT_SUN_original_name = 0x2222,
-    DW_AT_SUN_hwcprof_signature = 0x2223,
-    DW_AT_SUN_amd64_parmdump = 0x2224,
-    DW_AT_SUN_part_link_name = 0x2225,
-    DW_AT_SUN_link_name = 0x2226,
-    DW_AT_SUN_pass_with_const = 0x2227,
-    DW_AT_SUN_return_with_const = 0x2228,
-    DW_AT_SUN_import_by_name = 0x2229,
-    DW_AT_SUN_f90_pointer = 0x222a,
-    DW_AT_SUN_pass_by_ref = 0x222b,
-    DW_AT_SUN_f90_allocatable = 0x222c,
-    DW_AT_SUN_f90_assumed_shape_array = 0x222d,
-    DW_AT_SUN_c_vla = 0x222e,
-    DW_AT_SUN_return_value_ptr = 0x2230,
-    DW_AT_SUN_dtor_start = 0x2231,
-    DW_AT_SUN_dtor_length = 0x2232,
-    DW_AT_SUN_dtor_state_initial = 0x2233,
-    DW_AT_SUN_dtor_state_final = 0x2234,
-    DW_AT_SUN_dtor_state_deltas = 0x2235,
-    DW_AT_SUN_import_by_lname = 0x2236,
-    DW_AT_SUN_f90_use_only = 0x2237,
-    DW_AT_SUN_namelist_spec = 0x2238,
-    DW_AT_SUN_is_omp_child_func = 0x2239,
-    DW_AT_SUN_fortran_main_alias = 0x223a,
-    DW_AT_SUN_fortran_based = 0x223b,
-
-    DW_AT_ALTIUM_loclist = 0x2300,
-
-    DW_AT_use_GNAT_descriptive_type = 0x2301,
-    DW_AT_GNAT_descriptive_type = 0x2302,
-    DW_AT_GNU_numerator = 0x2303,
-    DW_AT_GNU_denominator = 0x2304,
-    DW_AT_GNU_bias = 0x2305,
-
-    DW_AT_upc_threads_scaled = 0x3210,
-
-// PGI (STMicroelectronics) extensions.
-    DW_AT_PGI_lbase = 0x3a00,
-    DW_AT_PGI_soffset = 0x3a01,
-    DW_AT_PGI_lstride = 0x3a02,
-
-// Borland extensions.
-    DW_AT_BORLAND_property_read = 0x3b11,
-    DW_AT_BORLAND_property_write = 0x3b12,
-    DW_AT_BORLAND_property_implements = 0x3b13,
-    DW_AT_BORLAND_property_index = 0x3b14,
-    DW_AT_BORLAND_property_default = 0x3b15,
-    DW_AT_BORLAND_Delphi_unit = 0x3b20,
-    DW_AT_BORLAND_Delphi_class = 0x3b21,
-    DW_AT_BORLAND_Delphi_record = 0x3b22,
-    DW_AT_BORLAND_Delphi_metaclass = 0x3b23,
-    DW_AT_BORLAND_Delphi_constructor = 0x3b24,
-    DW_AT_BORLAND_Delphi_destructor = 0x3b25,
-    DW_AT_BORLAND_Delphi_anonymous_method = 0x3b26,
-    DW_AT_BORLAND_Delphi_interface = 0x3b27,
-    DW_AT_BORLAND_Delphi_ABI = 0x3b28,
-    DW_AT_BORLAND_Delphi_return = 0x3b29,
-    DW_AT_BORLAND_Delphi_frameptr = 0x3b30,
-    DW_AT_BORLAND_closure = 0x3b31,
-
-// LLVM project extensions.
-    DW_AT_LLVM_include_path = 0x3e00,
-    DW_AT_LLVM_config_macros = 0x3e01,
-    DW_AT_LLVM_isysroot = 0x3e02,
-
-// Apple extensions.
-    DW_AT_APPLE_optimized = 0x3fe1,
-    DW_AT_APPLE_flags = 0x3fe2,
-    DW_AT_APPLE_isa = 0x3fe3,
-    DW_AT_APPLE_block = 0x3fe4,
-    DW_AT_APPLE_major_runtime_vers = 0x3fe5,
-    DW_AT_APPLE_runtime_class = 0x3fe6,
-    DW_AT_APPLE_omit_frame_ptr = 0x3fe7,
-    DW_AT_APPLE_property_name = 0x3fe8,
-    DW_AT_APPLE_property_getter = 0x3fe9,
-    DW_AT_APPLE_property_setter = 0x3fea,
-    DW_AT_APPLE_property_attribute = 0x3feb,
-    DW_AT_APPLE_objc_complete_type = 0x3fec,
-    DW_AT_APPLE_property = 0x3fed
-});
-
-dw!(
-/// The attribute form encodings for DIE attributes.
-///
-/// See Section 7.5.6, Table 7.6.
-DwForm(u16) {
-    DW_FORM_null = 0x00,
-
-    DW_FORM_addr = 0x01,
-    DW_FORM_block2 = 0x03,
-    DW_FORM_block4 = 0x04,
-    DW_FORM_data2 = 0x05,
-    DW_FORM_data4 = 0x06,
-    DW_FORM_data8 = 0x07,
-    DW_FORM_string = 0x08,
-    DW_FORM_block = 0x09,
-    DW_FORM_block1 = 0x0a,
-    DW_FORM_data1 = 0x0b,
-    DW_FORM_flag = 0x0c,
-    DW_FORM_sdata = 0x0d,
-    DW_FORM_strp = 0x0e,
-    DW_FORM_udata = 0x0f,
-    DW_FORM_ref_addr = 0x10,
-    DW_FORM_ref1 = 0x11,
-    DW_FORM_ref2 = 0x12,
-    DW_FORM_ref4 = 0x13,
-    DW_FORM_ref8 = 0x14,
-    DW_FORM_ref_udata = 0x15,
-    DW_FORM_indirect = 0x16,
-
-// DWARF 4.
-    DW_FORM_sec_offset = 0x17,
-    DW_FORM_exprloc = 0x18,
-    DW_FORM_flag_present = 0x19,
-    DW_FORM_ref_sig8 = 0x20,
-
-// DWARF 5.
-    DW_FORM_strx = 0x1a,
-    DW_FORM_addrx = 0x1b,
-    DW_FORM_ref_sup4 = 0x1c,
-    DW_FORM_strp_sup = 0x1d,
-    DW_FORM_data16 = 0x1e,
-    DW_FORM_line_strp = 0x1f,
-    DW_FORM_implicit_const = 0x21,
-    DW_FORM_loclistx = 0x22,
-    DW_FORM_rnglistx = 0x23,
-    DW_FORM_ref_sup8 = 0x24,
-    DW_FORM_strx1 = 0x25,
-    DW_FORM_strx2 = 0x26,
-    DW_FORM_strx3 = 0x27,
-    DW_FORM_strx4 = 0x28,
-    DW_FORM_addrx1 = 0x29,
-    DW_FORM_addrx2 = 0x2a,
-    DW_FORM_addrx3 = 0x2b,
-    DW_FORM_addrx4 = 0x2c,
-
-// Extensions for Fission proposal
-    DW_FORM_GNU_addr_index = 0x1f01,
-    DW_FORM_GNU_str_index = 0x1f02,
-
-// Alternate debug sections proposal (output of "dwz" tool).
-    DW_FORM_GNU_ref_alt = 0x1f20,
-    DW_FORM_GNU_strp_alt = 0x1f21
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_encoding` attribute.
-///
-/// See Section 7.8, Table 7.11.
-DwAte(u8) {
-    DW_ATE_address = 0x01,
-    DW_ATE_boolean = 0x02,
-    DW_ATE_complex_float = 0x03,
-    DW_ATE_float = 0x04,
-    DW_ATE_signed = 0x05,
-    DW_ATE_signed_char = 0x06,
-    DW_ATE_unsigned = 0x07,
-    DW_ATE_unsigned_char = 0x08,
-
-// DWARF 3.
-    DW_ATE_imaginary_float = 0x09,
-    DW_ATE_packed_decimal = 0x0a,
-    DW_ATE_numeric_string = 0x0b,
-    DW_ATE_edited = 0x0c,
-    DW_ATE_signed_fixed = 0x0d,
-    DW_ATE_unsigned_fixed = 0x0e,
-    DW_ATE_decimal_float = 0x0f ,
-
-// DWARF 4.
-    DW_ATE_UTF = 0x10,
-    DW_ATE_UCS = 0x11,
-    DW_ATE_ASCII = 0x12,
-
-    DW_ATE_lo_user = 0x80,
-    DW_ATE_hi_user = 0xff,
-});
-
-dw!(
-/// The encodings of the constants used in location list entries.
-///
-/// See Section 7.7.3, Table 7.10.
-DwLle(u8) {
-    DW_LLE_end_of_list = 0x00,
-    DW_LLE_base_addressx = 0x01,
-    DW_LLE_startx_endx = 0x02,
-    DW_LLE_startx_length = 0x03,
-    DW_LLE_offset_pair = 0x04,
-    DW_LLE_default_location = 0x05,
-    DW_LLE_base_address = 0x06,
-    DW_LLE_start_end = 0x07,
-    DW_LLE_start_length = 0x08,
-    DW_LLE_GNU_view_pair = 0x09,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_decimal_sign` attribute.
-///
-/// See Section 7.8, Table 7.12.
-DwDs(u8) {
-    DW_DS_unsigned = 0x01,
-    DW_DS_leading_overpunch = 0x02,
-    DW_DS_trailing_overpunch = 0x03,
-    DW_DS_leading_separate = 0x04,
-    DW_DS_trailing_separate = 0x05,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_endianity` attribute.
-///
-/// See Section 7.8, Table 7.13.
-DwEnd(u8) {
-    DW_END_default = 0x00,
-    DW_END_big = 0x01,
-    DW_END_little = 0x02,
-    DW_END_lo_user = 0x40,
-    DW_END_hi_user = 0xff,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_accessibility` attribute.
-///
-/// See Section 7.9, Table 7.14.
-DwAccess(u8) {
-    DW_ACCESS_public = 0x01,
-    DW_ACCESS_protected = 0x02,
-    DW_ACCESS_private = 0x03,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_visibility` attribute.
-///
-/// See Section 7.10, Table 7.15.
-DwVis(u8) {
-    DW_VIS_local = 0x01,
-    DW_VIS_exported = 0x02,
-    DW_VIS_qualified = 0x03,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_virtuality` attribute.
-///
-/// See Section 7.11, Table 7.16.
-DwVirtuality(u8) {
-    DW_VIRTUALITY_none = 0x00,
-    DW_VIRTUALITY_virtual = 0x01,
-    DW_VIRTUALITY_pure_virtual = 0x02,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_language` attribute.
-///
-/// See Section 7.12, Table 7.17.
-DwLang(u16) {
-    DW_LANG_C89 = 0x0001,
-    DW_LANG_C = 0x0002,
-    DW_LANG_Ada83 = 0x0003,
-    DW_LANG_C_plus_plus = 0x0004,
-    DW_LANG_Cobol74 = 0x0005,
-    DW_LANG_Cobol85 = 0x0006,
-    DW_LANG_Fortran77 = 0x0007,
-    DW_LANG_Fortran90 = 0x0008,
-    DW_LANG_Pascal83 = 0x0009,
-    DW_LANG_Modula2 = 0x000a,
-    DW_LANG_Java = 0x000b,
-    DW_LANG_C99 = 0x000c,
-    DW_LANG_Ada95 = 0x000d,
-    DW_LANG_Fortran95 = 0x000e,
-    DW_LANG_PLI = 0x000f,
-    DW_LANG_ObjC = 0x0010,
-    DW_LANG_ObjC_plus_plus = 0x0011,
-    DW_LANG_UPC = 0x0012,
-    DW_LANG_D = 0x0013,
-    DW_LANG_Python = 0x0014,
-    DW_LANG_OpenCL = 0x0015,
-    DW_LANG_Go = 0x0016,
-    DW_LANG_Modula3 = 0x0017,
-    DW_LANG_Haskell = 0x0018,
-    DW_LANG_C_plus_plus_03 = 0x0019,
-    DW_LANG_C_plus_plus_11 = 0x001a,
-    DW_LANG_OCaml = 0x001b,
-    DW_LANG_Rust = 0x001c,
-    DW_LANG_C11 = 0x001d,
-    DW_LANG_Swift = 0x001e,
-    DW_LANG_Julia = 0x001f,
-    DW_LANG_Dylan = 0x0020,
-    DW_LANG_C_plus_plus_14 = 0x0021,
-    DW_LANG_Fortran03 = 0x0022,
-    DW_LANG_Fortran08 = 0x0023,
-    DW_LANG_RenderScript = 0x0024,
-    DW_LANG_BLISS = 0x0025,
-    DW_LANG_Kotlin = 0x0026,
-    DW_LANG_Zig = 0x0027,
-    DW_LANG_Crystal = 0x0028,
-    DW_LANG_C_plus_plus_17 = 0x002a,
-    DW_LANG_C_plus_plus_20 = 0x002b,
-    DW_LANG_C17 = 0x002c,
-    DW_LANG_Fortran18 = 0x002d,
-    DW_LANG_Ada2005 = 0x002e,
-    DW_LANG_Ada2012 = 0x002f,
-
-    DW_LANG_lo_user = 0x8000,
-    DW_LANG_hi_user = 0xffff,
-
-    DW_LANG_Mips_Assembler = 0x8001,
-    DW_LANG_GOOGLE_RenderScript = 0x8e57,
-    DW_LANG_SUN_Assembler = 0x9001,
-    DW_LANG_ALTIUM_Assembler = 0x9101,
-    DW_LANG_BORLAND_Delphi = 0xb000,
-});
-
-impl DwLang {
-    /// Get the default DW_AT_lower_bound for this language.
-    pub fn default_lower_bound(self) -> Option<usize> {
-        match self {
-            DW_LANG_C89
-            | DW_LANG_C
-            | DW_LANG_C_plus_plus
-            | DW_LANG_Java
-            | DW_LANG_C99
-            | DW_LANG_ObjC
-            | DW_LANG_ObjC_plus_plus
-            | DW_LANG_UPC
-            | DW_LANG_D
-            | DW_LANG_Python
-            | DW_LANG_OpenCL
-            | DW_LANG_Go
-            | DW_LANG_Haskell
-            | DW_LANG_C_plus_plus_03
-            | DW_LANG_C_plus_plus_11
-            | DW_LANG_OCaml
-            | DW_LANG_Rust
-            | DW_LANG_C11
-            | DW_LANG_Swift
-            | DW_LANG_Dylan
-            | DW_LANG_C_plus_plus_14
-            | DW_LANG_RenderScript
-            | DW_LANG_BLISS => Some(0),
-            DW_LANG_Ada83 | DW_LANG_Cobol74 | DW_LANG_Cobol85 | DW_LANG_Fortran77
-            | DW_LANG_Fortran90 | DW_LANG_Pascal83 | DW_LANG_Modula2 | DW_LANG_Ada95
-            | DW_LANG_Fortran95 | DW_LANG_PLI | DW_LANG_Modula3 | DW_LANG_Julia
-            | DW_LANG_Fortran03 | DW_LANG_Fortran08 => Some(1),
-            _ => None,
-        }
-    }
-}
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_address_class` attribute.
-///
-/// There is only one value that is common to all target architectures.
-/// See Section 7.13.
-DwAddr(u64) {
-    DW_ADDR_none = 0x00,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_identifier_case` attribute.
-///
-/// See Section 7.14, Table 7.18.
-DwId(u8) {
-    DW_ID_case_sensitive = 0x00,
-    DW_ID_up_case = 0x01,
-    DW_ID_down_case = 0x02,
-    DW_ID_case_insensitive = 0x03,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_calling_convention` attribute.
-///
-/// See Section 7.15, Table 7.19.
-DwCc(u8) {
-    DW_CC_normal = 0x01,
-    DW_CC_program = 0x02,
-    DW_CC_nocall = 0x03,
-    DW_CC_pass_by_reference = 0x04,
-    DW_CC_pass_by_value = 0x05,
-    DW_CC_lo_user = 0x40,
-    DW_CC_hi_user = 0xff,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_inline` attribute.
-///
-/// See Section 7.16, Table 7.20.
-DwInl(u8) {
-    DW_INL_not_inlined = 0x00,
-    DW_INL_inlined = 0x01,
-    DW_INL_declared_not_inlined = 0x02,
-    DW_INL_declared_inlined = 0x03,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_ordering` attribute.
-///
-/// See Section 7.17, Table 7.17.
-DwOrd(u8) {
-    DW_ORD_row_major = 0x00,
-    DW_ORD_col_major = 0x01,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_discr_list` attribute.
-///
-/// See Section 7.18, Table 7.22.
-DwDsc(u8) {
-    DW_DSC_label = 0x00,
-    DW_DSC_range = 0x01,
-});
-
-dw!(
-/// Name index attribute encodings.
-///
-/// See Section 7.19, Table 7.23.
-DwIdx(u16) {
-    DW_IDX_compile_unit = 1,
-    DW_IDX_type_unit = 2,
-    DW_IDX_die_offset = 3,
-    DW_IDX_parent = 4,
-    DW_IDX_type_hash = 5,
-    DW_IDX_lo_user = 0x2000,
-    DW_IDX_hi_user = 0x3fff,
-});
-
-dw!(
-/// The encodings of the constants used in the `DW_AT_defaulted` attribute.
-///
-/// See Section 7.20, Table 7.24.
-DwDefaulted(u8) {
-    DW_DEFAULTED_no = 0x00,
-    DW_DEFAULTED_in_class = 0x01,
-    DW_DEFAULTED_out_of_class = 0x02,
-});
-
-dw!(
-/// The encodings for the standard opcodes for line number information.
-///
-/// See Section 7.22, Table 7.25.
-DwLns(u8) {
-    DW_LNS_copy = 0x01,
-    DW_LNS_advance_pc = 0x02,
-    DW_LNS_advance_line = 0x03,
-    DW_LNS_set_file = 0x04,
-    DW_LNS_set_column = 0x05,
-    DW_LNS_negate_stmt = 0x06,
-    DW_LNS_set_basic_block = 0x07,
-    DW_LNS_const_add_pc = 0x08,
-    DW_LNS_fixed_advance_pc = 0x09,
-    DW_LNS_set_prologue_end = 0x0a,
-    DW_LNS_set_epilogue_begin = 0x0b,
-    DW_LNS_set_isa = 0x0c,
-});
-
-dw!(
-/// The encodings for the extended opcodes for line number information.
-///
-/// See Section 7.22, Table 7.26.
-DwLne(u8) {
-    DW_LNE_end_sequence = 0x01,
-    DW_LNE_set_address = 0x02,
-    DW_LNE_define_file = 0x03,
-    DW_LNE_set_discriminator = 0x04,
-
-    DW_LNE_lo_user = 0x80,
-    DW_LNE_hi_user = 0xff,
-});
-
-dw!(
-/// The encodings for the line number header entry formats.
-///
-/// See Section 7.22, Table 7.27.
-DwLnct(u16) {
-    DW_LNCT_path = 0x1,
-    DW_LNCT_directory_index = 0x2,
-    DW_LNCT_timestamp = 0x3,
-    DW_LNCT_size = 0x4,
-    DW_LNCT_MD5 = 0x5,
-    DW_LNCT_lo_user = 0x2000,
-    DW_LNCT_hi_user = 0x3fff,
-});
-
-dw!(
-/// The encodings for macro information entry types.
-///
-/// See Section 7.23, Table 7.28.
-DwMacro(u8) {
-    DW_MACRO_define = 0x01,
-    DW_MACRO_undef = 0x02,
-    DW_MACRO_start_file = 0x03,
-    DW_MACRO_end_file = 0x04,
-    DW_MACRO_define_strp = 0x05,
-    DW_MACRO_undef_strp = 0x06,
-    DW_MACRO_import = 0x07,
-    DW_MACRO_define_sup = 0x08,
-    DW_MACRO_undef_sup = 0x09,
-    DW_MACRO_import_sup = 0x0a,
-    DW_MACRO_define_strx = 0x0b,
-    DW_MACRO_undef_strx = 0x0c,
-    DW_MACRO_lo_user = 0xe0,
-    DW_MACRO_hi_user = 0xff,
-});
-
-dw!(
-/// Range list entry encoding values.
-///
-/// See Section 7.25, Table 7.30.
-DwRle(u8) {
-    DW_RLE_end_of_list = 0x00,
-    DW_RLE_base_addressx = 0x01,
-    DW_RLE_startx_endx = 0x02,
-    DW_RLE_startx_length = 0x03,
-    DW_RLE_offset_pair = 0x04,
-    DW_RLE_base_address = 0x05,
-    DW_RLE_start_end = 0x06,
-    DW_RLE_start_length = 0x07,
-});
-
-dw!(
-/// The encodings for DWARF expression operations.
-///
-/// See Section 7.7.1, Table 7.9.
-DwOp(u8) {
-    DW_OP_addr = 0x03,
-    DW_OP_deref = 0x06,
-    DW_OP_const1u = 0x08,
-    DW_OP_const1s = 0x09,
-    DW_OP_const2u = 0x0a,
-    DW_OP_const2s = 0x0b,
-    DW_OP_const4u = 0x0c,
-    DW_OP_const4s = 0x0d,
-    DW_OP_const8u = 0x0e,
-    DW_OP_const8s = 0x0f,
-    DW_OP_constu = 0x10,
-    DW_OP_consts = 0x11,
-    DW_OP_dup = 0x12,
-    DW_OP_drop = 0x13,
-    DW_OP_over = 0x14,
-    DW_OP_pick = 0x15,
-    DW_OP_swap = 0x16,
-    DW_OP_rot = 0x17,
-    DW_OP_xderef = 0x18,
-    DW_OP_abs = 0x19,
-    DW_OP_and = 0x1a,
-    DW_OP_div = 0x1b,
-    DW_OP_minus = 0x1c,
-    DW_OP_mod = 0x1d,
-    DW_OP_mul = 0x1e,
-    DW_OP_neg = 0x1f,
-    DW_OP_not = 0x20,
-    DW_OP_or = 0x21,
-    DW_OP_plus = 0x22,
-    DW_OP_plus_uconst = 0x23,
-    DW_OP_shl = 0x24,
-    DW_OP_shr = 0x25,
-    DW_OP_shra = 0x26,
-    DW_OP_xor = 0x27,
-    DW_OP_bra = 0x28,
-    DW_OP_eq = 0x29,
-    DW_OP_ge = 0x2a,
-    DW_OP_gt = 0x2b,
-    DW_OP_le = 0x2c,
-    DW_OP_lt = 0x2d,
-    DW_OP_ne = 0x2e,
-    DW_OP_skip = 0x2f,
-    DW_OP_lit0 = 0x30,
-    DW_OP_lit1 = 0x31,
-    DW_OP_lit2 = 0x32,
-    DW_OP_lit3 = 0x33,
-    DW_OP_lit4 = 0x34,
-    DW_OP_lit5 = 0x35,
-    DW_OP_lit6 = 0x36,
-    DW_OP_lit7 = 0x37,
-    DW_OP_lit8 = 0x38,
-    DW_OP_lit9 = 0x39,
-    DW_OP_lit10 = 0x3a,
-    DW_OP_lit11 = 0x3b,
-    DW_OP_lit12 = 0x3c,
-    DW_OP_lit13 = 0x3d,
-    DW_OP_lit14 = 0x3e,
-    DW_OP_lit15 = 0x3f,
-    DW_OP_lit16 = 0x40,
-    DW_OP_lit17 = 0x41,
-    DW_OP_lit18 = 0x42,
-    DW_OP_lit19 = 0x43,
-    DW_OP_lit20 = 0x44,
-    DW_OP_lit21 = 0x45,
-    DW_OP_lit22 = 0x46,
-    DW_OP_lit23 = 0x47,
-    DW_OP_lit24 = 0x48,
-    DW_OP_lit25 = 0x49,
-    DW_OP_lit26 = 0x4a,
-    DW_OP_lit27 = 0x4b,
-    DW_OP_lit28 = 0x4c,
-    DW_OP_lit29 = 0x4d,
-    DW_OP_lit30 = 0x4e,
-    DW_OP_lit31 = 0x4f,
-    DW_OP_reg0 = 0x50,
-    DW_OP_reg1 = 0x51,
-    DW_OP_reg2 = 0x52,
-    DW_OP_reg3 = 0x53,
-    DW_OP_reg4 = 0x54,
-    DW_OP_reg5 = 0x55,
-    DW_OP_reg6 = 0x56,
-    DW_OP_reg7 = 0x57,
-    DW_OP_reg8 = 0x58,
-    DW_OP_reg9 = 0x59,
-    DW_OP_reg10 = 0x5a,
-    DW_OP_reg11 = 0x5b,
-    DW_OP_reg12 = 0x5c,
-    DW_OP_reg13 = 0x5d,
-    DW_OP_reg14 = 0x5e,
-    DW_OP_reg15 = 0x5f,
-    DW_OP_reg16 = 0x60,
-    DW_OP_reg17 = 0x61,
-    DW_OP_reg18 = 0x62,
-    DW_OP_reg19 = 0x63,
-    DW_OP_reg20 = 0x64,
-    DW_OP_reg21 = 0x65,
-    DW_OP_reg22 = 0x66,
-    DW_OP_reg23 = 0x67,
-    DW_OP_reg24 = 0x68,
-    DW_OP_reg25 = 0x69,
-    DW_OP_reg26 = 0x6a,
-    DW_OP_reg27 = 0x6b,
-    DW_OP_reg28 = 0x6c,
-    DW_OP_reg29 = 0x6d,
-    DW_OP_reg30 = 0x6e,
-    DW_OP_reg31 = 0x6f,
-    DW_OP_breg0 = 0x70,
-    DW_OP_breg1 = 0x71,
-    DW_OP_breg2 = 0x72,
-    DW_OP_breg3 = 0x73,
-    DW_OP_breg4 = 0x74,
-    DW_OP_breg5 = 0x75,
-    DW_OP_breg6 = 0x76,
-    DW_OP_breg7 = 0x77,
-    DW_OP_breg8 = 0x78,
-    DW_OP_breg9 = 0x79,
-    DW_OP_breg10 = 0x7a,
-    DW_OP_breg11 = 0x7b,
-    DW_OP_breg12 = 0x7c,
-    DW_OP_breg13 = 0x7d,
-    DW_OP_breg14 = 0x7e,
-    DW_OP_breg15 = 0x7f,
-    DW_OP_breg16 = 0x80,
-    DW_OP_breg17 = 0x81,
-    DW_OP_breg18 = 0x82,
-    DW_OP_breg19 = 0x83,
-    DW_OP_breg20 = 0x84,
-    DW_OP_breg21 = 0x85,
-    DW_OP_breg22 = 0x86,
-    DW_OP_breg23 = 0x87,
-    DW_OP_breg24 = 0x88,
-    DW_OP_breg25 = 0x89,
-    DW_OP_breg26 = 0x8a,
-    DW_OP_breg27 = 0x8b,
-    DW_OP_breg28 = 0x8c,
-    DW_OP_breg29 = 0x8d,
-    DW_OP_breg30 = 0x8e,
-    DW_OP_breg31 = 0x8f,
-    DW_OP_regx = 0x90,
-    DW_OP_fbreg = 0x91,
-    DW_OP_bregx = 0x92,
-    DW_OP_piece = 0x93,
-    DW_OP_deref_size = 0x94,
-    DW_OP_xderef_size = 0x95,
-    DW_OP_nop = 0x96,
-    DW_OP_push_object_address = 0x97,
-    DW_OP_call2 = 0x98,
-    DW_OP_call4 = 0x99,
-    DW_OP_call_ref = 0x9a,
-    DW_OP_form_tls_address = 0x9b,
-    DW_OP_call_frame_cfa = 0x9c,
-    DW_OP_bit_piece = 0x9d,
-    DW_OP_implicit_value = 0x9e,
-    DW_OP_stack_value = 0x9f,
-    DW_OP_implicit_pointer = 0xa0,
-    DW_OP_addrx = 0xa1,
-    DW_OP_constx = 0xa2,
-    DW_OP_entry_value = 0xa3,
-    DW_OP_const_type = 0xa4,
-    DW_OP_regval_type = 0xa5,
-    DW_OP_deref_type = 0xa6,
-    DW_OP_xderef_type = 0xa7,
-    DW_OP_convert = 0xa8,
-    DW_OP_reinterpret = 0xa9,
-
-    // GNU extensions
-    DW_OP_GNU_push_tls_address = 0xe0,
-    DW_OP_GNU_implicit_pointer = 0xf2,
-    DW_OP_GNU_entry_value = 0xf3,
-    DW_OP_GNU_const_type = 0xf4,
-    DW_OP_GNU_regval_type = 0xf5,
-    DW_OP_GNU_deref_type = 0xf6,
-    DW_OP_GNU_convert = 0xf7,
-    DW_OP_GNU_reinterpret = 0xf9,
-    DW_OP_GNU_parameter_ref = 0xfa,
-    DW_OP_GNU_addr_index = 0xfb,
-    DW_OP_GNU_const_index = 0xfc,
-
-    // Wasm extensions
-    DW_OP_WASM_location = 0xed,
-});
-
-dw!(
-/// Pointer encoding used by `.eh_frame`.
-///
-/// The four lower bits describe the
-/// format of the pointer, the upper four bits describe how the encoding should
-/// be applied.
-///
-/// Defined in `<https://refspecs.linuxfoundation.org/LSB_4.0.0/LSB-Core-generic/LSB-Core-generic/dwarfext.html>`
-DwEhPe(u8) {
-// Format of pointer encoding.
-
-// "Unsigned value is encoded using the Little Endian Base 128"
-    DW_EH_PE_uleb128 = 0x1,
-// "A 2 bytes unsigned value."
-    DW_EH_PE_udata2 = 0x2,
-// "A 4 bytes unsigned value."
-    DW_EH_PE_udata4 = 0x3,
-// "An 8 bytes unsigned value."
-    DW_EH_PE_udata8 = 0x4,
-// "Signed value is encoded using the Little Endian Base 128"
-    DW_EH_PE_sleb128 = 0x9,
-// "A 2 bytes signed value."
-    DW_EH_PE_sdata2 = 0x0a,
-// "A 4 bytes signed value."
-    DW_EH_PE_sdata4 = 0x0b,
-// "An 8 bytes signed value."
-    DW_EH_PE_sdata8 = 0x0c,
-
-// How the pointer encoding should be applied.
-
-// `DW_EH_PE_pcrel` pointers are relative to their own location.
-    DW_EH_PE_pcrel = 0x10,
-// "Value is relative to the beginning of the .text section."
-    DW_EH_PE_textrel = 0x20,
-// "Value is relative to the beginning of the .got or .eh_frame_hdr section."
-    DW_EH_PE_datarel = 0x30,
-// "Value is relative to the beginning of the function."
-    DW_EH_PE_funcrel = 0x40,
-// "Value is aligned to an address unit sized boundary."
-    DW_EH_PE_aligned = 0x50,
-
-// This bit can be set for any of the above encoding applications. When set,
-// the encoded value is the address of the real pointer result, not the
-// pointer result itself.
-//
-// This isn't defined in the DWARF or the `.eh_frame` standards, but is
-// generated by both GNU/Linux and macOS tooling.
-    DW_EH_PE_indirect = 0x80,
-
-// These constants apply to both the lower and upper bits.
-
-// "The Value is a literal pointer whose size is determined by the
-// architecture."
-    DW_EH_PE_absptr = 0x0,
-// The absence of a pointer and encoding.
-    DW_EH_PE_omit = 0xff,
-});
-
-const DW_EH_PE_FORMAT_MASK: u8 = 0b0000_1111;
-
-// Ignores indirection bit.
-const DW_EH_PE_APPLICATION_MASK: u8 = 0b0111_0000;
-
-impl DwEhPe {
-    /// Get the pointer encoding's format.
-    #[inline]
-    pub fn format(self) -> DwEhPe {
-        DwEhPe(self.0 & DW_EH_PE_FORMAT_MASK)
-    }
-
-    /// Get the pointer encoding's application.
-    #[inline]
-    pub fn application(self) -> DwEhPe {
-        DwEhPe(self.0 & DW_EH_PE_APPLICATION_MASK)
-    }
-
-    /// Is this encoding the absent pointer encoding?
-    #[inline]
-    pub fn is_absent(self) -> bool {
-        self == DW_EH_PE_omit
-    }
-
-    /// Is this coding indirect? If so, its encoded value is the address of the
-    /// real pointer result, not the pointer result itself.
-    #[inline]
-    pub fn is_indirect(self) -> bool {
-        self.0 & DW_EH_PE_indirect.0 != 0
-    }
-
-    /// Is this a known, valid pointer encoding?
-    pub fn is_valid_encoding(self) -> bool {
-        if self.is_absent() {
-            return true;
-        }
-
-        match self.format() {
-            DW_EH_PE_absptr | DW_EH_PE_uleb128 | DW_EH_PE_udata2 | DW_EH_PE_udata4
-            | DW_EH_PE_udata8 | DW_EH_PE_sleb128 | DW_EH_PE_sdata2 | DW_EH_PE_sdata4
-            | DW_EH_PE_sdata8 => {}
-            _ => return false,
-        }
-
-        match self.application() {
-            DW_EH_PE_absptr | DW_EH_PE_pcrel | DW_EH_PE_textrel | DW_EH_PE_datarel
-            | DW_EH_PE_funcrel | DW_EH_PE_aligned => {}
-            _ => return false,
-        }
-
-        true
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    #[test]
-    fn test_dw_eh_pe_format() {
-        let encoding = DwEhPe(DW_EH_PE_pcrel.0 | DW_EH_PE_uleb128.0);
-        assert_eq!(encoding.format(), DW_EH_PE_uleb128);
-    }
-
-    #[test]
-    fn test_dw_eh_pe_application() {
-        let encoding = DwEhPe(DW_EH_PE_pcrel.0 | DW_EH_PE_uleb128.0);
-        assert_eq!(encoding.application(), DW_EH_PE_pcrel);
-    }
-
-    #[test]
-    fn test_dw_eh_pe_is_absent() {
-        assert_eq!(DW_EH_PE_absptr.is_absent(), false);
-        assert_eq!(DW_EH_PE_omit.is_absent(), true);
-    }
-
-    #[test]
-    fn test_dw_eh_pe_is_valid_encoding_ok() {
-        let encoding = DwEhPe(DW_EH_PE_uleb128.0 | DW_EH_PE_pcrel.0);
-        assert!(encoding.is_valid_encoding());
-        assert!(DW_EH_PE_absptr.is_valid_encoding());
-        assert!(DW_EH_PE_omit.is_valid_encoding());
-    }
-
-    #[test]
-    fn test_dw_eh_pe_is_valid_encoding_bad_format() {
-        let encoding = DwEhPe((DW_EH_PE_sdata8.0 + 1) | DW_EH_PE_pcrel.0);
-        assert_eq!(encoding.is_valid_encoding(), false);
-    }
-
-    #[test]
-    fn test_dw_eh_pe_is_valid_encoding_bad_application() {
-        let encoding = DwEhPe(DW_EH_PE_sdata8.0 | (DW_EH_PE_aligned.0 + 1));
-        assert_eq!(encoding.is_valid_encoding(), false);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/endianity.rs b/vendor/gimli-0.27.3/src/endianity.rs
deleted file mode 100644
index 3201551f1..000000000
--- a/vendor/gimli-0.27.3/src/endianity.rs
+++ /dev/null
@@ -1,256 +0,0 @@
-//! Types for compile-time and run-time endianity.
-
-use core::convert::TryInto;
-use core::fmt::Debug;
-
-/// A trait describing the endianity of some buffer.
-pub trait Endianity: Debug + Default + Clone + Copy + PartialEq + Eq {
-    /// Return true for big endian byte order.
-    fn is_big_endian(self) -> bool;
-
-    /// Return true for little endian byte order.
-    #[inline]
-    fn is_little_endian(self) -> bool {
-        !self.is_big_endian()
-    }
-
-    /// Reads an unsigned 16 bit integer from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 2`.
-    #[inline]
-    fn read_u16(self, buf: &[u8]) -> u16 {
-        let bytes: &[u8; 2] = buf[..2].try_into().unwrap();
-        if self.is_big_endian() {
-            u16::from_be_bytes(*bytes)
-        } else {
-            u16::from_le_bytes(*bytes)
-        }
-    }
-
-    /// Reads an unsigned 32 bit integer from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 4`.
-    #[inline]
-    fn read_u32(self, buf: &[u8]) -> u32 {
-        let bytes: &[u8; 4] = buf[..4].try_into().unwrap();
-        if self.is_big_endian() {
-            u32::from_be_bytes(*bytes)
-        } else {
-            u32::from_le_bytes(*bytes)
-        }
-    }
-
-    /// Reads an unsigned 64 bit integer from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 8`.
-    #[inline]
-    fn read_u64(self, buf: &[u8]) -> u64 {
-        let bytes: &[u8; 8] = buf[..8].try_into().unwrap();
-        if self.is_big_endian() {
-            u64::from_be_bytes(*bytes)
-        } else {
-            u64::from_le_bytes(*bytes)
-        }
-    }
-
-    /// Read an unsigned n-bytes integer u64.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 1` or `buf.len() > 8`.
-    #[inline]
-    fn read_uint(&mut self, buf: &[u8]) -> u64 {
-        let mut tmp = [0; 8];
-        if self.is_big_endian() {
-            tmp[8 - buf.len()..].copy_from_slice(buf);
-        } else {
-            tmp[..buf.len()].copy_from_slice(buf);
-        }
-        self.read_u64(&tmp)
-    }
-
-    /// Reads a signed 16 bit integer from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 2`.
-    #[inline]
-    fn read_i16(self, buf: &[u8]) -> i16 {
-        self.read_u16(buf) as i16
-    }
-
-    /// Reads a signed 32 bit integer from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 4`.
-    #[inline]
-    fn read_i32(self, buf: &[u8]) -> i32 {
-        self.read_u32(buf) as i32
-    }
-
-    /// Reads a signed 64 bit integer from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 8`.
-    #[inline]
-    fn read_i64(self, buf: &[u8]) -> i64 {
-        self.read_u64(buf) as i64
-    }
-
-    /// Reads a 32 bit floating point number from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 8`.
-    #[inline]
-    fn read_f32(self, buf: &[u8]) -> f32 {
-        f32::from_bits(self.read_u32(buf))
-    }
-
-    /// Reads a 32 bit floating point number from `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 8`.
-    #[inline]
-    fn read_f64(self, buf: &[u8]) -> f64 {
-        f64::from_bits(self.read_u64(buf))
-    }
-
-    /// Writes an unsigned 16 bit integer `n` to `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 2`.
-    #[inline]
-    fn write_u16(self, buf: &mut [u8], n: u16) {
-        let bytes = if self.is_big_endian() {
-            n.to_be_bytes()
-        } else {
-            n.to_le_bytes()
-        };
-        buf[..2].copy_from_slice(&bytes);
-    }
-
-    /// Writes an unsigned 32 bit integer `n` to `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 4`.
-    #[inline]
-    fn write_u32(self, buf: &mut [u8], n: u32) {
-        let bytes = if self.is_big_endian() {
-            n.to_be_bytes()
-        } else {
-            n.to_le_bytes()
-        };
-        buf[..4].copy_from_slice(&bytes);
-    }
-
-    /// Writes an unsigned 64 bit integer `n` to `buf`.
-    ///
-    /// # Panics
-    ///
-    /// Panics when `buf.len() < 8`.
-    #[inline]
-    fn write_u64(self, buf: &mut [u8], n: u64) {
-        let bytes = if self.is_big_endian() {
-            n.to_be_bytes()
-        } else {
-            n.to_le_bytes()
-        };
-        buf[..8].copy_from_slice(&bytes);
-    }
-}
-
-/// Byte order that is selectable at runtime.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub enum RunTimeEndian {
-    /// Little endian byte order.
-    Little,
-    /// Big endian byte order.
-    Big,
-}
-
-impl Default for RunTimeEndian {
-    #[cfg(target_endian = "little")]
-    #[inline]
-    fn default() -> RunTimeEndian {
-        RunTimeEndian::Little
-    }
-
-    #[cfg(target_endian = "big")]
-    #[inline]
-    fn default() -> RunTimeEndian {
-        RunTimeEndian::Big
-    }
-}
-
-impl Endianity for RunTimeEndian {
-    #[inline]
-    fn is_big_endian(self) -> bool {
-        self != RunTimeEndian::Little
-    }
-}
-
-/// Little endian byte order.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct LittleEndian;
-
-impl Default for LittleEndian {
-    #[inline]
-    fn default() -> LittleEndian {
-        LittleEndian
-    }
-}
-
-impl Endianity for LittleEndian {
-    #[inline]
-    fn is_big_endian(self) -> bool {
-        false
-    }
-}
-
-/// Big endian byte order.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct BigEndian;
-
-impl Default for BigEndian {
-    #[inline]
-    fn default() -> BigEndian {
-        BigEndian
-    }
-}
-
-impl Endianity for BigEndian {
-    #[inline]
-    fn is_big_endian(self) -> bool {
-        true
-    }
-}
-
-/// The native endianity for the target platform.
-#[cfg(target_endian = "little")]
-pub type NativeEndian = LittleEndian;
-
-#[cfg(target_endian = "little")]
-#[allow(non_upper_case_globals)]
-#[doc(hidden)]
-pub const NativeEndian: LittleEndian = LittleEndian;
-
-/// The native endianity for the target platform.
-#[cfg(target_endian = "big")]
-pub type NativeEndian = BigEndian;
-
-#[cfg(target_endian = "big")]
-#[allow(non_upper_case_globals)]
-#[doc(hidden)]
-pub const NativeEndian: BigEndian = BigEndian;
diff --git a/vendor/gimli-0.27.3/src/leb128.rs b/vendor/gimli-0.27.3/src/leb128.rs
deleted file mode 100644
index de81cfdcf..000000000
--- a/vendor/gimli-0.27.3/src/leb128.rs
+++ /dev/null
@@ -1,612 +0,0 @@
-//! Read and write DWARF's "Little Endian Base 128" (LEB128) variable length
-//! integer encoding.
-//!
-//! The implementation is a direct translation of the psuedocode in the DWARF 4
-//! standard's appendix C.
-//!
-//! Read and write signed integers:
-//!
-//! ```
-//! # #[cfg(all(feature = "read", feature = "write"))] {
-//! use gimli::{EndianSlice, NativeEndian, leb128};
-//!
-//! let mut buf = [0; 1024];
-//!
-//! // Write to anything that implements `std::io::Write`.
-//! {
-//!     let mut writable = &mut buf[..];
-//!     leb128::write::signed(&mut writable, -12345).expect("Should write number");
-//! }
-//!
-//! // Read from anything that implements `gimli::Reader`.
-//! let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-//! let val = leb128::read::signed(&mut readable).expect("Should read number");
-//! assert_eq!(val, -12345);
-//! # }
-//! ```
-//!
-//! Or read and write unsigned integers:
-//!
-//! ```
-//! # #[cfg(all(feature = "read", feature = "write"))] {
-//! use gimli::{EndianSlice, NativeEndian, leb128};
-//!
-//! let mut buf = [0; 1024];
-//!
-//! {
-//!     let mut writable = &mut buf[..];
-//!     leb128::write::unsigned(&mut writable, 98765).expect("Should write number");
-//! }
-//!
-//! let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-//! let val = leb128::read::unsigned(&mut readable).expect("Should read number");
-//! assert_eq!(val, 98765);
-//! # }
-//! ```
-
-const CONTINUATION_BIT: u8 = 1 << 7;
-#[cfg(feature = "read-core")]
-const SIGN_BIT: u8 = 1 << 6;
-
-#[inline]
-fn low_bits_of_byte(byte: u8) -> u8 {
-    byte & !CONTINUATION_BIT
-}
-
-#[inline]
-#[allow(dead_code)]
-fn low_bits_of_u64(val: u64) -> u8 {
-    let byte = val & u64::from(core::u8::MAX);
-    low_bits_of_byte(byte as u8)
-}
-
-/// A module for reading signed and unsigned integers that have been LEB128
-/// encoded.
-#[cfg(feature = "read-core")]
-pub mod read {
-    use super::{low_bits_of_byte, CONTINUATION_BIT, SIGN_BIT};
-    use crate::read::{Error, Reader, Result};
-
-    /// Read bytes until the LEB128 continuation bit is not set.
-    pub fn skip<R: Reader>(r: &mut R) -> Result<()> {
-        loop {
-            let byte = r.read_u8()?;
-            if byte & CONTINUATION_BIT == 0 {
-                return Ok(());
-            }
-        }
-    }
-
-    /// Read an unsigned LEB128 number from the given `Reader` and
-    /// return it or an error if reading failed.
-    pub fn unsigned<R: Reader>(r: &mut R) -> Result<u64> {
-        let mut result = 0;
-        let mut shift = 0;
-
-        loop {
-            let byte = r.read_u8()?;
-            if shift == 63 && byte != 0x00 && byte != 0x01 {
-                return Err(Error::BadUnsignedLeb128);
-            }
-
-            let low_bits = u64::from(low_bits_of_byte(byte));
-            result |= low_bits << shift;
-
-            if byte & CONTINUATION_BIT == 0 {
-                return Ok(result);
-            }
-
-            shift += 7;
-        }
-    }
-
-    /// Read an LEB128 u16 from the given `Reader` and
-    /// return it or an error if reading failed.
-    pub fn u16<R: Reader>(r: &mut R) -> Result<u16> {
-        let byte = r.read_u8()?;
-        let mut result = u16::from(low_bits_of_byte(byte));
-        if byte & CONTINUATION_BIT == 0 {
-            return Ok(result);
-        }
-
-        let byte = r.read_u8()?;
-        result |= u16::from(low_bits_of_byte(byte)) << 7;
-        if byte & CONTINUATION_BIT == 0 {
-            return Ok(result);
-        }
-
-        let byte = r.read_u8()?;
-        if byte > 0x03 {
-            return Err(Error::BadUnsignedLeb128);
-        }
-        result += u16::from(byte) << 14;
-        Ok(result)
-    }
-
-    /// Read a signed LEB128 number from the given `Reader` and
-    /// return it or an error if reading failed.
-    pub fn signed<R: Reader>(r: &mut R) -> Result<i64> {
-        let mut result = 0;
-        let mut shift = 0;
-        let size = 64;
-        let mut byte;
-
-        loop {
-            byte = r.read_u8()?;
-            if shift == 63 && byte != 0x00 && byte != 0x7f {
-                return Err(Error::BadSignedLeb128);
-            }
-
-            let low_bits = i64::from(low_bits_of_byte(byte));
-            result |= low_bits << shift;
-            shift += 7;
-
-            if byte & CONTINUATION_BIT == 0 {
-                break;
-            }
-        }
-
-        if shift < size && (SIGN_BIT & byte) == SIGN_BIT {
-            // Sign extend the result.
-            result |= !0 << shift;
-        }
-
-        Ok(result)
-    }
-}
-
-/// A module for writing integers encoded as LEB128.
-#[cfg(feature = "write")]
-pub mod write {
-    use super::{low_bits_of_u64, CONTINUATION_BIT};
-    use std::io;
-
-    /// Write the given unsigned number using the LEB128 encoding to the given
-    /// `std::io::Write`able. Returns the number of bytes written to `w`, or an
-    /// error if writing failed.
-    pub fn unsigned<W>(w: &mut W, mut val: u64) -> Result<usize, io::Error>
-    where
-        W: io::Write,
-    {
-        let mut bytes_written = 0;
-        loop {
-            let mut byte = low_bits_of_u64(val);
-            val >>= 7;
-            if val != 0 {
-                // More bytes to come, so set the continuation bit.
-                byte |= CONTINUATION_BIT;
-            }
-
-            let buf = [byte];
-            w.write_all(&buf)?;
-            bytes_written += 1;
-
-            if val == 0 {
-                return Ok(bytes_written);
-            }
-        }
-    }
-
-    /// Return the size of the LEB128 encoding of the given unsigned number.
-    pub fn uleb128_size(mut val: u64) -> usize {
-        let mut size = 0;
-        loop {
-            val >>= 7;
-            size += 1;
-            if val == 0 {
-                return size;
-            }
-        }
-    }
-
-    /// Write the given signed number using the LEB128 encoding to the given
-    /// `std::io::Write`able. Returns the number of bytes written to `w`, or an
-    /// error if writing failed.
-    pub fn signed<W>(w: &mut W, mut val: i64) -> Result<usize, io::Error>
-    where
-        W: io::Write,
-    {
-        let mut bytes_written = 0;
-        loop {
-            let mut byte = val as u8;
-            // Keep the sign bit for testing
-            val >>= 6;
-            let done = val == 0 || val == -1;
-            if done {
-                byte &= !CONTINUATION_BIT;
-            } else {
-                // Remove the sign bit
-                val >>= 1;
-                // More bytes to come, so set the continuation bit.
-                byte |= CONTINUATION_BIT;
-            }
-
-            let buf = [byte];
-            w.write_all(&buf)?;
-            bytes_written += 1;
-
-            if done {
-                return Ok(bytes_written);
-            }
-        }
-    }
-
-    /// Return the size of the LEB128 encoding of the given signed number.
-    pub fn sleb128_size(mut val: i64) -> usize {
-        let mut size = 0;
-        loop {
-            val >>= 6;
-            let done = val == 0 || val == -1;
-            val >>= 1;
-            size += 1;
-            if done {
-                return size;
-            }
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(all(feature = "read", feature = "write"))]
-mod tests {
-    use super::{low_bits_of_byte, low_bits_of_u64, read, write, CONTINUATION_BIT};
-    use crate::endianity::NativeEndian;
-    use crate::read::{EndianSlice, Error, ReaderOffsetId};
-
-    trait ResultExt {
-        fn map_eof(self, input: &[u8]) -> Self;
-    }
-
-    impl<T> ResultExt for Result<T, Error> {
-        fn map_eof(self, input: &[u8]) -> Self {
-            match self {
-                Err(Error::UnexpectedEof(id)) => {
-                    let id = ReaderOffsetId(id.0 - input.as_ptr() as u64);
-                    Err(Error::UnexpectedEof(id))
-                }
-                r => r,
-            }
-        }
-    }
-
-    #[test]
-    fn test_low_bits_of_byte() {
-        for i in 0..127 {
-            assert_eq!(i, low_bits_of_byte(i));
-            assert_eq!(i, low_bits_of_byte(i | CONTINUATION_BIT));
-        }
-    }
-
-    #[test]
-    fn test_low_bits_of_u64() {
-        for i in 0u64..127 {
-            assert_eq!(i as u8, low_bits_of_u64(1 << 16 | i));
-            assert_eq!(
-                i as u8,
-                low_bits_of_u64(i << 16 | i | (u64::from(CONTINUATION_BIT)))
-            );
-        }
-    }
-
-    // Examples from the DWARF 4 standard, section 7.6, figure 22.
-    #[test]
-    fn test_read_unsigned() {
-        let buf = [2u8];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            2,
-            read::unsigned(&mut readable).expect("Should read number")
-        );
-
-        let buf = [127u8];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            127,
-            read::unsigned(&mut readable).expect("Should read number")
-        );
-
-        let buf = [CONTINUATION_BIT, 1];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            128,
-            read::unsigned(&mut readable).expect("Should read number")
-        );
-
-        let buf = [1u8 | CONTINUATION_BIT, 1];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            129,
-            read::unsigned(&mut readable).expect("Should read number")
-        );
-
-        let buf = [2u8 | CONTINUATION_BIT, 1];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            130,
-            read::unsigned(&mut readable).expect("Should read number")
-        );
-
-        let buf = [57u8 | CONTINUATION_BIT, 100];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            12857,
-            read::unsigned(&mut readable).expect("Should read number")
-        );
-    }
-
-    // Examples from the DWARF 4 standard, section 7.6, figure 23.
-    #[test]
-    fn test_read_signed() {
-        let buf = [2u8];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(2, read::signed(&mut readable).expect("Should read number"));
-
-        let buf = [0x7eu8];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(-2, read::signed(&mut readable).expect("Should read number"));
-
-        let buf = [127u8 | CONTINUATION_BIT, 0];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            127,
-            read::signed(&mut readable).expect("Should read number")
-        );
-
-        let buf = [1u8 | CONTINUATION_BIT, 0x7f];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            -127,
-            read::signed(&mut readable).expect("Should read number")
-        );
-
-        let buf = [CONTINUATION_BIT, 1];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            128,
-            read::signed(&mut readable).expect("Should read number")
-        );
-
-        let buf = [CONTINUATION_BIT, 0x7f];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            -128,
-            read::signed(&mut readable).expect("Should read number")
-        );
-
-        let buf = [1u8 | CONTINUATION_BIT, 1];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            129,
-            read::signed(&mut readable).expect("Should read number")
-        );
-
-        let buf = [0x7fu8 | CONTINUATION_BIT, 0x7e];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            -129,
-            read::signed(&mut readable).expect("Should read number")
-        );
-    }
-
-    #[test]
-    fn test_read_signed_63_bits() {
-        let buf = [
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            CONTINUATION_BIT,
-            0x40,
-        ];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            -0x4000_0000_0000_0000,
-            read::signed(&mut readable).expect("Should read number")
-        );
-    }
-
-    #[test]
-    fn test_read_unsigned_not_enough_data() {
-        let buf = [CONTINUATION_BIT];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            read::unsigned(&mut readable).map_eof(&buf),
-            Err(Error::UnexpectedEof(ReaderOffsetId(1)))
-        );
-    }
-
-    #[test]
-    fn test_read_signed_not_enough_data() {
-        let buf = [CONTINUATION_BIT];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            read::signed(&mut readable).map_eof(&buf),
-            Err(Error::UnexpectedEof(ReaderOffsetId(1)))
-        );
-    }
-
-    #[test]
-    fn test_write_unsigned_not_enough_space() {
-        let mut buf = [0; 1];
-        let mut writable = &mut buf[..];
-        match write::unsigned(&mut writable, 128) {
-            Err(e) => assert_eq!(e.kind(), std::io::ErrorKind::WriteZero),
-            otherwise => panic!("Unexpected: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_write_signed_not_enough_space() {
-        let mut buf = [0; 1];
-        let mut writable = &mut buf[..];
-        match write::signed(&mut writable, 128) {
-            Err(e) => assert_eq!(e.kind(), std::io::ErrorKind::WriteZero),
-            otherwise => panic!("Unexpected: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn dogfood_signed() {
-        fn inner(i: i64) {
-            let mut buf = [0u8; 1024];
-
-            {
-                let mut writable = &mut buf[..];
-                write::signed(&mut writable, i).expect("Should write signed number");
-            }
-
-            let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-            let result = read::signed(&mut readable).expect("Should be able to read it back again");
-            assert_eq!(i, result);
-        }
-        for i in -513..513 {
-            inner(i);
-        }
-        inner(core::i64::MIN);
-    }
-
-    #[test]
-    fn dogfood_unsigned() {
-        for i in 0..1025 {
-            let mut buf = [0u8; 1024];
-
-            {
-                let mut writable = &mut buf[..];
-                write::unsigned(&mut writable, i).expect("Should write signed number");
-            }
-
-            let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-            let result =
-                read::unsigned(&mut readable).expect("Should be able to read it back again");
-            assert_eq!(i, result);
-        }
-    }
-
-    #[test]
-    fn test_read_unsigned_overflow() {
-        let buf = [
-            2u8 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            1,
-        ];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert!(read::unsigned(&mut readable).is_err());
-    }
-
-    #[test]
-    fn test_read_signed_overflow() {
-        let buf = [
-            2u8 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            2 | CONTINUATION_BIT,
-            1,
-        ];
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert!(read::signed(&mut readable).is_err());
-    }
-
-    #[test]
-    fn test_read_multiple() {
-        let buf = [2u8 | CONTINUATION_BIT, 1u8, 1u8];
-
-        let mut readable = EndianSlice::new(&buf[..], NativeEndian);
-        assert_eq!(
-            read::unsigned(&mut readable).expect("Should read first number"),
-            130u64
-        );
-        assert_eq!(
-            read::unsigned(&mut readable).expect("Should read first number"),
-            1u64
-        );
-    }
-
-    #[test]
-    fn test_read_u16() {
-        for (buf, val) in [
-            (&[2][..], 2),
-            (&[0x7f][..], 0x7f),
-            (&[0x80, 1][..], 0x80),
-            (&[0x81, 1][..], 0x81),
-            (&[0x82, 1][..], 0x82),
-            (&[0xff, 0x7f][..], 0x3fff),
-            (&[0x80, 0x80, 1][..], 0x4000),
-            (&[0xff, 0xff, 1][..], 0x7fff),
-            (&[0xff, 0xff, 3][..], 0xffff),
-        ]
-        .iter()
-        {
-            let mut readable = EndianSlice::new(buf, NativeEndian);
-            assert_eq!(*val, read::u16(&mut readable).expect("Should read number"));
-        }
-
-        for buf in [
-            &[0x80][..],
-            &[0x80, 0x80][..],
-            &[0x80, 0x80, 4][..],
-            &[0x80, 0x80, 0x80, 3][..],
-        ]
-        .iter()
-        {
-            let mut readable = EndianSlice::new(buf, NativeEndian);
-            assert!(read::u16(&mut readable).is_err(), "{:?}", buf);
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/lib.rs b/vendor/gimli-0.27.3/src/lib.rs
deleted file mode 100644
index 14ba501d2..000000000
--- a/vendor/gimli-0.27.3/src/lib.rs
+++ /dev/null
@@ -1,79 +0,0 @@
-//! `gimli` is a library for reading and writing the
-//! [DWARF debugging format](https://dwarfstd.org/).
-//!
-//! See the [read](./read/index.html) and [write](./write/index.html) modules
-//! for examples and API documentation.
-//!
-//! ## Cargo Features
-//!
-//! Cargo features that can be enabled with `gimli`:
-//!
-//! * `std`: Enabled by default. Use the `std` library. Disabling this feature
-//! allows using `gimli` in embedded environments that do not have access to
-//! `std`. Note that even when `std` is disabled, `gimli` still requires an
-//! implementation of the `alloc` crate.
-//!
-//! * `read`: Enabled by default. Enables the `read` module. Use of `std` is
-//! optional.
-//!
-//! * `write`: Enabled by default. Enables the `write` module. Always uses
-//! the `std` library.
-#![deny(missing_docs)]
-#![deny(missing_debug_implementations)]
-// Selectively enable rust 2018 warnings
-#![warn(bare_trait_objects)]
-#![warn(unused_extern_crates)]
-#![warn(ellipsis_inclusive_range_patterns)]
-//#![warn(elided_lifetimes_in_paths)]
-#![warn(explicit_outlives_requirements)]
-// Style.
-#![allow(clippy::bool_to_int_with_if)]
-#![allow(clippy::collapsible_else_if)]
-#![allow(clippy::comparison_chain)]
-#![allow(clippy::manual_range_contains)]
-#![allow(clippy::needless_late_init)]
-#![allow(clippy::too_many_arguments)]
-// False positives with `fallible_iterator`.
-#![allow(clippy::should_implement_trait)]
-// False positives.
-#![allow(clippy::derive_partial_eq_without_eq)]
-#![no_std]
-
-#[allow(unused_imports)]
-#[cfg(any(feature = "read", feature = "write"))]
-#[macro_use]
-extern crate alloc;
-
-#[cfg(any(feature = "std", feature = "write"))]
-#[macro_use]
-extern crate std;
-
-#[cfg(feature = "stable_deref_trait")]
-pub use stable_deref_trait::{CloneStableDeref, StableDeref};
-
-mod common;
-pub use crate::common::*;
-
-mod arch;
-pub use crate::arch::*;
-
-pub mod constants;
-// For backwards compat.
-pub use crate::constants::*;
-
-mod endianity;
-pub use crate::endianity::*;
-
-pub mod leb128;
-
-#[cfg(feature = "read-core")]
-pub mod read;
-// For backwards compat.
-#[cfg(feature = "read-core")]
-pub use crate::read::*;
-
-#[cfg(feature = "write")]
-pub mod write;
-
-#[cfg(test)]
-mod test_util;
diff --git a/vendor/gimli-0.27.3/src/read/abbrev.rs b/vendor/gimli-0.27.3/src/read/abbrev.rs
deleted file mode 100644
index 54f5cf8e5..000000000
--- a/vendor/gimli-0.27.3/src/read/abbrev.rs
+++ /dev/null
@@ -1,1089 +0,0 @@
-//! Functions for parsing DWARF debugging abbreviations.
-
-use alloc::collections::btree_map;
-use alloc::sync::Arc;
-use alloc::vec::Vec;
-use core::convert::TryFrom;
-use core::fmt::{self, Debug};
-use core::iter::FromIterator;
-use core::ops::Deref;
-
-use crate::common::{DebugAbbrevOffset, Encoding, SectionId};
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::read::lazy::LazyArc;
-use crate::read::{EndianSlice, Error, Reader, ReaderOffset, Result, Section, UnitHeader};
-
-/// The `DebugAbbrev` struct represents the abbreviations describing
-/// `DebuggingInformationEntry`s' attribute names and forms found in the
-/// `.debug_abbrev` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugAbbrev<R> {
-    debug_abbrev_section: R,
-}
-
-impl<'input, Endian> DebugAbbrev<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugAbbrev` instance from the data in the `.debug_abbrev`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_abbrev` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugAbbrev, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_abbrev_section_somehow = || &buf;
-    /// let debug_abbrev = DebugAbbrev::new(read_debug_abbrev_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_abbrev_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_abbrev_section, endian))
-    }
-}
-
-impl<R: Reader> DebugAbbrev<R> {
-    /// Parse the abbreviations at the given `offset` within this
-    /// `.debug_abbrev` section.
-    ///
-    /// The `offset` should generally be retrieved from a unit header.
-    pub fn abbreviations(
-        &self,
-        debug_abbrev_offset: DebugAbbrevOffset<R::Offset>,
-    ) -> Result<Abbreviations> {
-        let input = &mut self.debug_abbrev_section.clone();
-        input.skip(debug_abbrev_offset.0)?;
-        Abbreviations::parse(input)
-    }
-}
-
-impl<T> DebugAbbrev<T> {
-    /// Create a `DebugAbbrev` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugAbbrev<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugAbbrev<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.debug_abbrev_section).into()
-    }
-}
-
-impl<R> Section<R> for DebugAbbrev<R> {
-    fn id() -> SectionId {
-        SectionId::DebugAbbrev
-    }
-
-    fn reader(&self) -> &R {
-        &self.debug_abbrev_section
-    }
-}
-
-impl<R> From<R> for DebugAbbrev<R> {
-    fn from(debug_abbrev_section: R) -> Self {
-        DebugAbbrev {
-            debug_abbrev_section,
-        }
-    }
-}
-
-/// A cache of previously parsed `Abbreviations`.
-///
-/// Currently this only caches the abbreviations for offset 0,
-/// since this is a common case in which abbreviations are reused.
-/// This strategy may change in future if there is sufficient need.
-#[derive(Debug, Default)]
-pub struct AbbreviationsCache {
-    abbreviations: LazyArc<Abbreviations>,
-}
-
-impl AbbreviationsCache {
-    /// Create an empty abbreviations cache.
-    pub fn new() -> Self {
-        Self::default()
-    }
-
-    /// Parse the abbreviations at the given offset.
-    ///
-    /// This uses or updates the cache as required.
-    pub fn get<R: Reader>(
-        &self,
-        debug_abbrev: &DebugAbbrev<R>,
-        offset: DebugAbbrevOffset<R::Offset>,
-    ) -> Result<Arc<Abbreviations>> {
-        if offset.0 != R::Offset::from_u8(0) {
-            return debug_abbrev.abbreviations(offset).map(Arc::new);
-        }
-        self.abbreviations
-            .get(|| debug_abbrev.abbreviations(offset))
-    }
-}
-
-/// A set of type abbreviations.
-///
-/// Construct an `Abbreviations` instance with the
-/// [`abbreviations()`](struct.UnitHeader.html#method.abbreviations)
-/// method.
-#[derive(Debug, Default, Clone)]
-pub struct Abbreviations {
-    vec: Vec<Abbreviation>,
-    map: btree_map::BTreeMap<u64, Abbreviation>,
-}
-
-impl Abbreviations {
-    /// Construct a new, empty set of abbreviations.
-    fn empty() -> Abbreviations {
-        Abbreviations {
-            vec: Vec::new(),
-            map: btree_map::BTreeMap::new(),
-        }
-    }
-
-    /// Insert an abbreviation into the set.
-    ///
-    /// Returns `Ok` if it is the first abbreviation in the set with its code,
-    /// `Err` if the code is a duplicate and there already exists an
-    /// abbreviation in the set with the given abbreviation's code.
-    fn insert(&mut self, abbrev: Abbreviation) -> ::core::result::Result<(), ()> {
-        let code_usize = abbrev.code as usize;
-        if code_usize as u64 == abbrev.code {
-            // Optimize for sequential abbreviation codes by storing them
-            // in a Vec, as long as the map doesn't already contain them.
-            // A potential further optimization would be to allow some
-            // holes in the Vec, but there's no need for that yet.
-            if code_usize - 1 < self.vec.len() {
-                return Err(());
-            } else if code_usize - 1 == self.vec.len() {
-                if !self.map.is_empty() && self.map.contains_key(&abbrev.code) {
-                    return Err(());
-                } else {
-                    self.vec.push(abbrev);
-                    return Ok(());
-                }
-            }
-        }
-        match self.map.entry(abbrev.code) {
-            btree_map::Entry::Occupied(_) => Err(()),
-            btree_map::Entry::Vacant(entry) => {
-                entry.insert(abbrev);
-                Ok(())
-            }
-        }
-    }
-
-    /// Get the abbreviation associated with the given code.
-    #[inline]
-    pub fn get(&self, code: u64) -> Option<&Abbreviation> {
-        if let Ok(code) = usize::try_from(code) {
-            let index = code.checked_sub(1)?;
-            if index < self.vec.len() {
-                return Some(&self.vec[index]);
-            }
-        }
-
-        self.map.get(&code)
-    }
-
-    /// Parse a series of abbreviations, terminated by a null abbreviation.
-    fn parse<R: Reader>(input: &mut R) -> Result<Abbreviations> {
-        let mut abbrevs = Abbreviations::empty();
-
-        while let Some(abbrev) = Abbreviation::parse(input)? {
-            if abbrevs.insert(abbrev).is_err() {
-                return Err(Error::DuplicateAbbreviationCode);
-            }
-        }
-
-        Ok(abbrevs)
-    }
-}
-
-/// An abbreviation describes the shape of a `DebuggingInformationEntry`'s type:
-/// its code, tag type, whether it has children, and its set of attributes.
-#[derive(Debug, Clone, PartialEq, Eq)]
-pub struct Abbreviation {
-    code: u64,
-    tag: constants::DwTag,
-    has_children: constants::DwChildren,
-    attributes: Attributes,
-}
-
-impl Abbreviation {
-    /// Construct a new `Abbreviation`.
-    ///
-    /// ### Panics
-    ///
-    /// Panics if `code` is `0`.
-    pub(crate) fn new(
-        code: u64,
-        tag: constants::DwTag,
-        has_children: constants::DwChildren,
-        attributes: Attributes,
-    ) -> Abbreviation {
-        assert_ne!(code, 0);
-        Abbreviation {
-            code,
-            tag,
-            has_children,
-            attributes,
-        }
-    }
-
-    /// Get this abbreviation's code.
-    #[inline]
-    pub fn code(&self) -> u64 {
-        self.code
-    }
-
-    /// Get this abbreviation's tag.
-    #[inline]
-    pub fn tag(&self) -> constants::DwTag {
-        self.tag
-    }
-
-    /// Return true if this abbreviation's type has children, false otherwise.
-    #[inline]
-    pub fn has_children(&self) -> bool {
-        self.has_children == constants::DW_CHILDREN_yes
-    }
-
-    /// Get this abbreviation's attributes.
-    #[inline]
-    pub fn attributes(&self) -> &[AttributeSpecification] {
-        &self.attributes[..]
-    }
-
-    /// Parse an abbreviation's tag.
-    fn parse_tag<R: Reader>(input: &mut R) -> Result<constants::DwTag> {
-        let val = input.read_uleb128_u16()?;
-        if val == 0 {
-            Err(Error::AbbreviationTagZero)
-        } else {
-            Ok(constants::DwTag(val))
-        }
-    }
-
-    /// Parse an abbreviation's "does the type have children?" byte.
-    fn parse_has_children<R: Reader>(input: &mut R) -> Result<constants::DwChildren> {
-        let val = input.read_u8()?;
-        let val = constants::DwChildren(val);
-        if val == constants::DW_CHILDREN_no || val == constants::DW_CHILDREN_yes {
-            Ok(val)
-        } else {
-            Err(Error::BadHasChildren)
-        }
-    }
-
-    /// Parse a series of attribute specifications, terminated by a null attribute
-    /// specification.
-    fn parse_attributes<R: Reader>(input: &mut R) -> Result<Attributes> {
-        let mut attrs = Attributes::new();
-
-        while let Some(attr) = AttributeSpecification::parse(input)? {
-            attrs.push(attr);
-        }
-
-        Ok(attrs)
-    }
-
-    /// Parse an abbreviation. Return `None` for the null abbreviation, `Some`
-    /// for an actual abbreviation.
-    fn parse<R: Reader>(input: &mut R) -> Result<Option<Abbreviation>> {
-        let code = input.read_uleb128()?;
-        if code == 0 {
-            return Ok(None);
-        }
-
-        let tag = Self::parse_tag(input)?;
-        let has_children = Self::parse_has_children(input)?;
-        let attributes = Self::parse_attributes(input)?;
-        let abbrev = Abbreviation::new(code, tag, has_children, attributes);
-        Ok(Some(abbrev))
-    }
-}
-
-/// A list of attributes found in an `Abbreviation`
-#[derive(Clone)]
-pub(crate) enum Attributes {
-    Inline {
-        buf: [AttributeSpecification; MAX_ATTRIBUTES_INLINE],
-        len: usize,
-    },
-    Heap(Vec<AttributeSpecification>),
-}
-
-// Length of 5 based on benchmark results for both x86-64 and i686.
-const MAX_ATTRIBUTES_INLINE: usize = 5;
-
-impl Attributes {
-    /// Returns a new empty list of attributes
-    fn new() -> Attributes {
-        let default =
-            AttributeSpecification::new(constants::DW_AT_null, constants::DW_FORM_null, None);
-        Attributes::Inline {
-            buf: [default; 5],
-            len: 0,
-        }
-    }
-
-    /// Pushes a new value onto this list of attributes.
-    fn push(&mut self, attr: AttributeSpecification) {
-        match self {
-            Attributes::Heap(list) => list.push(attr),
-            Attributes::Inline {
-                buf,
-                len: MAX_ATTRIBUTES_INLINE,
-            } => {
-                let mut list = buf.to_vec();
-                list.push(attr);
-                *self = Attributes::Heap(list);
-            }
-            Attributes::Inline { buf, len } => {
-                buf[*len] = attr;
-                *len += 1;
-            }
-        }
-    }
-}
-
-impl Debug for Attributes {
-    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
-        (**self).fmt(f)
-    }
-}
-
-impl PartialEq for Attributes {
-    fn eq(&self, other: &Attributes) -> bool {
-        **self == **other
-    }
-}
-
-impl Eq for Attributes {}
-
-impl Deref for Attributes {
-    type Target = [AttributeSpecification];
-    fn deref(&self) -> &[AttributeSpecification] {
-        match self {
-            Attributes::Inline { buf, len } => &buf[..*len],
-            Attributes::Heap(list) => list,
-        }
-    }
-}
-
-impl FromIterator<AttributeSpecification> for Attributes {
-    fn from_iter<I>(iter: I) -> Attributes
-    where
-        I: IntoIterator<Item = AttributeSpecification>,
-    {
-        let mut list = Attributes::new();
-        for item in iter {
-            list.push(item);
-        }
-        list
-    }
-}
-
-impl From<Vec<AttributeSpecification>> for Attributes {
-    fn from(list: Vec<AttributeSpecification>) -> Attributes {
-        Attributes::Heap(list)
-    }
-}
-
-/// The description of an attribute in an abbreviated type. It is a pair of name
-/// and form.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct AttributeSpecification {
-    name: constants::DwAt,
-    form: constants::DwForm,
-    implicit_const_value: i64,
-}
-
-impl AttributeSpecification {
-    /// Construct a new `AttributeSpecification` from the given name and form
-    /// and implicit const value.
-    #[inline]
-    pub fn new(
-        name: constants::DwAt,
-        form: constants::DwForm,
-        implicit_const_value: Option<i64>,
-    ) -> AttributeSpecification {
-        debug_assert!(
-            (form == constants::DW_FORM_implicit_const && implicit_const_value.is_some())
-                || (form != constants::DW_FORM_implicit_const && implicit_const_value.is_none())
-        );
-        AttributeSpecification {
-            name,
-            form,
-            implicit_const_value: implicit_const_value.unwrap_or(0),
-        }
-    }
-
-    /// Get the attribute's name.
-    #[inline]
-    pub fn name(&self) -> constants::DwAt {
-        self.name
-    }
-
-    /// Get the attribute's form.
-    #[inline]
-    pub fn form(&self) -> constants::DwForm {
-        self.form
-    }
-
-    /// Get the attribute's implicit const value.
-    #[inline]
-    pub fn implicit_const_value(&self) -> Option<i64> {
-        if self.form == constants::DW_FORM_implicit_const {
-            Some(self.implicit_const_value)
-        } else {
-            None
-        }
-    }
-
-    /// Return the size of the attribute, in bytes.
-    ///
-    /// Note that because some attributes are variably sized, the size cannot
-    /// always be known without parsing, in which case we return `None`.
-    pub fn size<R: Reader>(&self, header: &UnitHeader<R>) -> Option<usize> {
-        get_attribute_size(self.form, header.encoding()).map(usize::from)
-    }
-
-    /// Parse an attribute's form.
-    fn parse_form<R: Reader>(input: &mut R) -> Result<constants::DwForm> {
-        let val = input.read_uleb128_u16()?;
-        if val == 0 {
-            Err(Error::AttributeFormZero)
-        } else {
-            Ok(constants::DwForm(val))
-        }
-    }
-
-    /// Parse an attribute specification. Returns `None` for the null attribute
-    /// specification, `Some` for an actual attribute specification.
-    fn parse<R: Reader>(input: &mut R) -> Result<Option<AttributeSpecification>> {
-        let name = input.read_uleb128_u16()?;
-        if name == 0 {
-            // Parse the null attribute specification.
-            let form = input.read_uleb128_u16()?;
-            return if form == 0 {
-                Ok(None)
-            } else {
-                Err(Error::ExpectedZero)
-            };
-        }
-
-        let name = constants::DwAt(name);
-        let form = Self::parse_form(input)?;
-        let implicit_const_value = if form == constants::DW_FORM_implicit_const {
-            Some(input.read_sleb128()?)
-        } else {
-            None
-        };
-        let spec = AttributeSpecification::new(name, form, implicit_const_value);
-        Ok(Some(spec))
-    }
-}
-
-#[inline]
-pub(crate) fn get_attribute_size(form: constants::DwForm, encoding: Encoding) -> Option<u8> {
-    match form {
-        constants::DW_FORM_addr => Some(encoding.address_size),
-
-        constants::DW_FORM_implicit_const | constants::DW_FORM_flag_present => Some(0),
-
-        constants::DW_FORM_data1
-        | constants::DW_FORM_flag
-        | constants::DW_FORM_strx1
-        | constants::DW_FORM_ref1
-        | constants::DW_FORM_addrx1 => Some(1),
-
-        constants::DW_FORM_data2
-        | constants::DW_FORM_ref2
-        | constants::DW_FORM_addrx2
-        | constants::DW_FORM_strx2 => Some(2),
-
-        constants::DW_FORM_addrx3 | constants::DW_FORM_strx3 => Some(3),
-
-        constants::DW_FORM_data4
-        | constants::DW_FORM_ref_sup4
-        | constants::DW_FORM_ref4
-        | constants::DW_FORM_strx4
-        | constants::DW_FORM_addrx4 => Some(4),
-
-        constants::DW_FORM_data8
-        | constants::DW_FORM_ref8
-        | constants::DW_FORM_ref_sig8
-        | constants::DW_FORM_ref_sup8 => Some(8),
-
-        constants::DW_FORM_data16 => Some(16),
-
-        constants::DW_FORM_sec_offset
-        | constants::DW_FORM_GNU_ref_alt
-        | constants::DW_FORM_strp
-        | constants::DW_FORM_strp_sup
-        | constants::DW_FORM_GNU_strp_alt
-        | constants::DW_FORM_line_strp => Some(encoding.format.word_size()),
-
-        constants::DW_FORM_ref_addr => {
-            // This is an offset, but DWARF version 2 specifies that DW_FORM_ref_addr
-            // has the same size as an address on the target system.  This was changed
-            // in DWARF version 3.
-            Some(if encoding.version == 2 {
-                encoding.address_size
-            } else {
-                encoding.format.word_size()
-            })
-        }
-
-        // Variably sized forms.
-        constants::DW_FORM_block
-        | constants::DW_FORM_block1
-        | constants::DW_FORM_block2
-        | constants::DW_FORM_block4
-        | constants::DW_FORM_exprloc
-        | constants::DW_FORM_ref_udata
-        | constants::DW_FORM_string
-        | constants::DW_FORM_sdata
-        | constants::DW_FORM_udata
-        | constants::DW_FORM_indirect => None,
-
-        // We don't know the size of unknown forms.
-        _ => None,
-    }
-}
-
-#[cfg(test)]
-pub mod tests {
-    use super::*;
-    use crate::constants;
-    use crate::endianity::LittleEndian;
-    use crate::read::{EndianSlice, Error};
-    use crate::test_util::GimliSectionMethods;
-    #[cfg(target_pointer_width = "32")]
-    use core::u32;
-    use test_assembler::Section;
-
-    pub trait AbbrevSectionMethods {
-        fn abbrev(self, code: u64, tag: constants::DwTag, children: constants::DwChildren) -> Self;
-        fn abbrev_null(self) -> Self;
-        fn abbrev_attr(self, name: constants::DwAt, form: constants::DwForm) -> Self;
-        fn abbrev_attr_implicit_const(self, name: constants::DwAt, value: i64) -> Self;
-        fn abbrev_attr_null(self) -> Self;
-    }
-
-    impl AbbrevSectionMethods for Section {
-        fn abbrev(self, code: u64, tag: constants::DwTag, children: constants::DwChildren) -> Self {
-            self.uleb(code).uleb(tag.0.into()).D8(children.0)
-        }
-
-        fn abbrev_null(self) -> Self {
-            self.D8(0)
-        }
-
-        fn abbrev_attr(self, name: constants::DwAt, form: constants::DwForm) -> Self {
-            self.uleb(name.0.into()).uleb(form.0.into())
-        }
-
-        fn abbrev_attr_implicit_const(self, name: constants::DwAt, value: i64) -> Self {
-            self.uleb(name.0.into())
-                .uleb(constants::DW_FORM_implicit_const.0.into())
-                .sleb(value)
-        }
-
-        fn abbrev_attr_null(self) -> Self {
-            self.D8(0).D8(0)
-        }
-    }
-
-    #[test]
-    fn test_debug_abbrev_ok() {
-        let extra_start = [1, 2, 3, 4];
-        let expected_rest = [5, 6, 7, 8];
-        #[rustfmt::skip]
-        let buf = Section::new()
-            .append_bytes(&extra_start)
-            .abbrev(2, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-                .abbrev_attr(constants::DW_AT_name, constants::DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev(1, constants::DW_TAG_compile_unit, constants::DW_CHILDREN_yes)
-                .abbrev_attr(constants::DW_AT_producer, constants::DW_FORM_strp)
-                .abbrev_attr(constants::DW_AT_language, constants::DW_FORM_data2)
-                .abbrev_attr_null()
-            .abbrev_null()
-            .append_bytes(&expected_rest)
-            .get_contents()
-            .unwrap();
-
-        let abbrev1 = Abbreviation::new(
-            1,
-            constants::DW_TAG_compile_unit,
-            constants::DW_CHILDREN_yes,
-            vec![
-                AttributeSpecification::new(
-                    constants::DW_AT_producer,
-                    constants::DW_FORM_strp,
-                    None,
-                ),
-                AttributeSpecification::new(
-                    constants::DW_AT_language,
-                    constants::DW_FORM_data2,
-                    None,
-                ),
-            ]
-            .into(),
-        );
-
-        let abbrev2 = Abbreviation::new(
-            2,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_no,
-            vec![AttributeSpecification::new(
-                constants::DW_AT_name,
-                constants::DW_FORM_string,
-                None,
-            )]
-            .into(),
-        );
-
-        let debug_abbrev = DebugAbbrev::new(&buf, LittleEndian);
-        let debug_abbrev_offset = DebugAbbrevOffset(extra_start.len());
-        let abbrevs = debug_abbrev
-            .abbreviations(debug_abbrev_offset)
-            .expect("Should parse abbreviations");
-        assert_eq!(abbrevs.get(1), Some(&abbrev1));
-        assert_eq!(abbrevs.get(2), Some(&abbrev2));
-    }
-
-    #[test]
-    fn test_abbreviations_insert() {
-        fn abbrev(code: u16) -> Abbreviation {
-            Abbreviation::new(
-                code.into(),
-                constants::DwTag(code),
-                constants::DW_CHILDREN_no,
-                vec![].into(),
-            )
-        }
-
-        fn assert_abbrev(abbrevs: &Abbreviations, code: u16) {
-            let abbrev = abbrevs.get(code.into()).unwrap();
-            assert_eq!(abbrev.tag(), constants::DwTag(code));
-        }
-
-        // Sequential insert.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(1)).unwrap();
-        abbrevs.insert(abbrev(2)).unwrap();
-        assert_eq!(abbrevs.vec.len(), 2);
-        assert!(abbrevs.map.is_empty());
-        assert_abbrev(&abbrevs, 1);
-        assert_abbrev(&abbrevs, 2);
-
-        // Out of order insert.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(2)).unwrap();
-        abbrevs.insert(abbrev(3)).unwrap();
-        assert!(abbrevs.vec.is_empty());
-        assert_abbrev(&abbrevs, 2);
-        assert_abbrev(&abbrevs, 3);
-
-        // Mixed order insert.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(1)).unwrap();
-        abbrevs.insert(abbrev(3)).unwrap();
-        abbrevs.insert(abbrev(2)).unwrap();
-        assert_eq!(abbrevs.vec.len(), 2);
-        assert_abbrev(&abbrevs, 1);
-        assert_abbrev(&abbrevs, 2);
-        assert_abbrev(&abbrevs, 3);
-
-        // Duplicate code in vec.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(1)).unwrap();
-        abbrevs.insert(abbrev(2)).unwrap();
-        assert_eq!(abbrevs.insert(abbrev(1)), Err(()));
-        assert_eq!(abbrevs.insert(abbrev(2)), Err(()));
-
-        // Duplicate code in map when adding to map.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(2)).unwrap();
-        assert_eq!(abbrevs.insert(abbrev(2)), Err(()));
-
-        // Duplicate code in map when adding to vec.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(2)).unwrap();
-        abbrevs.insert(abbrev(1)).unwrap();
-        assert_eq!(abbrevs.insert(abbrev(2)), Err(()));
-
-        // 32-bit usize conversions.
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(2)).unwrap();
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "32")]
-    fn test_abbreviations_insert_32() {
-        fn abbrev(code: u64) -> Abbreviation {
-            Abbreviation::new(
-                code,
-                constants::DwTag(code as u16),
-                constants::DW_CHILDREN_no,
-                vec![].into(),
-            )
-        }
-
-        fn assert_abbrev(abbrevs: &Abbreviations, code: u64) {
-            let abbrev = abbrevs.get(code).unwrap();
-            assert_eq!(abbrev.tag(), constants::DwTag(code as u16));
-        }
-
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs.insert(abbrev(1)).unwrap();
-
-        let wrap_code = (u32::MAX as u64 + 1) + 1;
-        // `get` should not treat the wrapped code as `1`.
-        assert_eq!(abbrevs.get(wrap_code), None);
-        // `insert` should not treat the wrapped code as `1`.
-        abbrevs.insert(abbrev(wrap_code)).unwrap();
-        assert_abbrev(&abbrevs, 1);
-        assert_abbrev(&abbrevs, wrap_code);
-    }
-
-    #[test]
-    fn test_parse_abbreviations_ok() {
-        let expected_rest = [1, 2, 3, 4];
-        #[rustfmt::skip]
-        let buf = Section::new()
-            .abbrev(2, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-                .abbrev_attr(constants::DW_AT_name, constants::DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev(1, constants::DW_TAG_compile_unit, constants::DW_CHILDREN_yes)
-                .abbrev_attr(constants::DW_AT_producer, constants::DW_FORM_strp)
-                .abbrev_attr(constants::DW_AT_language, constants::DW_FORM_data2)
-                .abbrev_attr_null()
-            .abbrev_null()
-            .append_bytes(&expected_rest)
-            .get_contents()
-            .unwrap();
-        let rest = &mut EndianSlice::new(&*buf, LittleEndian);
-
-        let abbrev1 = Abbreviation::new(
-            1,
-            constants::DW_TAG_compile_unit,
-            constants::DW_CHILDREN_yes,
-            vec![
-                AttributeSpecification::new(
-                    constants::DW_AT_producer,
-                    constants::DW_FORM_strp,
-                    None,
-                ),
-                AttributeSpecification::new(
-                    constants::DW_AT_language,
-                    constants::DW_FORM_data2,
-                    None,
-                ),
-            ]
-            .into(),
-        );
-
-        let abbrev2 = Abbreviation::new(
-            2,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_no,
-            vec![AttributeSpecification::new(
-                constants::DW_AT_name,
-                constants::DW_FORM_string,
-                None,
-            )]
-            .into(),
-        );
-
-        let abbrevs = Abbreviations::parse(rest).expect("Should parse abbreviations");
-        assert_eq!(abbrevs.get(1), Some(&abbrev1));
-        assert_eq!(abbrevs.get(2), Some(&abbrev2));
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_abbreviations_duplicate() {
-        let expected_rest = [1, 2, 3, 4];
-        #[rustfmt::skip]
-        let buf = Section::new()
-            .abbrev(1, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-                .abbrev_attr(constants::DW_AT_name, constants::DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev(1, constants::DW_TAG_compile_unit, constants::DW_CHILDREN_yes)
-                .abbrev_attr(constants::DW_AT_producer, constants::DW_FORM_strp)
-                .abbrev_attr(constants::DW_AT_language, constants::DW_FORM_data2)
-                .abbrev_attr_null()
-            .abbrev_null()
-            .append_bytes(&expected_rest)
-            .get_contents()
-            .unwrap();
-        let buf = &mut EndianSlice::new(&*buf, LittleEndian);
-
-        match Abbreviations::parse(buf) {
-            Err(Error::DuplicateAbbreviationCode) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_abbreviation_tag_ok() {
-        let buf = [0x01, 0x02];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let tag = Abbreviation::parse_tag(rest).expect("Should parse tag");
-        assert_eq!(tag, constants::DW_TAG_array_type);
-        assert_eq!(*rest, EndianSlice::new(&buf[1..], LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_abbreviation_tag_zero() {
-        let buf = [0x00];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-        match Abbreviation::parse_tag(buf) {
-            Err(Error::AbbreviationTagZero) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_abbreviation_has_children() {
-        let buf = [0x00, 0x01, 0x02];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let val = Abbreviation::parse_has_children(rest).expect("Should parse children");
-        assert_eq!(val, constants::DW_CHILDREN_no);
-        let val = Abbreviation::parse_has_children(rest).expect("Should parse children");
-        assert_eq!(val, constants::DW_CHILDREN_yes);
-        match Abbreviation::parse_has_children(rest) {
-            Err(Error::BadHasChildren) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_abbreviation_ok() {
-        let expected_rest = [0x01, 0x02, 0x03, 0x04];
-        let buf = Section::new()
-            .abbrev(1, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-            .abbrev_attr(constants::DW_AT_name, constants::DW_FORM_string)
-            .abbrev_attr_null()
-            .append_bytes(&expected_rest)
-            .get_contents()
-            .unwrap();
-        let rest = &mut EndianSlice::new(&*buf, LittleEndian);
-
-        let expect = Some(Abbreviation::new(
-            1,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_no,
-            vec![AttributeSpecification::new(
-                constants::DW_AT_name,
-                constants::DW_FORM_string,
-                None,
-            )]
-            .into(),
-        ));
-
-        let abbrev = Abbreviation::parse(rest).expect("Should parse abbreviation");
-        assert_eq!(abbrev, expect);
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_abbreviation_implicit_const_ok() {
-        let expected_rest = [0x01, 0x02, 0x03, 0x04];
-        let buf = Section::new()
-            .abbrev(1, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-            .abbrev_attr_implicit_const(constants::DW_AT_name, -42)
-            .abbrev_attr_null()
-            .append_bytes(&expected_rest)
-            .get_contents()
-            .unwrap();
-        let rest = &mut EndianSlice::new(&*buf, LittleEndian);
-
-        let expect = Some(Abbreviation::new(
-            1,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_no,
-            vec![AttributeSpecification::new(
-                constants::DW_AT_name,
-                constants::DW_FORM_implicit_const,
-                Some(-42),
-            )]
-            .into(),
-        ));
-
-        let abbrev = Abbreviation::parse(rest).expect("Should parse abbreviation");
-        assert_eq!(abbrev, expect);
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_abbreviation_implicit_const_no_const() {
-        let buf = Section::new()
-            .abbrev(1, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-            .abbrev_attr(constants::DW_AT_name, constants::DW_FORM_implicit_const)
-            .get_contents()
-            .unwrap();
-        let buf = &mut EndianSlice::new(&*buf, LittleEndian);
-
-        match Abbreviation::parse(buf) {
-            Err(Error::UnexpectedEof(_)) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_parse_null_abbreviation_ok() {
-        let expected_rest = [0x01, 0x02, 0x03, 0x04];
-        let buf = Section::new()
-            .abbrev_null()
-            .append_bytes(&expected_rest)
-            .get_contents()
-            .unwrap();
-        let rest = &mut EndianSlice::new(&*buf, LittleEndian);
-
-        let abbrev = Abbreviation::parse(rest).expect("Should parse null abbreviation");
-        assert!(abbrev.is_none());
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_attribute_form_ok() {
-        let buf = [0x01, 0x02];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let tag = AttributeSpecification::parse_form(rest).expect("Should parse form");
-        assert_eq!(tag, constants::DW_FORM_addr);
-        assert_eq!(*rest, EndianSlice::new(&buf[1..], LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_attribute_form_zero() {
-        let buf = [0x00];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-        match AttributeSpecification::parse_form(buf) {
-            Err(Error::AttributeFormZero) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_null_attribute_specification_ok() {
-        let buf = [0x00, 0x00, 0x01];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let attr =
-            AttributeSpecification::parse(rest).expect("Should parse null attribute specification");
-        assert!(attr.is_none());
-        assert_eq!(*rest, EndianSlice::new(&buf[2..], LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_attribute_specifications_name_zero() {
-        let buf = [0x00, 0x01, 0x00, 0x00];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-        match AttributeSpecification::parse(buf) {
-            Err(Error::ExpectedZero) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_attribute_specifications_form_zero() {
-        let buf = [0x01, 0x00, 0x00, 0x00];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-        match AttributeSpecification::parse(buf) {
-            Err(Error::AttributeFormZero) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_get_abbrev_zero() {
-        let mut abbrevs = Abbreviations::empty();
-        abbrevs
-            .insert(Abbreviation::new(
-                1,
-                constants::DwTag(1),
-                constants::DW_CHILDREN_no,
-                vec![].into(),
-            ))
-            .unwrap();
-        assert!(abbrevs.get(0).is_none());
-    }
-
-    #[test]
-    fn abbreviations_cache() {
-        #[rustfmt::skip]
-        let buf = Section::new()
-            .abbrev(1, constants::DW_TAG_subprogram, constants::DW_CHILDREN_no)
-                .abbrev_attr(constants::DW_AT_name, constants::DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev_null()
-            .abbrev(1, constants::DW_TAG_compile_unit, constants::DW_CHILDREN_yes)
-                .abbrev_attr(constants::DW_AT_producer, constants::DW_FORM_strp)
-                .abbrev_attr(constants::DW_AT_language, constants::DW_FORM_data2)
-                .abbrev_attr_null()
-            .abbrev_null()
-            .get_contents()
-            .unwrap();
-
-        let abbrev1 = Abbreviation::new(
-            1,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_no,
-            vec![AttributeSpecification::new(
-                constants::DW_AT_name,
-                constants::DW_FORM_string,
-                None,
-            )]
-            .into(),
-        );
-
-        let abbrev2 = Abbreviation::new(
-            1,
-            constants::DW_TAG_compile_unit,
-            constants::DW_CHILDREN_yes,
-            vec![
-                AttributeSpecification::new(
-                    constants::DW_AT_producer,
-                    constants::DW_FORM_strp,
-                    None,
-                ),
-                AttributeSpecification::new(
-                    constants::DW_AT_language,
-                    constants::DW_FORM_data2,
-                    None,
-                ),
-            ]
-            .into(),
-        );
-
-        let debug_abbrev = DebugAbbrev::new(&buf, LittleEndian);
-        let cache = AbbreviationsCache::new();
-        let abbrevs1 = cache.get(&debug_abbrev, DebugAbbrevOffset(0)).unwrap();
-        assert_eq!(abbrevs1.get(1), Some(&abbrev1));
-        let abbrevs2 = cache.get(&debug_abbrev, DebugAbbrevOffset(8)).unwrap();
-        assert_eq!(abbrevs2.get(1), Some(&abbrev2));
-        let abbrevs3 = cache.get(&debug_abbrev, DebugAbbrevOffset(0)).unwrap();
-        assert_eq!(abbrevs3.get(1), Some(&abbrev1));
-
-        assert!(!Arc::ptr_eq(&abbrevs1, &abbrevs2));
-        assert!(Arc::ptr_eq(&abbrevs1, &abbrevs3));
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/addr.rs b/vendor/gimli-0.27.3/src/read/addr.rs
deleted file mode 100644
index 593f9fe3c..000000000
--- a/vendor/gimli-0.27.3/src/read/addr.rs
+++ /dev/null
@@ -1,128 +0,0 @@
-use crate::common::{DebugAddrBase, DebugAddrIndex, SectionId};
-use crate::read::{Reader, ReaderOffset, Result, Section};
-
-/// The raw contents of the `.debug_addr` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugAddr<R> {
-    section: R,
-}
-
-impl<R: Reader> DebugAddr<R> {
-    // TODO: add an iterator over the sets of addresses in the section.
-    // This is not needed for common usage of the section though.
-
-    /// Returns the address at the given `base` and `index`.
-    ///
-    /// A set of addresses in the `.debug_addr` section consists of a header
-    /// followed by a series of addresses.
-    ///
-    /// The `base` must be the `DW_AT_addr_base` value from the compilation unit DIE.
-    /// This is an offset that points to the first address following the header.
-    ///
-    /// The `index` is the value of a `DW_FORM_addrx` attribute.
-    ///
-    /// The `address_size` must be the size of the address for the compilation unit.
-    /// This value must also match the header. However, note that we do not parse the
-    /// header to validate this, since locating the header is unreliable, and the GNU
-    /// extensions do not emit it.
-    pub fn get_address(
-        &self,
-        address_size: u8,
-        base: DebugAddrBase<R::Offset>,
-        index: DebugAddrIndex<R::Offset>,
-    ) -> Result<u64> {
-        let input = &mut self.section.clone();
-        input.skip(base.0)?;
-        input.skip(R::Offset::from_u64(
-            index.0.into_u64() * u64::from(address_size),
-        )?)?;
-        input.read_address(address_size)
-    }
-}
-
-impl<T> DebugAddr<T> {
-    /// Create a `DebugAddr` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugAddr<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugAddr<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.section).into()
-    }
-}
-
-impl<R> Section<R> for DebugAddr<R> {
-    fn id() -> SectionId {
-        SectionId::DebugAddr
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugAddr<R> {
-    fn from(section: R) -> Self {
-        DebugAddr { section }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::read::EndianSlice;
-    use crate::test_util::GimliSectionMethods;
-    use crate::{Format, LittleEndian};
-    use test_assembler::{Endian, Label, LabelMaker, Section};
-
-    #[test]
-    fn test_get_address() {
-        for format in vec![Format::Dwarf32, Format::Dwarf64] {
-            for address_size in vec![4, 8] {
-                let zero = Label::new();
-                let length = Label::new();
-                let start = Label::new();
-                let first = Label::new();
-                let end = Label::new();
-                let mut section = Section::with_endian(Endian::Little)
-                    .mark(&zero)
-                    .initial_length(format, &length, &start)
-                    .D16(5)
-                    .D8(address_size)
-                    .D8(0)
-                    .mark(&first);
-                for i in 0..20 {
-                    section = section.word(address_size, 1000 + i);
-                }
-                section = section.mark(&end);
-                length.set_const((&end - &start) as u64);
-
-                let section = section.get_contents().unwrap();
-                let debug_addr = DebugAddr::from(EndianSlice::new(&section, LittleEndian));
-                let base = DebugAddrBase((&first - &zero) as usize);
-
-                assert_eq!(
-                    debug_addr.get_address(address_size, base, DebugAddrIndex(0)),
-                    Ok(1000)
-                );
-                assert_eq!(
-                    debug_addr.get_address(address_size, base, DebugAddrIndex(19)),
-                    Ok(1019)
-                );
-            }
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/aranges.rs b/vendor/gimli-0.27.3/src/read/aranges.rs
deleted file mode 100644
index 83159b69b..000000000
--- a/vendor/gimli-0.27.3/src/read/aranges.rs
+++ /dev/null
@@ -1,660 +0,0 @@
-use crate::common::{DebugArangesOffset, DebugInfoOffset, Encoding, SectionId};
-use crate::endianity::Endianity;
-use crate::read::{EndianSlice, Error, Range, Reader, ReaderOffset, Result, Section};
-
-/// The `DebugAranges` struct represents the DWARF address range information
-/// found in the `.debug_aranges` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugAranges<R> {
-    section: R,
-}
-
-impl<'input, Endian> DebugAranges<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugAranges` instance from the data in the `.debug_aranges`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_aranges` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugAranges, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_aranges_section = || &buf;
-    /// let debug_aranges =
-    ///     DebugAranges::new(read_debug_aranges_section(), LittleEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        DebugAranges {
-            section: EndianSlice::new(section, endian),
-        }
-    }
-}
-
-impl<R: Reader> DebugAranges<R> {
-    /// Iterate the sets of entries in the `.debug_aranges` section.
-    ///
-    /// Each set of entries belongs to a single unit.
-    pub fn headers(&self) -> ArangeHeaderIter<R> {
-        ArangeHeaderIter {
-            input: self.section.clone(),
-            offset: DebugArangesOffset(R::Offset::from_u8(0)),
-        }
-    }
-
-    /// Get the header at the given offset.
-    pub fn header(&self, offset: DebugArangesOffset<R::Offset>) -> Result<ArangeHeader<R>> {
-        let mut input = self.section.clone();
-        input.skip(offset.0)?;
-        ArangeHeader::parse(&mut input, offset)
-    }
-}
-
-impl<T> DebugAranges<T> {
-    /// Create a `DebugAranges` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugAranges<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugAranges<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.section).into()
-    }
-}
-
-impl<R> Section<R> for DebugAranges<R> {
-    fn id() -> SectionId {
-        SectionId::DebugAranges
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugAranges<R> {
-    fn from(section: R) -> Self {
-        DebugAranges { section }
-    }
-}
-
-/// An iterator over the headers of a `.debug_aranges` section.
-#[derive(Clone, Debug)]
-pub struct ArangeHeaderIter<R: Reader> {
-    input: R,
-    offset: DebugArangesOffset<R::Offset>,
-}
-
-impl<R: Reader> ArangeHeaderIter<R> {
-    /// Advance the iterator to the next header.
-    pub fn next(&mut self) -> Result<Option<ArangeHeader<R>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        let len = self.input.len();
-        match ArangeHeader::parse(&mut self.input, self.offset) {
-            Ok(header) => {
-                self.offset.0 += len - self.input.len();
-                Ok(Some(header))
-            }
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for ArangeHeaderIter<R> {
-    type Item = ArangeHeader<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        ArangeHeaderIter::next(self)
-    }
-}
-
-/// A header for a set of entries in the `.debug_arange` section.
-///
-/// These entries all belong to a single unit.
-#[derive(Debug, Clone, PartialEq, Eq)]
-pub struct ArangeHeader<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    offset: DebugArangesOffset<Offset>,
-    encoding: Encoding,
-    length: Offset,
-    debug_info_offset: DebugInfoOffset<Offset>,
-    segment_size: u8,
-    entries: R,
-}
-
-impl<R, Offset> ArangeHeader<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    fn parse(input: &mut R, offset: DebugArangesOffset<Offset>) -> Result<Self> {
-        let (length, format) = input.read_initial_length()?;
-        let mut rest = input.split(length)?;
-
-        // Check the version. The DWARF 5 spec says that this is always 2, but version 3
-        // has been observed in the wild, potentially due to a bug; see
-        // https://github.com/gimli-rs/gimli/issues/559 for more information.
-        // lldb allows versions 2 through 5, possibly by mistake.
-        let version = rest.read_u16()?;
-        if version != 2 && version != 3 {
-            return Err(Error::UnknownVersion(u64::from(version)));
-        }
-
-        let debug_info_offset = rest.read_offset(format).map(DebugInfoOffset)?;
-        let address_size = rest.read_u8()?;
-        let segment_size = rest.read_u8()?;
-
-        // unit_length + version + offset + address_size + segment_size
-        let header_length = format.initial_length_size() + 2 + format.word_size() + 1 + 1;
-
-        // The first tuple following the header in each set begins at an offset that is
-        // a multiple of the size of a single tuple (that is, the size of a segment selector
-        // plus twice the size of an address).
-        let tuple_length = address_size
-            .checked_mul(2)
-            .and_then(|x| x.checked_add(segment_size))
-            .ok_or(Error::InvalidAddressRange)?;
-        if tuple_length == 0 {
-            return Err(Error::InvalidAddressRange)?;
-        }
-        let padding = if header_length % tuple_length == 0 {
-            0
-        } else {
-            tuple_length - header_length % tuple_length
-        };
-        rest.skip(R::Offset::from_u8(padding))?;
-
-        let encoding = Encoding {
-            format,
-            version,
-            address_size,
-            // TODO: segment_size
-        };
-        Ok(ArangeHeader {
-            offset,
-            encoding,
-            length,
-            debug_info_offset,
-            segment_size,
-            entries: rest,
-        })
-    }
-
-    /// Return the offset of this header within the `.debug_aranges` section.
-    #[inline]
-    pub fn offset(&self) -> DebugArangesOffset<Offset> {
-        self.offset
-    }
-
-    /// Return the length of this set of entries, including the header.
-    #[inline]
-    pub fn length(&self) -> Offset {
-        self.length
-    }
-
-    /// Return the encoding parameters for this set of entries.
-    #[inline]
-    pub fn encoding(&self) -> Encoding {
-        self.encoding
-    }
-
-    /// Return the segment size for this set of entries.
-    #[inline]
-    pub fn segment_size(&self) -> u8 {
-        self.segment_size
-    }
-
-    /// Return the offset into the .debug_info section for this set of arange entries.
-    #[inline]
-    pub fn debug_info_offset(&self) -> DebugInfoOffset<Offset> {
-        self.debug_info_offset
-    }
-
-    /// Return the arange entries in this set.
-    #[inline]
-    pub fn entries(&self) -> ArangeEntryIter<R> {
-        ArangeEntryIter {
-            input: self.entries.clone(),
-            encoding: self.encoding,
-            segment_size: self.segment_size,
-        }
-    }
-}
-
-/// An iterator over the aranges from a `.debug_aranges` section.
-///
-/// Can be [used with
-/// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-#[derive(Debug, Clone)]
-pub struct ArangeEntryIter<R: Reader> {
-    input: R,
-    encoding: Encoding,
-    segment_size: u8,
-}
-
-impl<R: Reader> ArangeEntryIter<R> {
-    /// Advance the iterator and return the next arange.
-    ///
-    /// Returns the newly parsed arange as `Ok(Some(arange))`. Returns `Ok(None)`
-    /// when iteration is complete and all aranges have already been parsed and
-    /// yielded. If an error occurs while parsing the next arange, then this error
-    /// is returned as `Err(e)`, and all subsequent calls return `Ok(None)`.
-    pub fn next(&mut self) -> Result<Option<ArangeEntry>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        match ArangeEntry::parse(&mut self.input, self.encoding, self.segment_size) {
-            Ok(Some(entry)) => Ok(Some(entry)),
-            Ok(None) => {
-                self.input.empty();
-                Ok(None)
-            }
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for ArangeEntryIter<R> {
-    type Item = ArangeEntry;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        ArangeEntryIter::next(self)
-    }
-}
-
-/// A single parsed arange.
-#[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord)]
-pub struct ArangeEntry {
-    segment: Option<u64>,
-    address: u64,
-    length: u64,
-}
-
-impl ArangeEntry {
-    /// Parse a single arange. Return `None` for the null arange, `Some` for an actual arange.
-    fn parse<R: Reader>(
-        input: &mut R,
-        encoding: Encoding,
-        segment_size: u8,
-    ) -> Result<Option<Self>> {
-        let address_size = encoding.address_size;
-
-        let tuple_length = R::Offset::from_u8(2 * address_size + segment_size);
-        if tuple_length > input.len() {
-            input.empty();
-            return Ok(None);
-        }
-
-        let segment = if segment_size != 0 {
-            input.read_address(segment_size)?
-        } else {
-            0
-        };
-        let address = input.read_address(address_size)?;
-        let length = input.read_address(address_size)?;
-
-        match (segment, address, length) {
-            // This is meant to be a null terminator, but in practice it can occur
-            // before the end, possibly due to a linker omitting a function and
-            // leaving an unrelocated entry.
-            (0, 0, 0) => Self::parse(input, encoding, segment_size),
-            _ => Ok(Some(ArangeEntry {
-                segment: if segment_size != 0 {
-                    Some(segment)
-                } else {
-                    None
-                },
-                address,
-                length,
-            })),
-        }
-    }
-
-    /// Return the segment selector of this arange.
-    #[inline]
-    pub fn segment(&self) -> Option<u64> {
-        self.segment
-    }
-
-    /// Return the beginning address of this arange.
-    #[inline]
-    pub fn address(&self) -> u64 {
-        self.address
-    }
-
-    /// Return the length of this arange.
-    #[inline]
-    pub fn length(&self) -> u64 {
-        self.length
-    }
-
-    /// Return the range.
-    #[inline]
-    pub fn range(&self) -> Range {
-        Range {
-            begin: self.address,
-            end: self.address.wrapping_add(self.length),
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::common::{DebugInfoOffset, Format};
-    use crate::endianity::LittleEndian;
-    use crate::read::EndianSlice;
-
-    #[test]
-    fn test_iterate_headers() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 28.
-            0x1c, 0x00, 0x00, 0x00,
-            // Version.
-            0x02, 0x00,
-            // Offset.
-            0x01, 0x02, 0x03, 0x04,
-            // Address size.
-            0x04,
-            // Segment size.
-            0x00,
-            // Dummy padding and arange tuples.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
-
-            // 32-bit length = 36.
-            0x24, 0x00, 0x00, 0x00,
-            // Version.
-            0x02, 0x00,
-            // Offset.
-            0x11, 0x12, 0x13, 0x14,
-            // Address size.
-            0x04,
-            // Segment size.
-            0x00,
-            // Dummy padding and arange tuples.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let debug_aranges = DebugAranges::new(&buf, LittleEndian);
-        let mut headers = debug_aranges.headers();
-
-        let header = headers
-            .next()
-            .expect("should parse header ok")
-            .expect("should have a header");
-        assert_eq!(header.offset(), DebugArangesOffset(0));
-        assert_eq!(header.debug_info_offset(), DebugInfoOffset(0x0403_0201));
-
-        let header = headers
-            .next()
-            .expect("should parse header ok")
-            .expect("should have a header");
-        assert_eq!(header.offset(), DebugArangesOffset(0x20));
-        assert_eq!(header.debug_info_offset(), DebugInfoOffset(0x1413_1211));
-    }
-
-    #[test]
-    fn test_parse_header_ok() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 32.
-            0x20, 0x00, 0x00, 0x00,
-            // Version.
-            0x02, 0x00,
-            // Offset.
-            0x01, 0x02, 0x03, 0x04,
-            // Address size.
-            0x08,
-            // Segment size.
-            0x04,
-            // Length to here = 12, tuple length = 20.
-            // Padding to tuple length multiple = 4.
-            0x10, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy arange tuple data.
-            0x20, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy next arange.
-            0x30, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        let header =
-            ArangeHeader::parse(rest, DebugArangesOffset(0x10)).expect("should parse header ok");
-
-        assert_eq!(
-            *rest,
-            EndianSlice::new(&buf[buf.len() - 16..], LittleEndian)
-        );
-        assert_eq!(
-            header,
-            ArangeHeader {
-                offset: DebugArangesOffset(0x10),
-                encoding: Encoding {
-                    format: Format::Dwarf32,
-                    version: 2,
-                    address_size: 8,
-                },
-                length: 0x20,
-                debug_info_offset: DebugInfoOffset(0x0403_0201),
-                segment_size: 4,
-                entries: EndianSlice::new(&buf[buf.len() - 32..buf.len() - 16], LittleEndian),
-            }
-        );
-    }
-
-    #[test]
-    fn test_parse_header_overflow_error() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 32.
-            0x20, 0x00, 0x00, 0x00,
-            // Version.
-            0x02, 0x00,
-            // Offset.
-            0x01, 0x02, 0x03, 0x04,
-            // Address size.
-            0xff,
-            // Segment size.
-            0xff,
-            // Length to here = 12, tuple length = 20.
-            // Padding to tuple length multiple = 4.
-            0x10, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy arange tuple data.
-            0x20, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy next arange.
-            0x30, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        let error = ArangeHeader::parse(rest, DebugArangesOffset(0x10))
-            .expect_err("should fail to parse header");
-        assert_eq!(error, Error::InvalidAddressRange);
-    }
-
-    #[test]
-    fn test_parse_header_div_by_zero_error() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 32.
-            0x20, 0x00, 0x00, 0x00,
-            // Version.
-            0x02, 0x00,
-            // Offset.
-            0x01, 0x02, 0x03, 0x04,
-            // Address size = 0. Could cause a division by zero if we aren't
-            // careful.
-            0x00,
-            // Segment size.
-            0x00,
-            // Length to here = 12, tuple length = 20.
-            // Padding to tuple length multiple = 4.
-            0x10, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy arange tuple data.
-            0x20, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy next arange.
-            0x30, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        let error = ArangeHeader::parse(rest, DebugArangesOffset(0x10))
-            .expect_err("should fail to parse header");
-        assert_eq!(error, Error::InvalidAddressRange);
-    }
-
-    #[test]
-    fn test_parse_entry_ok() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 2,
-            address_size: 4,
-        };
-        let segment_size = 0;
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let entry =
-            ArangeEntry::parse(rest, encoding, segment_size).expect("should parse entry ok");
-        assert_eq!(*rest, EndianSlice::new(&buf[buf.len() - 1..], LittleEndian));
-        assert_eq!(
-            entry,
-            Some(ArangeEntry {
-                segment: None,
-                address: 0x0403_0201,
-                length: 0x0807_0605,
-            })
-        );
-    }
-
-    #[test]
-    fn test_parse_entry_segment() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 2,
-            address_size: 4,
-        };
-        let segment_size = 8;
-        #[rustfmt::skip]
-        let buf = [
-            // Segment.
-            0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17, 0x18,
-            // Address.
-            0x01, 0x02, 0x03, 0x04,
-            // Length.
-            0x05, 0x06, 0x07, 0x08,
-            // Next tuple.
-            0x09
-        ];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let entry =
-            ArangeEntry::parse(rest, encoding, segment_size).expect("should parse entry ok");
-        assert_eq!(*rest, EndianSlice::new(&buf[buf.len() - 1..], LittleEndian));
-        assert_eq!(
-            entry,
-            Some(ArangeEntry {
-                segment: Some(0x1817_1615_1413_1211),
-                address: 0x0403_0201,
-                length: 0x0807_0605,
-            })
-        );
-    }
-
-    #[test]
-    fn test_parse_entry_zero() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 2,
-            address_size: 4,
-        };
-        let segment_size = 0;
-        #[rustfmt::skip]
-        let buf = [
-            // Zero tuple.
-            0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
-            // Address.
-            0x01, 0x02, 0x03, 0x04,
-            // Length.
-            0x05, 0x06, 0x07, 0x08,
-            // Next tuple.
-            0x09
-        ];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let entry =
-            ArangeEntry::parse(rest, encoding, segment_size).expect("should parse entry ok");
-        assert_eq!(*rest, EndianSlice::new(&buf[buf.len() - 1..], LittleEndian));
-        assert_eq!(
-            entry,
-            Some(ArangeEntry {
-                segment: None,
-                address: 0x0403_0201,
-                length: 0x0807_0605,
-            })
-        );
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/cfi.rs b/vendor/gimli-0.27.3/src/read/cfi.rs
deleted file mode 100644
index 5e9befac1..000000000
--- a/vendor/gimli-0.27.3/src/read/cfi.rs
+++ /dev/null
@@ -1,7574 +0,0 @@
-#[cfg(feature = "read")]
-use alloc::vec::Vec;
-
-use core::cmp::{Ord, Ordering};
-use core::fmt::{self, Debug};
-use core::iter::FromIterator;
-use core::mem;
-use core::num::Wrapping;
-
-use super::util::{ArrayLike, ArrayVec};
-use crate::common::{DebugFrameOffset, EhFrameOffset, Encoding, Format, Register, SectionId};
-use crate::constants::{self, DwEhPe};
-use crate::endianity::Endianity;
-use crate::read::{
-    EndianSlice, Error, Expression, Reader, ReaderOffset, Result, Section, StoreOnHeap,
-};
-
-/// `DebugFrame` contains the `.debug_frame` section's frame unwinding
-/// information required to unwind to and recover registers from older frames on
-/// the stack. For example, this is useful for a debugger that wants to print
-/// locals in a backtrace.
-///
-/// Most interesting methods are defined in the
-/// [`UnwindSection`](trait.UnwindSection.html) trait.
-///
-/// ### Differences between `.debug_frame` and `.eh_frame`
-///
-/// While the `.debug_frame` section's information has a lot of overlap with the
-/// `.eh_frame` section's information, the `.eh_frame` information tends to only
-/// encode the subset of information needed for exception handling. Often, only
-/// one of `.eh_frame` or `.debug_frame` will be present in an object file.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub struct DebugFrame<R: Reader> {
-    section: R,
-    address_size: u8,
-    segment_size: u8,
-}
-
-impl<R: Reader> DebugFrame<R> {
-    /// Set the size of a target address in bytes.
-    ///
-    /// This defaults to the native word size.
-    /// This is only used if the CIE version is less than 4.
-    pub fn set_address_size(&mut self, address_size: u8) {
-        self.address_size = address_size
-    }
-
-    /// Set the size of a segment selector in bytes.
-    ///
-    /// This defaults to 0.
-    /// This is only used if the CIE version is less than 4.
-    pub fn set_segment_size(&mut self, segment_size: u8) {
-        self.segment_size = segment_size
-    }
-}
-
-impl<'input, Endian> DebugFrame<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugFrame` instance from the data in the
-    /// `.debug_frame` section.
-    ///
-    /// It is the caller's responsibility to read the section and present it as
-    /// a `&[u8]` slice. That means using some ELF loader on Linux, a Mach-O
-    /// loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugFrame, NativeEndian};
-    ///
-    /// // Use with `.debug_frame`
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_frame_section_somehow = || &buf;
-    /// let debug_frame = DebugFrame::new(read_debug_frame_section_somehow(), NativeEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R: Reader> Section<R> for DebugFrame<R> {
-    fn id() -> SectionId {
-        SectionId::DebugFrame
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R: Reader> From<R> for DebugFrame<R> {
-    fn from(section: R) -> Self {
-        // Default to no segments and native word size.
-        DebugFrame {
-            section,
-            address_size: mem::size_of::<usize>() as u8,
-            segment_size: 0,
-        }
-    }
-}
-
-/// `EhFrameHdr` contains the information about the `.eh_frame_hdr` section.
-///
-/// A pointer to the start of the `.eh_frame` data, and optionally, a binary
-/// search table of pointers to the `.eh_frame` records that are found in this section.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub struct EhFrameHdr<R: Reader>(R);
-
-/// `ParsedEhFrameHdr` contains the parsed information from the `.eh_frame_hdr` section.
-#[derive(Clone, Debug)]
-pub struct ParsedEhFrameHdr<R: Reader> {
-    address_size: u8,
-    section: R,
-
-    eh_frame_ptr: Pointer,
-    fde_count: u64,
-    table_enc: DwEhPe,
-    table: R,
-}
-
-impl<'input, Endian> EhFrameHdr<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Constructs a new `EhFrameHdr` instance from the data in the `.eh_frame_hdr` section.
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R: Reader> EhFrameHdr<R> {
-    /// Parses this `EhFrameHdr` to a `ParsedEhFrameHdr`.
-    pub fn parse(&self, bases: &BaseAddresses, address_size: u8) -> Result<ParsedEhFrameHdr<R>> {
-        let mut reader = self.0.clone();
-        let version = reader.read_u8()?;
-        if version != 1 {
-            return Err(Error::UnknownVersion(u64::from(version)));
-        }
-
-        let eh_frame_ptr_enc = parse_pointer_encoding(&mut reader)?;
-        let fde_count_enc = parse_pointer_encoding(&mut reader)?;
-        let table_enc = parse_pointer_encoding(&mut reader)?;
-
-        let parameters = PointerEncodingParameters {
-            bases: &bases.eh_frame_hdr,
-            func_base: None,
-            address_size,
-            section: &self.0,
-        };
-
-        // Omitting this pointer is not valid (defeats the purpose of .eh_frame_hdr entirely)
-        if eh_frame_ptr_enc == constants::DW_EH_PE_omit {
-            return Err(Error::CannotParseOmitPointerEncoding);
-        }
-        let eh_frame_ptr = parse_encoded_pointer(eh_frame_ptr_enc, &parameters, &mut reader)?;
-
-        let fde_count;
-        if fde_count_enc == constants::DW_EH_PE_omit || table_enc == constants::DW_EH_PE_omit {
-            fde_count = 0
-        } else {
-            let ptr = parse_encoded_pointer(fde_count_enc, &parameters, &mut reader)?;
-            fde_count = match ptr {
-                Pointer::Direct(c) => c,
-                Pointer::Indirect(_) => return Err(Error::UnsupportedPointerEncoding),
-            }
-        }
-
-        Ok(ParsedEhFrameHdr {
-            address_size,
-            section: self.0.clone(),
-
-            eh_frame_ptr,
-            fde_count,
-            table_enc,
-            table: reader,
-        })
-    }
-}
-
-impl<R: Reader> Section<R> for EhFrameHdr<R> {
-    fn id() -> SectionId {
-        SectionId::EhFrameHdr
-    }
-
-    fn reader(&self) -> &R {
-        &self.0
-    }
-}
-
-impl<R: Reader> From<R> for EhFrameHdr<R> {
-    fn from(section: R) -> Self {
-        EhFrameHdr(section)
-    }
-}
-
-impl<R: Reader> ParsedEhFrameHdr<R> {
-    /// Returns the address of the binary's `.eh_frame` section.
-    pub fn eh_frame_ptr(&self) -> Pointer {
-        self.eh_frame_ptr
-    }
-
-    /// Retrieves the CFI binary search table, if there is one.
-    pub fn table(&self) -> Option<EhHdrTable<R>> {
-        // There are two big edge cases here:
-        // * You search the table for an invalid address. As this is just a binary
-        //   search table, we always have to return a valid result for that (unless
-        //   you specify an address that is lower than the first address in the
-        //   table). Since this means that you have to recheck that the FDE contains
-        //   your address anyways, we just return the first FDE even when the address
-        //   is too low. After all, we're just doing a normal binary search.
-        // * This falls apart when the table is empty - there is no entry we could
-        //   return. We conclude that an empty table is not really a table at all.
-        if self.fde_count == 0 {
-            None
-        } else {
-            Some(EhHdrTable { hdr: self })
-        }
-    }
-}
-
-/// An iterator for `.eh_frame_hdr` section's binary search table.
-///
-/// Each table entry consists of a tuple containing an  `initial_location` and `address`.
-/// The `initial location` represents the first address that the targeted FDE
-/// is able to decode. The `address` is the address of the FDE in the `.eh_frame` section.
-/// The `address` can be converted with `EhHdrTable::pointer_to_offset` and `EhFrame::fde_from_offset` to an FDE.
-#[derive(Debug)]
-pub struct EhHdrTableIter<'a, 'bases, R: Reader> {
-    hdr: &'a ParsedEhFrameHdr<R>,
-    table: R,
-    bases: &'bases BaseAddresses,
-    remain: u64,
-}
-
-impl<'a, 'bases, R: Reader> EhHdrTableIter<'a, 'bases, R> {
-    /// Yield the next entry in the `EhHdrTableIter`.
-    pub fn next(&mut self) -> Result<Option<(Pointer, Pointer)>> {
-        if self.remain == 0 {
-            return Ok(None);
-        }
-
-        let parameters = PointerEncodingParameters {
-            bases: &self.bases.eh_frame_hdr,
-            func_base: None,
-            address_size: self.hdr.address_size,
-            section: &self.hdr.section,
-        };
-
-        self.remain -= 1;
-        let from = parse_encoded_pointer(self.hdr.table_enc, &parameters, &mut self.table)?;
-        let to = parse_encoded_pointer(self.hdr.table_enc, &parameters, &mut self.table)?;
-        Ok(Some((from, to)))
-    }
-    /// Yield the nth entry in the `EhHdrTableIter`
-    pub fn nth(&mut self, n: usize) -> Result<Option<(Pointer, Pointer)>> {
-        use core::convert::TryFrom;
-        let size = match self.hdr.table_enc.format() {
-            constants::DW_EH_PE_uleb128 | constants::DW_EH_PE_sleb128 => {
-                return Err(Error::VariableLengthSearchTable);
-            }
-            constants::DW_EH_PE_sdata2 | constants::DW_EH_PE_udata2 => 2,
-            constants::DW_EH_PE_sdata4 | constants::DW_EH_PE_udata4 => 4,
-            constants::DW_EH_PE_sdata8 | constants::DW_EH_PE_udata8 => 8,
-            _ => return Err(Error::UnknownPointerEncoding),
-        };
-
-        let row_size = size * 2;
-        let n = u64::try_from(n).map_err(|_| Error::UnsupportedOffset)?;
-        self.remain = self.remain.saturating_sub(n);
-        self.table.skip(R::Offset::from_u64(n * row_size)?)?;
-        self.next()
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<'a, 'bases, R: Reader> fallible_iterator::FallibleIterator for EhHdrTableIter<'a, 'bases, R> {
-    type Item = (Pointer, Pointer);
-    type Error = Error;
-    fn next(&mut self) -> Result<Option<Self::Item>> {
-        EhHdrTableIter::next(self)
-    }
-
-    fn size_hint(&self) -> (usize, Option<usize>) {
-        use core::convert::TryInto;
-        (
-            self.remain.try_into().unwrap_or(0),
-            self.remain.try_into().ok(),
-        )
-    }
-
-    fn nth(&mut self, n: usize) -> Result<Option<Self::Item>> {
-        EhHdrTableIter::nth(self, n)
-    }
-}
-
-/// The CFI binary search table that is an optional part of the `.eh_frame_hdr` section.
-#[derive(Debug, Clone)]
-pub struct EhHdrTable<'a, R: Reader> {
-    hdr: &'a ParsedEhFrameHdr<R>,
-}
-
-impl<'a, R: Reader + 'a> EhHdrTable<'a, R> {
-    /// Return an iterator that can walk the `.eh_frame_hdr` table.
-    ///
-    /// Each table entry consists of a tuple containing an `initial_location` and `address`.
-    /// The `initial location` represents the first address that the targeted FDE
-    /// is able to decode. The `address` is the address of the FDE in the `.eh_frame` section.
-    /// The `address` can be converted with `EhHdrTable::pointer_to_offset` and `EhFrame::fde_from_offset` to an FDE.
-    pub fn iter<'bases>(&self, bases: &'bases BaseAddresses) -> EhHdrTableIter<'_, 'bases, R> {
-        EhHdrTableIter {
-            hdr: self.hdr,
-            bases,
-            remain: self.hdr.fde_count,
-            table: self.hdr.table.clone(),
-        }
-    }
-    /// *Probably* returns a pointer to the FDE for the given address.
-    ///
-    /// This performs a binary search, so if there is no FDE for the given address,
-    /// this function **will** return a pointer to any other FDE that's close by.
-    ///
-    /// To be sure, you **must** call `contains` on the FDE.
-    pub fn lookup(&self, address: u64, bases: &BaseAddresses) -> Result<Pointer> {
-        let size = match self.hdr.table_enc.format() {
-            constants::DW_EH_PE_uleb128 | constants::DW_EH_PE_sleb128 => {
-                return Err(Error::VariableLengthSearchTable);
-            }
-            constants::DW_EH_PE_sdata2 | constants::DW_EH_PE_udata2 => 2,
-            constants::DW_EH_PE_sdata4 | constants::DW_EH_PE_udata4 => 4,
-            constants::DW_EH_PE_sdata8 | constants::DW_EH_PE_udata8 => 8,
-            _ => return Err(Error::UnknownPointerEncoding),
-        };
-
-        let row_size = size * 2;
-
-        let mut len = self.hdr.fde_count;
-
-        let mut reader = self.hdr.table.clone();
-
-        let parameters = PointerEncodingParameters {
-            bases: &bases.eh_frame_hdr,
-            func_base: None,
-            address_size: self.hdr.address_size,
-            section: &self.hdr.section,
-        };
-
-        while len > 1 {
-            let head = reader.split(R::Offset::from_u64((len / 2) * row_size)?)?;
-            let tail = reader.clone();
-
-            let pivot = parse_encoded_pointer(self.hdr.table_enc, &parameters, &mut reader)?;
-            let pivot = match pivot {
-                Pointer::Direct(x) => x,
-                Pointer::Indirect(_) => return Err(Error::UnsupportedPointerEncoding),
-            };
-
-            match pivot.cmp(&address) {
-                Ordering::Equal => {
-                    reader = tail;
-                    break;
-                }
-                Ordering::Less => {
-                    reader = tail;
-                    len = len - (len / 2);
-                }
-                Ordering::Greater => {
-                    reader = head;
-                    len /= 2;
-                }
-            }
-        }
-
-        reader.skip(R::Offset::from_u64(size)?)?;
-
-        parse_encoded_pointer(self.hdr.table_enc, &parameters, &mut reader)
-    }
-
-    /// Convert a `Pointer` to a section offset.
-    ///
-    /// This does not support indirect pointers.
-    pub fn pointer_to_offset(&self, ptr: Pointer) -> Result<EhFrameOffset<R::Offset>> {
-        let ptr = match ptr {
-            Pointer::Direct(x) => x,
-            _ => return Err(Error::UnsupportedPointerEncoding),
-        };
-
-        let eh_frame_ptr = match self.hdr.eh_frame_ptr() {
-            Pointer::Direct(x) => x,
-            _ => return Err(Error::UnsupportedPointerEncoding),
-        };
-
-        // Calculate the offset in the EhFrame section
-        R::Offset::from_u64(ptr - eh_frame_ptr).map(EhFrameOffset)
-    }
-
-    /// Returns a parsed FDE for the given address, or `NoUnwindInfoForAddress`
-    /// if there are none.
-    ///
-    /// You must provide a function to get its associated CIE. See
-    /// `PartialFrameDescriptionEntry::parse` for more information.
-    ///
-    /// # Example
-    ///
-    /// ```
-    /// # use gimli::{BaseAddresses, EhFrame, ParsedEhFrameHdr, EndianSlice, NativeEndian, Error, UnwindSection};
-    /// # fn foo() -> Result<(), Error> {
-    /// # let eh_frame: EhFrame<EndianSlice<NativeEndian>> = unreachable!();
-    /// # let eh_frame_hdr: ParsedEhFrameHdr<EndianSlice<NativeEndian>> = unimplemented!();
-    /// # let addr = 0;
-    /// # let bases = unimplemented!();
-    /// let table = eh_frame_hdr.table().unwrap();
-    /// let fde = table.fde_for_address(&eh_frame, &bases, addr, EhFrame::cie_from_offset)?;
-    /// # Ok(())
-    /// # }
-    /// ```
-    pub fn fde_for_address<F>(
-        &self,
-        frame: &EhFrame<R>,
-        bases: &BaseAddresses,
-        address: u64,
-        get_cie: F,
-    ) -> Result<FrameDescriptionEntry<R>>
-    where
-        F: FnMut(
-            &EhFrame<R>,
-            &BaseAddresses,
-            EhFrameOffset<R::Offset>,
-        ) -> Result<CommonInformationEntry<R>>,
-    {
-        let fdeptr = self.lookup(address, bases)?;
-        let offset = self.pointer_to_offset(fdeptr)?;
-        let entry = frame.fde_from_offset(bases, offset, get_cie)?;
-        if entry.contains(address) {
-            Ok(entry)
-        } else {
-            Err(Error::NoUnwindInfoForAddress)
-        }
-    }
-
-    #[inline]
-    #[doc(hidden)]
-    #[deprecated(note = "Method renamed to fde_for_address; use that instead.")]
-    pub fn lookup_and_parse<F>(
-        &self,
-        address: u64,
-        bases: &BaseAddresses,
-        frame: EhFrame<R>,
-        get_cie: F,
-    ) -> Result<FrameDescriptionEntry<R>>
-    where
-        F: FnMut(
-            &EhFrame<R>,
-            &BaseAddresses,
-            EhFrameOffset<R::Offset>,
-        ) -> Result<CommonInformationEntry<R>>,
-    {
-        self.fde_for_address(&frame, bases, address, get_cie)
-    }
-
-    /// Returns the frame unwind information for the given address,
-    /// or `NoUnwindInfoForAddress` if there are none.
-    ///
-    /// You must provide a function to get the associated CIE. See
-    /// `PartialFrameDescriptionEntry::parse` for more information.
-    pub fn unwind_info_for_address<'ctx, F, A: UnwindContextStorage<R>>(
-        &self,
-        frame: &EhFrame<R>,
-        bases: &BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-        address: u64,
-        get_cie: F,
-    ) -> Result<&'ctx UnwindTableRow<R, A>>
-    where
-        F: FnMut(
-            &EhFrame<R>,
-            &BaseAddresses,
-            EhFrameOffset<R::Offset>,
-        ) -> Result<CommonInformationEntry<R>>,
-    {
-        let fde = self.fde_for_address(frame, bases, address, get_cie)?;
-        fde.unwind_info_for_address(frame, bases, ctx, address)
-    }
-}
-
-/// `EhFrame` contains the frame unwinding information needed during exception
-/// handling found in the `.eh_frame` section.
-///
-/// Most interesting methods are defined in the
-/// [`UnwindSection`](trait.UnwindSection.html) trait.
-///
-/// See
-/// [`DebugFrame`](./struct.DebugFrame.html#differences-between-debug_frame-and-eh_frame)
-/// for some discussion on the differences between `.debug_frame` and
-/// `.eh_frame`.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub struct EhFrame<R: Reader> {
-    section: R,
-    address_size: u8,
-}
-
-impl<R: Reader> EhFrame<R> {
-    /// Set the size of a target address in bytes.
-    ///
-    /// This defaults to the native word size.
-    pub fn set_address_size(&mut self, address_size: u8) {
-        self.address_size = address_size
-    }
-}
-
-impl<'input, Endian> EhFrame<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `EhFrame` instance from the data in the
-    /// `.eh_frame` section.
-    ///
-    /// It is the caller's responsibility to read the section and present it as
-    /// a `&[u8]` slice. That means using some ELF loader on Linux, a Mach-O
-    /// loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{EhFrame, EndianSlice, NativeEndian};
-    ///
-    /// // Use with `.eh_frame`
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_eh_frame_section_somehow = || &buf;
-    /// let eh_frame = EhFrame::new(read_eh_frame_section_somehow(), NativeEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R: Reader> Section<R> for EhFrame<R> {
-    fn id() -> SectionId {
-        SectionId::EhFrame
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R: Reader> From<R> for EhFrame<R> {
-    fn from(section: R) -> Self {
-        // Default to native word size.
-        EhFrame {
-            section,
-            address_size: mem::size_of::<usize>() as u8,
-        }
-    }
-}
-
-// This has to be `pub` to silence a warning (that is deny(..)'d by default) in
-// rustc. Eventually, not having this `pub` will become a hard error.
-#[doc(hidden)]
-#[allow(missing_docs)]
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub enum CieOffsetEncoding {
-    U32,
-    U64,
-}
-
-/// An offset into an `UnwindSection`.
-//
-// Needed to avoid conflicting implementations of `Into<T>`.
-pub trait UnwindOffset<T = usize>: Copy + Debug + Eq + From<T>
-where
-    T: ReaderOffset,
-{
-    /// Convert an `UnwindOffset<T>` into a `T`.
-    fn into(self) -> T;
-}
-
-impl<T> UnwindOffset<T> for DebugFrameOffset<T>
-where
-    T: ReaderOffset,
-{
-    #[inline]
-    fn into(self) -> T {
-        self.0
-    }
-}
-
-impl<T> UnwindOffset<T> for EhFrameOffset<T>
-where
-    T: ReaderOffset,
-{
-    #[inline]
-    fn into(self) -> T {
-        self.0
-    }
-}
-
-/// This trait completely encapsulates everything that is different between
-/// `.eh_frame` and `.debug_frame`, as well as all the bits that can change
-/// between DWARF versions.
-#[doc(hidden)]
-pub trait _UnwindSectionPrivate<R: Reader> {
-    /// Get the underlying section data.
-    fn section(&self) -> &R;
-
-    /// Returns true if the given length value should be considered an
-    /// end-of-entries sentinel.
-    fn length_value_is_end_of_entries(length: R::Offset) -> bool;
-
-    /// Return true if the given offset if the CIE sentinel, false otherwise.
-    fn is_cie(format: Format, id: u64) -> bool;
-
-    /// Return the CIE offset/ID encoding used by this unwind section with the
-    /// given DWARF format.
-    fn cie_offset_encoding(format: Format) -> CieOffsetEncoding;
-
-    /// For `.eh_frame`, CIE offsets are relative to the current position. For
-    /// `.debug_frame`, they are relative to the start of the section. We always
-    /// internally store them relative to the section, so we handle translating
-    /// `.eh_frame`'s relative offsets in this method. If the offset calculation
-    /// underflows, return `None`.
-    fn resolve_cie_offset(&self, base: R::Offset, offset: R::Offset) -> Option<R::Offset>;
-
-    /// Does this version of this unwind section encode address and segment
-    /// sizes in its CIEs?
-    fn has_address_and_segment_sizes(version: u8) -> bool;
-
-    /// The address size to use if `has_address_and_segment_sizes` returns false.
-    fn address_size(&self) -> u8;
-
-    /// The segment size to use if `has_address_and_segment_sizes` returns false.
-    fn segment_size(&self) -> u8;
-}
-
-/// A section holding unwind information: either `.debug_frame` or
-/// `.eh_frame`. See [`DebugFrame`](./struct.DebugFrame.html) and
-/// [`EhFrame`](./struct.EhFrame.html) respectively.
-pub trait UnwindSection<R: Reader>: Clone + Debug + _UnwindSectionPrivate<R> {
-    /// The offset type associated with this CFI section. Either
-    /// `DebugFrameOffset` or `EhFrameOffset`.
-    type Offset: UnwindOffset<R::Offset>;
-
-    /// Iterate over the `CommonInformationEntry`s and `FrameDescriptionEntry`s
-    /// in this `.debug_frame` section.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    fn entries<'bases>(&self, bases: &'bases BaseAddresses) -> CfiEntriesIter<'bases, Self, R> {
-        CfiEntriesIter {
-            section: self.clone(),
-            bases,
-            input: self.section().clone(),
-        }
-    }
-
-    /// Parse the `CommonInformationEntry` at the given offset.
-    fn cie_from_offset(
-        &self,
-        bases: &BaseAddresses,
-        offset: Self::Offset,
-    ) -> Result<CommonInformationEntry<R>> {
-        let offset = UnwindOffset::into(offset);
-        let input = &mut self.section().clone();
-        input.skip(offset)?;
-        CommonInformationEntry::parse(bases, self, input)
-    }
-
-    /// Parse the `PartialFrameDescriptionEntry` at the given offset.
-    fn partial_fde_from_offset<'bases>(
-        &self,
-        bases: &'bases BaseAddresses,
-        offset: Self::Offset,
-    ) -> Result<PartialFrameDescriptionEntry<'bases, Self, R>> {
-        let offset = UnwindOffset::into(offset);
-        let input = &mut self.section().clone();
-        input.skip(offset)?;
-        PartialFrameDescriptionEntry::parse_partial(self, bases, input)
-    }
-
-    /// Parse the `FrameDescriptionEntry` at the given offset.
-    fn fde_from_offset<F>(
-        &self,
-        bases: &BaseAddresses,
-        offset: Self::Offset,
-        get_cie: F,
-    ) -> Result<FrameDescriptionEntry<R>>
-    where
-        F: FnMut(&Self, &BaseAddresses, Self::Offset) -> Result<CommonInformationEntry<R>>,
-    {
-        let partial = self.partial_fde_from_offset(bases, offset)?;
-        partial.parse(get_cie)
-    }
-
-    /// Find the `FrameDescriptionEntry` for the given address.
-    ///
-    /// If found, the FDE is returned.  If not found,
-    /// `Err(gimli::Error::NoUnwindInfoForAddress)` is returned.
-    /// If parsing fails, the error is returned.
-    ///
-    /// You must provide a function to get its associated CIE. See
-    /// `PartialFrameDescriptionEntry::parse` for more information.
-    ///
-    /// Note: this iterates over all FDEs. If available, it is possible
-    /// to do a binary search with `EhFrameHdr::fde_for_address` instead.
-    fn fde_for_address<F>(
-        &self,
-        bases: &BaseAddresses,
-        address: u64,
-        mut get_cie: F,
-    ) -> Result<FrameDescriptionEntry<R>>
-    where
-        F: FnMut(&Self, &BaseAddresses, Self::Offset) -> Result<CommonInformationEntry<R>>,
-    {
-        let mut entries = self.entries(bases);
-        while let Some(entry) = entries.next()? {
-            match entry {
-                CieOrFde::Cie(_) => {}
-                CieOrFde::Fde(partial) => {
-                    let fde = partial.parse(&mut get_cie)?;
-                    if fde.contains(address) {
-                        return Ok(fde);
-                    }
-                }
-            }
-        }
-        Err(Error::NoUnwindInfoForAddress)
-    }
-
-    /// Find the frame unwind information for the given address.
-    ///
-    /// If found, the unwind information is returned.  If not found,
-    /// `Err(gimli::Error::NoUnwindInfoForAddress)` is returned. If parsing or
-    /// CFI evaluation fails, the error is returned.
-    ///
-    /// ```
-    /// use gimli::{BaseAddresses, EhFrame, EndianSlice, NativeEndian, UnwindContext,
-    ///             UnwindSection};
-    ///
-    /// # fn foo() -> gimli::Result<()> {
-    /// # let read_eh_frame_section = || unimplemented!();
-    /// // Get the `.eh_frame` section from the object file. Alternatively,
-    /// // use `EhFrame` with the `.eh_frame` section of the object file.
-    /// let eh_frame = EhFrame::new(read_eh_frame_section(), NativeEndian);
-    ///
-    /// # let get_frame_pc = || unimplemented!();
-    /// // Get the address of the PC for a frame you'd like to unwind.
-    /// let address = get_frame_pc();
-    ///
-    /// // This context is reusable, which cuts down on heap allocations.
-    /// let ctx = UnwindContext::new();
-    ///
-    /// // Optionally provide base addresses for any relative pointers. If a
-    /// // base address isn't provided and a pointer is found that is relative to
-    /// // it, we will return an `Err`.
-    /// # let address_of_text_section_in_memory = unimplemented!();
-    /// # let address_of_got_section_in_memory = unimplemented!();
-    /// let bases = BaseAddresses::default()
-    ///     .set_text(address_of_text_section_in_memory)
-    ///     .set_got(address_of_got_section_in_memory);
-    ///
-    /// let unwind_info = eh_frame.unwind_info_for_address(
-    ///     &bases,
-    ///     &mut ctx,
-    ///     address,
-    ///     EhFrame::cie_from_offset,
-    /// )?;
-    ///
-    /// # let do_stuff_with = |_| unimplemented!();
-    /// do_stuff_with(unwind_info);
-    /// # let _ = ctx;
-    /// # unreachable!()
-    /// # }
-    /// ```
-    #[inline]
-    fn unwind_info_for_address<'ctx, F, A: UnwindContextStorage<R>>(
-        &self,
-        bases: &BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-        address: u64,
-        get_cie: F,
-    ) -> Result<&'ctx UnwindTableRow<R, A>>
-    where
-        F: FnMut(&Self, &BaseAddresses, Self::Offset) -> Result<CommonInformationEntry<R>>,
-    {
-        let fde = self.fde_for_address(bases, address, get_cie)?;
-        fde.unwind_info_for_address(self, bases, ctx, address)
-    }
-}
-
-impl<R: Reader> _UnwindSectionPrivate<R> for DebugFrame<R> {
-    fn section(&self) -> &R {
-        &self.section
-    }
-
-    fn length_value_is_end_of_entries(_: R::Offset) -> bool {
-        false
-    }
-
-    fn is_cie(format: Format, id: u64) -> bool {
-        match format {
-            Format::Dwarf32 => id == 0xffff_ffff,
-            Format::Dwarf64 => id == 0xffff_ffff_ffff_ffff,
-        }
-    }
-
-    fn cie_offset_encoding(format: Format) -> CieOffsetEncoding {
-        match format {
-            Format::Dwarf32 => CieOffsetEncoding::U32,
-            Format::Dwarf64 => CieOffsetEncoding::U64,
-        }
-    }
-
-    fn resolve_cie_offset(&self, _: R::Offset, offset: R::Offset) -> Option<R::Offset> {
-        Some(offset)
-    }
-
-    fn has_address_and_segment_sizes(version: u8) -> bool {
-        version == 4
-    }
-
-    fn address_size(&self) -> u8 {
-        self.address_size
-    }
-
-    fn segment_size(&self) -> u8 {
-        self.segment_size
-    }
-}
-
-impl<R: Reader> UnwindSection<R> for DebugFrame<R> {
-    type Offset = DebugFrameOffset<R::Offset>;
-}
-
-impl<R: Reader> _UnwindSectionPrivate<R> for EhFrame<R> {
-    fn section(&self) -> &R {
-        &self.section
-    }
-
-    fn length_value_is_end_of_entries(length: R::Offset) -> bool {
-        length.into_u64() == 0
-    }
-
-    fn is_cie(_: Format, id: u64) -> bool {
-        id == 0
-    }
-
-    fn cie_offset_encoding(_format: Format) -> CieOffsetEncoding {
-        // `.eh_frame` offsets are always 4 bytes, regardless of the DWARF
-        // format.
-        CieOffsetEncoding::U32
-    }
-
-    fn resolve_cie_offset(&self, base: R::Offset, offset: R::Offset) -> Option<R::Offset> {
-        base.checked_sub(offset)
-    }
-
-    fn has_address_and_segment_sizes(_version: u8) -> bool {
-        false
-    }
-
-    fn address_size(&self) -> u8 {
-        self.address_size
-    }
-
-    fn segment_size(&self) -> u8 {
-        0
-    }
-}
-
-impl<R: Reader> UnwindSection<R> for EhFrame<R> {
-    type Offset = EhFrameOffset<R::Offset>;
-}
-
-/// Optional base addresses for the relative `DW_EH_PE_*` encoded pointers.
-///
-/// During CIE/FDE parsing, if a relative pointer is encountered for a base
-/// address that is unknown, an Err will be returned.
-///
-/// ```
-/// use gimli::BaseAddresses;
-///
-/// # fn foo() {
-/// # let address_of_eh_frame_hdr_section_in_memory = unimplemented!();
-/// # let address_of_eh_frame_section_in_memory = unimplemented!();
-/// # let address_of_text_section_in_memory = unimplemented!();
-/// # let address_of_got_section_in_memory = unimplemented!();
-/// # let address_of_the_start_of_current_func = unimplemented!();
-/// let bases = BaseAddresses::default()
-///     .set_eh_frame_hdr(address_of_eh_frame_hdr_section_in_memory)
-///     .set_eh_frame(address_of_eh_frame_section_in_memory)
-///     .set_text(address_of_text_section_in_memory)
-///     .set_got(address_of_got_section_in_memory);
-/// # let _ = bases;
-/// # }
-/// ```
-#[derive(Clone, Default, Debug, PartialEq, Eq)]
-pub struct BaseAddresses {
-    /// The base addresses to use for pointers in the `.eh_frame_hdr` section.
-    pub eh_frame_hdr: SectionBaseAddresses,
-
-    /// The base addresses to use for pointers in the `.eh_frame` section.
-    pub eh_frame: SectionBaseAddresses,
-}
-
-/// Optional base addresses for the relative `DW_EH_PE_*` encoded pointers
-/// in a particular section.
-///
-/// See `BaseAddresses` for methods that are helpful in setting these addresses.
-#[derive(Clone, Default, Debug, PartialEq, Eq)]
-pub struct SectionBaseAddresses {
-    /// The address of the section containing the pointer.
-    pub section: Option<u64>,
-
-    /// The base address for text relative pointers.
-    /// This is generally the address of the `.text` section.
-    pub text: Option<u64>,
-
-    /// The base address for data relative pointers.
-    ///
-    /// For pointers in the `.eh_frame_hdr` section, this is the address
-    /// of the `.eh_frame_hdr` section
-    ///
-    /// For pointers in the `.eh_frame` section, this is generally the
-    /// global pointer, such as the address of the `.got` section.
-    pub data: Option<u64>,
-}
-
-impl BaseAddresses {
-    /// Set the `.eh_frame_hdr` section base address.
-    #[inline]
-    pub fn set_eh_frame_hdr(mut self, addr: u64) -> Self {
-        self.eh_frame_hdr.section = Some(addr);
-        self.eh_frame_hdr.data = Some(addr);
-        self
-    }
-
-    /// Set the `.eh_frame` section base address.
-    #[inline]
-    pub fn set_eh_frame(mut self, addr: u64) -> Self {
-        self.eh_frame.section = Some(addr);
-        self
-    }
-
-    /// Set the `.text` section base address.
-    #[inline]
-    pub fn set_text(mut self, addr: u64) -> Self {
-        self.eh_frame_hdr.text = Some(addr);
-        self.eh_frame.text = Some(addr);
-        self
-    }
-
-    /// Set the `.got` section base address.
-    #[inline]
-    pub fn set_got(mut self, addr: u64) -> Self {
-        self.eh_frame.data = Some(addr);
-        self
-    }
-}
-
-/// An iterator over CIE and FDE entries in a `.debug_frame` or `.eh_frame`
-/// section.
-///
-/// Some pointers may be encoded relative to various base addresses. Use the
-/// [`BaseAddresses`](./struct.BaseAddresses.html) parameter to provide them. By
-/// default, none are provided. If a relative pointer is encountered for a base
-/// address that is unknown, an `Err` will be returned and iteration will abort.
-///
-/// Can be [used with
-/// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-///
-/// ```
-/// use gimli::{BaseAddresses, EhFrame, EndianSlice, NativeEndian, UnwindSection};
-///
-/// # fn foo() -> gimli::Result<()> {
-/// # let read_eh_frame_somehow = || unimplemented!();
-/// let eh_frame = EhFrame::new(read_eh_frame_somehow(), NativeEndian);
-///
-/// # let address_of_eh_frame_hdr_section_in_memory = unimplemented!();
-/// # let address_of_eh_frame_section_in_memory = unimplemented!();
-/// # let address_of_text_section_in_memory = unimplemented!();
-/// # let address_of_got_section_in_memory = unimplemented!();
-/// # let address_of_the_start_of_current_func = unimplemented!();
-/// // Provide base addresses for relative pointers.
-/// let bases = BaseAddresses::default()
-///     .set_eh_frame_hdr(address_of_eh_frame_hdr_section_in_memory)
-///     .set_eh_frame(address_of_eh_frame_section_in_memory)
-///     .set_text(address_of_text_section_in_memory)
-///     .set_got(address_of_got_section_in_memory);
-///
-/// let mut entries = eh_frame.entries(&bases);
-///
-/// # let do_stuff_with = |_| unimplemented!();
-/// while let Some(entry) = entries.next()? {
-///     do_stuff_with(entry)
-/// }
-/// # unreachable!()
-/// # }
-/// ```
-#[derive(Clone, Debug)]
-pub struct CfiEntriesIter<'bases, Section, R>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    section: Section,
-    bases: &'bases BaseAddresses,
-    input: R,
-}
-
-impl<'bases, Section, R> CfiEntriesIter<'bases, Section, R>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    /// Advance the iterator to the next entry.
-    pub fn next(&mut self) -> Result<Option<CieOrFde<'bases, Section, R>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        match parse_cfi_entry(self.bases, &self.section, &mut self.input) {
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-            Ok(None) => {
-                self.input.empty();
-                Ok(None)
-            }
-            Ok(Some(entry)) => Ok(Some(entry)),
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<'bases, Section, R> fallible_iterator::FallibleIterator for CfiEntriesIter<'bases, Section, R>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    type Item = CieOrFde<'bases, Section, R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        CfiEntriesIter::next(self)
-    }
-}
-
-/// Either a `CommonInformationEntry` (CIE) or a `FrameDescriptionEntry` (FDE).
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub enum CieOrFde<'bases, Section, R>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    /// This CFI entry is a `CommonInformationEntry`.
-    Cie(CommonInformationEntry<R>),
-    /// This CFI entry is a `FrameDescriptionEntry`, however fully parsing it
-    /// requires parsing its CIE first, so it is left in a partially parsed
-    /// state.
-    Fde(PartialFrameDescriptionEntry<'bases, Section, R>),
-}
-
-fn parse_cfi_entry<'bases, Section, R>(
-    bases: &'bases BaseAddresses,
-    section: &Section,
-    input: &mut R,
-) -> Result<Option<CieOrFde<'bases, Section, R>>>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    let (offset, length, format) = loop {
-        let offset = input.offset_from(section.section());
-        let (length, format) = input.read_initial_length()?;
-
-        if Section::length_value_is_end_of_entries(length) {
-            return Ok(None);
-        }
-
-        // Hack: skip zero padding inserted by buggy compilers/linkers.
-        // We require that the padding is a multiple of 32-bits, otherwise
-        // there is no reliable way to determine when the padding ends. This
-        // should be okay since CFI entries must be aligned to the address size.
-
-        if length.into_u64() != 0 || format != Format::Dwarf32 {
-            break (offset, length, format);
-        }
-    };
-
-    let mut rest = input.split(length)?;
-    let cie_offset_base = rest.offset_from(section.section());
-    let cie_id_or_offset = match Section::cie_offset_encoding(format) {
-        CieOffsetEncoding::U32 => rest.read_u32().map(u64::from)?,
-        CieOffsetEncoding::U64 => rest.read_u64()?,
-    };
-
-    if Section::is_cie(format, cie_id_or_offset) {
-        let cie = CommonInformationEntry::parse_rest(offset, length, format, bases, section, rest)?;
-        Ok(Some(CieOrFde::Cie(cie)))
-    } else {
-        let cie_offset = R::Offset::from_u64(cie_id_or_offset)?;
-        let cie_offset = match section.resolve_cie_offset(cie_offset_base, cie_offset) {
-            None => return Err(Error::OffsetOutOfBounds),
-            Some(cie_offset) => cie_offset,
-        };
-
-        let fde = PartialFrameDescriptionEntry {
-            offset,
-            length,
-            format,
-            cie_offset: cie_offset.into(),
-            rest,
-            section: section.clone(),
-            bases,
-        };
-
-        Ok(Some(CieOrFde::Fde(fde)))
-    }
-}
-
-/// We support the z-style augmentation [defined by `.eh_frame`][ehframe].
-///
-/// [ehframe]: https://refspecs.linuxfoundation.org/LSB_3.0.0/LSB-Core-generic/LSB-Core-generic/ehframechpt.html
-#[derive(Copy, Clone, Debug, Default, PartialEq, Eq)]
-pub struct Augmentation {
-    /// > A 'L' may be present at any position after the first character of the
-    /// > string. This character may only be present if 'z' is the first character
-    /// > of the string. If present, it indicates the presence of one argument in
-    /// > the Augmentation Data of the CIE, and a corresponding argument in the
-    /// > Augmentation Data of the FDE. The argument in the Augmentation Data of
-    /// > the CIE is 1-byte and represents the pointer encoding used for the
-    /// > argument in the Augmentation Data of the FDE, which is the address of a
-    /// > language-specific data area (LSDA). The size of the LSDA pointer is
-    /// > specified by the pointer encoding used.
-    lsda: Option<constants::DwEhPe>,
-
-    /// > A 'P' may be present at any position after the first character of the
-    /// > string. This character may only be present if 'z' is the first character
-    /// > of the string. If present, it indicates the presence of two arguments in
-    /// > the Augmentation Data of the CIE. The first argument is 1-byte and
-    /// > represents the pointer encoding used for the second argument, which is
-    /// > the address of a personality routine handler. The size of the
-    /// > personality routine pointer is specified by the pointer encoding used.
-    personality: Option<(constants::DwEhPe, Pointer)>,
-
-    /// > A 'R' may be present at any position after the first character of the
-    /// > string. This character may only be present if 'z' is the first character
-    /// > of the string. If present, The Augmentation Data shall include a 1 byte
-    /// > argument that represents the pointer encoding for the address pointers
-    /// > used in the FDE.
-    fde_address_encoding: Option<constants::DwEhPe>,
-
-    /// True if this CIE's FDEs are trampolines for signal handlers.
-    is_signal_trampoline: bool,
-}
-
-impl Augmentation {
-    fn parse<Section, R>(
-        augmentation_str: &mut R,
-        bases: &BaseAddresses,
-        address_size: u8,
-        section: &Section,
-        input: &mut R,
-    ) -> Result<Augmentation>
-    where
-        R: Reader,
-        Section: UnwindSection<R>,
-    {
-        debug_assert!(
-            !augmentation_str.is_empty(),
-            "Augmentation::parse should only be called if we have an augmentation"
-        );
-
-        let mut augmentation = Augmentation::default();
-
-        let mut parsed_first = false;
-        let mut data = None;
-
-        while !augmentation_str.is_empty() {
-            let ch = augmentation_str.read_u8()?;
-            match ch {
-                b'z' => {
-                    if parsed_first {
-                        return Err(Error::UnknownAugmentation);
-                    }
-
-                    let augmentation_length = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                    data = Some(input.split(augmentation_length)?);
-                }
-                b'L' => {
-                    let rest = data.as_mut().ok_or(Error::UnknownAugmentation)?;
-                    let encoding = parse_pointer_encoding(rest)?;
-                    augmentation.lsda = Some(encoding);
-                }
-                b'P' => {
-                    let rest = data.as_mut().ok_or(Error::UnknownAugmentation)?;
-                    let encoding = parse_pointer_encoding(rest)?;
-                    let parameters = PointerEncodingParameters {
-                        bases: &bases.eh_frame,
-                        func_base: None,
-                        address_size,
-                        section: section.section(),
-                    };
-
-                    let personality = parse_encoded_pointer(encoding, &parameters, rest)?;
-                    augmentation.personality = Some((encoding, personality));
-                }
-                b'R' => {
-                    let rest = data.as_mut().ok_or(Error::UnknownAugmentation)?;
-                    let encoding = parse_pointer_encoding(rest)?;
-                    augmentation.fde_address_encoding = Some(encoding);
-                }
-                b'S' => augmentation.is_signal_trampoline = true,
-                _ => return Err(Error::UnknownAugmentation),
-            }
-
-            parsed_first = true;
-        }
-
-        Ok(augmentation)
-    }
-}
-
-/// Parsed augmentation data for a `FrameDescriptEntry`.
-#[derive(Clone, Debug, Default, PartialEq, Eq)]
-struct AugmentationData {
-    lsda: Option<Pointer>,
-}
-
-impl AugmentationData {
-    fn parse<R: Reader>(
-        augmentation: &Augmentation,
-        encoding_parameters: &PointerEncodingParameters<R>,
-        input: &mut R,
-    ) -> Result<AugmentationData> {
-        // In theory, we should be iterating over the original augmentation
-        // string, interpreting each character, and reading the appropriate bits
-        // out of the augmentation data as we go. However, the only character
-        // that defines augmentation data in the FDE is the 'L' character, so we
-        // can just check for its presence directly.
-
-        let aug_data_len = input.read_uleb128().and_then(R::Offset::from_u64)?;
-        let rest = &mut input.split(aug_data_len)?;
-        let mut augmentation_data = AugmentationData::default();
-        if let Some(encoding) = augmentation.lsda {
-            let lsda = parse_encoded_pointer(encoding, encoding_parameters, rest)?;
-            augmentation_data.lsda = Some(lsda);
-        }
-        Ok(augmentation_data)
-    }
-}
-
-/// > A Common Information Entry holds information that is shared among many
-/// > Frame Description Entries. There is at least one CIE in every non-empty
-/// > `.debug_frame` section.
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub struct CommonInformationEntry<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// The offset of this entry from the start of its containing section.
-    offset: Offset,
-
-    /// > A constant that gives the number of bytes of the CIE structure, not
-    /// > including the length field itself (see Section 7.2.2). The size of the
-    /// > length field plus the value of length must be an integral multiple of
-    /// > the address size.
-    length: Offset,
-
-    format: Format,
-
-    /// > A version number (see Section 7.23). This number is specific to the
-    /// > call frame information and is independent of the DWARF version number.
-    version: u8,
-
-    /// The parsed augmentation, if any.
-    augmentation: Option<Augmentation>,
-
-    /// > The size of a target address in this CIE and any FDEs that use it, in
-    /// > bytes. If a compilation unit exists for this frame, its address size
-    /// > must match the address size here.
-    address_size: u8,
-
-    /// "The size of a segment selector in this CIE and any FDEs that use it, in
-    /// bytes."
-    segment_size: u8,
-
-    /// "A constant that is factored out of all advance location instructions
-    /// (see Section 6.4.2.1)."
-    code_alignment_factor: u64,
-
-    /// > A constant that is factored out of certain offset instructions (see
-    /// > below). The resulting value is (operand * data_alignment_factor).
-    data_alignment_factor: i64,
-
-    /// > An unsigned LEB128 constant that indicates which column in the rule
-    /// > table represents the return address of the function. Note that this
-    /// > column might not correspond to an actual machine register.
-    return_address_register: Register,
-
-    /// > A sequence of rules that are interpreted to create the initial setting
-    /// > of each column in the table.
-    ///
-    /// > The default rule for all columns before interpretation of the initial
-    /// > instructions is the undefined rule. However, an ABI authoring body or a
-    /// > compilation system authoring body may specify an alternate default
-    /// > value for any or all columns.
-    ///
-    /// This is followed by `DW_CFA_nop` padding until the end of `length` bytes
-    /// in the input.
-    initial_instructions: R,
-}
-
-impl<R: Reader> CommonInformationEntry<R> {
-    fn parse<Section: UnwindSection<R>>(
-        bases: &BaseAddresses,
-        section: &Section,
-        input: &mut R,
-    ) -> Result<CommonInformationEntry<R>> {
-        match parse_cfi_entry(bases, section, input)? {
-            Some(CieOrFde::Cie(cie)) => Ok(cie),
-            Some(CieOrFde::Fde(_)) => Err(Error::NotCieId),
-            None => Err(Error::NoEntryAtGivenOffset),
-        }
-    }
-
-    fn parse_rest<Section: UnwindSection<R>>(
-        offset: R::Offset,
-        length: R::Offset,
-        format: Format,
-        bases: &BaseAddresses,
-        section: &Section,
-        mut rest: R,
-    ) -> Result<CommonInformationEntry<R>> {
-        let version = rest.read_u8()?;
-
-        // Version 1 of `.debug_frame` corresponds to DWARF 2, and then for
-        // DWARF 3 and 4, I think they decided to just match the standard's
-        // version.
-        match version {
-            1 | 3 | 4 => (),
-            _ => return Err(Error::UnknownVersion(u64::from(version))),
-        }
-
-        let mut augmentation_string = rest.read_null_terminated_slice()?;
-
-        let (address_size, segment_size) = if Section::has_address_and_segment_sizes(version) {
-            let address_size = rest.read_u8()?;
-            let segment_size = rest.read_u8()?;
-            (address_size, segment_size)
-        } else {
-            (section.address_size(), section.segment_size())
-        };
-
-        let code_alignment_factor = rest.read_uleb128()?;
-        let data_alignment_factor = rest.read_sleb128()?;
-
-        let return_address_register = if version == 1 {
-            Register(rest.read_u8()?.into())
-        } else {
-            rest.read_uleb128().and_then(Register::from_u64)?
-        };
-
-        let augmentation = if augmentation_string.is_empty() {
-            None
-        } else {
-            Some(Augmentation::parse(
-                &mut augmentation_string,
-                bases,
-                address_size,
-                section,
-                &mut rest,
-            )?)
-        };
-
-        let entry = CommonInformationEntry {
-            offset,
-            length,
-            format,
-            version,
-            augmentation,
-            address_size,
-            segment_size,
-            code_alignment_factor,
-            data_alignment_factor,
-            return_address_register,
-            initial_instructions: rest,
-        };
-
-        Ok(entry)
-    }
-}
-
-/// # Signal Safe Methods
-///
-/// These methods are guaranteed not to allocate, acquire locks, or perform any
-/// other signal-unsafe operations.
-impl<R: Reader> CommonInformationEntry<R> {
-    /// Get the offset of this entry from the start of its containing section.
-    pub fn offset(&self) -> R::Offset {
-        self.offset
-    }
-
-    /// Return the encoding parameters for this CIE.
-    pub fn encoding(&self) -> Encoding {
-        Encoding {
-            format: self.format,
-            version: u16::from(self.version),
-            address_size: self.address_size,
-        }
-    }
-
-    /// The size of addresses (in bytes) in this CIE.
-    pub fn address_size(&self) -> u8 {
-        self.address_size
-    }
-
-    /// Iterate over this CIE's initial instructions.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn instructions<'a, Section>(
-        &self,
-        section: &'a Section,
-        bases: &'a BaseAddresses,
-    ) -> CallFrameInstructionIter<'a, R>
-    where
-        Section: UnwindSection<R>,
-    {
-        CallFrameInstructionIter {
-            input: self.initial_instructions.clone(),
-            address_encoding: None,
-            parameters: PointerEncodingParameters {
-                bases: &bases.eh_frame,
-                func_base: None,
-                address_size: self.address_size,
-                section: section.section(),
-            },
-        }
-    }
-
-    /// > A constant that gives the number of bytes of the CIE structure, not
-    /// > including the length field itself (see Section 7.2.2). The size of the
-    /// > length field plus the value of length must be an integral multiple of
-    /// > the address size.
-    pub fn entry_len(&self) -> R::Offset {
-        self.length
-    }
-
-    /// > A version number (see Section 7.23). This number is specific to the
-    /// > call frame information and is independent of the DWARF version number.
-    pub fn version(&self) -> u8 {
-        self.version
-    }
-
-    /// Get the augmentation data, if any exists.
-    ///
-    /// The only augmentation understood by `gimli` is that which is defined by
-    /// `.eh_frame`.
-    pub fn augmentation(&self) -> Option<&Augmentation> {
-        self.augmentation.as_ref()
-    }
-
-    /// True if this CIE's FDEs have a LSDA.
-    pub fn has_lsda(&self) -> bool {
-        self.augmentation.map_or(false, |a| a.lsda.is_some())
-    }
-
-    /// Return the encoding of the LSDA address for this CIE's FDEs.
-    pub fn lsda_encoding(&self) -> Option<constants::DwEhPe> {
-        self.augmentation.and_then(|a| a.lsda)
-    }
-
-    /// Return the encoding and address of the personality routine handler
-    /// for this CIE's FDEs.
-    pub fn personality_with_encoding(&self) -> Option<(constants::DwEhPe, Pointer)> {
-        self.augmentation.as_ref().and_then(|a| a.personality)
-    }
-
-    /// Return the address of the personality routine handler
-    /// for this CIE's FDEs.
-    pub fn personality(&self) -> Option<Pointer> {
-        self.augmentation
-            .as_ref()
-            .and_then(|a| a.personality)
-            .map(|(_, p)| p)
-    }
-
-    /// Return the encoding of the addresses for this CIE's FDEs.
-    pub fn fde_address_encoding(&self) -> Option<constants::DwEhPe> {
-        self.augmentation.and_then(|a| a.fde_address_encoding)
-    }
-
-    /// True if this CIE's FDEs are trampolines for signal handlers.
-    pub fn is_signal_trampoline(&self) -> bool {
-        self.augmentation.map_or(false, |a| a.is_signal_trampoline)
-    }
-
-    /// > A constant that is factored out of all advance location instructions
-    /// > (see Section 6.4.2.1).
-    pub fn code_alignment_factor(&self) -> u64 {
-        self.code_alignment_factor
-    }
-
-    /// > A constant that is factored out of certain offset instructions (see
-    /// > below). The resulting value is (operand * data_alignment_factor).
-    pub fn data_alignment_factor(&self) -> i64 {
-        self.data_alignment_factor
-    }
-
-    /// > An unsigned ... constant that indicates which column in the rule
-    /// > table represents the return address of the function. Note that this
-    /// > column might not correspond to an actual machine register.
-    pub fn return_address_register(&self) -> Register {
-        self.return_address_register
-    }
-}
-
-/// A partially parsed `FrameDescriptionEntry`.
-///
-/// Fully parsing this FDE requires first parsing its CIE.
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub struct PartialFrameDescriptionEntry<'bases, Section, R>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    offset: R::Offset,
-    length: R::Offset,
-    format: Format,
-    cie_offset: Section::Offset,
-    rest: R,
-    section: Section,
-    bases: &'bases BaseAddresses,
-}
-
-impl<'bases, Section, R> PartialFrameDescriptionEntry<'bases, Section, R>
-where
-    R: Reader,
-    Section: UnwindSection<R>,
-{
-    fn parse_partial(
-        section: &Section,
-        bases: &'bases BaseAddresses,
-        input: &mut R,
-    ) -> Result<PartialFrameDescriptionEntry<'bases, Section, R>> {
-        match parse_cfi_entry(bases, section, input)? {
-            Some(CieOrFde::Cie(_)) => Err(Error::NotFdePointer),
-            Some(CieOrFde::Fde(partial)) => Ok(partial),
-            None => Err(Error::NoEntryAtGivenOffset),
-        }
-    }
-
-    /// Fully parse this FDE.
-    ///
-    /// You must provide a function get its associated CIE (either by parsing it
-    /// on demand, or looking it up in some table mapping offsets to CIEs that
-    /// you've already parsed, etc.)
-    pub fn parse<F>(&self, get_cie: F) -> Result<FrameDescriptionEntry<R>>
-    where
-        F: FnMut(&Section, &BaseAddresses, Section::Offset) -> Result<CommonInformationEntry<R>>,
-    {
-        FrameDescriptionEntry::parse_rest(
-            self.offset,
-            self.length,
-            self.format,
-            self.cie_offset,
-            self.rest.clone(),
-            &self.section,
-            self.bases,
-            get_cie,
-        )
-    }
-}
-
-/// A `FrameDescriptionEntry` is a set of CFA instructions for an address range.
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub struct FrameDescriptionEntry<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// The start of this entry within its containing section.
-    offset: Offset,
-
-    /// > A constant that gives the number of bytes of the header and
-    /// > instruction stream for this function, not including the length field
-    /// > itself (see Section 7.2.2). The size of the length field plus the value
-    /// > of length must be an integral multiple of the address size.
-    length: Offset,
-
-    format: Format,
-
-    /// "A constant offset into the .debug_frame section that denotes the CIE
-    /// that is associated with this FDE."
-    ///
-    /// This is the CIE at that offset.
-    cie: CommonInformationEntry<R, Offset>,
-
-    /// > The address of the first location associated with this table entry. If
-    /// > the segment_size field of this FDE's CIE is non-zero, the initial
-    /// > location is preceded by a segment selector of the given length.
-    initial_segment: u64,
-    initial_address: u64,
-
-    /// "The number of bytes of program instructions described by this entry."
-    address_range: u64,
-
-    /// The parsed augmentation data, if we have any.
-    augmentation: Option<AugmentationData>,
-
-    /// "A sequence of table defining instructions that are described below."
-    ///
-    /// This is followed by `DW_CFA_nop` padding until `length` bytes of the
-    /// input are consumed.
-    instructions: R,
-}
-
-impl<R: Reader> FrameDescriptionEntry<R> {
-    fn parse_rest<Section, F>(
-        offset: R::Offset,
-        length: R::Offset,
-        format: Format,
-        cie_pointer: Section::Offset,
-        mut rest: R,
-        section: &Section,
-        bases: &BaseAddresses,
-        mut get_cie: F,
-    ) -> Result<FrameDescriptionEntry<R>>
-    where
-        Section: UnwindSection<R>,
-        F: FnMut(&Section, &BaseAddresses, Section::Offset) -> Result<CommonInformationEntry<R>>,
-    {
-        let cie = get_cie(section, bases, cie_pointer)?;
-
-        let initial_segment = if cie.segment_size > 0 {
-            rest.read_address(cie.segment_size)?
-        } else {
-            0
-        };
-
-        let mut parameters = PointerEncodingParameters {
-            bases: &bases.eh_frame,
-            func_base: None,
-            address_size: cie.address_size,
-            section: section.section(),
-        };
-
-        let (initial_address, address_range) = Self::parse_addresses(&mut rest, &cie, &parameters)?;
-        parameters.func_base = Some(initial_address);
-
-        let aug_data = if let Some(ref augmentation) = cie.augmentation {
-            Some(AugmentationData::parse(
-                augmentation,
-                &parameters,
-                &mut rest,
-            )?)
-        } else {
-            None
-        };
-
-        let entry = FrameDescriptionEntry {
-            offset,
-            length,
-            format,
-            cie,
-            initial_segment,
-            initial_address,
-            address_range,
-            augmentation: aug_data,
-            instructions: rest,
-        };
-
-        Ok(entry)
-    }
-
-    fn parse_addresses(
-        input: &mut R,
-        cie: &CommonInformationEntry<R>,
-        parameters: &PointerEncodingParameters<R>,
-    ) -> Result<(u64, u64)> {
-        let encoding = cie.augmentation().and_then(|a| a.fde_address_encoding);
-        if let Some(encoding) = encoding {
-            let initial_address = parse_encoded_pointer(encoding, parameters, input)?;
-
-            // Ignore indirection.
-            let initial_address = initial_address.into();
-
-            // Address ranges cannot be relative to anything, so just grab the
-            // data format bits from the encoding.
-            let address_range = parse_encoded_pointer(encoding.format(), parameters, input)?;
-            Ok((initial_address, address_range.into()))
-        } else {
-            let initial_address = input.read_address(cie.address_size)?;
-            let address_range = input.read_address(cie.address_size)?;
-            Ok((initial_address, address_range))
-        }
-    }
-
-    /// Return the table of unwind information for this FDE.
-    #[inline]
-    pub fn rows<'a, 'ctx, Section: UnwindSection<R>, A: UnwindContextStorage<R>>(
-        &self,
-        section: &'a Section,
-        bases: &'a BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-    ) -> Result<UnwindTable<'a, 'ctx, R, A>> {
-        UnwindTable::new(section, bases, ctx, self)
-    }
-
-    /// Find the frame unwind information for the given address.
-    ///
-    /// If found, the unwind information is returned along with the reset
-    /// context in the form `Ok((unwind_info, context))`. If not found,
-    /// `Err(gimli::Error::NoUnwindInfoForAddress)` is returned. If parsing or
-    /// CFI evaluation fails, the error is returned.
-    pub fn unwind_info_for_address<'ctx, Section: UnwindSection<R>, A: UnwindContextStorage<R>>(
-        &self,
-        section: &Section,
-        bases: &BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-        address: u64,
-    ) -> Result<&'ctx UnwindTableRow<R, A>> {
-        let mut table = self.rows(section, bases, ctx)?;
-        while let Some(row) = table.next_row()? {
-            if row.contains(address) {
-                return Ok(table.ctx.row());
-            }
-        }
-        Err(Error::NoUnwindInfoForAddress)
-    }
-}
-
-/// # Signal Safe Methods
-///
-/// These methods are guaranteed not to allocate, acquire locks, or perform any
-/// other signal-unsafe operations.
-#[allow(clippy::len_without_is_empty)]
-impl<R: Reader> FrameDescriptionEntry<R> {
-    /// Get the offset of this entry from the start of its containing section.
-    pub fn offset(&self) -> R::Offset {
-        self.offset
-    }
-
-    /// Get a reference to this FDE's CIE.
-    pub fn cie(&self) -> &CommonInformationEntry<R> {
-        &self.cie
-    }
-
-    /// > A constant that gives the number of bytes of the header and
-    /// > instruction stream for this function, not including the length field
-    /// > itself (see Section 7.2.2). The size of the length field plus the value
-    /// > of length must be an integral multiple of the address size.
-    pub fn entry_len(&self) -> R::Offset {
-        self.length
-    }
-
-    /// Iterate over this FDE's instructions.
-    ///
-    /// Will not include the CIE's initial instructions, if you want those do
-    /// `fde.cie().instructions()` first.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn instructions<'a, Section>(
-        &self,
-        section: &'a Section,
-        bases: &'a BaseAddresses,
-    ) -> CallFrameInstructionIter<'a, R>
-    where
-        Section: UnwindSection<R>,
-    {
-        CallFrameInstructionIter {
-            input: self.instructions.clone(),
-            address_encoding: self.cie.augmentation().and_then(|a| a.fde_address_encoding),
-            parameters: PointerEncodingParameters {
-                bases: &bases.eh_frame,
-                func_base: None,
-                address_size: self.cie.address_size,
-                section: section.section(),
-            },
-        }
-    }
-
-    /// The first address for which this entry has unwind information for.
-    pub fn initial_address(&self) -> u64 {
-        self.initial_address
-    }
-
-    /// The number of bytes of instructions that this entry has unwind
-    /// information for.
-    pub fn len(&self) -> u64 {
-        self.address_range
-    }
-
-    /// Return `true` if the given address is within this FDE, `false`
-    /// otherwise.
-    ///
-    /// This is equivalent to `entry.initial_address() <= address <
-    /// entry.initial_address() + entry.len()`.
-    pub fn contains(&self, address: u64) -> bool {
-        let start = self.initial_address();
-        let end = start + self.len();
-        start <= address && address < end
-    }
-
-    /// The address of this FDE's language-specific data area (LSDA), if it has
-    /// any.
-    pub fn lsda(&self) -> Option<Pointer> {
-        self.augmentation.as_ref().and_then(|a| a.lsda)
-    }
-
-    /// Return true if this FDE's function is a trampoline for a signal handler.
-    #[inline]
-    pub fn is_signal_trampoline(&self) -> bool {
-        self.cie().is_signal_trampoline()
-    }
-
-    /// Return the address of the FDE's function's personality routine
-    /// handler. The personality routine does language-specific clean up when
-    /// unwinding the stack frames with the intent to not run them again.
-    #[inline]
-    pub fn personality(&self) -> Option<Pointer> {
-        self.cie().personality()
-    }
-}
-
-/// Specification of what storage should be used for [`UnwindContext`].
-///
-#[cfg_attr(
-    feature = "read",
-    doc = "
-Normally you would only need to use [`StoreOnHeap`], which places the stack
-on the heap using [`Vec`]. This is the default storage type parameter for [`UnwindContext`].
-"
-)]
-///
-/// If you need to avoid [`UnwindContext`] from allocating memory, e.g. for signal safety,
-/// you can provide you own storage specification:
-/// ```rust,no_run
-/// # use gimli::*;
-/// #
-/// # fn foo<'a>(some_fde: gimli::FrameDescriptionEntry<gimli::EndianSlice<'a, gimli::LittleEndian>>)
-/// #            -> gimli::Result<()> {
-/// # let eh_frame: gimli::EhFrame<_> = unreachable!();
-/// # let bases = unimplemented!();
-/// #
-/// struct StoreOnStack;
-///
-/// impl<R: Reader> UnwindContextStorage<R> for StoreOnStack {
-///     type Rules = [(Register, RegisterRule<R>); 192];
-///     type Stack = [UnwindTableRow<R, Self>; 4];
-/// }
-///
-/// let mut ctx = UnwindContext::<_, StoreOnStack>::new_in();
-///
-/// // Initialize the context by evaluating the CIE's initial instruction program,
-/// // and generate the unwind table.
-/// let mut table = some_fde.rows(&eh_frame, &bases, &mut ctx)?;
-/// while let Some(row) = table.next_row()? {
-///     // Do stuff with each row...
-/// #   let _ = row;
-/// }
-/// # unreachable!()
-/// # }
-/// ```
-pub trait UnwindContextStorage<R: Reader>: Sized {
-    /// The storage used for register rules in a unwind table row.
-    ///
-    /// Note that this is nested within the stack.
-    type Rules: ArrayLike<Item = (Register, RegisterRule<R>)>;
-
-    /// The storage used for unwind table row stack.
-    type Stack: ArrayLike<Item = UnwindTableRow<R, Self>>;
-}
-
-#[cfg(feature = "read")]
-const MAX_RULES: usize = 192;
-
-#[cfg(feature = "read")]
-impl<R: Reader> UnwindContextStorage<R> for StoreOnHeap {
-    type Rules = [(Register, RegisterRule<R>); MAX_RULES];
-    type Stack = Vec<UnwindTableRow<R, Self>>;
-}
-
-/// Common context needed when evaluating the call frame unwinding information.
-///
-/// This structure can be large so it is advisable to place it on the heap.
-/// To avoid re-allocating the context multiple times when evaluating multiple
-/// CFI programs, it can be reused.
-///
-/// ```
-/// use gimli::{UnwindContext, UnwindTable};
-///
-/// # fn foo<'a>(some_fde: gimli::FrameDescriptionEntry<gimli::EndianSlice<'a, gimli::LittleEndian>>)
-/// #            -> gimli::Result<()> {
-/// # let eh_frame: gimli::EhFrame<_> = unreachable!();
-/// # let bases = unimplemented!();
-/// // An uninitialized context.
-/// let mut ctx = Box::new(UnwindContext::new());
-///
-/// // Initialize the context by evaluating the CIE's initial instruction program,
-/// // and generate the unwind table.
-/// let mut table = some_fde.rows(&eh_frame, &bases, &mut ctx)?;
-/// while let Some(row) = table.next_row()? {
-///     // Do stuff with each row...
-/// #   let _ = row;
-/// }
-/// # unreachable!()
-/// # }
-/// ```
-#[derive(Clone, PartialEq, Eq)]
-pub struct UnwindContext<R: Reader, A: UnwindContextStorage<R> = StoreOnHeap> {
-    // Stack of rows. The last row is the row currently being built by the
-    // program. There is always at least one row. The vast majority of CFI
-    // programs will only ever have one row on the stack.
-    stack: ArrayVec<A::Stack>,
-
-    // If we are evaluating an FDE's instructions, then `is_initialized` will be
-    // `true`. If `initial_rule` is `Some`, then the initial register rules are either
-    // all default rules or have just 1 non-default rule, stored in `initial_rule`.
-    // If it's `None`, `stack[0]` will contain the initial register rules
-    // described by the CIE's initial instructions. These rules are used by
-    // `DW_CFA_restore`. Otherwise, when we are currently evaluating a CIE's
-    // initial instructions, `is_initialized` will be `false` and initial rules
-    // cannot be read.
-    initial_rule: Option<(Register, RegisterRule<R>)>,
-
-    is_initialized: bool,
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Debug for UnwindContext<R, S> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_struct("UnwindContext")
-            .field("stack", &self.stack)
-            .field("initial_rule", &self.initial_rule)
-            .field("is_initialized", &self.is_initialized)
-            .finish()
-    }
-}
-
-impl<R: Reader, A: UnwindContextStorage<R>> Default for UnwindContext<R, A> {
-    fn default() -> Self {
-        Self::new_in()
-    }
-}
-
-#[cfg(feature = "read")]
-impl<R: Reader> UnwindContext<R> {
-    /// Construct a new call frame unwinding context.
-    pub fn new() -> Self {
-        Self::new_in()
-    }
-}
-
-/// # Signal Safe Methods
-///
-/// These methods are guaranteed not to allocate, acquire locks, or perform any
-/// other signal-unsafe operations, if an non-allocating storage is used.
-impl<R: Reader, A: UnwindContextStorage<R>> UnwindContext<R, A> {
-    /// Construct a new call frame unwinding context.
-    pub fn new_in() -> Self {
-        let mut ctx = UnwindContext {
-            stack: Default::default(),
-            initial_rule: None,
-            is_initialized: false,
-        };
-        ctx.reset();
-        ctx
-    }
-
-    /// Run the CIE's initial instructions and initialize this `UnwindContext`.
-    fn initialize<Section: UnwindSection<R>>(
-        &mut self,
-        section: &Section,
-        bases: &BaseAddresses,
-        cie: &CommonInformationEntry<R>,
-    ) -> Result<()> {
-        if self.is_initialized {
-            self.reset();
-        }
-
-        let mut table = UnwindTable::new_for_cie(section, bases, self, cie);
-        while table.next_row()?.is_some() {}
-
-        self.save_initial_rules()?;
-        Ok(())
-    }
-
-    fn reset(&mut self) {
-        self.stack.clear();
-        self.stack.try_push(UnwindTableRow::default()).unwrap();
-        debug_assert!(self.stack[0].is_default());
-        self.initial_rule = None;
-        self.is_initialized = false;
-    }
-
-    fn row(&self) -> &UnwindTableRow<R, A> {
-        self.stack.last().unwrap()
-    }
-
-    fn row_mut(&mut self) -> &mut UnwindTableRow<R, A> {
-        self.stack.last_mut().unwrap()
-    }
-
-    fn save_initial_rules(&mut self) -> Result<()> {
-        debug_assert!(!self.is_initialized);
-        self.initial_rule = match *self.stack.last().unwrap().registers.rules {
-            // All rules are default (undefined). In this case just synthesize
-            // an undefined rule.
-            [] => Some((Register(0), RegisterRule::Undefined)),
-            [ref rule] => Some(rule.clone()),
-            _ => {
-                let rules = self.stack.last().unwrap().clone();
-                self.stack
-                    .try_insert(0, rules)
-                    .map_err(|_| Error::StackFull)?;
-                None
-            }
-        };
-        self.is_initialized = true;
-        Ok(())
-    }
-
-    fn start_address(&self) -> u64 {
-        self.row().start_address
-    }
-
-    fn set_start_address(&mut self, start_address: u64) {
-        let row = self.row_mut();
-        row.start_address = start_address;
-    }
-
-    fn set_register_rule(&mut self, register: Register, rule: RegisterRule<R>) -> Result<()> {
-        let row = self.row_mut();
-        row.registers.set(register, rule)
-    }
-
-    /// Returns `None` if we have not completed evaluation of a CIE's initial
-    /// instructions.
-    fn get_initial_rule(&self, register: Register) -> Option<RegisterRule<R>> {
-        if !self.is_initialized {
-            return None;
-        }
-        Some(match self.initial_rule {
-            None => self.stack[0].registers.get(register),
-            Some((r, ref rule)) if r == register => rule.clone(),
-            _ => RegisterRule::Undefined,
-        })
-    }
-
-    fn set_cfa(&mut self, cfa: CfaRule<R>) {
-        self.row_mut().cfa = cfa;
-    }
-
-    fn cfa_mut(&mut self) -> &mut CfaRule<R> {
-        &mut self.row_mut().cfa
-    }
-
-    fn push_row(&mut self) -> Result<()> {
-        let new_row = self.row().clone();
-        self.stack.try_push(new_row).map_err(|_| Error::StackFull)
-    }
-
-    fn pop_row(&mut self) -> Result<()> {
-        let min_size = if self.is_initialized && self.initial_rule.is_none() {
-            2
-        } else {
-            1
-        };
-        if self.stack.len() <= min_size {
-            return Err(Error::PopWithEmptyStack);
-        }
-        self.stack.pop().unwrap();
-        Ok(())
-    }
-}
-
-/// The `UnwindTable` iteratively evaluates a `FrameDescriptionEntry`'s
-/// `CallFrameInstruction` program, yielding the each row one at a time.
-///
-/// > 6.4.1 Structure of Call Frame Information
-/// >
-/// > DWARF supports virtual unwinding by defining an architecture independent
-/// > basis for recording how procedures save and restore registers during their
-/// > lifetimes. This basis must be augmented on some machines with specific
-/// > information that is defined by an architecture specific ABI authoring
-/// > committee, a hardware vendor, or a compiler producer. The body defining a
-/// > specific augmentation is referred to below as the “augmenter.”
-/// >
-/// > Abstractly, this mechanism describes a very large table that has the
-/// > following structure:
-/// >
-/// > <table>
-/// >   <tr>
-/// >     <th>LOC</th><th>CFA</th><th>R0</th><th>R1</th><td>...</td><th>RN</th>
-/// >   </tr>
-/// >   <tr>
-/// >     <th>L0</th> <td></td>   <td></td>  <td></td>  <td></td>   <td></td>
-/// >   </tr>
-/// >   <tr>
-/// >     <th>L1</th> <td></td>   <td></td>  <td></td>  <td></td>   <td></td>
-/// >   </tr>
-/// >   <tr>
-/// >     <td>...</td><td></td>   <td></td>  <td></td>  <td></td>   <td></td>
-/// >   </tr>
-/// >   <tr>
-/// >     <th>LN</th> <td></td>   <td></td>  <td></td>  <td></td>   <td></td>
-/// >   </tr>
-/// > </table>
-/// >
-/// > The first column indicates an address for every location that contains code
-/// > in a program. (In shared objects, this is an object-relative offset.) The
-/// > remaining columns contain virtual unwinding rules that are associated with
-/// > the indicated location.
-/// >
-/// > The CFA column defines the rule which computes the Canonical Frame Address
-/// > value; it may be either a register and a signed offset that are added
-/// > together, or a DWARF expression that is evaluated.
-/// >
-/// > The remaining columns are labeled by register number. This includes some
-/// > registers that have special designation on some architectures such as the PC
-/// > and the stack pointer register. (The actual mapping of registers for a
-/// > particular architecture is defined by the augmenter.) The register columns
-/// > contain rules that describe whether a given register has been saved and the
-/// > rule to find the value for the register in the previous frame.
-/// >
-/// > ...
-/// >
-/// > This table would be extremely large if actually constructed as
-/// > described. Most of the entries at any point in the table are identical to
-/// > the ones above them. The whole table can be represented quite compactly by
-/// > recording just the differences starting at the beginning address of each
-/// > subroutine in the program.
-#[derive(Debug)]
-pub struct UnwindTable<'a, 'ctx, R: Reader, A: UnwindContextStorage<R> = StoreOnHeap> {
-    code_alignment_factor: Wrapping<u64>,
-    data_alignment_factor: Wrapping<i64>,
-    next_start_address: u64,
-    last_end_address: u64,
-    returned_last_row: bool,
-    current_row_valid: bool,
-    instructions: CallFrameInstructionIter<'a, R>,
-    ctx: &'ctx mut UnwindContext<R, A>,
-}
-
-/// # Signal Safe Methods
-///
-/// These methods are guaranteed not to allocate, acquire locks, or perform any
-/// other signal-unsafe operations.
-impl<'a, 'ctx, R: Reader, A: UnwindContextStorage<R>> UnwindTable<'a, 'ctx, R, A> {
-    /// Construct a new `UnwindTable` for the given
-    /// `FrameDescriptionEntry`'s CFI unwinding program.
-    pub fn new<Section: UnwindSection<R>>(
-        section: &'a Section,
-        bases: &'a BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-        fde: &FrameDescriptionEntry<R>,
-    ) -> Result<Self> {
-        ctx.initialize(section, bases, fde.cie())?;
-        Ok(Self::new_for_fde(section, bases, ctx, fde))
-    }
-
-    fn new_for_fde<Section: UnwindSection<R>>(
-        section: &'a Section,
-        bases: &'a BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-        fde: &FrameDescriptionEntry<R>,
-    ) -> Self {
-        assert!(ctx.stack.len() >= 1);
-        UnwindTable {
-            code_alignment_factor: Wrapping(fde.cie().code_alignment_factor()),
-            data_alignment_factor: Wrapping(fde.cie().data_alignment_factor()),
-            next_start_address: fde.initial_address(),
-            last_end_address: fde.initial_address().wrapping_add(fde.len()),
-            returned_last_row: false,
-            current_row_valid: false,
-            instructions: fde.instructions(section, bases),
-            ctx,
-        }
-    }
-
-    fn new_for_cie<Section: UnwindSection<R>>(
-        section: &'a Section,
-        bases: &'a BaseAddresses,
-        ctx: &'ctx mut UnwindContext<R, A>,
-        cie: &CommonInformationEntry<R>,
-    ) -> Self {
-        assert!(ctx.stack.len() >= 1);
-        UnwindTable {
-            code_alignment_factor: Wrapping(cie.code_alignment_factor()),
-            data_alignment_factor: Wrapping(cie.data_alignment_factor()),
-            next_start_address: 0,
-            last_end_address: 0,
-            returned_last_row: false,
-            current_row_valid: false,
-            instructions: cie.instructions(section, bases),
-            ctx,
-        }
-    }
-
-    /// Evaluate call frame instructions until the next row of the table is
-    /// completed, and return it.
-    ///
-    /// Unfortunately, this cannot be used with `FallibleIterator` because of
-    /// the restricted lifetime of the yielded item.
-    pub fn next_row(&mut self) -> Result<Option<&UnwindTableRow<R, A>>> {
-        assert!(self.ctx.stack.len() >= 1);
-        self.ctx.set_start_address(self.next_start_address);
-        self.current_row_valid = false;
-
-        loop {
-            match self.instructions.next() {
-                Err(e) => return Err(e),
-
-                Ok(None) => {
-                    if self.returned_last_row {
-                        return Ok(None);
-                    }
-
-                    let row = self.ctx.row_mut();
-                    row.end_address = self.last_end_address;
-
-                    self.returned_last_row = true;
-                    self.current_row_valid = true;
-                    return Ok(Some(row));
-                }
-
-                Ok(Some(instruction)) => {
-                    if self.evaluate(instruction)? {
-                        self.current_row_valid = true;
-                        return Ok(Some(self.ctx.row()));
-                    }
-                }
-            };
-        }
-    }
-
-    /// Returns the current row with the lifetime of the context.
-    pub fn into_current_row(self) -> Option<&'ctx UnwindTableRow<R, A>> {
-        if self.current_row_valid {
-            Some(self.ctx.row())
-        } else {
-            None
-        }
-    }
-
-    /// Evaluate one call frame instruction. Return `Ok(true)` if the row is
-    /// complete, `Ok(false)` otherwise.
-    fn evaluate(&mut self, instruction: CallFrameInstruction<R>) -> Result<bool> {
-        use crate::CallFrameInstruction::*;
-
-        match instruction {
-            // Instructions that complete the current row and advance the
-            // address for the next row.
-            SetLoc { address } => {
-                if address < self.ctx.start_address() {
-                    return Err(Error::InvalidAddressRange);
-                }
-
-                self.next_start_address = address;
-                self.ctx.row_mut().end_address = self.next_start_address;
-                return Ok(true);
-            }
-            AdvanceLoc { delta } => {
-                let delta = Wrapping(u64::from(delta)) * self.code_alignment_factor;
-                self.next_start_address = (Wrapping(self.ctx.start_address()) + delta).0;
-                self.ctx.row_mut().end_address = self.next_start_address;
-                return Ok(true);
-            }
-
-            // Instructions that modify the CFA.
-            DefCfa { register, offset } => {
-                self.ctx.set_cfa(CfaRule::RegisterAndOffset {
-                    register,
-                    offset: offset as i64,
-                });
-            }
-            DefCfaSf {
-                register,
-                factored_offset,
-            } => {
-                let data_align = self.data_alignment_factor;
-                self.ctx.set_cfa(CfaRule::RegisterAndOffset {
-                    register,
-                    offset: (Wrapping(factored_offset) * data_align).0,
-                });
-            }
-            DefCfaRegister { register } => {
-                if let CfaRule::RegisterAndOffset {
-                    register: ref mut reg,
-                    ..
-                } = *self.ctx.cfa_mut()
-                {
-                    *reg = register;
-                } else {
-                    return Err(Error::CfiInstructionInInvalidContext);
-                }
-            }
-            DefCfaOffset { offset } => {
-                if let CfaRule::RegisterAndOffset {
-                    offset: ref mut off,
-                    ..
-                } = *self.ctx.cfa_mut()
-                {
-                    *off = offset as i64;
-                } else {
-                    return Err(Error::CfiInstructionInInvalidContext);
-                }
-            }
-            DefCfaOffsetSf { factored_offset } => {
-                if let CfaRule::RegisterAndOffset {
-                    offset: ref mut off,
-                    ..
-                } = *self.ctx.cfa_mut()
-                {
-                    let data_align = self.data_alignment_factor;
-                    *off = (Wrapping(factored_offset) * data_align).0;
-                } else {
-                    return Err(Error::CfiInstructionInInvalidContext);
-                }
-            }
-            DefCfaExpression { expression } => {
-                self.ctx.set_cfa(CfaRule::Expression(expression));
-            }
-
-            // Instructions that define register rules.
-            Undefined { register } => {
-                self.ctx
-                    .set_register_rule(register, RegisterRule::Undefined)?;
-            }
-            SameValue { register } => {
-                self.ctx
-                    .set_register_rule(register, RegisterRule::SameValue)?;
-            }
-            Offset {
-                register,
-                factored_offset,
-            } => {
-                let offset = Wrapping(factored_offset as i64) * self.data_alignment_factor;
-                self.ctx
-                    .set_register_rule(register, RegisterRule::Offset(offset.0))?;
-            }
-            OffsetExtendedSf {
-                register,
-                factored_offset,
-            } => {
-                let offset = Wrapping(factored_offset) * self.data_alignment_factor;
-                self.ctx
-                    .set_register_rule(register, RegisterRule::Offset(offset.0))?;
-            }
-            ValOffset {
-                register,
-                factored_offset,
-            } => {
-                let offset = Wrapping(factored_offset as i64) * self.data_alignment_factor;
-                self.ctx
-                    .set_register_rule(register, RegisterRule::ValOffset(offset.0))?;
-            }
-            ValOffsetSf {
-                register,
-                factored_offset,
-            } => {
-                let offset = Wrapping(factored_offset) * self.data_alignment_factor;
-                self.ctx
-                    .set_register_rule(register, RegisterRule::ValOffset(offset.0))?;
-            }
-            Register {
-                dest_register,
-                src_register,
-            } => {
-                self.ctx
-                    .set_register_rule(dest_register, RegisterRule::Register(src_register))?;
-            }
-            Expression {
-                register,
-                expression,
-            } => {
-                let expression = RegisterRule::Expression(expression);
-                self.ctx.set_register_rule(register, expression)?;
-            }
-            ValExpression {
-                register,
-                expression,
-            } => {
-                let expression = RegisterRule::ValExpression(expression);
-                self.ctx.set_register_rule(register, expression)?;
-            }
-            Restore { register } => {
-                let initial_rule = if let Some(rule) = self.ctx.get_initial_rule(register) {
-                    rule
-                } else {
-                    // Can't restore the initial rule when we are
-                    // evaluating the initial rules!
-                    return Err(Error::CfiInstructionInInvalidContext);
-                };
-
-                self.ctx.set_register_rule(register, initial_rule)?;
-            }
-
-            // Row push and pop instructions.
-            RememberState => {
-                self.ctx.push_row()?;
-            }
-            RestoreState => {
-                // Pop state while preserving current location.
-                let start_address = self.ctx.start_address();
-                self.ctx.pop_row()?;
-                self.ctx.set_start_address(start_address);
-            }
-
-            // GNU Extension. Save the size somewhere so the unwinder can use
-            // it when restoring IP
-            ArgsSize { size } => {
-                self.ctx.row_mut().saved_args_size = size;
-            }
-
-            // No operation.
-            Nop => {}
-        };
-
-        Ok(false)
-    }
-}
-
-// We tend to have very few register rules: usually only a couple. Even if we
-// have a rule for every register, on x86-64 with SSE and everything we're
-// talking about ~100 rules. So rather than keeping the rules in a hash map, or
-// a vector indexed by register number (which would lead to filling lots of
-// empty entries), we store them as a vec of (register number, register rule)
-// pairs.
-//
-// Additionally, because every register's default rule is implicitly
-// `RegisterRule::Undefined`, we never store a register's rule in this vec if it
-// is undefined and save a little bit more space and do a little fewer
-// comparisons that way.
-//
-// The maximum number of rules preallocated by libunwind is 97 for AArch64, 128
-// for ARM, and even 188 for MIPS. It is extremely unlikely to encounter this
-// many register rules in practice.
-//
-// See:
-// - https://github.com/libunwind/libunwind/blob/11fd461095ea98f4b3e3a361f5a8a558519363fa/include/tdep-x86_64/dwarf-config.h#L36
-// - https://github.com/libunwind/libunwind/blob/11fd461095ea98f4b3e3a361f5a8a558519363fa/include/tdep-aarch64/dwarf-config.h#L32
-// - https://github.com/libunwind/libunwind/blob/11fd461095ea98f4b3e3a361f5a8a558519363fa/include/tdep-arm/dwarf-config.h#L31
-// - https://github.com/libunwind/libunwind/blob/11fd461095ea98f4b3e3a361f5a8a558519363fa/include/tdep-mips/dwarf-config.h#L31
-struct RegisterRuleMap<R: Reader, S: UnwindContextStorage<R> = StoreOnHeap> {
-    rules: ArrayVec<S::Rules>,
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Debug for RegisterRuleMap<R, S> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_struct("RegisterRuleMap")
-            .field("rules", &self.rules)
-            .finish()
-    }
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Clone for RegisterRuleMap<R, S> {
-    fn clone(&self) -> Self {
-        Self {
-            rules: self.rules.clone(),
-        }
-    }
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Default for RegisterRuleMap<R, S> {
-    fn default() -> Self {
-        RegisterRuleMap {
-            rules: Default::default(),
-        }
-    }
-}
-
-/// # Signal Safe Methods
-///
-/// These methods are guaranteed not to allocate, acquire locks, or perform any
-/// other signal-unsafe operations.
-impl<R: Reader, S: UnwindContextStorage<R>> RegisterRuleMap<R, S> {
-    fn is_default(&self) -> bool {
-        self.rules.is_empty()
-    }
-
-    fn get(&self, register: Register) -> RegisterRule<R> {
-        self.rules
-            .iter()
-            .find(|rule| rule.0 == register)
-            .map(|r| {
-                debug_assert!(r.1.is_defined());
-                r.1.clone()
-            })
-            .unwrap_or(RegisterRule::Undefined)
-    }
-
-    fn set(&mut self, register: Register, rule: RegisterRule<R>) -> Result<()> {
-        if !rule.is_defined() {
-            let idx = self
-                .rules
-                .iter()
-                .enumerate()
-                .find(|&(_, r)| r.0 == register)
-                .map(|(i, _)| i);
-            if let Some(idx) = idx {
-                self.rules.swap_remove(idx);
-            }
-            return Ok(());
-        }
-
-        for &mut (reg, ref mut old_rule) in &mut *self.rules {
-            debug_assert!(old_rule.is_defined());
-            if reg == register {
-                *old_rule = rule;
-                return Ok(());
-            }
-        }
-
-        self.rules
-            .try_push((register, rule))
-            .map_err(|_| Error::TooManyRegisterRules)
-    }
-
-    fn iter(&self) -> RegisterRuleIter<R> {
-        RegisterRuleIter(self.rules.iter())
-    }
-}
-
-impl<'a, R, S: UnwindContextStorage<R>> FromIterator<&'a (Register, RegisterRule<R>)>
-    for RegisterRuleMap<R, S>
-where
-    R: 'a + Reader,
-{
-    fn from_iter<T>(iter: T) -> Self
-    where
-        T: IntoIterator<Item = &'a (Register, RegisterRule<R>)>,
-    {
-        let iter = iter.into_iter();
-        let mut rules = RegisterRuleMap::default();
-        for &(reg, ref rule) in iter.filter(|r| r.1.is_defined()) {
-            rules.set(reg, rule.clone()).expect(
-                "This is only used in tests, impl isn't exposed publicly.
-                         If you trip this, fix your test",
-            );
-        }
-        rules
-    }
-}
-
-impl<R, S: UnwindContextStorage<R>> PartialEq for RegisterRuleMap<R, S>
-where
-    R: Reader + PartialEq,
-{
-    fn eq(&self, rhs: &Self) -> bool {
-        for &(reg, ref rule) in &*self.rules {
-            debug_assert!(rule.is_defined());
-            if *rule != rhs.get(reg) {
-                return false;
-            }
-        }
-
-        for &(reg, ref rhs_rule) in &*rhs.rules {
-            debug_assert!(rhs_rule.is_defined());
-            if *rhs_rule != self.get(reg) {
-                return false;
-            }
-        }
-
-        true
-    }
-}
-
-impl<R, S: UnwindContextStorage<R>> Eq for RegisterRuleMap<R, S> where R: Reader + Eq {}
-
-/// An unordered iterator for register rules.
-#[derive(Debug, Clone)]
-pub struct RegisterRuleIter<'iter, R>(::core::slice::Iter<'iter, (Register, RegisterRule<R>)>)
-where
-    R: Reader;
-
-impl<'iter, R: Reader> Iterator for RegisterRuleIter<'iter, R> {
-    type Item = &'iter (Register, RegisterRule<R>);
-
-    fn next(&mut self) -> Option<Self::Item> {
-        self.0.next()
-    }
-}
-
-/// A row in the virtual unwind table that describes how to find the values of
-/// the registers in the *previous* frame for a range of PC addresses.
-#[derive(PartialEq, Eq)]
-pub struct UnwindTableRow<R: Reader, S: UnwindContextStorage<R> = StoreOnHeap> {
-    start_address: u64,
-    end_address: u64,
-    saved_args_size: u64,
-    cfa: CfaRule<R>,
-    registers: RegisterRuleMap<R, S>,
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Debug for UnwindTableRow<R, S> {
-    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-        f.debug_struct("UnwindTableRow")
-            .field("start_address", &self.start_address)
-            .field("end_address", &self.end_address)
-            .field("saved_args_size", &self.saved_args_size)
-            .field("cfa", &self.cfa)
-            .field("registers", &self.registers)
-            .finish()
-    }
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Clone for UnwindTableRow<R, S> {
-    fn clone(&self) -> Self {
-        Self {
-            start_address: self.start_address,
-            end_address: self.end_address,
-            saved_args_size: self.saved_args_size,
-            cfa: self.cfa.clone(),
-            registers: self.registers.clone(),
-        }
-    }
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> Default for UnwindTableRow<R, S> {
-    fn default() -> Self {
-        UnwindTableRow {
-            start_address: 0,
-            end_address: 0,
-            saved_args_size: 0,
-            cfa: Default::default(),
-            registers: Default::default(),
-        }
-    }
-}
-
-impl<R: Reader, S: UnwindContextStorage<R>> UnwindTableRow<R, S> {
-    fn is_default(&self) -> bool {
-        self.start_address == 0
-            && self.end_address == 0
-            && self.cfa.is_default()
-            && self.registers.is_default()
-    }
-
-    /// Get the starting PC address that this row applies to.
-    pub fn start_address(&self) -> u64 {
-        self.start_address
-    }
-
-    /// Get the end PC address where this row's register rules become
-    /// unapplicable.
-    ///
-    /// In other words, this row describes how to recover the last frame's
-    /// registers for all PCs where `row.start_address() <= PC <
-    /// row.end_address()`. This row does NOT describe how to recover registers
-    /// when `PC == row.end_address()`.
-    pub fn end_address(&self) -> u64 {
-        self.end_address
-    }
-
-    /// Return `true` if the given `address` is within this row's address range,
-    /// `false` otherwise.
-    pub fn contains(&self, address: u64) -> bool {
-        self.start_address <= address && address < self.end_address
-    }
-
-    /// Returns the amount of args currently on the stack.
-    ///
-    /// When unwinding, if the personality function requested a change in IP,
-    /// the SP needs to be adjusted by saved_args_size.
-    pub fn saved_args_size(&self) -> u64 {
-        self.saved_args_size
-    }
-
-    /// Get the canonical frame address (CFA) recovery rule for this row.
-    pub fn cfa(&self) -> &CfaRule<R> {
-        &self.cfa
-    }
-
-    /// Get the register recovery rule for the given register number.
-    ///
-    /// The register number mapping is architecture dependent. For example, in
-    /// the x86-64 ABI the register number mapping is defined in Figure 3.36:
-    ///
-    /// > Figure 3.36: DWARF Register Number Mapping
-    /// >
-    /// > <table>
-    /// >   <tr><th>Register Name</th>                    <th>Number</th>  <th>Abbreviation</th></tr>
-    /// >   <tr><td>General Purpose Register RAX</td>     <td>0</td>       <td>%rax</td></tr>
-    /// >   <tr><td>General Purpose Register RDX</td>     <td>1</td>       <td>%rdx</td></tr>
-    /// >   <tr><td>General Purpose Register RCX</td>     <td>2</td>       <td>%rcx</td></tr>
-    /// >   <tr><td>General Purpose Register RBX</td>     <td>3</td>       <td>%rbx</td></tr>
-    /// >   <tr><td>General Purpose Register RSI</td>     <td>4</td>       <td>%rsi</td></tr>
-    /// >   <tr><td>General Purpose Register RDI</td>     <td>5</td>       <td>%rdi</td></tr>
-    /// >   <tr><td>General Purpose Register RBP</td>     <td>6</td>       <td>%rbp</td></tr>
-    /// >   <tr><td>Stack Pointer Register RSP</td>       <td>7</td>       <td>%rsp</td></tr>
-    /// >   <tr><td>Extended Integer Registers 8-15</td>  <td>8-15</td>    <td>%r8-%r15</td></tr>
-    /// >   <tr><td>Return Address RA</td>                <td>16</td>      <td></td></tr>
-    /// >   <tr><td>Vector Registers 0–7</td>             <td>17-24</td>   <td>%xmm0–%xmm7</td></tr>
-    /// >   <tr><td>Extended Vector Registers 8–15</td>   <td>25-32</td>   <td>%xmm8–%xmm15</td></tr>
-    /// >   <tr><td>Floating Point Registers 0–7</td>     <td>33-40</td>   <td>%st0–%st7</td></tr>
-    /// >   <tr><td>MMX Registers 0–7</td>                <td>41-48</td>   <td>%mm0–%mm7</td></tr>
-    /// >   <tr><td>Flag Register</td>                    <td>49</td>      <td>%rFLAGS</td></tr>
-    /// >   <tr><td>Segment Register ES</td>              <td>50</td>      <td>%es</td></tr>
-    /// >   <tr><td>Segment Register CS</td>              <td>51</td>      <td>%cs</td></tr>
-    /// >   <tr><td>Segment Register SS</td>              <td>52</td>      <td>%ss</td></tr>
-    /// >   <tr><td>Segment Register DS</td>              <td>53</td>      <td>%ds</td></tr>
-    /// >   <tr><td>Segment Register FS</td>              <td>54</td>      <td>%fs</td></tr>
-    /// >   <tr><td>Segment Register GS</td>              <td>55</td>      <td>%gs</td></tr>
-    /// >   <tr><td>Reserved</td>                         <td>56-57</td>   <td></td></tr>
-    /// >   <tr><td>FS Base address</td>                  <td>58</td>      <td>%fs.base</td></tr>
-    /// >   <tr><td>GS Base address</td>                  <td>59</td>      <td>%gs.base</td></tr>
-    /// >   <tr><td>Reserved</td>                         <td>60-61</td>   <td></td></tr>
-    /// >   <tr><td>Task Register</td>                    <td>62</td>      <td>%tr</td></tr>
-    /// >   <tr><td>LDT Register</td>                     <td>63</td>      <td>%ldtr</td></tr>
-    /// >   <tr><td>128-bit Media Control and Status</td> <td>64</td>      <td>%mxcsr</td></tr>
-    /// >   <tr><td>x87 Control Word</td>                 <td>65</td>      <td>%fcw</td></tr>
-    /// >   <tr><td>x87 Status Word</td>                  <td>66</td>      <td>%fsw</td></tr>
-    /// >   <tr><td>Upper Vector Registers 16–31</td>     <td>67-82</td>   <td>%xmm16–%xmm31</td></tr>
-    /// >   <tr><td>Reserved</td>                         <td>83-117</td>  <td></td></tr>
-    /// >   <tr><td>Vector Mask Registers 0–7</td>        <td>118-125</td> <td>%k0–%k7</td></tr>
-    /// >   <tr><td>Reserved</td>                         <td>126-129</td> <td></td></tr>
-    /// > </table>
-    pub fn register(&self, register: Register) -> RegisterRule<R> {
-        self.registers.get(register)
-    }
-
-    /// Iterate over all defined register `(number, rule)` pairs.
-    ///
-    /// The rules are not iterated in any guaranteed order. Any register that
-    /// does not make an appearance in the iterator implicitly has the rule
-    /// `RegisterRule::Undefined`.
-    ///
-    /// ```
-    /// # use gimli::{EndianSlice, LittleEndian, UnwindTableRow};
-    /// # fn foo<'input>(unwind_table_row: UnwindTableRow<EndianSlice<'input, LittleEndian>>) {
-    /// for &(register, ref rule) in unwind_table_row.registers() {
-    ///     // ...
-    ///     # drop(register); drop(rule);
-    /// }
-    /// # }
-    /// ```
-    pub fn registers(&self) -> RegisterRuleIter<R> {
-        self.registers.iter()
-    }
-}
-
-/// The canonical frame address (CFA) recovery rules.
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub enum CfaRule<R: Reader> {
-    /// The CFA is given offset from the given register's value.
-    RegisterAndOffset {
-        /// The register containing the base value.
-        register: Register,
-        /// The offset from the register's base value.
-        offset: i64,
-    },
-    /// The CFA is obtained by evaluating this `Reader` as a DWARF expression
-    /// program.
-    Expression(Expression<R>),
-}
-
-impl<R: Reader> Default for CfaRule<R> {
-    fn default() -> Self {
-        CfaRule::RegisterAndOffset {
-            register: Register(0),
-            offset: 0,
-        }
-    }
-}
-
-impl<R: Reader> CfaRule<R> {
-    fn is_default(&self) -> bool {
-        match *self {
-            CfaRule::RegisterAndOffset { register, offset } => {
-                register == Register(0) && offset == 0
-            }
-            _ => false,
-        }
-    }
-}
-
-/// An entry in the abstract CFI table that describes how to find the value of a
-/// register.
-///
-/// "The register columns contain rules that describe whether a given register
-/// has been saved and the rule to find the value for the register in the
-/// previous frame."
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub enum RegisterRule<R: Reader> {
-    /// > A register that has this rule has no recoverable value in the previous
-    /// > frame. (By convention, it is not preserved by a callee.)
-    Undefined,
-
-    /// > This register has not been modified from the previous frame. (By
-    /// > convention, it is preserved by the callee, but the callee has not
-    /// > modified it.)
-    SameValue,
-
-    /// "The previous value of this register is saved at the address CFA+N where
-    /// CFA is the current CFA value and N is a signed offset."
-    Offset(i64),
-
-    /// "The previous value of this register is the value CFA+N where CFA is the
-    /// current CFA value and N is a signed offset."
-    ValOffset(i64),
-
-    /// "The previous value of this register is stored in another register
-    /// numbered R."
-    Register(Register),
-
-    /// "The previous value of this register is located at the address produced
-    /// by executing the DWARF expression."
-    Expression(Expression<R>),
-
-    /// "The previous value of this register is the value produced by executing
-    /// the DWARF expression."
-    ValExpression(Expression<R>),
-
-    /// "The rule is defined externally to this specification by the augmenter."
-    Architectural,
-}
-
-impl<R: Reader> RegisterRule<R> {
-    fn is_defined(&self) -> bool {
-        !matches!(*self, RegisterRule::Undefined)
-    }
-}
-
-/// A parsed call frame instruction.
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub enum CallFrameInstruction<R: Reader> {
-    // 6.4.2.1 Row Creation Methods
-    /// > 1. DW_CFA_set_loc
-    /// >
-    /// > The DW_CFA_set_loc instruction takes a single operand that represents
-    /// > a target address. The required action is to create a new table row
-    /// > using the specified address as the location. All other values in the
-    /// > new row are initially identical to the current row. The new location
-    /// > value is always greater than the current one. If the segment_size
-    /// > field of this FDE's CIE is non- zero, the initial location is preceded
-    /// > by a segment selector of the given length.
-    SetLoc {
-        /// The target address.
-        address: u64,
-    },
-
-    /// The `AdvanceLoc` instruction is used for all of `DW_CFA_advance_loc` and
-    /// `DW_CFA_advance_loc{1,2,4}`.
-    ///
-    /// > 2. DW_CFA_advance_loc
-    /// >
-    /// > The DW_CFA_advance instruction takes a single operand (encoded with
-    /// > the opcode) that represents a constant delta. The required action is
-    /// > to create a new table row with a location value that is computed by
-    /// > taking the current entry’s location value and adding the value of
-    /// > delta * code_alignment_factor. All other values in the new row are
-    /// > initially identical to the current row.
-    AdvanceLoc {
-        /// The delta to be added to the current address.
-        delta: u32,
-    },
-
-    // 6.4.2.2 CFA Definition Methods
-    /// > 1. DW_CFA_def_cfa
-    /// >
-    /// > The DW_CFA_def_cfa instruction takes two unsigned LEB128 operands
-    /// > representing a register number and a (non-factored) offset. The
-    /// > required action is to define the current CFA rule to use the provided
-    /// > register and offset.
-    DefCfa {
-        /// The target register's number.
-        register: Register,
-        /// The non-factored offset.
-        offset: u64,
-    },
-
-    /// > 2. DW_CFA_def_cfa_sf
-    /// >
-    /// > The DW_CFA_def_cfa_sf instruction takes two operands: an unsigned
-    /// > LEB128 value representing a register number and a signed LEB128
-    /// > factored offset. This instruction is identical to DW_CFA_def_cfa
-    /// > except that the second operand is signed and factored. The resulting
-    /// > offset is factored_offset * data_alignment_factor.
-    DefCfaSf {
-        /// The target register's number.
-        register: Register,
-        /// The factored offset.
-        factored_offset: i64,
-    },
-
-    /// > 3. DW_CFA_def_cfa_register
-    /// >
-    /// > The DW_CFA_def_cfa_register instruction takes a single unsigned LEB128
-    /// > operand representing a register number. The required action is to
-    /// > define the current CFA rule to use the provided register (but to keep
-    /// > the old offset). This operation is valid only if the current CFA rule
-    /// > is defined to use a register and offset.
-    DefCfaRegister {
-        /// The target register's number.
-        register: Register,
-    },
-
-    /// > 4. DW_CFA_def_cfa_offset
-    /// >
-    /// > The DW_CFA_def_cfa_offset instruction takes a single unsigned LEB128
-    /// > operand representing a (non-factored) offset. The required action is
-    /// > to define the current CFA rule to use the provided offset (but to keep
-    /// > the old register). This operation is valid only if the current CFA
-    /// > rule is defined to use a register and offset.
-    DefCfaOffset {
-        /// The non-factored offset.
-        offset: u64,
-    },
-
-    /// > 5. DW_CFA_def_cfa_offset_sf
-    /// >
-    /// > The DW_CFA_def_cfa_offset_sf instruction takes a signed LEB128 operand
-    /// > representing a factored offset. This instruction is identical to
-    /// > DW_CFA_def_cfa_offset except that the operand is signed and
-    /// > factored. The resulting offset is factored_offset *
-    /// > data_alignment_factor. This operation is valid only if the current CFA
-    /// > rule is defined to use a register and offset.
-    DefCfaOffsetSf {
-        /// The factored offset.
-        factored_offset: i64,
-    },
-
-    /// > 6. DW_CFA_def_cfa_expression
-    /// >
-    /// > The DW_CFA_def_cfa_expression instruction takes a single operand
-    /// > encoded as a DW_FORM_exprloc value representing a DWARF
-    /// > expression. The required action is to establish that expression as the
-    /// > means by which the current CFA is computed.
-    DefCfaExpression {
-        /// The DWARF expression.
-        expression: Expression<R>,
-    },
-
-    // 6.4.2.3 Register Rule Instructions
-    /// > 1. DW_CFA_undefined
-    /// >
-    /// > The DW_CFA_undefined instruction takes a single unsigned LEB128
-    /// > operand that represents a register number. The required action is to
-    /// > set the rule for the specified register to “undefined.”
-    Undefined {
-        /// The target register's number.
-        register: Register,
-    },
-
-    /// > 2. DW_CFA_same_value
-    /// >
-    /// > The DW_CFA_same_value instruction takes a single unsigned LEB128
-    /// > operand that represents a register number. The required action is to
-    /// > set the rule for the specified register to “same value.”
-    SameValue {
-        /// The target register's number.
-        register: Register,
-    },
-
-    /// The `Offset` instruction represents both `DW_CFA_offset` and
-    /// `DW_CFA_offset_extended`.
-    ///
-    /// > 3. DW_CFA_offset
-    /// >
-    /// > The DW_CFA_offset instruction takes two operands: a register number
-    /// > (encoded with the opcode) and an unsigned LEB128 constant representing
-    /// > a factored offset. The required action is to change the rule for the
-    /// > register indicated by the register number to be an offset(N) rule
-    /// > where the value of N is factored offset * data_alignment_factor.
-    Offset {
-        /// The target register's number.
-        register: Register,
-        /// The factored offset.
-        factored_offset: u64,
-    },
-
-    /// > 5. DW_CFA_offset_extended_sf
-    /// >
-    /// > The DW_CFA_offset_extended_sf instruction takes two operands: an
-    /// > unsigned LEB128 value representing a register number and a signed
-    /// > LEB128 factored offset. This instruction is identical to
-    /// > DW_CFA_offset_extended except that the second operand is signed and
-    /// > factored. The resulting offset is factored_offset *
-    /// > data_alignment_factor.
-    OffsetExtendedSf {
-        /// The target register's number.
-        register: Register,
-        /// The factored offset.
-        factored_offset: i64,
-    },
-
-    /// > 6. DW_CFA_val_offset
-    /// >
-    /// > The DW_CFA_val_offset instruction takes two unsigned LEB128 operands
-    /// > representing a register number and a factored offset. The required
-    /// > action is to change the rule for the register indicated by the
-    /// > register number to be a val_offset(N) rule where the value of N is
-    /// > factored_offset * data_alignment_factor.
-    ValOffset {
-        /// The target register's number.
-        register: Register,
-        /// The factored offset.
-        factored_offset: u64,
-    },
-
-    /// > 7. DW_CFA_val_offset_sf
-    /// >
-    /// > The DW_CFA_val_offset_sf instruction takes two operands: an unsigned
-    /// > LEB128 value representing a register number and a signed LEB128
-    /// > factored offset. This instruction is identical to DW_CFA_val_offset
-    /// > except that the second operand is signed and factored. The resulting
-    /// > offset is factored_offset * data_alignment_factor.
-    ValOffsetSf {
-        /// The target register's number.
-        register: Register,
-        /// The factored offset.
-        factored_offset: i64,
-    },
-
-    /// > 8. DW_CFA_register
-    /// >
-    /// > The DW_CFA_register instruction takes two unsigned LEB128 operands
-    /// > representing register numbers. The required action is to set the rule
-    /// > for the first register to be register(R) where R is the second
-    /// > register.
-    Register {
-        /// The number of the register whose rule is being changed.
-        dest_register: Register,
-        /// The number of the register where the other register's value can be
-        /// found.
-        src_register: Register,
-    },
-
-    /// > 9. DW_CFA_expression
-    /// >
-    /// > The DW_CFA_expression instruction takes two operands: an unsigned
-    /// > LEB128 value representing a register number, and a DW_FORM_block value
-    /// > representing a DWARF expression. The required action is to change the
-    /// > rule for the register indicated by the register number to be an
-    /// > expression(E) rule where E is the DWARF expression. That is, the DWARF
-    /// > expression computes the address. The value of the CFA is pushed on the
-    /// > DWARF evaluation stack prior to execution of the DWARF expression.
-    Expression {
-        /// The target register's number.
-        register: Register,
-        /// The DWARF expression.
-        expression: Expression<R>,
-    },
-
-    /// > 10. DW_CFA_val_expression
-    /// >
-    /// > The DW_CFA_val_expression instruction takes two operands: an unsigned
-    /// > LEB128 value representing a register number, and a DW_FORM_block value
-    /// > representing a DWARF expression. The required action is to change the
-    /// > rule for the register indicated by the register number to be a
-    /// > val_expression(E) rule where E is the DWARF expression. That is, the
-    /// > DWARF expression computes the value of the given register. The value
-    /// > of the CFA is pushed on the DWARF evaluation stack prior to execution
-    /// > of the DWARF expression.
-    ValExpression {
-        /// The target register's number.
-        register: Register,
-        /// The DWARF expression.
-        expression: Expression<R>,
-    },
-
-    /// The `Restore` instruction represents both `DW_CFA_restore` and
-    /// `DW_CFA_restore_extended`.
-    ///
-    /// > 11. DW_CFA_restore
-    /// >
-    /// > The DW_CFA_restore instruction takes a single operand (encoded with
-    /// > the opcode) that represents a register number. The required action is
-    /// > to change the rule for the indicated register to the rule assigned it
-    /// > by the initial_instructions in the CIE.
-    Restore {
-        /// The register to be reset.
-        register: Register,
-    },
-
-    // 6.4.2.4 Row State Instructions
-    /// > 1. DW_CFA_remember_state
-    /// >
-    /// > The DW_CFA_remember_state instruction takes no operands. The required
-    /// > action is to push the set of rules for every register onto an implicit
-    /// > stack.
-    RememberState,
-
-    /// > 2. DW_CFA_restore_state
-    /// >
-    /// > The DW_CFA_restore_state instruction takes no operands. The required
-    /// > action is to pop the set of rules off the implicit stack and place
-    /// > them in the current row.
-    RestoreState,
-
-    /// > DW_CFA_GNU_args_size
-    /// >
-    /// > GNU Extension
-    /// >
-    /// > The DW_CFA_GNU_args_size instruction takes an unsigned LEB128 operand
-    /// > representing an argument size. This instruction specifies the total of
-    /// > the size of the arguments which have been pushed onto the stack.
-    ArgsSize {
-        /// The size of the arguments which have been pushed onto the stack
-        size: u64,
-    },
-
-    // 6.4.2.5 Padding Instruction
-    /// > 1. DW_CFA_nop
-    /// >
-    /// > The DW_CFA_nop instruction has no operands and no required actions. It
-    /// > is used as padding to make a CIE or FDE an appropriate size.
-    Nop,
-}
-
-const CFI_INSTRUCTION_HIGH_BITS_MASK: u8 = 0b1100_0000;
-const CFI_INSTRUCTION_LOW_BITS_MASK: u8 = !CFI_INSTRUCTION_HIGH_BITS_MASK;
-
-impl<R: Reader> CallFrameInstruction<R> {
-    fn parse(
-        input: &mut R,
-        address_encoding: Option<DwEhPe>,
-        parameters: &PointerEncodingParameters<R>,
-    ) -> Result<CallFrameInstruction<R>> {
-        let instruction = input.read_u8()?;
-        let high_bits = instruction & CFI_INSTRUCTION_HIGH_BITS_MASK;
-
-        if high_bits == constants::DW_CFA_advance_loc.0 {
-            let delta = instruction & CFI_INSTRUCTION_LOW_BITS_MASK;
-            return Ok(CallFrameInstruction::AdvanceLoc {
-                delta: u32::from(delta),
-            });
-        }
-
-        if high_bits == constants::DW_CFA_offset.0 {
-            let register = Register((instruction & CFI_INSTRUCTION_LOW_BITS_MASK).into());
-            let offset = input.read_uleb128()?;
-            return Ok(CallFrameInstruction::Offset {
-                register,
-                factored_offset: offset,
-            });
-        }
-
-        if high_bits == constants::DW_CFA_restore.0 {
-            let register = Register((instruction & CFI_INSTRUCTION_LOW_BITS_MASK).into());
-            return Ok(CallFrameInstruction::Restore { register });
-        }
-
-        debug_assert_eq!(high_bits, 0);
-        let instruction = constants::DwCfa(instruction);
-
-        match instruction {
-            constants::DW_CFA_nop => Ok(CallFrameInstruction::Nop),
-
-            constants::DW_CFA_set_loc => {
-                let address = if let Some(encoding) = address_encoding {
-                    match parse_encoded_pointer(encoding, parameters, input)? {
-                        Pointer::Direct(x) => x,
-                        _ => return Err(Error::UnsupportedPointerEncoding),
-                    }
-                } else {
-                    input.read_address(parameters.address_size)?
-                };
-                Ok(CallFrameInstruction::SetLoc { address })
-            }
-
-            constants::DW_CFA_advance_loc1 => {
-                let delta = input.read_u8()?;
-                Ok(CallFrameInstruction::AdvanceLoc {
-                    delta: u32::from(delta),
-                })
-            }
-
-            constants::DW_CFA_advance_loc2 => {
-                let delta = input.read_u16()?;
-                Ok(CallFrameInstruction::AdvanceLoc {
-                    delta: u32::from(delta),
-                })
-            }
-
-            constants::DW_CFA_advance_loc4 => {
-                let delta = input.read_u32()?;
-                Ok(CallFrameInstruction::AdvanceLoc { delta })
-            }
-
-            constants::DW_CFA_offset_extended => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let offset = input.read_uleb128()?;
-                Ok(CallFrameInstruction::Offset {
-                    register,
-                    factored_offset: offset,
-                })
-            }
-
-            constants::DW_CFA_restore_extended => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                Ok(CallFrameInstruction::Restore { register })
-            }
-
-            constants::DW_CFA_undefined => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                Ok(CallFrameInstruction::Undefined { register })
-            }
-
-            constants::DW_CFA_same_value => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                Ok(CallFrameInstruction::SameValue { register })
-            }
-
-            constants::DW_CFA_register => {
-                let dest = input.read_uleb128().and_then(Register::from_u64)?;
-                let src = input.read_uleb128().and_then(Register::from_u64)?;
-                Ok(CallFrameInstruction::Register {
-                    dest_register: dest,
-                    src_register: src,
-                })
-            }
-
-            constants::DW_CFA_remember_state => Ok(CallFrameInstruction::RememberState),
-
-            constants::DW_CFA_restore_state => Ok(CallFrameInstruction::RestoreState),
-
-            constants::DW_CFA_def_cfa => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let offset = input.read_uleb128()?;
-                Ok(CallFrameInstruction::DefCfa { register, offset })
-            }
-
-            constants::DW_CFA_def_cfa_register => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                Ok(CallFrameInstruction::DefCfaRegister { register })
-            }
-
-            constants::DW_CFA_def_cfa_offset => {
-                let offset = input.read_uleb128()?;
-                Ok(CallFrameInstruction::DefCfaOffset { offset })
-            }
-
-            constants::DW_CFA_def_cfa_expression => {
-                let len = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                let expression = input.split(len)?;
-                Ok(CallFrameInstruction::DefCfaExpression {
-                    expression: Expression(expression),
-                })
-            }
-
-            constants::DW_CFA_expression => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let len = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                let expression = input.split(len)?;
-                Ok(CallFrameInstruction::Expression {
-                    register,
-                    expression: Expression(expression),
-                })
-            }
-
-            constants::DW_CFA_offset_extended_sf => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let offset = input.read_sleb128()?;
-                Ok(CallFrameInstruction::OffsetExtendedSf {
-                    register,
-                    factored_offset: offset,
-                })
-            }
-
-            constants::DW_CFA_def_cfa_sf => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let offset = input.read_sleb128()?;
-                Ok(CallFrameInstruction::DefCfaSf {
-                    register,
-                    factored_offset: offset,
-                })
-            }
-
-            constants::DW_CFA_def_cfa_offset_sf => {
-                let offset = input.read_sleb128()?;
-                Ok(CallFrameInstruction::DefCfaOffsetSf {
-                    factored_offset: offset,
-                })
-            }
-
-            constants::DW_CFA_val_offset => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let offset = input.read_uleb128()?;
-                Ok(CallFrameInstruction::ValOffset {
-                    register,
-                    factored_offset: offset,
-                })
-            }
-
-            constants::DW_CFA_val_offset_sf => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let offset = input.read_sleb128()?;
-                Ok(CallFrameInstruction::ValOffsetSf {
-                    register,
-                    factored_offset: offset,
-                })
-            }
-
-            constants::DW_CFA_val_expression => {
-                let register = input.read_uleb128().and_then(Register::from_u64)?;
-                let len = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                let expression = input.split(len)?;
-                Ok(CallFrameInstruction::ValExpression {
-                    register,
-                    expression: Expression(expression),
-                })
-            }
-
-            constants::DW_CFA_GNU_args_size => {
-                let size = input.read_uleb128()?;
-                Ok(CallFrameInstruction::ArgsSize { size })
-            }
-
-            otherwise => Err(Error::UnknownCallFrameInstruction(otherwise)),
-        }
-    }
-}
-
-/// A lazy iterator parsing call frame instructions.
-///
-/// Can be [used with
-/// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-#[derive(Clone, Debug)]
-pub struct CallFrameInstructionIter<'a, R: Reader> {
-    input: R,
-    address_encoding: Option<constants::DwEhPe>,
-    parameters: PointerEncodingParameters<'a, R>,
-}
-
-impl<'a, R: Reader> CallFrameInstructionIter<'a, R> {
-    /// Parse the next call frame instruction.
-    pub fn next(&mut self) -> Result<Option<CallFrameInstruction<R>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        match CallFrameInstruction::parse(&mut self.input, self.address_encoding, &self.parameters)
-        {
-            Ok(instruction) => Ok(Some(instruction)),
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<'a, R: Reader> fallible_iterator::FallibleIterator for CallFrameInstructionIter<'a, R> {
-    type Item = CallFrameInstruction<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        CallFrameInstructionIter::next(self)
-    }
-}
-
-/// Parse a `DW_EH_PE_*` pointer encoding.
-#[doc(hidden)]
-#[inline]
-fn parse_pointer_encoding<R: Reader>(input: &mut R) -> Result<constants::DwEhPe> {
-    let eh_pe = input.read_u8()?;
-    let eh_pe = constants::DwEhPe(eh_pe);
-
-    if eh_pe.is_valid_encoding() {
-        Ok(eh_pe)
-    } else {
-        Err(Error::UnknownPointerEncoding)
-    }
-}
-
-/// A decoded pointer.
-#[derive(Copy, Clone, Debug, PartialEq, Eq)]
-pub enum Pointer {
-    /// This value is the decoded pointer value.
-    Direct(u64),
-
-    /// This value is *not* the pointer value, but points to the address of
-    /// where the real pointer value lives. In other words, deref this pointer
-    /// to get the real pointer value.
-    ///
-    /// Chase this pointer at your own risk: do you trust the DWARF data it came
-    /// from?
-    Indirect(u64),
-}
-
-impl Default for Pointer {
-    #[inline]
-    fn default() -> Self {
-        Pointer::Direct(0)
-    }
-}
-
-impl From<Pointer> for u64 {
-    #[inline]
-    fn from(p: Pointer) -> u64 {
-        match p {
-            Pointer::Direct(p) | Pointer::Indirect(p) => p,
-        }
-    }
-}
-
-impl Pointer {
-    #[inline]
-    fn new(encoding: constants::DwEhPe, address: u64) -> Pointer {
-        if encoding.is_indirect() {
-            Pointer::Indirect(address)
-        } else {
-            Pointer::Direct(address)
-        }
-    }
-}
-
-#[derive(Clone, Debug)]
-struct PointerEncodingParameters<'a, R: Reader> {
-    bases: &'a SectionBaseAddresses,
-    func_base: Option<u64>,
-    address_size: u8,
-    section: &'a R,
-}
-
-fn parse_encoded_pointer<R: Reader>(
-    encoding: constants::DwEhPe,
-    parameters: &PointerEncodingParameters<R>,
-    input: &mut R,
-) -> Result<Pointer> {
-    // TODO: check this once only in parse_pointer_encoding
-    if !encoding.is_valid_encoding() {
-        return Err(Error::UnknownPointerEncoding);
-    }
-
-    if encoding == constants::DW_EH_PE_omit {
-        return Err(Error::CannotParseOmitPointerEncoding);
-    }
-
-    let base = match encoding.application() {
-        constants::DW_EH_PE_absptr => 0,
-        constants::DW_EH_PE_pcrel => {
-            if let Some(section_base) = parameters.bases.section {
-                let offset_from_section = input.offset_from(parameters.section);
-                section_base.wrapping_add(offset_from_section.into_u64())
-            } else {
-                return Err(Error::PcRelativePointerButSectionBaseIsUndefined);
-            }
-        }
-        constants::DW_EH_PE_textrel => {
-            if let Some(text) = parameters.bases.text {
-                text
-            } else {
-                return Err(Error::TextRelativePointerButTextBaseIsUndefined);
-            }
-        }
-        constants::DW_EH_PE_datarel => {
-            if let Some(data) = parameters.bases.data {
-                data
-            } else {
-                return Err(Error::DataRelativePointerButDataBaseIsUndefined);
-            }
-        }
-        constants::DW_EH_PE_funcrel => {
-            if let Some(func) = parameters.func_base {
-                func
-            } else {
-                return Err(Error::FuncRelativePointerInBadContext);
-            }
-        }
-        constants::DW_EH_PE_aligned => return Err(Error::UnsupportedPointerEncoding),
-        _ => unreachable!(),
-    };
-
-    let offset = match encoding.format() {
-        // Unsigned variants.
-        constants::DW_EH_PE_absptr => input.read_address(parameters.address_size),
-        constants::DW_EH_PE_uleb128 => input.read_uleb128(),
-        constants::DW_EH_PE_udata2 => input.read_u16().map(u64::from),
-        constants::DW_EH_PE_udata4 => input.read_u32().map(u64::from),
-        constants::DW_EH_PE_udata8 => input.read_u64(),
-
-        // Signed variants. Here we sign extend the values (happens by
-        // default when casting a signed integer to a larger range integer
-        // in Rust), return them as u64, and rely on wrapping addition to do
-        // the right thing when adding these offsets to their bases.
-        constants::DW_EH_PE_sleb128 => input.read_sleb128().map(|a| a as u64),
-        constants::DW_EH_PE_sdata2 => input.read_i16().map(|a| a as u64),
-        constants::DW_EH_PE_sdata4 => input.read_i32().map(|a| a as u64),
-        constants::DW_EH_PE_sdata8 => input.read_i64().map(|a| a as u64),
-
-        // That was all of the valid encoding formats.
-        _ => unreachable!(),
-    }?;
-
-    Ok(Pointer::new(encoding, base.wrapping_add(offset)))
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use super::{parse_cfi_entry, AugmentationData, RegisterRuleMap, UnwindContext};
-    use crate::common::Format;
-    use crate::constants;
-    use crate::endianity::{BigEndian, Endianity, LittleEndian, NativeEndian};
-    use crate::read::{
-        EndianSlice, Error, Expression, Pointer, ReaderOffsetId, Result, Section as ReadSection,
-    };
-    use crate::test_util::GimliSectionMethods;
-    use alloc::boxed::Box;
-    use alloc::vec::Vec;
-    use core::marker::PhantomData;
-    use core::mem;
-    use core::u64;
-    use test_assembler::{Endian, Label, LabelMaker, LabelOrNum, Section, ToLabelOrNum};
-
-    // Ensure each test tries to read the same section kind that it wrote.
-    #[derive(Clone, Copy)]
-    struct SectionKind<Section>(PhantomData<Section>);
-
-    impl<T> SectionKind<T> {
-        fn endian<'input, E>(self) -> Endian
-        where
-            E: Endianity,
-            T: UnwindSection<EndianSlice<'input, E>>,
-            T::Offset: UnwindOffset<usize>,
-        {
-            if E::default().is_big_endian() {
-                Endian::Big
-            } else {
-                Endian::Little
-            }
-        }
-
-        fn section<'input, E>(self, contents: &'input [u8]) -> T
-        where
-            E: Endianity,
-            T: UnwindSection<EndianSlice<'input, E>> + ReadSection<EndianSlice<'input, E>>,
-            T::Offset: UnwindOffset<usize>,
-        {
-            EndianSlice::new(contents, E::default()).into()
-        }
-    }
-
-    fn debug_frame_le<'a>() -> SectionKind<DebugFrame<EndianSlice<'a, LittleEndian>>> {
-        SectionKind(PhantomData)
-    }
-
-    fn debug_frame_be<'a>() -> SectionKind<DebugFrame<EndianSlice<'a, BigEndian>>> {
-        SectionKind(PhantomData)
-    }
-
-    fn eh_frame_le<'a>() -> SectionKind<EhFrame<EndianSlice<'a, LittleEndian>>> {
-        SectionKind(PhantomData)
-    }
-
-    fn parse_fde<Section, O, F, R>(
-        section: Section,
-        input: &mut R,
-        get_cie: F,
-    ) -> Result<FrameDescriptionEntry<R>>
-    where
-        R: Reader,
-        Section: UnwindSection<R, Offset = O>,
-        O: UnwindOffset<R::Offset>,
-        F: FnMut(&Section, &BaseAddresses, O) -> Result<CommonInformationEntry<R>>,
-    {
-        let bases = Default::default();
-        match parse_cfi_entry(&bases, &section, input) {
-            Ok(Some(CieOrFde::Fde(partial))) => partial.parse(get_cie),
-            Ok(_) => Err(Error::NoEntryAtGivenOffset),
-            Err(e) => Err(e),
-        }
-    }
-
-    // Mixin methods for `Section` to help define binary test data.
-
-    trait CfiSectionMethods: GimliSectionMethods {
-        fn cie<'aug, 'input, E, T>(
-            self,
-            _kind: SectionKind<T>,
-            augmentation: Option<&'aug str>,
-            cie: &mut CommonInformationEntry<EndianSlice<'input, E>>,
-        ) -> Self
-        where
-            E: Endianity,
-            T: UnwindSection<EndianSlice<'input, E>>,
-            T::Offset: UnwindOffset;
-        fn fde<'a, 'input, E, T, L>(
-            self,
-            _kind: SectionKind<T>,
-            cie_offset: L,
-            fde: &mut FrameDescriptionEntry<EndianSlice<'input, E>>,
-        ) -> Self
-        where
-            E: Endianity,
-            T: UnwindSection<EndianSlice<'input, E>>,
-            T::Offset: UnwindOffset,
-            L: ToLabelOrNum<'a, u64>;
-    }
-
-    impl CfiSectionMethods for Section {
-        fn cie<'aug, 'input, E, T>(
-            self,
-            _kind: SectionKind<T>,
-            augmentation: Option<&'aug str>,
-            cie: &mut CommonInformationEntry<EndianSlice<'input, E>>,
-        ) -> Self
-        where
-            E: Endianity,
-            T: UnwindSection<EndianSlice<'input, E>>,
-            T::Offset: UnwindOffset,
-        {
-            cie.offset = self.size() as _;
-            let length = Label::new();
-            let start = Label::new();
-            let end = Label::new();
-
-            let section = match cie.format {
-                Format::Dwarf32 => self.D32(&length).mark(&start).D32(0xffff_ffff),
-                Format::Dwarf64 => {
-                    let section = self.D32(0xffff_ffff);
-                    section.D64(&length).mark(&start).D64(0xffff_ffff_ffff_ffff)
-                }
-            };
-
-            let mut section = section.D8(cie.version);
-
-            if let Some(augmentation) = augmentation {
-                section = section.append_bytes(augmentation.as_bytes());
-            }
-
-            // Null terminator for augmentation string.
-            let section = section.D8(0);
-
-            let section = if T::has_address_and_segment_sizes(cie.version) {
-                section.D8(cie.address_size).D8(cie.segment_size)
-            } else {
-                section
-            };
-
-            let section = section
-                .uleb(cie.code_alignment_factor)
-                .sleb(cie.data_alignment_factor)
-                .uleb(cie.return_address_register.0.into())
-                .append_bytes(cie.initial_instructions.into())
-                .mark(&end);
-
-            cie.length = (&end - &start) as usize;
-            length.set_const(cie.length as u64);
-
-            section
-        }
-
-        fn fde<'a, 'input, E, T, L>(
-            self,
-            _kind: SectionKind<T>,
-            cie_offset: L,
-            fde: &mut FrameDescriptionEntry<EndianSlice<'input, E>>,
-        ) -> Self
-        where
-            E: Endianity,
-            T: UnwindSection<EndianSlice<'input, E>>,
-            T::Offset: UnwindOffset,
-            L: ToLabelOrNum<'a, u64>,
-        {
-            fde.offset = self.size() as _;
-            let length = Label::new();
-            let start = Label::new();
-            let end = Label::new();
-
-            assert_eq!(fde.format, fde.cie.format);
-
-            let section = match T::cie_offset_encoding(fde.format) {
-                CieOffsetEncoding::U32 => {
-                    let section = self.D32(&length).mark(&start);
-                    match cie_offset.to_labelornum() {
-                        LabelOrNum::Label(ref l) => section.D32(l),
-                        LabelOrNum::Num(o) => section.D32(o as u32),
-                    }
-                }
-                CieOffsetEncoding::U64 => {
-                    let section = self.D32(0xffff_ffff);
-                    section.D64(&length).mark(&start).D64(cie_offset)
-                }
-            };
-
-            let section = match fde.cie.segment_size {
-                0 => section,
-                4 => section.D32(fde.initial_segment as u32),
-                8 => section.D64(fde.initial_segment),
-                x => panic!("Unsupported test segment size: {}", x),
-            };
-
-            let section = match fde.cie.address_size {
-                4 => section
-                    .D32(fde.initial_address() as u32)
-                    .D32(fde.len() as u32),
-                8 => section.D64(fde.initial_address()).D64(fde.len()),
-                x => panic!("Unsupported address size: {}", x),
-            };
-
-            let section = if let Some(ref augmentation) = fde.augmentation {
-                let cie_aug = fde
-                    .cie
-                    .augmentation
-                    .expect("FDE has augmentation, but CIE doesn't");
-
-                if let Some(lsda) = augmentation.lsda {
-                    // We only support writing `DW_EH_PE_absptr` here.
-                    assert_eq!(
-                        cie_aug
-                            .lsda
-                            .expect("FDE has lsda, but CIE doesn't")
-                            .format(),
-                        constants::DW_EH_PE_absptr
-                    );
-
-                    // Augmentation data length
-                    let section = section.uleb(u64::from(fde.cie.address_size));
-                    match fde.cie.address_size {
-                        4 => section.D32({
-                            let x: u64 = lsda.into();
-                            x as u32
-                        }),
-                        8 => section.D64({
-                            let x: u64 = lsda.into();
-                            x
-                        }),
-                        x => panic!("Unsupported address size: {}", x),
-                    }
-                } else {
-                    // Even if we don't have any augmentation data, if there is
-                    // an augmentation defined, we need to put the length in.
-                    section.uleb(0)
-                }
-            } else {
-                section
-            };
-
-            let section = section.append_bytes(fde.instructions.into()).mark(&end);
-
-            fde.length = (&end - &start) as usize;
-            length.set_const(fde.length as u64);
-
-            section
-        }
-    }
-
-    trait ResultExt {
-        fn map_eof(self, input: &[u8]) -> Self;
-    }
-
-    impl<T> ResultExt for Result<T> {
-        fn map_eof(self, input: &[u8]) -> Self {
-            match self {
-                Err(Error::UnexpectedEof(id)) => {
-                    let id = ReaderOffsetId(id.0 - input.as_ptr() as u64);
-                    Err(Error::UnexpectedEof(id))
-                }
-                r => r,
-            }
-        }
-    }
-
-    fn assert_parse_cie<'input, E>(
-        kind: SectionKind<DebugFrame<EndianSlice<'input, E>>>,
-        section: Section,
-        address_size: u8,
-        expected: Result<(
-            EndianSlice<'input, E>,
-            CommonInformationEntry<EndianSlice<'input, E>>,
-        )>,
-    ) where
-        E: Endianity,
-    {
-        let section = section.get_contents().unwrap();
-        let mut debug_frame = kind.section(&section);
-        debug_frame.set_address_size(address_size);
-        let input = &mut EndianSlice::new(&section, E::default());
-        let bases = Default::default();
-        let result = CommonInformationEntry::parse(&bases, &debug_frame, input);
-        let result = result.map(|cie| (*input, cie)).map_eof(&section);
-        assert_eq!(result, expected);
-    }
-
-    #[test]
-    fn test_parse_cie_incomplete_length_32() {
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian()).L16(5);
-        assert_parse_cie(
-            kind,
-            section,
-            8,
-            Err(Error::UnexpectedEof(ReaderOffsetId(0))),
-        );
-    }
-
-    #[test]
-    fn test_parse_cie_incomplete_length_64() {
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .L32(0xffff_ffff)
-            .L32(12345);
-        assert_parse_cie(
-            kind,
-            section,
-            8,
-            Err(Error::UnexpectedEof(ReaderOffsetId(4))),
-        );
-    }
-
-    #[test]
-    fn test_parse_cie_incomplete_id_32() {
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            // The length is not large enough to contain the ID.
-            .B32(3)
-            .B32(0xffff_ffff);
-        assert_parse_cie(
-            kind,
-            section,
-            8,
-            Err(Error::UnexpectedEof(ReaderOffsetId(4))),
-        );
-    }
-
-    #[test]
-    fn test_parse_cie_bad_id_32() {
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            // Initial length
-            .B32(4)
-            // Not the CIE Id.
-            .B32(0xbad1_bad2);
-        assert_parse_cie(kind, section, 8, Err(Error::NotCieId));
-    }
-
-    #[test]
-    fn test_parse_cie_32_bad_version() {
-        let mut cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 99,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 2,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian()).cie(kind, None, &mut cie);
-        assert_parse_cie(kind, section, 4, Err(Error::UnknownVersion(99)));
-    }
-
-    #[test]
-    fn test_parse_cie_unknown_augmentation() {
-        let length = Label::new();
-        let start = Label::new();
-        let end = Label::new();
-
-        let augmentation = Some("replicant");
-        let expected_rest = [1, 2, 3];
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            // Initial length
-            .L32(&length)
-            .mark(&start)
-            // CIE Id
-            .L32(0xffff_ffff)
-            // Version
-            .D8(4)
-            // Augmentation
-            .append_bytes(augmentation.unwrap().as_bytes())
-            // Null terminator
-            .D8(0)
-            // Extra augmented data that we can't understand.
-            .L32(1)
-            .L32(2)
-            .L32(3)
-            .L32(4)
-            .L32(5)
-            .L32(6)
-            .mark(&end)
-            .append_bytes(&expected_rest);
-
-        let expected_length = (&end - &start) as u64;
-        length.set_const(expected_length);
-
-        assert_parse_cie(kind, section, 8, Err(Error::UnknownAugmentation));
-    }
-
-    fn test_parse_cie(format: Format, version: u8, address_size: u8) {
-        let expected_rest = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let expected_instrs: Vec<_> = (0..4).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let mut cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format,
-            version,
-            augmentation: None,
-            address_size,
-            segment_size: 0,
-            code_alignment_factor: 16,
-            data_alignment_factor: 32,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&expected_instrs, LittleEndian),
-        };
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .cie(kind, None, &mut cie)
-            .append_bytes(&expected_rest);
-
-        assert_parse_cie(
-            kind,
-            section,
-            address_size,
-            Ok((EndianSlice::new(&expected_rest, LittleEndian), cie)),
-        );
-    }
-
-    #[test]
-    fn test_parse_cie_32_ok() {
-        test_parse_cie(Format::Dwarf32, 1, 4);
-        test_parse_cie(Format::Dwarf32, 1, 8);
-        test_parse_cie(Format::Dwarf32, 4, 4);
-        test_parse_cie(Format::Dwarf32, 4, 8);
-    }
-
-    #[test]
-    fn test_parse_cie_64_ok() {
-        test_parse_cie(Format::Dwarf64, 1, 4);
-        test_parse_cie(Format::Dwarf64, 1, 8);
-        test_parse_cie(Format::Dwarf64, 4, 4);
-        test_parse_cie(Format::Dwarf64, 4, 8);
-    }
-
-    #[test]
-    fn test_parse_cie_length_too_big() {
-        let expected_instrs: Vec<_> = (0..13).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let mut cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 0,
-            data_alignment_factor: 0,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&expected_instrs, LittleEndian),
-        };
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian()).cie(kind, None, &mut cie);
-
-        let mut contents = section.get_contents().unwrap();
-
-        // Overwrite the length to be too big.
-        contents[0] = 0;
-        contents[1] = 0;
-        contents[2] = 0;
-        contents[3] = 255;
-
-        let debug_frame = DebugFrame::new(&contents, LittleEndian);
-        let bases = Default::default();
-        assert_eq!(
-            CommonInformationEntry::parse(
-                &bases,
-                &debug_frame,
-                &mut EndianSlice::new(&contents, LittleEndian)
-            )
-            .map_eof(&contents),
-            Err(Error::UnexpectedEof(ReaderOffsetId(4)))
-        );
-    }
-
-    #[test]
-    fn test_parse_fde_incomplete_length_32() {
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian()).L16(5);
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, LittleEndian);
-        assert_eq!(
-            parse_fde(debug_frame, rest, UnwindSection::cie_from_offset).map_eof(&section),
-            Err(Error::UnexpectedEof(ReaderOffsetId(0)))
-        );
-    }
-
-    #[test]
-    fn test_parse_fde_incomplete_length_64() {
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .L32(0xffff_ffff)
-            .L32(12345);
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, LittleEndian);
-        assert_eq!(
-            parse_fde(debug_frame, rest, UnwindSection::cie_from_offset).map_eof(&section),
-            Err(Error::UnexpectedEof(ReaderOffsetId(4)))
-        );
-    }
-
-    #[test]
-    fn test_parse_fde_incomplete_cie_pointer_32() {
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            // The length is not large enough to contain the CIE pointer.
-            .B32(3)
-            .B32(1994);
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, BigEndian);
-        assert_eq!(
-            parse_fde(debug_frame, rest, UnwindSection::cie_from_offset).map_eof(&section),
-            Err(Error::UnexpectedEof(ReaderOffsetId(4)))
-        );
-    }
-
-    #[test]
-    fn test_parse_fde_32_ok() {
-        let expected_rest = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let cie_offset = 0xbad0_bad1;
-        let expected_instrs: Vec<_> = (0..7).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 100,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            // DWARF32 with a 64 bit address size! Holy moly!
-            address_size: 8,
-            segment_size: 0,
-            code_alignment_factor: 3,
-            data_alignment_factor: 2,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 39,
-            augmentation: None,
-            instructions: EndianSlice::new(&expected_instrs, LittleEndian),
-        };
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&expected_rest);
-
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, LittleEndian);
-
-        let get_cie = |_: &_, _: &_, offset| {
-            assert_eq!(offset, DebugFrameOffset(cie_offset as usize));
-            Ok(cie.clone())
-        };
-
-        assert_eq!(parse_fde(debug_frame, rest, get_cie), Ok(fde));
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_fde_32_with_segment_ok() {
-        let expected_rest = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let cie_offset = 0xbad0_bad1;
-        let expected_instrs: Vec<_> = (0..92).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 100,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 4,
-            code_alignment_factor: 3,
-            data_alignment_factor: 2,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0xbadb_ad11,
-            initial_address: 0xfeed_beef,
-            address_range: 999,
-            augmentation: None,
-            instructions: EndianSlice::new(&expected_instrs, LittleEndian),
-        };
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&expected_rest);
-
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, LittleEndian);
-
-        let get_cie = |_: &_, _: &_, offset| {
-            assert_eq!(offset, DebugFrameOffset(cie_offset as usize));
-            Ok(cie.clone())
-        };
-
-        assert_eq!(parse_fde(debug_frame, rest, get_cie), Ok(fde));
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_fde_64_ok() {
-        let expected_rest = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let cie_offset = 0xbad0_bad1;
-        let expected_instrs: Vec<_> = (0..7).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 100,
-            format: Format::Dwarf64,
-            version: 4,
-            augmentation: None,
-            address_size: 8,
-            segment_size: 0,
-            code_alignment_factor: 3,
-            data_alignment_factor: 2,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf64,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 999,
-            augmentation: None,
-            instructions: EndianSlice::new(&expected_instrs, LittleEndian),
-        };
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&expected_rest);
-
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, LittleEndian);
-
-        let get_cie = |_: &_, _: &_, offset| {
-            assert_eq!(offset, DebugFrameOffset(cie_offset as usize));
-            Ok(cie.clone())
-        };
-
-        assert_eq!(parse_fde(debug_frame, rest, get_cie), Ok(fde));
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_entry_on_cie_32_ok() {
-        let expected_rest = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let expected_instrs: Vec<_> = (0..4).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let mut cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 16,
-            data_alignment_factor: 32,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&expected_instrs, BigEndian),
-        };
-
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            .cie(kind, None, &mut cie)
-            .append_bytes(&expected_rest);
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, BigEndian);
-
-        let bases = Default::default();
-        assert_eq!(
-            parse_cfi_entry(&bases, &debug_frame, rest),
-            Ok(Some(CieOrFde::Cie(cie)))
-        );
-        assert_eq!(*rest, EndianSlice::new(&expected_rest, BigEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_entry_on_fde_32_ok() {
-        let cie_offset = 0x1234_5678;
-        let expected_rest = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let expected_instrs: Vec<_> = (0..4).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 16,
-            data_alignment_factor: 32,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&[], BigEndian),
-        };
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 39,
-            augmentation: None,
-            instructions: EndianSlice::new(&expected_instrs, BigEndian),
-        };
-
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&expected_rest);
-
-        let section = section.get_contents().unwrap();
-        let debug_frame = kind.section(&section);
-        let rest = &mut EndianSlice::new(&section, BigEndian);
-
-        let bases = Default::default();
-        match parse_cfi_entry(&bases, &debug_frame, rest) {
-            Ok(Some(CieOrFde::Fde(partial))) => {
-                assert_eq!(*rest, EndianSlice::new(&expected_rest, BigEndian));
-
-                assert_eq!(partial.length, fde.length);
-                assert_eq!(partial.format, fde.format);
-                assert_eq!(partial.cie_offset, DebugFrameOffset(cie_offset as usize));
-
-                let get_cie = |_: &_, _: &_, offset| {
-                    assert_eq!(offset, DebugFrameOffset(cie_offset as usize));
-                    Ok(cie.clone())
-                };
-
-                assert_eq!(partial.parse(get_cie), Ok(fde));
-            }
-            otherwise => panic!("Unexpected result: {:#?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_cfi_entries_iter() {
-        let expected_instrs1: Vec<_> = (0..4).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let expected_instrs2: Vec<_> = (0..8).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let expected_instrs3: Vec<_> = (0..12).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let expected_instrs4: Vec<_> = (0..16).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let mut cie1 = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 2,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&expected_instrs1, BigEndian),
-        };
-
-        let mut cie2 = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 3,
-            data_alignment_factor: 2,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&expected_instrs2, BigEndian),
-        };
-
-        let cie1_location = Label::new();
-        let cie2_location = Label::new();
-
-        // Write the CIEs first so that their length gets set before we clone
-        // them into the FDEs and our equality assertions down the line end up
-        // with all the CIEs always having he correct length.
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            .mark(&cie1_location)
-            .cie(kind, None, &mut cie1)
-            .mark(&cie2_location)
-            .cie(kind, None, &mut cie2);
-
-        let mut fde1 = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie1.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 39,
-            augmentation: None,
-            instructions: EndianSlice::new(&expected_instrs3, BigEndian),
-        };
-
-        let mut fde2 = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie2.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_face,
-            address_range: 9000,
-            augmentation: None,
-            instructions: EndianSlice::new(&expected_instrs4, BigEndian),
-        };
-
-        let section =
-            section
-                .fde(kind, &cie1_location, &mut fde1)
-                .fde(kind, &cie2_location, &mut fde2);
-
-        section.start().set_const(0);
-
-        let cie1_offset = cie1_location.value().unwrap() as usize;
-        let cie2_offset = cie2_location.value().unwrap() as usize;
-
-        let contents = section.get_contents().unwrap();
-        let debug_frame = kind.section(&contents);
-
-        let bases = Default::default();
-        let mut entries = debug_frame.entries(&bases);
-
-        assert_eq!(entries.next(), Ok(Some(CieOrFde::Cie(cie1.clone()))));
-        assert_eq!(entries.next(), Ok(Some(CieOrFde::Cie(cie2.clone()))));
-
-        match entries.next() {
-            Ok(Some(CieOrFde::Fde(partial))) => {
-                assert_eq!(partial.length, fde1.length);
-                assert_eq!(partial.format, fde1.format);
-                assert_eq!(partial.cie_offset, DebugFrameOffset(cie1_offset));
-
-                let get_cie = |_: &_, _: &_, offset| {
-                    assert_eq!(offset, DebugFrameOffset(cie1_offset));
-                    Ok(cie1.clone())
-                };
-                assert_eq!(partial.parse(get_cie), Ok(fde1));
-            }
-            otherwise => panic!("Unexpected result: {:#?}", otherwise),
-        }
-
-        match entries.next() {
-            Ok(Some(CieOrFde::Fde(partial))) => {
-                assert_eq!(partial.length, fde2.length);
-                assert_eq!(partial.format, fde2.format);
-                assert_eq!(partial.cie_offset, DebugFrameOffset(cie2_offset));
-
-                let get_cie = |_: &_, _: &_, offset| {
-                    assert_eq!(offset, DebugFrameOffset(cie2_offset));
-                    Ok(cie2.clone())
-                };
-                assert_eq!(partial.parse(get_cie), Ok(fde2));
-            }
-            otherwise => panic!("Unexpected result: {:#?}", otherwise),
-        }
-
-        assert_eq!(entries.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_parse_cie_from_offset() {
-        let filler = [1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let instrs: Vec<_> = (0..5).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let mut cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf64,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 4,
-            data_alignment_factor: 8,
-            return_address_register: Register(12),
-            initial_instructions: EndianSlice::new(&instrs, LittleEndian),
-        };
-
-        let cie_location = Label::new();
-
-        let kind = debug_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .append_bytes(&filler)
-            .mark(&cie_location)
-            .cie(kind, None, &mut cie)
-            .append_bytes(&filler);
-
-        section.start().set_const(0);
-
-        let cie_offset = DebugFrameOffset(cie_location.value().unwrap() as usize);
-
-        let contents = section.get_contents().unwrap();
-        let debug_frame = kind.section(&contents);
-        let bases = Default::default();
-
-        assert_eq!(debug_frame.cie_from_offset(&bases, cie_offset), Ok(cie));
-    }
-
-    fn parse_cfi_instruction<R: Reader + Default>(
-        input: &mut R,
-        address_size: u8,
-    ) -> Result<CallFrameInstruction<R>> {
-        let parameters = &PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size,
-            section: &R::default(),
-        };
-        CallFrameInstruction::parse(input, None, parameters)
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_advance_loc() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_delta = 42;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_advance_loc.0 | expected_delta)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::AdvanceLoc {
-                delta: u32::from(expected_delta),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_offset() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 3;
-        let expected_offset = 1997;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_offset.0 | expected_reg)
-            .uleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Offset {
-                register: Register(expected_reg.into()),
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_restore() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 3;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_restore.0 | expected_reg)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Restore {
-                register: Register(expected_reg.into()),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_nop() {
-        let expected_rest = [1, 2, 3, 4];
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_nop.0)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Nop)
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_set_loc() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_addr = 0xdead_beef;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_set_loc.0)
-            .L64(expected_addr)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::SetLoc {
-                address: expected_addr,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_set_loc_encoding() {
-        let text_base = 0xfeed_face;
-        let addr_offset = 0xbeef;
-        let expected_addr = text_base + addr_offset;
-        let expected_rest = [1, 2, 3, 4];
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_set_loc.0)
-            .L64(addr_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        let parameters = &PointerEncodingParameters {
-            bases: &BaseAddresses::default().set_text(text_base).eh_frame,
-            func_base: None,
-            address_size: 8,
-            section: &EndianSlice::new(&[], LittleEndian),
-        };
-        assert_eq!(
-            CallFrameInstruction::parse(input, Some(constants::DW_EH_PE_textrel), parameters),
-            Ok(CallFrameInstruction::SetLoc {
-                address: expected_addr,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_advance_loc1() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_delta = 8;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_advance_loc1.0)
-            .D8(expected_delta)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::AdvanceLoc {
-                delta: u32::from(expected_delta),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_advance_loc2() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_delta = 500;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_advance_loc2.0)
-            .L16(expected_delta)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::AdvanceLoc {
-                delta: u32::from(expected_delta),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_advance_loc4() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_delta = 1 << 20;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_advance_loc4.0)
-            .L32(expected_delta)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::AdvanceLoc {
-                delta: expected_delta,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_offset_extended() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 7;
-        let expected_offset = 33;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_offset_extended.0)
-            .uleb(expected_reg.into())
-            .uleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Offset {
-                register: Register(expected_reg),
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_restore_extended() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 7;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_restore_extended.0)
-            .uleb(expected_reg.into())
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Restore {
-                register: Register(expected_reg),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_undefined() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 7;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_undefined.0)
-            .uleb(expected_reg.into())
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Undefined {
-                register: Register(expected_reg),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_same_value() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 7;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_same_value.0)
-            .uleb(expected_reg.into())
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::SameValue {
-                register: Register(expected_reg),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_register() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_dest_reg = 7;
-        let expected_src_reg = 8;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_register.0)
-            .uleb(expected_dest_reg.into())
-            .uleb(expected_src_reg.into())
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Register {
-                dest_register: Register(expected_dest_reg),
-                src_register: Register(expected_src_reg),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_remember_state() {
-        let expected_rest = [1, 2, 3, 4];
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_remember_state.0)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::RememberState)
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_restore_state() {
-        let expected_rest = [1, 2, 3, 4];
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_restore_state.0)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::RestoreState)
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_def_cfa() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 2;
-        let expected_offset = 0;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_def_cfa.0)
-            .uleb(expected_reg.into())
-            .uleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::DefCfa {
-                register: Register(expected_reg),
-                offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_def_cfa_register() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 2;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_def_cfa_register.0)
-            .uleb(expected_reg.into())
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::DefCfaRegister {
-                register: Register(expected_reg),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_def_cfa_offset() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_offset = 23;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_def_cfa_offset.0)
-            .uleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::DefCfaOffset {
-                offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_def_cfa_expression() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_expr = [10, 9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let length = Label::new();
-        let start = Label::new();
-        let end = Label::new();
-
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_def_cfa_expression.0)
-            .D8(&length)
-            .mark(&start)
-            .append_bytes(&expected_expr)
-            .mark(&end)
-            .append_bytes(&expected_rest);
-
-        length.set_const((&end - &start) as u64);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::DefCfaExpression {
-                expression: Expression(EndianSlice::new(&expected_expr, LittleEndian)),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_expression() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 99;
-        let expected_expr = [10, 9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let length = Label::new();
-        let start = Label::new();
-        let end = Label::new();
-
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_expression.0)
-            .uleb(expected_reg.into())
-            .D8(&length)
-            .mark(&start)
-            .append_bytes(&expected_expr)
-            .mark(&end)
-            .append_bytes(&expected_rest);
-
-        length.set_const((&end - &start) as u64);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::Expression {
-                register: Register(expected_reg),
-                expression: Expression(EndianSlice::new(&expected_expr, LittleEndian)),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_offset_extended_sf() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 7;
-        let expected_offset = -33;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_offset_extended_sf.0)
-            .uleb(expected_reg.into())
-            .sleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::OffsetExtendedSf {
-                register: Register(expected_reg),
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_def_cfa_sf() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 2;
-        let expected_offset = -9999;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_def_cfa_sf.0)
-            .uleb(expected_reg.into())
-            .sleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::DefCfaSf {
-                register: Register(expected_reg),
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_def_cfa_offset_sf() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_offset = -123;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_def_cfa_offset_sf.0)
-            .sleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::DefCfaOffsetSf {
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_val_offset() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 50;
-        let expected_offset = 23;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_val_offset.0)
-            .uleb(expected_reg.into())
-            .uleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::ValOffset {
-                register: Register(expected_reg),
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_val_offset_sf() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 50;
-        let expected_offset = -23;
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_val_offset_sf.0)
-            .uleb(expected_reg.into())
-            .sleb(expected_offset)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::ValOffsetSf {
-                register: Register(expected_reg),
-                factored_offset: expected_offset,
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_val_expression() {
-        let expected_rest = [1, 2, 3, 4];
-        let expected_reg = 50;
-        let expected_expr = [2, 2, 1, 1, 5, 5];
-
-        let length = Label::new();
-        let start = Label::new();
-        let end = Label::new();
-
-        let section = Section::with_endian(Endian::Little)
-            .D8(constants::DW_CFA_val_expression.0)
-            .uleb(expected_reg.into())
-            .D8(&length)
-            .mark(&start)
-            .append_bytes(&expected_expr)
-            .mark(&end)
-            .append_bytes(&expected_rest);
-
-        length.set_const((&end - &start) as u64);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Ok(CallFrameInstruction::ValExpression {
-                register: Register(expected_reg),
-                expression: Expression(EndianSlice::new(&expected_expr, LittleEndian)),
-            })
-        );
-        assert_eq!(*input, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_cfi_instruction_unknown_instruction() {
-        let expected_rest = [1, 2, 3, 4];
-        let unknown_instr = constants::DwCfa(0b0011_1111);
-        let section = Section::with_endian(Endian::Little)
-            .D8(unknown_instr.0)
-            .append_bytes(&expected_rest);
-        let contents = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&contents, LittleEndian);
-        assert_eq!(
-            parse_cfi_instruction(input, 8),
-            Err(Error::UnknownCallFrameInstruction(unknown_instr))
-        );
-    }
-
-    #[test]
-    fn test_call_frame_instruction_iter_ok() {
-        let expected_reg = 50;
-        let expected_expr = [2, 2, 1, 1, 5, 5];
-        let expected_delta = 230;
-
-        let length = Label::new();
-        let start = Label::new();
-        let end = Label::new();
-
-        let section = Section::with_endian(Endian::Big)
-            .D8(constants::DW_CFA_val_expression.0)
-            .uleb(expected_reg.into())
-            .D8(&length)
-            .mark(&start)
-            .append_bytes(&expected_expr)
-            .mark(&end)
-            .D8(constants::DW_CFA_advance_loc1.0)
-            .D8(expected_delta);
-
-        length.set_const((&end - &start) as u64);
-        let contents = section.get_contents().unwrap();
-        let input = EndianSlice::new(&contents, BigEndian);
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 8,
-            section: &EndianSlice::default(),
-        };
-        let mut iter = CallFrameInstructionIter {
-            input,
-            address_encoding: None,
-            parameters,
-        };
-
-        assert_eq!(
-            iter.next(),
-            Ok(Some(CallFrameInstruction::ValExpression {
-                register: Register(expected_reg),
-                expression: Expression(EndianSlice::new(&expected_expr, BigEndian)),
-            }))
-        );
-
-        assert_eq!(
-            iter.next(),
-            Ok(Some(CallFrameInstruction::AdvanceLoc {
-                delta: u32::from(expected_delta),
-            }))
-        );
-
-        assert_eq!(iter.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_call_frame_instruction_iter_err() {
-        // DW_CFA_advance_loc1 without an operand.
-        let section = Section::with_endian(Endian::Big).D8(constants::DW_CFA_advance_loc1.0);
-
-        let contents = section.get_contents().unwrap();
-        let input = EndianSlice::new(&contents, BigEndian);
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 8,
-            section: &EndianSlice::default(),
-        };
-        let mut iter = CallFrameInstructionIter {
-            input,
-            address_encoding: None,
-            parameters,
-        };
-
-        assert_eq!(
-            iter.next().map_eof(&contents),
-            Err(Error::UnexpectedEof(ReaderOffsetId(1)))
-        );
-        assert_eq!(iter.next(), Ok(None));
-    }
-
-    fn assert_eval<'a, I>(
-        mut initial_ctx: UnwindContext<EndianSlice<'a, LittleEndian>>,
-        expected_ctx: UnwindContext<EndianSlice<'a, LittleEndian>>,
-        cie: CommonInformationEntry<EndianSlice<'a, LittleEndian>>,
-        fde: Option<FrameDescriptionEntry<EndianSlice<'a, LittleEndian>>>,
-        instructions: I,
-    ) where
-        I: AsRef<
-            [(
-                Result<bool>,
-                CallFrameInstruction<EndianSlice<'a, LittleEndian>>,
-            )],
-        >,
-    {
-        {
-            let section = &DebugFrame::from(EndianSlice::default());
-            let bases = &BaseAddresses::default();
-            let mut table = match fde {
-                Some(fde) => UnwindTable::new_for_fde(section, bases, &mut initial_ctx, &fde),
-                None => UnwindTable::new_for_cie(section, bases, &mut initial_ctx, &cie),
-            };
-            for &(ref expected_result, ref instruction) in instructions.as_ref() {
-                assert_eq!(*expected_result, table.evaluate(instruction.clone()));
-            }
-        }
-
-        assert_eq!(expected_ctx, initial_ctx);
-    }
-
-    fn make_test_cie<'a>() -> CommonInformationEntry<EndianSlice<'a, LittleEndian>> {
-        CommonInformationEntry {
-            offset: 0,
-            format: Format::Dwarf64,
-            length: 0,
-            return_address_register: Register(0),
-            version: 4,
-            address_size: mem::size_of::<usize>() as u8,
-            initial_instructions: EndianSlice::new(&[], LittleEndian),
-            augmentation: None,
-            segment_size: 0,
-            data_alignment_factor: 2,
-            code_alignment_factor: 3,
-        }
-    }
-
-    #[test]
-    fn test_eval_set_loc() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected.row_mut().end_address = 42;
-        let instructions = [(Ok(true), CallFrameInstruction::SetLoc { address: 42 })];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_set_loc_backwards() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.row_mut().start_address = 999;
-        let expected = ctx.clone();
-        let instructions = [(
-            Err(Error::InvalidAddressRange),
-            CallFrameInstruction::SetLoc { address: 42 },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_advance_loc() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.row_mut().start_address = 3;
-        let mut expected = ctx.clone();
-        expected.row_mut().end_address = 3 + 2 * cie.code_alignment_factor;
-        let instructions = [(Ok(true), CallFrameInstruction::AdvanceLoc { delta: 2 })];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_advance_loc_overflow() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.row_mut().start_address = u64::MAX;
-        let mut expected = ctx.clone();
-        expected.row_mut().end_address = 42 * cie.code_alignment_factor - 1;
-        let instructions = [(Ok(true), CallFrameInstruction::AdvanceLoc { delta: 42 })];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected.set_cfa(CfaRule::RegisterAndOffset {
-            register: Register(42),
-            offset: 36,
-        });
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::DefCfa {
-                register: Register(42),
-                offset: 36,
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa_sf() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected.set_cfa(CfaRule::RegisterAndOffset {
-            register: Register(42),
-            offset: 36 * cie.data_alignment_factor as i64,
-        });
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::DefCfaSf {
-                register: Register(42),
-                factored_offset: 36,
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa_register() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.set_cfa(CfaRule::RegisterAndOffset {
-            register: Register(3),
-            offset: 8,
-        });
-        let mut expected = ctx.clone();
-        expected.set_cfa(CfaRule::RegisterAndOffset {
-            register: Register(42),
-            offset: 8,
-        });
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::DefCfaRegister {
-                register: Register(42),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa_register_invalid_context() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.set_cfa(CfaRule::Expression(Expression(EndianSlice::new(
-            &[],
-            LittleEndian,
-        ))));
-        let expected = ctx.clone();
-        let instructions = [(
-            Err(Error::CfiInstructionInInvalidContext),
-            CallFrameInstruction::DefCfaRegister {
-                register: Register(42),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa_offset() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.set_cfa(CfaRule::RegisterAndOffset {
-            register: Register(3),
-            offset: 8,
-        });
-        let mut expected = ctx.clone();
-        expected.set_cfa(CfaRule::RegisterAndOffset {
-            register: Register(3),
-            offset: 42,
-        });
-        let instructions = [(Ok(false), CallFrameInstruction::DefCfaOffset { offset: 42 })];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa_offset_invalid_context() {
-        let cie = make_test_cie();
-        let mut ctx = UnwindContext::new();
-        ctx.set_cfa(CfaRule::Expression(Expression(EndianSlice::new(
-            &[],
-            LittleEndian,
-        ))));
-        let expected = ctx.clone();
-        let instructions = [(
-            Err(Error::CfiInstructionInInvalidContext),
-            CallFrameInstruction::DefCfaOffset { offset: 1993 },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_def_cfa_expression() {
-        let expr = [1, 2, 3, 4];
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected.set_cfa(CfaRule::Expression(Expression(EndianSlice::new(
-            &expr,
-            LittleEndian,
-        ))));
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::DefCfaExpression {
-                expression: Expression(EndianSlice::new(&expr, LittleEndian)),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_undefined() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(Register(5), RegisterRule::Undefined)
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::Undefined {
-                register: Register(5),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_same_value() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(Register(0), RegisterRule::SameValue)
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::SameValue {
-                register: Register(0),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_offset() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(
-                Register(2),
-                RegisterRule::Offset(3 * cie.data_alignment_factor),
-            )
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::Offset {
-                register: Register(2),
-                factored_offset: 3,
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_offset_extended_sf() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(
-                Register(4),
-                RegisterRule::Offset(-3 * cie.data_alignment_factor),
-            )
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::OffsetExtendedSf {
-                register: Register(4),
-                factored_offset: -3,
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_val_offset() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(
-                Register(5),
-                RegisterRule::ValOffset(7 * cie.data_alignment_factor),
-            )
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::ValOffset {
-                register: Register(5),
-                factored_offset: 7,
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_val_offset_sf() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(
-                Register(5),
-                RegisterRule::ValOffset(-7 * cie.data_alignment_factor),
-            )
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::ValOffsetSf {
-                register: Register(5),
-                factored_offset: -7,
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_expression() {
-        let expr = [1, 2, 3, 4];
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(
-                Register(9),
-                RegisterRule::Expression(Expression(EndianSlice::new(&expr, LittleEndian))),
-            )
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::Expression {
-                register: Register(9),
-                expression: Expression(EndianSlice::new(&expr, LittleEndian)),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_val_expression() {
-        let expr = [1, 2, 3, 4];
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected
-            .set_register_rule(
-                Register(9),
-                RegisterRule::ValExpression(Expression(EndianSlice::new(&expr, LittleEndian))),
-            )
-            .unwrap();
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::ValExpression {
-                register: Register(9),
-                expression: Expression(EndianSlice::new(&expr, LittleEndian)),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_restore() {
-        let cie = make_test_cie();
-        let fde = FrameDescriptionEntry {
-            offset: 0,
-            format: Format::Dwarf64,
-            length: 0,
-            address_range: 0,
-            augmentation: None,
-            initial_address: 0,
-            initial_segment: 0,
-            cie: cie.clone(),
-            instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let mut ctx = UnwindContext::new();
-        ctx.set_register_rule(Register(0), RegisterRule::Offset(1))
-            .unwrap();
-        ctx.save_initial_rules().unwrap();
-        let expected = ctx.clone();
-        ctx.set_register_rule(Register(0), RegisterRule::Offset(2))
-            .unwrap();
-
-        let instructions = [(
-            Ok(false),
-            CallFrameInstruction::Restore {
-                register: Register(0),
-            },
-        )];
-        assert_eval(ctx, expected, cie, Some(fde), instructions);
-    }
-
-    #[test]
-    fn test_eval_restore_havent_saved_initial_context() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let expected = ctx.clone();
-        let instructions = [(
-            Err(Error::CfiInstructionInInvalidContext),
-            CallFrameInstruction::Restore {
-                register: Register(0),
-            },
-        )];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_remember_state() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let mut expected = ctx.clone();
-        expected.push_row().unwrap();
-        let instructions = [(Ok(false), CallFrameInstruction::RememberState)];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_restore_state() {
-        let cie = make_test_cie();
-
-        let mut ctx = UnwindContext::new();
-        ctx.set_start_address(1);
-        ctx.set_register_rule(Register(0), RegisterRule::SameValue)
-            .unwrap();
-        let mut expected = ctx.clone();
-        ctx.push_row().unwrap();
-        ctx.set_start_address(2);
-        ctx.set_register_rule(Register(0), RegisterRule::Offset(16))
-            .unwrap();
-
-        // Restore state should preserve current location.
-        expected.set_start_address(2);
-
-        let instructions = [
-            // First one pops just fine.
-            (Ok(false), CallFrameInstruction::RestoreState),
-            // Second pop would try to pop out of bounds.
-            (
-                Err(Error::PopWithEmptyStack),
-                CallFrameInstruction::RestoreState,
-            ),
-        ];
-
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_eval_nop() {
-        let cie = make_test_cie();
-        let ctx = UnwindContext::new();
-        let expected = ctx.clone();
-        let instructions = [(Ok(false), CallFrameInstruction::Nop)];
-        assert_eval(ctx, expected, cie, None, instructions);
-    }
-
-    #[test]
-    fn test_unwind_table_cie_no_rule() {
-        let initial_instructions = Section::with_endian(Endian::Little)
-            // The CFA is -12 from register 4.
-            .D8(constants::DW_CFA_def_cfa_sf.0)
-            .uleb(4)
-            .sleb(-12)
-            .append_repeated(constants::DW_CFA_nop.0, 4);
-        let initial_instructions = initial_instructions.get_contents().unwrap();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 8,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 1,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&initial_instructions, LittleEndian),
-        };
-
-        let instructions = Section::with_endian(Endian::Little)
-            // A bunch of nop padding.
-            .append_repeated(constants::DW_CFA_nop.0, 8);
-        let instructions = instructions.get_contents().unwrap();
-
-        let fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0,
-            address_range: 100,
-            augmentation: None,
-            instructions: EndianSlice::new(&instructions, LittleEndian),
-        };
-
-        let section = &DebugFrame::from(EndianSlice::default());
-        let bases = &BaseAddresses::default();
-        let mut ctx = Box::new(UnwindContext::new());
-
-        let mut table = fde
-            .rows(section, bases, &mut ctx)
-            .expect("Should run initial program OK");
-        assert!(table.ctx.is_initialized);
-        let expected_initial_rule = (Register(0), RegisterRule::Undefined);
-        assert_eq!(table.ctx.initial_rule, Some(expected_initial_rule));
-
-        {
-            let row = table.next_row().expect("Should evaluate first row OK");
-            let expected = UnwindTableRow {
-                start_address: 0,
-                end_address: 100,
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [].iter().collect(),
-            };
-            assert_eq!(Some(&expected), row);
-        }
-
-        // All done!
-        assert_eq!(Ok(None), table.next_row());
-        assert_eq!(Ok(None), table.next_row());
-    }
-
-    #[test]
-    fn test_unwind_table_cie_single_rule() {
-        let initial_instructions = Section::with_endian(Endian::Little)
-            // The CFA is -12 from register 4.
-            .D8(constants::DW_CFA_def_cfa_sf.0)
-            .uleb(4)
-            .sleb(-12)
-            // Register 3 is 4 from the CFA.
-            .D8(constants::DW_CFA_offset.0 | 3)
-            .uleb(4)
-            .append_repeated(constants::DW_CFA_nop.0, 4);
-        let initial_instructions = initial_instructions.get_contents().unwrap();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 8,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 1,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&initial_instructions, LittleEndian),
-        };
-
-        let instructions = Section::with_endian(Endian::Little)
-            // A bunch of nop padding.
-            .append_repeated(constants::DW_CFA_nop.0, 8);
-        let instructions = instructions.get_contents().unwrap();
-
-        let fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0,
-            address_range: 100,
-            augmentation: None,
-            instructions: EndianSlice::new(&instructions, LittleEndian),
-        };
-
-        let section = &DebugFrame::from(EndianSlice::default());
-        let bases = &BaseAddresses::default();
-        let mut ctx = Box::new(UnwindContext::new());
-
-        let mut table = fde
-            .rows(section, bases, &mut ctx)
-            .expect("Should run initial program OK");
-        assert!(table.ctx.is_initialized);
-        let expected_initial_rule = (Register(3), RegisterRule::Offset(4));
-        assert_eq!(table.ctx.initial_rule, Some(expected_initial_rule));
-
-        {
-            let row = table.next_row().expect("Should evaluate first row OK");
-            let expected = UnwindTableRow {
-                start_address: 0,
-                end_address: 100,
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [(Register(3), RegisterRule::Offset(4))].iter().collect(),
-            };
-            assert_eq!(Some(&expected), row);
-        }
-
-        // All done!
-        assert_eq!(Ok(None), table.next_row());
-        assert_eq!(Ok(None), table.next_row());
-    }
-
-    #[test]
-    fn test_unwind_table_next_row() {
-        let initial_instructions = Section::with_endian(Endian::Little)
-            // The CFA is -12 from register 4.
-            .D8(constants::DW_CFA_def_cfa_sf.0)
-            .uleb(4)
-            .sleb(-12)
-            // Register 0 is 8 from the CFA.
-            .D8(constants::DW_CFA_offset.0 | 0)
-            .uleb(8)
-            // Register 3 is 4 from the CFA.
-            .D8(constants::DW_CFA_offset.0 | 3)
-            .uleb(4)
-            .append_repeated(constants::DW_CFA_nop.0, 4);
-        let initial_instructions = initial_instructions.get_contents().unwrap();
-
-        let cie = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 8,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 1,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&initial_instructions, LittleEndian),
-        };
-
-        let instructions = Section::with_endian(Endian::Little)
-            // Initial instructions form a row, advance the address by 1.
-            .D8(constants::DW_CFA_advance_loc1.0)
-            .D8(1)
-            // Register 0 is -16 from the CFA.
-            .D8(constants::DW_CFA_offset_extended_sf.0)
-            .uleb(0)
-            .sleb(-16)
-            // Finish this row, advance the address by 32.
-            .D8(constants::DW_CFA_advance_loc1.0)
-            .D8(32)
-            // Register 3 is -4 from the CFA.
-            .D8(constants::DW_CFA_offset_extended_sf.0)
-            .uleb(3)
-            .sleb(-4)
-            // Finish this row, advance the address by 64.
-            .D8(constants::DW_CFA_advance_loc1.0)
-            .D8(64)
-            // Register 5 is 4 from the CFA.
-            .D8(constants::DW_CFA_offset.0 | 5)
-            .uleb(4)
-            // A bunch of nop padding.
-            .append_repeated(constants::DW_CFA_nop.0, 8);
-        let instructions = instructions.get_contents().unwrap();
-
-        let fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0,
-            address_range: 100,
-            augmentation: None,
-            instructions: EndianSlice::new(&instructions, LittleEndian),
-        };
-
-        let section = &DebugFrame::from(EndianSlice::default());
-        let bases = &BaseAddresses::default();
-        let mut ctx = Box::new(UnwindContext::new());
-
-        let mut table = fde
-            .rows(section, bases, &mut ctx)
-            .expect("Should run initial program OK");
-        assert!(table.ctx.is_initialized);
-        assert!(table.ctx.initial_rule.is_none());
-        let expected_initial_rules: RegisterRuleMap<_> = [
-            (Register(0), RegisterRule::Offset(8)),
-            (Register(3), RegisterRule::Offset(4)),
-        ]
-        .iter()
-        .collect();
-        assert_eq!(table.ctx.stack[0].registers, expected_initial_rules);
-
-        {
-            let row = table.next_row().expect("Should evaluate first row OK");
-            let expected = UnwindTableRow {
-                start_address: 0,
-                end_address: 1,
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [
-                    (Register(0), RegisterRule::Offset(8)),
-                    (Register(3), RegisterRule::Offset(4)),
-                ]
-                .iter()
-                .collect(),
-            };
-            assert_eq!(Some(&expected), row);
-        }
-
-        {
-            let row = table.next_row().expect("Should evaluate second row OK");
-            let expected = UnwindTableRow {
-                start_address: 1,
-                end_address: 33,
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [
-                    (Register(0), RegisterRule::Offset(-16)),
-                    (Register(3), RegisterRule::Offset(4)),
-                ]
-                .iter()
-                .collect(),
-            };
-            assert_eq!(Some(&expected), row);
-        }
-
-        {
-            let row = table.next_row().expect("Should evaluate third row OK");
-            let expected = UnwindTableRow {
-                start_address: 33,
-                end_address: 97,
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [
-                    (Register(0), RegisterRule::Offset(-16)),
-                    (Register(3), RegisterRule::Offset(-4)),
-                ]
-                .iter()
-                .collect(),
-            };
-            assert_eq!(Some(&expected), row);
-        }
-
-        {
-            let row = table.next_row().expect("Should evaluate fourth row OK");
-            let expected = UnwindTableRow {
-                start_address: 97,
-                end_address: 100,
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [
-                    (Register(0), RegisterRule::Offset(-16)),
-                    (Register(3), RegisterRule::Offset(-4)),
-                    (Register(5), RegisterRule::Offset(4)),
-                ]
-                .iter()
-                .collect(),
-            };
-            assert_eq!(Some(&expected), row);
-        }
-
-        // All done!
-        assert_eq!(Ok(None), table.next_row());
-        assert_eq!(Ok(None), table.next_row());
-    }
-
-    #[test]
-    fn test_unwind_info_for_address_ok() {
-        let instrs1 = Section::with_endian(Endian::Big)
-            // The CFA is -12 from register 4.
-            .D8(constants::DW_CFA_def_cfa_sf.0)
-            .uleb(4)
-            .sleb(-12);
-        let instrs1 = instrs1.get_contents().unwrap();
-
-        let instrs2: Vec<_> = (0..8).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let instrs3 = Section::with_endian(Endian::Big)
-            // Initial instructions form a row, advance the address by 100.
-            .D8(constants::DW_CFA_advance_loc1.0)
-            .D8(100)
-            // Register 0 is -16 from the CFA.
-            .D8(constants::DW_CFA_offset_extended_sf.0)
-            .uleb(0)
-            .sleb(-16);
-        let instrs3 = instrs3.get_contents().unwrap();
-
-        let instrs4: Vec<_> = (0..16).map(|_| constants::DW_CFA_nop.0).collect();
-
-        let mut cie1 = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 8,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 1,
-            return_address_register: Register(3),
-            initial_instructions: EndianSlice::new(&instrs1, BigEndian),
-        };
-
-        let mut cie2 = CommonInformationEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            version: 4,
-            augmentation: None,
-            address_size: 4,
-            segment_size: 0,
-            code_alignment_factor: 1,
-            data_alignment_factor: 1,
-            return_address_register: Register(1),
-            initial_instructions: EndianSlice::new(&instrs2, BigEndian),
-        };
-
-        let cie1_location = Label::new();
-        let cie2_location = Label::new();
-
-        // Write the CIEs first so that their length gets set before we clone
-        // them into the FDEs and our equality assertions down the line end up
-        // with all the CIEs always having he correct length.
-        let kind = debug_frame_be();
-        let section = Section::with_endian(kind.endian())
-            .mark(&cie1_location)
-            .cie(kind, None, &mut cie1)
-            .mark(&cie2_location)
-            .cie(kind, None, &mut cie2);
-
-        let mut fde1 = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie1.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 200,
-            augmentation: None,
-            instructions: EndianSlice::new(&instrs3, BigEndian),
-        };
-
-        let mut fde2 = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie2.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_face,
-            address_range: 9000,
-            augmentation: None,
-            instructions: EndianSlice::new(&instrs4, BigEndian),
-        };
-
-        let section =
-            section
-                .fde(kind, &cie1_location, &mut fde1)
-                .fde(kind, &cie2_location, &mut fde2);
-        section.start().set_const(0);
-
-        let contents = section.get_contents().unwrap();
-        let debug_frame = kind.section(&contents);
-
-        // Get the second row of the unwind table in `instrs3`.
-        let bases = Default::default();
-        let mut ctx = Box::new(UnwindContext::new());
-        let result = debug_frame.unwind_info_for_address(
-            &bases,
-            &mut ctx,
-            0xfeed_beef + 150,
-            DebugFrame::cie_from_offset,
-        );
-        assert!(result.is_ok());
-        let unwind_info = result.unwrap();
-
-        assert_eq!(
-            *unwind_info,
-            UnwindTableRow {
-                start_address: fde1.initial_address() + 100,
-                end_address: fde1.initial_address() + fde1.len(),
-                saved_args_size: 0,
-                cfa: CfaRule::RegisterAndOffset {
-                    register: Register(4),
-                    offset: -12,
-                },
-                registers: [(Register(0), RegisterRule::Offset(-16))].iter().collect(),
-            }
-        );
-    }
-
-    #[test]
-    fn test_unwind_info_for_address_not_found() {
-        let debug_frame = DebugFrame::new(&[], NativeEndian);
-        let bases = Default::default();
-        let mut ctx = Box::new(UnwindContext::new());
-        let result = debug_frame.unwind_info_for_address(
-            &bases,
-            &mut ctx,
-            0xbadb_ad99,
-            DebugFrame::cie_from_offset,
-        );
-        assert!(result.is_err());
-        assert_eq!(result.unwrap_err(), Error::NoUnwindInfoForAddress);
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_unknown_version() {
-        let bases = BaseAddresses::default();
-        let buf = &[42];
-        let result = EhFrameHdr::new(buf, NativeEndian).parse(&bases, 8);
-        assert!(result.is_err());
-        assert_eq!(result.unwrap_err(), Error::UnknownVersion(42));
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_omit_ehptr() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0xff)
-            .L8(0x03)
-            .L8(0x0b)
-            .L32(2)
-            .L32(10)
-            .L32(1)
-            .L32(20)
-            .L32(2)
-            .L32(0);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_err());
-        assert_eq!(result.unwrap_err(), Error::CannotParseOmitPointerEncoding);
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_omit_count() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0x0b)
-            .L8(0xff)
-            .L8(0x0b)
-            .L32(0x12345);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_ok());
-        let result = result.unwrap();
-        assert_eq!(result.eh_frame_ptr(), Pointer::Direct(0x12345));
-        assert!(result.table().is_none());
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_omit_table() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0x0b)
-            .L8(0x03)
-            .L8(0xff)
-            .L32(0x12345)
-            .L32(2);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_ok());
-        let result = result.unwrap();
-        assert_eq!(result.eh_frame_ptr(), Pointer::Direct(0x12345));
-        assert!(result.table().is_none());
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_varlen_table() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0x0b)
-            .L8(0x03)
-            .L8(0x01)
-            .L32(0x12345)
-            .L32(2);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_ok());
-        let result = result.unwrap();
-        assert_eq!(result.eh_frame_ptr(), Pointer::Direct(0x12345));
-        let table = result.table();
-        assert!(table.is_some());
-        let table = table.unwrap();
-        assert_eq!(
-            table.lookup(0, &bases),
-            Err(Error::VariableLengthSearchTable)
-        );
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_indirect_length() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0x0b)
-            .L8(0x83)
-            .L8(0x0b)
-            .L32(0x12345)
-            .L32(2);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_err());
-        assert_eq!(result.unwrap_err(), Error::UnsupportedPointerEncoding);
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_indirect_ptrs() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0x8b)
-            .L8(0x03)
-            .L8(0x8b)
-            .L32(0x12345)
-            .L32(2)
-            .L32(10)
-            .L32(1)
-            .L32(20)
-            .L32(2);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_ok());
-        let result = result.unwrap();
-        assert_eq!(result.eh_frame_ptr(), Pointer::Indirect(0x12345));
-        let table = result.table();
-        assert!(table.is_some());
-        let table = table.unwrap();
-        assert_eq!(
-            table.lookup(0, &bases),
-            Err(Error::UnsupportedPointerEncoding)
-        );
-    }
-
-    #[test]
-    fn test_eh_frame_hdr_good() {
-        let section = Section::with_endian(Endian::Little)
-            .L8(1)
-            .L8(0x0b)
-            .L8(0x03)
-            .L8(0x0b)
-            .L32(0x12345)
-            .L32(2)
-            .L32(10)
-            .L32(1)
-            .L32(20)
-            .L32(2);
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let result = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(result.is_ok());
-        let result = result.unwrap();
-        assert_eq!(result.eh_frame_ptr(), Pointer::Direct(0x12345));
-        let table = result.table();
-        assert!(table.is_some());
-        let table = table.unwrap();
-        assert_eq!(table.lookup(0, &bases), Ok(Pointer::Direct(1)));
-        assert_eq!(table.lookup(9, &bases), Ok(Pointer::Direct(1)));
-        assert_eq!(table.lookup(10, &bases), Ok(Pointer::Direct(1)));
-        assert_eq!(table.lookup(11, &bases), Ok(Pointer::Direct(1)));
-        assert_eq!(table.lookup(19, &bases), Ok(Pointer::Direct(1)));
-        assert_eq!(table.lookup(20, &bases), Ok(Pointer::Direct(2)));
-        assert_eq!(table.lookup(21, &bases), Ok(Pointer::Direct(2)));
-        assert_eq!(table.lookup(100_000, &bases), Ok(Pointer::Direct(2)));
-    }
-
-    #[test]
-    fn test_eh_frame_fde_for_address_good() {
-        // First, setup eh_frame
-        // Write the CIE first so that its length gets set before we clone it
-        // into the FDE.
-        let mut cie = make_test_cie();
-        cie.format = Format::Dwarf32;
-        cie.version = 1;
-
-        let start_of_cie = Label::new();
-        let end_of_cie = Label::new();
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .append_repeated(0, 16)
-            .mark(&start_of_cie)
-            .cie(kind, None, &mut cie)
-            .mark(&end_of_cie);
-
-        let mut fde1 = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 9,
-            address_range: 4,
-            augmentation: None,
-            instructions: EndianSlice::new(&[], LittleEndian),
-        };
-        let mut fde2 = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 20,
-            address_range: 8,
-            augmentation: None,
-            instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let start_of_fde1 = Label::new();
-        let start_of_fde2 = Label::new();
-
-        let section = section
-            // +4 for the FDE length before the CIE offset.
-            .mark(&start_of_fde1)
-            .fde(kind, (&start_of_fde1 - &start_of_cie + 4) as u64, &mut fde1)
-            .mark(&start_of_fde2)
-            .fde(kind, (&start_of_fde2 - &start_of_cie + 4) as u64, &mut fde2);
-
-        section.start().set_const(0);
-        let section = section.get_contents().unwrap();
-        let section = EndianSlice::new(&section, LittleEndian);
-        let eh_frame = kind.section(&section);
-
-        // Setup eh_frame_hdr
-        let section = Section::with_endian(kind.endian())
-            .L8(1)
-            .L8(0x0b)
-            .L8(0x03)
-            .L8(0x0b)
-            .L32(0x12345)
-            .L32(2)
-            .L32(10)
-            .L32(0x12345 + start_of_fde1.value().unwrap() as u32)
-            .L32(20)
-            .L32(0x12345 + start_of_fde2.value().unwrap() as u32);
-
-        let section = section.get_contents().unwrap();
-        let bases = BaseAddresses::default();
-        let eh_frame_hdr = EhFrameHdr::new(&section, LittleEndian).parse(&bases, 8);
-        assert!(eh_frame_hdr.is_ok());
-        let eh_frame_hdr = eh_frame_hdr.unwrap();
-
-        let table = eh_frame_hdr.table();
-        assert!(table.is_some());
-        let table = table.unwrap();
-
-        let bases = Default::default();
-        let mut iter = table.iter(&bases);
-        assert_eq!(
-            iter.next(),
-            Ok(Some((
-                Pointer::Direct(10),
-                Pointer::Direct(0x12345 + start_of_fde1.value().unwrap() as u64)
-            )))
-        );
-        assert_eq!(
-            iter.next(),
-            Ok(Some((
-                Pointer::Direct(20),
-                Pointer::Direct(0x12345 + start_of_fde2.value().unwrap() as u64)
-            )))
-        );
-        assert_eq!(iter.next(), Ok(None));
-
-        assert_eq!(
-            table.iter(&bases).nth(0),
-            Ok(Some((
-                Pointer::Direct(10),
-                Pointer::Direct(0x12345 + start_of_fde1.value().unwrap() as u64)
-            )))
-        );
-
-        assert_eq!(
-            table.iter(&bases).nth(1),
-            Ok(Some((
-                Pointer::Direct(20),
-                Pointer::Direct(0x12345 + start_of_fde2.value().unwrap() as u64)
-            )))
-        );
-        assert_eq!(table.iter(&bases).nth(2), Ok(None));
-
-        let f = |_: &_, _: &_, o: EhFrameOffset| {
-            assert_eq!(o, EhFrameOffset(start_of_cie.value().unwrap() as usize));
-            Ok(cie.clone())
-        };
-        assert_eq!(
-            table.fde_for_address(&eh_frame, &bases, 9, f),
-            Ok(fde1.clone())
-        );
-        assert_eq!(
-            table.fde_for_address(&eh_frame, &bases, 10, f),
-            Ok(fde1.clone())
-        );
-        assert_eq!(table.fde_for_address(&eh_frame, &bases, 11, f), Ok(fde1));
-        assert_eq!(
-            table.fde_for_address(&eh_frame, &bases, 19, f),
-            Err(Error::NoUnwindInfoForAddress)
-        );
-        assert_eq!(
-            table.fde_for_address(&eh_frame, &bases, 20, f),
-            Ok(fde2.clone())
-        );
-        assert_eq!(table.fde_for_address(&eh_frame, &bases, 21, f), Ok(fde2));
-        assert_eq!(
-            table.fde_for_address(&eh_frame, &bases, 100_000, f),
-            Err(Error::NoUnwindInfoForAddress)
-        );
-    }
-
-    #[test]
-    fn test_eh_frame_stops_at_zero_length() {
-        let section = Section::with_endian(Endian::Little).L32(0);
-        let section = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&section, LittleEndian);
-        let bases = Default::default();
-
-        assert_eq!(
-            parse_cfi_entry(&bases, &EhFrame::new(&*section, LittleEndian), rest),
-            Ok(None)
-        );
-
-        assert_eq!(
-            EhFrame::new(&section, LittleEndian).cie_from_offset(&bases, EhFrameOffset(0)),
-            Err(Error::NoEntryAtGivenOffset)
-        );
-    }
-
-    fn resolve_cie_offset(buf: &[u8], cie_offset: usize) -> Result<usize> {
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf64,
-            cie: make_test_cie(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 39,
-            augmentation: None,
-            instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .append_bytes(&buf)
-            .fde(kind, cie_offset as u64, &mut fde)
-            .append_bytes(&buf);
-
-        let section = section.get_contents().unwrap();
-        let eh_frame = kind.section(&section);
-        let input = &mut EndianSlice::new(&section[buf.len()..], LittleEndian);
-
-        let bases = Default::default();
-        match parse_cfi_entry(&bases, &eh_frame, input) {
-            Ok(Some(CieOrFde::Fde(partial))) => Ok(partial.cie_offset.0),
-            Err(e) => Err(e),
-            otherwise => panic!("Unexpected result: {:#?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_eh_frame_resolve_cie_offset_ok() {
-        let buf = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let cie_offset = 2;
-        // + 4 for size of length field
-        assert_eq!(
-            resolve_cie_offset(&buf, buf.len() + 4 - cie_offset),
-            Ok(cie_offset)
-        );
-    }
-
-    #[test]
-    fn test_eh_frame_resolve_cie_offset_out_of_bounds() {
-        let buf = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
-        assert_eq!(
-            resolve_cie_offset(&buf, buf.len() + 4 + 2),
-            Err(Error::OffsetOutOfBounds)
-        );
-    }
-
-    #[test]
-    fn test_eh_frame_resolve_cie_offset_underflow() {
-        let buf = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9];
-        assert_eq!(
-            resolve_cie_offset(&buf, ::core::usize::MAX),
-            Err(Error::OffsetOutOfBounds)
-        );
-    }
-
-    #[test]
-    fn test_eh_frame_fde_ok() {
-        let mut cie = make_test_cie();
-        cie.format = Format::Dwarf32;
-        cie.version = 1;
-
-        let start_of_cie = Label::new();
-        let end_of_cie = Label::new();
-
-        // Write the CIE first so that its length gets set before we clone it
-        // into the FDE.
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .append_repeated(0, 16)
-            .mark(&start_of_cie)
-            .cie(kind, None, &mut cie)
-            .mark(&end_of_cie);
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 999,
-            augmentation: None,
-            instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let section = section
-            // +4 for the FDE length before the CIE offset.
-            .fde(kind, (&end_of_cie - &start_of_cie + 4) as u64, &mut fde);
-
-        section.start().set_const(0);
-        let section = section.get_contents().unwrap();
-        let eh_frame = kind.section(&section);
-        let section = EndianSlice::new(&section, LittleEndian);
-
-        let mut offset = None;
-        match parse_fde(
-            eh_frame,
-            &mut section.range_from(end_of_cie.value().unwrap() as usize..),
-            |_, _, o| {
-                offset = Some(o);
-                assert_eq!(o, EhFrameOffset(start_of_cie.value().unwrap() as usize));
-                Ok(cie.clone())
-            },
-        ) {
-            Ok(actual) => assert_eq!(actual, fde),
-            otherwise => panic!("Unexpected result {:?}", otherwise),
-        }
-        assert!(offset.is_some());
-    }
-
-    #[test]
-    fn test_eh_frame_fde_out_of_bounds() {
-        let mut cie = make_test_cie();
-        cie.version = 1;
-
-        let end_of_cie = Label::new();
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf64,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_beef,
-            address_range: 999,
-            augmentation: None,
-            instructions: EndianSlice::new(&[], LittleEndian),
-        };
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .cie(kind, None, &mut cie)
-            .mark(&end_of_cie)
-            .fde(kind, 99_999_999_999_999, &mut fde);
-
-        section.start().set_const(0);
-        let section = section.get_contents().unwrap();
-        let eh_frame = kind.section(&section);
-        let section = EndianSlice::new(&section, LittleEndian);
-
-        let result = parse_fde(
-            eh_frame,
-            &mut section.range_from(end_of_cie.value().unwrap() as usize..),
-            UnwindSection::cie_from_offset,
-        );
-        assert_eq!(result, Err(Error::OffsetOutOfBounds));
-    }
-
-    #[test]
-    fn test_augmentation_parse_not_z_augmentation() {
-        let augmentation = &mut EndianSlice::new(b"wtf", NativeEndian);
-        let bases = Default::default();
-        let address_size = 8;
-        let section = EhFrame::new(&[], NativeEndian);
-        let input = &mut EndianSlice::new(&[], NativeEndian);
-        assert_eq!(
-            Augmentation::parse(augmentation, &bases, address_size, &section, input),
-            Err(Error::UnknownAugmentation)
-        );
-    }
-
-    #[test]
-    fn test_augmentation_parse_just_signal_trampoline() {
-        let aug_str = &mut EndianSlice::new(b"S", LittleEndian);
-        let bases = Default::default();
-        let address_size = 8;
-        let section = EhFrame::new(&[], LittleEndian);
-        let input = &mut EndianSlice::new(&[], LittleEndian);
-
-        let mut augmentation = Augmentation::default();
-        augmentation.is_signal_trampoline = true;
-
-        assert_eq!(
-            Augmentation::parse(aug_str, &bases, address_size, &section, input),
-            Ok(augmentation)
-        );
-    }
-
-    #[test]
-    fn test_augmentation_parse_unknown_part_of_z_augmentation() {
-        // The 'Z' character is not defined by the z-style augmentation.
-        let bases = Default::default();
-        let address_size = 8;
-        let section = Section::with_endian(Endian::Little)
-            .uleb(4)
-            .append_repeated(4, 4)
-            .get_contents()
-            .unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-        let input = &mut section.section().clone();
-        let augmentation = &mut EndianSlice::new(b"zZ", LittleEndian);
-        assert_eq!(
-            Augmentation::parse(augmentation, &bases, address_size, &section, input),
-            Err(Error::UnknownAugmentation)
-        );
-    }
-
-    #[test]
-    #[allow(non_snake_case)]
-    fn test_augmentation_parse_L() {
-        let bases = Default::default();
-        let address_size = 8;
-        let rest = [9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let section = Section::with_endian(Endian::Little)
-            .uleb(1)
-            .D8(constants::DW_EH_PE_uleb128.0)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-        let input = &mut section.section().clone();
-        let aug_str = &mut EndianSlice::new(b"zL", LittleEndian);
-
-        let mut augmentation = Augmentation::default();
-        augmentation.lsda = Some(constants::DW_EH_PE_uleb128);
-
-        assert_eq!(
-            Augmentation::parse(aug_str, &bases, address_size, &section, input),
-            Ok(augmentation)
-        );
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    #[allow(non_snake_case)]
-    fn test_augmentation_parse_P() {
-        let bases = Default::default();
-        let address_size = 8;
-        let rest = [9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let section = Section::with_endian(Endian::Little)
-            .uleb(9)
-            .D8(constants::DW_EH_PE_udata8.0)
-            .L64(0xf00d_f00d)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-        let input = &mut section.section().clone();
-        let aug_str = &mut EndianSlice::new(b"zP", LittleEndian);
-
-        let mut augmentation = Augmentation::default();
-        augmentation.personality = Some((constants::DW_EH_PE_udata8, Pointer::Direct(0xf00d_f00d)));
-
-        assert_eq!(
-            Augmentation::parse(aug_str, &bases, address_size, &section, input),
-            Ok(augmentation)
-        );
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    #[allow(non_snake_case)]
-    fn test_augmentation_parse_R() {
-        let bases = Default::default();
-        let address_size = 8;
-        let rest = [9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let section = Section::with_endian(Endian::Little)
-            .uleb(1)
-            .D8(constants::DW_EH_PE_udata4.0)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-        let input = &mut section.section().clone();
-        let aug_str = &mut EndianSlice::new(b"zR", LittleEndian);
-
-        let mut augmentation = Augmentation::default();
-        augmentation.fde_address_encoding = Some(constants::DW_EH_PE_udata4);
-
-        assert_eq!(
-            Augmentation::parse(aug_str, &bases, address_size, &section, input),
-            Ok(augmentation)
-        );
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    #[allow(non_snake_case)]
-    fn test_augmentation_parse_S() {
-        let bases = Default::default();
-        let address_size = 8;
-        let rest = [9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let section = Section::with_endian(Endian::Little)
-            .uleb(0)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-        let input = &mut section.section().clone();
-        let aug_str = &mut EndianSlice::new(b"zS", LittleEndian);
-
-        let mut augmentation = Augmentation::default();
-        augmentation.is_signal_trampoline = true;
-
-        assert_eq!(
-            Augmentation::parse(aug_str, &bases, address_size, &section, input),
-            Ok(augmentation)
-        );
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_augmentation_parse_all() {
-        let bases = Default::default();
-        let address_size = 8;
-        let rest = [9, 8, 7, 6, 5, 4, 3, 2, 1];
-
-        let section = Section::with_endian(Endian::Little)
-            .uleb(1 + 9 + 1)
-            // L
-            .D8(constants::DW_EH_PE_uleb128.0)
-            // P
-            .D8(constants::DW_EH_PE_udata8.0)
-            .L64(0x1bad_f00d)
-            // R
-            .D8(constants::DW_EH_PE_uleb128.0)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-        let input = &mut section.section().clone();
-        let aug_str = &mut EndianSlice::new(b"zLPRS", LittleEndian);
-
-        let augmentation = Augmentation {
-            lsda: Some(constants::DW_EH_PE_uleb128),
-            personality: Some((constants::DW_EH_PE_udata8, Pointer::Direct(0x1bad_f00d))),
-            fde_address_encoding: Some(constants::DW_EH_PE_uleb128),
-            is_signal_trampoline: true,
-        };
-
-        assert_eq!(
-            Augmentation::parse(aug_str, &bases, address_size, &section, input),
-            Ok(augmentation)
-        );
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_eh_frame_fde_no_augmentation() {
-        let instrs = [1, 2, 3, 4];
-        let cie_offset = 1;
-
-        let mut cie = make_test_cie();
-        cie.format = Format::Dwarf32;
-        cie.version = 1;
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_face,
-            address_range: 9000,
-            augmentation: None,
-            instructions: EndianSlice::new(&instrs, LittleEndian),
-        };
-
-        let rest = [1, 2, 3, 4];
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = kind.section(&section);
-        let input = &mut section.section().clone();
-
-        let result = parse_fde(section, input, |_, _, _| Ok(cie.clone()));
-        assert_eq!(result, Ok(fde));
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_eh_frame_fde_empty_augmentation() {
-        let instrs = [1, 2, 3, 4];
-        let cie_offset = 1;
-
-        let mut cie = make_test_cie();
-        cie.format = Format::Dwarf32;
-        cie.version = 1;
-        cie.augmentation = Some(Augmentation::default());
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_face,
-            address_range: 9000,
-            augmentation: Some(AugmentationData::default()),
-            instructions: EndianSlice::new(&instrs, LittleEndian),
-        };
-
-        let rest = [1, 2, 3, 4];
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = kind.section(&section);
-        let input = &mut section.section().clone();
-
-        let result = parse_fde(section, input, |_, _, _| Ok(cie.clone()));
-        assert_eq!(result, Ok(fde));
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_eh_frame_fde_lsda_augmentation() {
-        let instrs = [1, 2, 3, 4];
-        let cie_offset = 1;
-
-        let mut cie = make_test_cie();
-        cie.format = Format::Dwarf32;
-        cie.version = 1;
-        cie.augmentation = Some(Augmentation::default());
-        cie.augmentation.as_mut().unwrap().lsda = Some(constants::DW_EH_PE_absptr);
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_face,
-            address_range: 9000,
-            augmentation: Some(AugmentationData {
-                lsda: Some(Pointer::Direct(0x1122_3344)),
-            }),
-            instructions: EndianSlice::new(&instrs, LittleEndian),
-        };
-
-        let rest = [1, 2, 3, 4];
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = kind.section(&section);
-        let input = &mut section.section().clone();
-
-        let result = parse_fde(section, input, |_, _, _| Ok(cie.clone()));
-        assert_eq!(result, Ok(fde));
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_eh_frame_fde_lsda_function_relative() {
-        let instrs = [1, 2, 3, 4];
-        let cie_offset = 1;
-
-        let mut cie = make_test_cie();
-        cie.format = Format::Dwarf32;
-        cie.version = 1;
-        cie.augmentation = Some(Augmentation::default());
-        cie.augmentation.as_mut().unwrap().lsda = Some(constants::DwEhPe(
-            constants::DW_EH_PE_funcrel.0 | constants::DW_EH_PE_absptr.0,
-        ));
-
-        let mut fde = FrameDescriptionEntry {
-            offset: 0,
-            length: 0,
-            format: Format::Dwarf32,
-            cie: cie.clone(),
-            initial_segment: 0,
-            initial_address: 0xfeed_face,
-            address_range: 9000,
-            augmentation: Some(AugmentationData {
-                lsda: Some(Pointer::Direct(0xbeef)),
-            }),
-            instructions: EndianSlice::new(&instrs, LittleEndian),
-        };
-
-        let rest = [1, 2, 3, 4];
-
-        let kind = eh_frame_le();
-        let section = Section::with_endian(kind.endian())
-            .append_repeated(10, 10)
-            .fde(kind, cie_offset, &mut fde)
-            .append_bytes(&rest)
-            .get_contents()
-            .unwrap();
-        let section = kind.section(&section);
-        let input = &mut section.section().range_from(10..);
-
-        // Adjust the FDE's augmentation to be relative to the function.
-        fde.augmentation.as_mut().unwrap().lsda = Some(Pointer::Direct(0xfeed_face + 0xbeef));
-
-        let result = parse_fde(section, input, |_, _, _| Ok(cie.clone()));
-        assert_eq!(result, Ok(fde));
-        assert_eq!(*input, EndianSlice::new(&rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_eh_frame_cie_personality_function_relative_bad_context() {
-        let instrs = [1, 2, 3, 4];
-
-        let length = Label::new();
-        let start = Label::new();
-        let end = Label::new();
-
-        let aug_len = Label::new();
-        let aug_start = Label::new();
-        let aug_end = Label::new();
-
-        let section = Section::with_endian(Endian::Little)
-            // Length
-            .L32(&length)
-            .mark(&start)
-            // CIE ID
-            .L32(0)
-            // Version
-            .D8(1)
-            // Augmentation
-            .append_bytes(b"zP\0")
-            // Code alignment factor
-            .uleb(1)
-            // Data alignment factor
-            .sleb(1)
-            // Return address register
-            .uleb(1)
-            // Augmentation data length. This is a uleb, be we rely on the value
-            // being less than 2^7 and therefore a valid uleb (can't use Label
-            // with uleb).
-            .D8(&aug_len)
-            .mark(&aug_start)
-            // Augmentation data. Personality encoding and then encoded pointer.
-            .D8(constants::DW_EH_PE_funcrel.0 | constants::DW_EH_PE_uleb128.0)
-            .uleb(1)
-            .mark(&aug_end)
-            // Initial instructions
-            .append_bytes(&instrs)
-            .mark(&end);
-
-        length.set_const((&end - &start) as u64);
-        aug_len.set_const((&aug_end - &aug_start) as u64);
-
-        let section = section.get_contents().unwrap();
-        let section = EhFrame::new(&section, LittleEndian);
-
-        let bases = BaseAddresses::default();
-        let mut iter = section.entries(&bases);
-        assert_eq!(iter.next(), Err(Error::FuncRelativePointerInBadContext));
-    }
-
-    #[test]
-    fn register_rule_map_eq() {
-        // Different order, but still equal.
-        let map1: RegisterRuleMap<EndianSlice<LittleEndian>> = [
-            (Register(0), RegisterRule::SameValue),
-            (Register(3), RegisterRule::Offset(1)),
-        ]
-        .iter()
-        .collect();
-        let map2: RegisterRuleMap<EndianSlice<LittleEndian>> = [
-            (Register(3), RegisterRule::Offset(1)),
-            (Register(0), RegisterRule::SameValue),
-        ]
-        .iter()
-        .collect();
-        assert_eq!(map1, map2);
-        assert_eq!(map2, map1);
-
-        // Not equal.
-        let map3: RegisterRuleMap<EndianSlice<LittleEndian>> = [
-            (Register(0), RegisterRule::SameValue),
-            (Register(2), RegisterRule::Offset(1)),
-        ]
-        .iter()
-        .collect();
-        let map4: RegisterRuleMap<EndianSlice<LittleEndian>> = [
-            (Register(3), RegisterRule::Offset(1)),
-            (Register(0), RegisterRule::SameValue),
-        ]
-        .iter()
-        .collect();
-        assert!(map3 != map4);
-        assert!(map4 != map3);
-
-        // One has undefined explicitly set, other implicitly has undefined.
-        let mut map5 = RegisterRuleMap::<EndianSlice<LittleEndian>>::default();
-        map5.set(Register(0), RegisterRule::SameValue).unwrap();
-        map5.set(Register(0), RegisterRule::Undefined).unwrap();
-        let map6 = RegisterRuleMap::<EndianSlice<LittleEndian>>::default();
-        assert_eq!(map5, map6);
-        assert_eq!(map6, map5);
-    }
-
-    #[test]
-    fn iter_register_rules() {
-        let mut row = UnwindTableRow::<EndianSlice<LittleEndian>>::default();
-        row.registers = [
-            (Register(0), RegisterRule::SameValue),
-            (Register(1), RegisterRule::Offset(1)),
-            (Register(2), RegisterRule::ValOffset(2)),
-        ]
-        .iter()
-        .collect();
-
-        let mut found0 = false;
-        let mut found1 = false;
-        let mut found2 = false;
-
-        for &(register, ref rule) in row.registers() {
-            match register.0 {
-                0 => {
-                    assert_eq!(found0, false);
-                    found0 = true;
-                    assert_eq!(*rule, RegisterRule::SameValue);
-                }
-                1 => {
-                    assert_eq!(found1, false);
-                    found1 = true;
-                    assert_eq!(*rule, RegisterRule::Offset(1));
-                }
-                2 => {
-                    assert_eq!(found2, false);
-                    found2 = true;
-                    assert_eq!(*rule, RegisterRule::ValOffset(2));
-                }
-                x => panic!("Unexpected register rule: ({}, {:?})", x, rule),
-            }
-        }
-
-        assert_eq!(found0, true);
-        assert_eq!(found1, true);
-        assert_eq!(found2, true);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn size_of_unwind_ctx() {
-        use core::mem;
-        let size = mem::size_of::<UnwindContext<EndianSlice<NativeEndian>>>();
-        let max_size = 30968;
-        if size > max_size {
-            assert_eq!(size, max_size);
-        }
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn size_of_register_rule_map() {
-        use core::mem;
-        let size = mem::size_of::<RegisterRuleMap<EndianSlice<NativeEndian>>>();
-        let max_size = 6152;
-        if size > max_size {
-            assert_eq!(size, max_size);
-        }
-    }
-
-    #[test]
-    fn test_parse_pointer_encoding_ok() {
-        use crate::endianity::NativeEndian;
-        let expected =
-            constants::DwEhPe(constants::DW_EH_PE_uleb128.0 | constants::DW_EH_PE_pcrel.0);
-        let input = [expected.0, 1, 2, 3, 4];
-        let input = &mut EndianSlice::new(&input, NativeEndian);
-        assert_eq!(parse_pointer_encoding(input), Ok(expected));
-        assert_eq!(*input, EndianSlice::new(&[1, 2, 3, 4], NativeEndian));
-    }
-
-    #[test]
-    fn test_parse_pointer_encoding_bad_encoding() {
-        use crate::endianity::NativeEndian;
-        let expected =
-            constants::DwEhPe((constants::DW_EH_PE_sdata8.0 + 1) | constants::DW_EH_PE_pcrel.0);
-        let input = [expected.0, 1, 2, 3, 4];
-        let input = &mut EndianSlice::new(&input, NativeEndian);
-        assert_eq!(
-            Err(Error::UnknownPointerEncoding),
-            parse_pointer_encoding(input)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_absptr() {
-        let encoding = constants::DW_EH_PE_absptr;
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(0xf00d_f00d)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0xf00d_f00d))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_pcrel() {
-        let encoding = constants::DW_EH_PE_pcrel;
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .append_repeated(0, 0x10)
-            .L32(0x1)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input.range_from(0x10..);
-
-        let parameters = PointerEncodingParameters {
-            bases: &BaseAddresses::default().set_eh_frame(0x100).eh_frame,
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x111))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_pcrel_undefined() {
-        let encoding = constants::DW_EH_PE_pcrel;
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::PcRelativePointerButSectionBaseIsUndefined)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_textrel() {
-        let encoding = constants::DW_EH_PE_textrel;
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(0x1)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &BaseAddresses::default().set_text(0x10).eh_frame,
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x11))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_textrel_undefined() {
-        let encoding = constants::DW_EH_PE_textrel;
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::TextRelativePointerButTextBaseIsUndefined)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_datarel() {
-        let encoding = constants::DW_EH_PE_datarel;
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(0x1)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &BaseAddresses::default().set_got(0x10).eh_frame,
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x11))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_datarel_undefined() {
-        let encoding = constants::DW_EH_PE_datarel;
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::DataRelativePointerButDataBaseIsUndefined)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_funcrel() {
-        let encoding = constants::DW_EH_PE_funcrel;
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(0x1)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: Some(0x10),
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x11))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_funcrel_undefined() {
-        let encoding = constants::DW_EH_PE_funcrel;
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::FuncRelativePointerInBadContext)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_uleb128() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_uleb128.0);
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .uleb(0x12_3456)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x12_3456))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_udata2() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_udata2.0);
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L16(0x1234)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x1234))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_udata4() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_udata4.0);
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(0x1234_5678)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x1234_5678))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_udata8() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_udata8.0);
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .L64(0x1234_5678_1234_5678)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x1234_5678_1234_5678))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_sleb128() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_textrel.0 | constants::DW_EH_PE_sleb128.0);
-        let expected_rest = [1, 2, 3, 4];
-
-        let input = Section::with_endian(Endian::Little)
-            .sleb(-0x1111)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &BaseAddresses::default().set_text(0x1111_1111).eh_frame,
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(0x1111_0000))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_sdata2() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_sdata2.0);
-        let expected_rest = [1, 2, 3, 4];
-        let expected = 0x111 as i16;
-
-        let input = Section::with_endian(Endian::Little)
-            .L16(expected as u16)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(expected as u64))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_sdata4() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_sdata4.0);
-        let expected_rest = [1, 2, 3, 4];
-        let expected = 0x111_1111 as i32;
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(expected as u32)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(expected as u64))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_sdata8() {
-        let encoding =
-            constants::DwEhPe(constants::DW_EH_PE_absptr.0 | constants::DW_EH_PE_sdata8.0);
-        let expected_rest = [1, 2, 3, 4];
-        let expected = -0x11_1111_1222_2222 as i64;
-
-        let input = Section::with_endian(Endian::Little)
-            .L64(expected as u64)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Direct(expected as u64))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_omit() {
-        let encoding = constants::DW_EH_PE_omit;
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::CannotParseOmitPointerEncoding)
-        );
-        assert_eq!(rest, input);
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_bad_encoding() {
-        let encoding = constants::DwEhPe(constants::DW_EH_PE_sdata8.0 + 1);
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::UnknownPointerEncoding)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_aligned() {
-        // FIXME: support this encoding!
-
-        let encoding = constants::DW_EH_PE_aligned;
-
-        let input = Section::with_endian(Endian::Little).L32(0x1);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Err(Error::UnsupportedPointerEncoding)
-        );
-    }
-
-    #[test]
-    fn test_parse_encoded_pointer_indirect() {
-        let expected_rest = [1, 2, 3, 4];
-        let encoding = constants::DW_EH_PE_indirect;
-
-        let input = Section::with_endian(Endian::Little)
-            .L32(0x1234_5678)
-            .append_bytes(&expected_rest);
-        let input = input.get_contents().unwrap();
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut rest = input;
-
-        let parameters = PointerEncodingParameters {
-            bases: &SectionBaseAddresses::default(),
-            func_base: None,
-            address_size: 4,
-            section: &input,
-        };
-        assert_eq!(
-            parse_encoded_pointer(encoding, &parameters, &mut rest),
-            Ok(Pointer::Indirect(0x1234_5678))
-        );
-        assert_eq!(rest, EndianSlice::new(&expected_rest, LittleEndian));
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/dwarf.rs b/vendor/gimli-0.27.3/src/read/dwarf.rs
deleted file mode 100644
index bba0af3ef..000000000
--- a/vendor/gimli-0.27.3/src/read/dwarf.rs
+++ /dev/null
@@ -1,1184 +0,0 @@
-use alloc::string::String;
-use alloc::sync::Arc;
-
-use crate::common::{
-    DebugAddrBase, DebugAddrIndex, DebugInfoOffset, DebugLineStrOffset, DebugLocListsBase,
-    DebugLocListsIndex, DebugRngListsBase, DebugRngListsIndex, DebugStrOffset, DebugStrOffsetsBase,
-    DebugStrOffsetsIndex, DebugTypeSignature, DebugTypesOffset, DwarfFileType, DwoId, Encoding,
-    LocationListsOffset, RangeListsOffset, RawRangeListsOffset, SectionId, UnitSectionOffset,
-};
-use crate::constants;
-use crate::read::{
-    Abbreviations, AbbreviationsCache, AttributeValue, DebugAbbrev, DebugAddr, DebugAranges,
-    DebugCuIndex, DebugInfo, DebugInfoUnitHeadersIter, DebugLine, DebugLineStr, DebugLoc,
-    DebugLocLists, DebugRngLists, DebugStr, DebugStrOffsets, DebugTuIndex, DebugTypes,
-    DebugTypesUnitHeadersIter, DebuggingInformationEntry, EntriesCursor, EntriesRaw, EntriesTree,
-    Error, IncompleteLineProgram, LocListIter, LocationLists, Range, RangeLists, RawLocListIter,
-    RawRngListIter, Reader, ReaderOffset, ReaderOffsetId, Result, RngListIter, Section, UnitHeader,
-    UnitIndex, UnitIndexSectionIterator, UnitOffset, UnitType,
-};
-
-/// All of the commonly used DWARF sections, and other common information.
-#[derive(Debug, Default)]
-pub struct Dwarf<R> {
-    /// The `.debug_abbrev` section.
-    pub debug_abbrev: DebugAbbrev<R>,
-
-    /// The `.debug_addr` section.
-    pub debug_addr: DebugAddr<R>,
-
-    /// The `.debug_aranges` section.
-    pub debug_aranges: DebugAranges<R>,
-
-    /// The `.debug_info` section.
-    pub debug_info: DebugInfo<R>,
-
-    /// The `.debug_line` section.
-    pub debug_line: DebugLine<R>,
-
-    /// The `.debug_line_str` section.
-    pub debug_line_str: DebugLineStr<R>,
-
-    /// The `.debug_str` section.
-    pub debug_str: DebugStr<R>,
-
-    /// The `.debug_str_offsets` section.
-    pub debug_str_offsets: DebugStrOffsets<R>,
-
-    /// The `.debug_types` section.
-    pub debug_types: DebugTypes<R>,
-
-    /// The location lists in the `.debug_loc` and `.debug_loclists` sections.
-    pub locations: LocationLists<R>,
-
-    /// The range lists in the `.debug_ranges` and `.debug_rnglists` sections.
-    pub ranges: RangeLists<R>,
-
-    /// The type of this file.
-    pub file_type: DwarfFileType,
-
-    /// The DWARF sections for a supplementary object file.
-    pub sup: Option<Arc<Dwarf<R>>>,
-
-    /// A cache of previously parsed abbreviations for units in this file.
-    pub abbreviations_cache: AbbreviationsCache,
-}
-
-impl<T> Dwarf<T> {
-    /// Try to load the DWARF sections using the given loader function.
-    ///
-    /// `section` loads a DWARF section from the object file.
-    /// It should return an empty section if the section does not exist.
-    ///
-    /// `section` may either directly return a `Reader` instance (such as
-    /// `EndianSlice`), or it may return some other type and then convert
-    /// that type into a `Reader` using `Dwarf::borrow`.
-    ///
-    /// After loading, the user should set the `file_type` field and
-    /// call `load_sup` if required.
-    pub fn load<F, E>(mut section: F) -> core::result::Result<Self, E>
-    where
-        F: FnMut(SectionId) -> core::result::Result<T, E>,
-    {
-        // Section types are inferred.
-        let debug_loc = Section::load(&mut section)?;
-        let debug_loclists = Section::load(&mut section)?;
-        let debug_ranges = Section::load(&mut section)?;
-        let debug_rnglists = Section::load(&mut section)?;
-        Ok(Dwarf {
-            debug_abbrev: Section::load(&mut section)?,
-            debug_addr: Section::load(&mut section)?,
-            debug_aranges: Section::load(&mut section)?,
-            debug_info: Section::load(&mut section)?,
-            debug_line: Section::load(&mut section)?,
-            debug_line_str: Section::load(&mut section)?,
-            debug_str: Section::load(&mut section)?,
-            debug_str_offsets: Section::load(&mut section)?,
-            debug_types: Section::load(&mut section)?,
-            locations: LocationLists::new(debug_loc, debug_loclists),
-            ranges: RangeLists::new(debug_ranges, debug_rnglists),
-            file_type: DwarfFileType::Main,
-            sup: None,
-            abbreviations_cache: AbbreviationsCache::new(),
-        })
-    }
-
-    /// Load the DWARF sections from the supplementary object file.
-    ///
-    /// `section` operates the same as for `load`.
-    ///
-    /// Sets `self.sup`, replacing any previous value.
-    pub fn load_sup<F, E>(&mut self, section: F) -> core::result::Result<(), E>
-    where
-        F: FnMut(SectionId) -> core::result::Result<T, E>,
-    {
-        self.sup = Some(Arc::new(Self::load(section)?));
-        Ok(())
-    }
-
-    /// Create a `Dwarf` structure that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// It can be useful to load DWARF sections into owned data structures,
-    /// such as `Vec`. However, we do not implement the `Reader` trait
-    /// for `Vec`, because it would be very inefficient, but this trait
-    /// is required for all of the methods that parse the DWARF data.
-    /// So we first load the DWARF sections into `Vec`s, and then use
-    /// `borrow` to create `Reader`s that reference the data.
-    ///
-    /// ```rust,no_run
-    /// # fn example() -> Result<(), gimli::Error> {
-    /// # let loader = |name| -> Result<_, gimli::Error> { unimplemented!() };
-    /// # let sup_loader = |name| -> Result<_, gimli::Error> { unimplemented!() };
-    /// // Read the DWARF sections into `Vec`s with whatever object loader you're using.
-    /// let mut owned_dwarf: gimli::Dwarf<Vec<u8>> = gimli::Dwarf::load(loader)?;
-    /// owned_dwarf.load_sup(sup_loader)?;
-    /// // Create references to the DWARF sections.
-    /// let dwarf = owned_dwarf.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// # unreachable!()
-    /// # }
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> Dwarf<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        Dwarf {
-            debug_abbrev: self.debug_abbrev.borrow(&mut borrow),
-            debug_addr: self.debug_addr.borrow(&mut borrow),
-            debug_aranges: self.debug_aranges.borrow(&mut borrow),
-            debug_info: self.debug_info.borrow(&mut borrow),
-            debug_line: self.debug_line.borrow(&mut borrow),
-            debug_line_str: self.debug_line_str.borrow(&mut borrow),
-            debug_str: self.debug_str.borrow(&mut borrow),
-            debug_str_offsets: self.debug_str_offsets.borrow(&mut borrow),
-            debug_types: self.debug_types.borrow(&mut borrow),
-            locations: self.locations.borrow(&mut borrow),
-            ranges: self.ranges.borrow(&mut borrow),
-            file_type: self.file_type,
-            sup: self.sup().map(|sup| Arc::new(sup.borrow(borrow))),
-            abbreviations_cache: AbbreviationsCache::new(),
-        }
-    }
-
-    /// Return a reference to the DWARF sections for supplementary object file.
-    pub fn sup(&self) -> Option<&Dwarf<T>> {
-        self.sup.as_ref().map(Arc::as_ref)
-    }
-}
-
-impl<R: Reader> Dwarf<R> {
-    /// Iterate the unit headers in the `.debug_info` section.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    #[inline]
-    pub fn units(&self) -> DebugInfoUnitHeadersIter<R> {
-        self.debug_info.units()
-    }
-
-    /// Construct a new `Unit` from the given unit header.
-    #[inline]
-    pub fn unit(&self, header: UnitHeader<R>) -> Result<Unit<R>> {
-        Unit::new(self, header)
-    }
-
-    /// Iterate the type-unit headers in the `.debug_types` section.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    #[inline]
-    pub fn type_units(&self) -> DebugTypesUnitHeadersIter<R> {
-        self.debug_types.units()
-    }
-
-    /// Parse the abbreviations for a compilation unit.
-    #[inline]
-    pub fn abbreviations(&self, unit: &UnitHeader<R>) -> Result<Arc<Abbreviations>> {
-        self.abbreviations_cache
-            .get(&self.debug_abbrev, unit.debug_abbrev_offset())
-    }
-
-    /// Return the string offset at the given index.
-    #[inline]
-    pub fn string_offset(
-        &self,
-        unit: &Unit<R>,
-        index: DebugStrOffsetsIndex<R::Offset>,
-    ) -> Result<DebugStrOffset<R::Offset>> {
-        self.debug_str_offsets
-            .get_str_offset(unit.header.format(), unit.str_offsets_base, index)
-    }
-
-    /// Return the string at the given offset in `.debug_str`.
-    #[inline]
-    pub fn string(&self, offset: DebugStrOffset<R::Offset>) -> Result<R> {
-        self.debug_str.get_str(offset)
-    }
-
-    /// Return the string at the given offset in `.debug_line_str`.
-    #[inline]
-    pub fn line_string(&self, offset: DebugLineStrOffset<R::Offset>) -> Result<R> {
-        self.debug_line_str.get_str(offset)
-    }
-
-    /// Return an attribute value as a string slice.
-    ///
-    /// If the attribute value is one of:
-    ///
-    /// - an inline `DW_FORM_string` string
-    /// - a `DW_FORM_strp` reference to an offset into the `.debug_str` section
-    /// - a `DW_FORM_strp_sup` reference to an offset into a supplementary
-    /// object file
-    /// - a `DW_FORM_line_strp` reference to an offset into the `.debug_line_str`
-    /// section
-    /// - a `DW_FORM_strx` index into the `.debug_str_offsets` entries for the unit
-    ///
-    /// then return the attribute's string value. Returns an error if the attribute
-    /// value does not have a string form, or if a string form has an invalid value.
-    pub fn attr_string(&self, unit: &Unit<R>, attr: AttributeValue<R>) -> Result<R> {
-        match attr {
-            AttributeValue::String(string) => Ok(string),
-            AttributeValue::DebugStrRef(offset) => self.debug_str.get_str(offset),
-            AttributeValue::DebugStrRefSup(offset) => {
-                if let Some(sup) = self.sup() {
-                    sup.debug_str.get_str(offset)
-                } else {
-                    Err(Error::ExpectedStringAttributeValue)
-                }
-            }
-            AttributeValue::DebugLineStrRef(offset) => self.debug_line_str.get_str(offset),
-            AttributeValue::DebugStrOffsetsIndex(index) => {
-                let offset = self.debug_str_offsets.get_str_offset(
-                    unit.header.format(),
-                    unit.str_offsets_base,
-                    index,
-                )?;
-                self.debug_str.get_str(offset)
-            }
-            _ => Err(Error::ExpectedStringAttributeValue),
-        }
-    }
-
-    /// Return the address at the given index.
-    pub fn address(&self, unit: &Unit<R>, index: DebugAddrIndex<R::Offset>) -> Result<u64> {
-        self.debug_addr
-            .get_address(unit.encoding().address_size, unit.addr_base, index)
-    }
-
-    /// Try to return an attribute value as an address.
-    ///
-    /// If the attribute value is one of:
-    ///
-    /// - a `DW_FORM_addr`
-    /// - a `DW_FORM_addrx` index into the `.debug_addr` entries for the unit
-    ///
-    /// then return the address.
-    /// Returns `None` for other forms.
-    pub fn attr_address(&self, unit: &Unit<R>, attr: AttributeValue<R>) -> Result<Option<u64>> {
-        match attr {
-            AttributeValue::Addr(addr) => Ok(Some(addr)),
-            AttributeValue::DebugAddrIndex(index) => self.address(unit, index).map(Some),
-            _ => Ok(None),
-        }
-    }
-
-    /// Return the range list offset for the given raw offset.
-    ///
-    /// This handles adding `DW_AT_GNU_ranges_base` if required.
-    pub fn ranges_offset_from_raw(
-        &self,
-        unit: &Unit<R>,
-        offset: RawRangeListsOffset<R::Offset>,
-    ) -> RangeListsOffset<R::Offset> {
-        if self.file_type == DwarfFileType::Dwo && unit.header.version() < 5 {
-            RangeListsOffset(offset.0.wrapping_add(unit.rnglists_base.0))
-        } else {
-            RangeListsOffset(offset.0)
-        }
-    }
-
-    /// Return the range list offset at the given index.
-    pub fn ranges_offset(
-        &self,
-        unit: &Unit<R>,
-        index: DebugRngListsIndex<R::Offset>,
-    ) -> Result<RangeListsOffset<R::Offset>> {
-        self.ranges
-            .get_offset(unit.encoding(), unit.rnglists_base, index)
-    }
-
-    /// Iterate over the `RangeListEntry`s starting at the given offset.
-    pub fn ranges(
-        &self,
-        unit: &Unit<R>,
-        offset: RangeListsOffset<R::Offset>,
-    ) -> Result<RngListIter<R>> {
-        self.ranges.ranges(
-            offset,
-            unit.encoding(),
-            unit.low_pc,
-            &self.debug_addr,
-            unit.addr_base,
-        )
-    }
-
-    /// Iterate over the `RawRngListEntry`ies starting at the given offset.
-    pub fn raw_ranges(
-        &self,
-        unit: &Unit<R>,
-        offset: RangeListsOffset<R::Offset>,
-    ) -> Result<RawRngListIter<R>> {
-        self.ranges.raw_ranges(offset, unit.encoding())
-    }
-
-    /// Try to return an attribute value as a range list offset.
-    ///
-    /// If the attribute value is one of:
-    ///
-    /// - a `DW_FORM_sec_offset` reference to the `.debug_ranges` or `.debug_rnglists` sections
-    /// - a `DW_FORM_rnglistx` index into the `.debug_rnglists` entries for the unit
-    ///
-    /// then return the range list offset of the range list.
-    /// Returns `None` for other forms.
-    pub fn attr_ranges_offset(
-        &self,
-        unit: &Unit<R>,
-        attr: AttributeValue<R>,
-    ) -> Result<Option<RangeListsOffset<R::Offset>>> {
-        match attr {
-            AttributeValue::RangeListsRef(offset) => {
-                Ok(Some(self.ranges_offset_from_raw(unit, offset)))
-            }
-            AttributeValue::DebugRngListsIndex(index) => self.ranges_offset(unit, index).map(Some),
-            _ => Ok(None),
-        }
-    }
-
-    /// Try to return an attribute value as a range list entry iterator.
-    ///
-    /// If the attribute value is one of:
-    ///
-    /// - a `DW_FORM_sec_offset` reference to the `.debug_ranges` or `.debug_rnglists` sections
-    /// - a `DW_FORM_rnglistx` index into the `.debug_rnglists` entries for the unit
-    ///
-    /// then return an iterator over the entries in the range list.
-    /// Returns `None` for other forms.
-    pub fn attr_ranges(
-        &self,
-        unit: &Unit<R>,
-        attr: AttributeValue<R>,
-    ) -> Result<Option<RngListIter<R>>> {
-        match self.attr_ranges_offset(unit, attr)? {
-            Some(offset) => Ok(Some(self.ranges(unit, offset)?)),
-            None => Ok(None),
-        }
-    }
-
-    /// Return an iterator for the address ranges of a `DebuggingInformationEntry`.
-    ///
-    /// This uses `DW_AT_low_pc`, `DW_AT_high_pc` and `DW_AT_ranges`.
-    pub fn die_ranges(
-        &self,
-        unit: &Unit<R>,
-        entry: &DebuggingInformationEntry<R>,
-    ) -> Result<RangeIter<R>> {
-        let mut low_pc = None;
-        let mut high_pc = None;
-        let mut size = None;
-        let mut attrs = entry.attrs();
-        while let Some(attr) = attrs.next()? {
-            match attr.name() {
-                constants::DW_AT_low_pc => {
-                    low_pc = Some(
-                        self.attr_address(unit, attr.value())?
-                            .ok_or(Error::UnsupportedAttributeForm)?,
-                    );
-                }
-                constants::DW_AT_high_pc => match attr.value() {
-                    AttributeValue::Udata(val) => size = Some(val),
-                    attr => {
-                        high_pc = Some(
-                            self.attr_address(unit, attr)?
-                                .ok_or(Error::UnsupportedAttributeForm)?,
-                        );
-                    }
-                },
-                constants::DW_AT_ranges => {
-                    if let Some(list) = self.attr_ranges(unit, attr.value())? {
-                        return Ok(RangeIter(RangeIterInner::List(list)));
-                    }
-                }
-                _ => {}
-            }
-        }
-        let range = low_pc.and_then(|begin| {
-            let end = size.map(|size| begin + size).or(high_pc);
-            // TODO: perhaps return an error if `end` is `None`
-            end.map(|end| Range { begin, end })
-        });
-        Ok(RangeIter(RangeIterInner::Single(range)))
-    }
-
-    /// Return an iterator for the address ranges of a `Unit`.
-    ///
-    /// This uses `DW_AT_low_pc`, `DW_AT_high_pc` and `DW_AT_ranges` of the
-    /// root `DebuggingInformationEntry`.
-    pub fn unit_ranges(&self, unit: &Unit<R>) -> Result<RangeIter<R>> {
-        let mut cursor = unit.header.entries(&unit.abbreviations);
-        cursor.next_dfs()?;
-        let root = cursor.current().ok_or(Error::MissingUnitDie)?;
-        self.die_ranges(unit, root)
-    }
-
-    /// Return the location list offset at the given index.
-    pub fn locations_offset(
-        &self,
-        unit: &Unit<R>,
-        index: DebugLocListsIndex<R::Offset>,
-    ) -> Result<LocationListsOffset<R::Offset>> {
-        self.locations
-            .get_offset(unit.encoding(), unit.loclists_base, index)
-    }
-
-    /// Iterate over the `LocationListEntry`s starting at the given offset.
-    pub fn locations(
-        &self,
-        unit: &Unit<R>,
-        offset: LocationListsOffset<R::Offset>,
-    ) -> Result<LocListIter<R>> {
-        match self.file_type {
-            DwarfFileType::Main => self.locations.locations(
-                offset,
-                unit.encoding(),
-                unit.low_pc,
-                &self.debug_addr,
-                unit.addr_base,
-            ),
-            DwarfFileType::Dwo => self.locations.locations_dwo(
-                offset,
-                unit.encoding(),
-                unit.low_pc,
-                &self.debug_addr,
-                unit.addr_base,
-            ),
-        }
-    }
-
-    /// Iterate over the raw `LocationListEntry`s starting at the given offset.
-    pub fn raw_locations(
-        &self,
-        unit: &Unit<R>,
-        offset: LocationListsOffset<R::Offset>,
-    ) -> Result<RawLocListIter<R>> {
-        match self.file_type {
-            DwarfFileType::Main => self.locations.raw_locations(offset, unit.encoding()),
-            DwarfFileType::Dwo => self.locations.raw_locations_dwo(offset, unit.encoding()),
-        }
-    }
-
-    /// Try to return an attribute value as a location list offset.
-    ///
-    /// If the attribute value is one of:
-    ///
-    /// - a `DW_FORM_sec_offset` reference to the `.debug_loc` or `.debug_loclists` sections
-    /// - a `DW_FORM_loclistx` index into the `.debug_loclists` entries for the unit
-    ///
-    /// then return the location list offset of the location list.
-    /// Returns `None` for other forms.
-    pub fn attr_locations_offset(
-        &self,
-        unit: &Unit<R>,
-        attr: AttributeValue<R>,
-    ) -> Result<Option<LocationListsOffset<R::Offset>>> {
-        match attr {
-            AttributeValue::LocationListsRef(offset) => Ok(Some(offset)),
-            AttributeValue::DebugLocListsIndex(index) => {
-                self.locations_offset(unit, index).map(Some)
-            }
-            _ => Ok(None),
-        }
-    }
-
-    /// Try to return an attribute value as a location list entry iterator.
-    ///
-    /// If the attribute value is one of:
-    ///
-    /// - a `DW_FORM_sec_offset` reference to the `.debug_loc` or `.debug_loclists` sections
-    /// - a `DW_FORM_loclistx` index into the `.debug_loclists` entries for the unit
-    ///
-    /// then return an iterator over the entries in the location list.
-    /// Returns `None` for other forms.
-    pub fn attr_locations(
-        &self,
-        unit: &Unit<R>,
-        attr: AttributeValue<R>,
-    ) -> Result<Option<LocListIter<R>>> {
-        match self.attr_locations_offset(unit, attr)? {
-            Some(offset) => Ok(Some(self.locations(unit, offset)?)),
-            None => Ok(None),
-        }
-    }
-
-    /// Call `Reader::lookup_offset_id` for each section, and return the first match.
-    ///
-    /// The first element of the tuple is `true` for supplementary sections.
-    pub fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<(bool, SectionId, R::Offset)> {
-        None.or_else(|| self.debug_abbrev.lookup_offset_id(id))
-            .or_else(|| self.debug_addr.lookup_offset_id(id))
-            .or_else(|| self.debug_aranges.lookup_offset_id(id))
-            .or_else(|| self.debug_info.lookup_offset_id(id))
-            .or_else(|| self.debug_line.lookup_offset_id(id))
-            .or_else(|| self.debug_line_str.lookup_offset_id(id))
-            .or_else(|| self.debug_str.lookup_offset_id(id))
-            .or_else(|| self.debug_str_offsets.lookup_offset_id(id))
-            .or_else(|| self.debug_types.lookup_offset_id(id))
-            .or_else(|| self.locations.lookup_offset_id(id))
-            .or_else(|| self.ranges.lookup_offset_id(id))
-            .map(|(id, offset)| (false, id, offset))
-            .or_else(|| {
-                self.sup()
-                    .and_then(|sup| sup.lookup_offset_id(id))
-                    .map(|(_, id, offset)| (true, id, offset))
-            })
-    }
-
-    /// Returns a string representation of the given error.
-    ///
-    /// This uses information from the DWARF sections to provide more information in some cases.
-    pub fn format_error(&self, err: Error) -> String {
-        #[allow(clippy::single_match)]
-        match err {
-            Error::UnexpectedEof(id) => match self.lookup_offset_id(id) {
-                Some((sup, section, offset)) => {
-                    return format!(
-                        "{} at {}{}+0x{:x}",
-                        err,
-                        section.name(),
-                        if sup { "(sup)" } else { "" },
-                        offset.into_u64(),
-                    );
-                }
-                None => {}
-            },
-            _ => {}
-        }
-        err.description().into()
-    }
-}
-
-impl<R: Clone> Dwarf<R> {
-    /// Assuming `self` was loaded from a .dwo, take the appropriate
-    /// sections from `parent` (which contains the skeleton unit for this
-    /// dwo) such as `.debug_addr` and merge them into this `Dwarf`.
-    pub fn make_dwo(&mut self, parent: &Dwarf<R>) {
-        self.file_type = DwarfFileType::Dwo;
-        // These sections are always taken from the parent file and not the dwo.
-        self.debug_addr = parent.debug_addr.clone();
-        // .debug_rnglists comes from the DWO, .debug_ranges comes from the
-        // parent file.
-        self.ranges
-            .set_debug_ranges(parent.ranges.debug_ranges().clone());
-        self.sup = parent.sup.clone();
-    }
-}
-
-/// The sections from a `.dwp` file.
-#[derive(Debug)]
-pub struct DwarfPackage<R: Reader> {
-    /// The compilation unit index in the `.debug_cu_index` section.
-    pub cu_index: UnitIndex<R>,
-
-    /// The type unit index in the `.debug_tu_index` section.
-    pub tu_index: UnitIndex<R>,
-
-    /// The `.debug_abbrev.dwo` section.
-    pub debug_abbrev: DebugAbbrev<R>,
-
-    /// The `.debug_info.dwo` section.
-    pub debug_info: DebugInfo<R>,
-
-    /// The `.debug_line.dwo` section.
-    pub debug_line: DebugLine<R>,
-
-    /// The `.debug_str.dwo` section.
-    pub debug_str: DebugStr<R>,
-
-    /// The `.debug_str_offsets.dwo` section.
-    pub debug_str_offsets: DebugStrOffsets<R>,
-
-    /// The `.debug_loc.dwo` section.
-    ///
-    /// Only present when using GNU split-dwarf extension to DWARF 4.
-    pub debug_loc: DebugLoc<R>,
-
-    /// The `.debug_loclists.dwo` section.
-    pub debug_loclists: DebugLocLists<R>,
-
-    /// The `.debug_rnglists.dwo` section.
-    pub debug_rnglists: DebugRngLists<R>,
-
-    /// The `.debug_types.dwo` section.
-    ///
-    /// Only present when using GNU split-dwarf extension to DWARF 4.
-    pub debug_types: DebugTypes<R>,
-
-    /// An empty section.
-    ///
-    /// Used when creating `Dwarf<R>`.
-    pub empty: R,
-}
-
-impl<R: Reader> DwarfPackage<R> {
-    /// Try to load the `.dwp` sections using the given loader function.
-    ///
-    /// `section` loads a DWARF section from the object file.
-    /// It should return an empty section if the section does not exist.
-    pub fn load<F, E>(mut section: F, empty: R) -> core::result::Result<Self, E>
-    where
-        F: FnMut(SectionId) -> core::result::Result<R, E>,
-        E: From<Error>,
-    {
-        Ok(DwarfPackage {
-            cu_index: DebugCuIndex::load(&mut section)?.index()?,
-            tu_index: DebugTuIndex::load(&mut section)?.index()?,
-            // Section types are inferred.
-            debug_abbrev: Section::load(&mut section)?,
-            debug_info: Section::load(&mut section)?,
-            debug_line: Section::load(&mut section)?,
-            debug_str: Section::load(&mut section)?,
-            debug_str_offsets: Section::load(&mut section)?,
-            debug_loc: Section::load(&mut section)?,
-            debug_loclists: Section::load(&mut section)?,
-            debug_rnglists: Section::load(&mut section)?,
-            debug_types: Section::load(&mut section)?,
-            empty,
-        })
-    }
-
-    /// Find the compilation unit with the given DWO identifier and return its section
-    /// contributions.
-    pub fn find_cu(&self, id: DwoId, parent: &Dwarf<R>) -> Result<Option<Dwarf<R>>> {
-        let row = match self.cu_index.find(id.0) {
-            Some(row) => row,
-            None => return Ok(None),
-        };
-        self.cu_sections(row, parent).map(Some)
-    }
-
-    /// Find the type unit with the given type signature and return its section
-    /// contributions.
-    pub fn find_tu(
-        &self,
-        signature: DebugTypeSignature,
-        parent: &Dwarf<R>,
-    ) -> Result<Option<Dwarf<R>>> {
-        let row = match self.tu_index.find(signature.0) {
-            Some(row) => row,
-            None => return Ok(None),
-        };
-        self.tu_sections(row, parent).map(Some)
-    }
-
-    /// Return the section contributions of the compilation unit at the given index.
-    ///
-    /// The index must be in the range `1..cu_index.unit_count`.
-    ///
-    /// This function should only be needed by low level parsers.
-    pub fn cu_sections(&self, index: u32, parent: &Dwarf<R>) -> Result<Dwarf<R>> {
-        self.sections(self.cu_index.sections(index)?, parent)
-    }
-
-    /// Return the section contributions of the compilation unit at the given index.
-    ///
-    /// The index must be in the range `1..tu_index.unit_count`.
-    ///
-    /// This function should only be needed by low level parsers.
-    pub fn tu_sections(&self, index: u32, parent: &Dwarf<R>) -> Result<Dwarf<R>> {
-        self.sections(self.tu_index.sections(index)?, parent)
-    }
-
-    /// Return the section contributions of a unit.
-    ///
-    /// This function should only be needed by low level parsers.
-    pub fn sections(
-        &self,
-        sections: UnitIndexSectionIterator<R>,
-        parent: &Dwarf<R>,
-    ) -> Result<Dwarf<R>> {
-        let mut abbrev_offset = 0;
-        let mut abbrev_size = 0;
-        let mut info_offset = 0;
-        let mut info_size = 0;
-        let mut line_offset = 0;
-        let mut line_size = 0;
-        let mut loc_offset = 0;
-        let mut loc_size = 0;
-        let mut loclists_offset = 0;
-        let mut loclists_size = 0;
-        let mut str_offsets_offset = 0;
-        let mut str_offsets_size = 0;
-        let mut rnglists_offset = 0;
-        let mut rnglists_size = 0;
-        let mut types_offset = 0;
-        let mut types_size = 0;
-        for section in sections {
-            match section.section {
-                SectionId::DebugAbbrev => {
-                    abbrev_offset = section.offset;
-                    abbrev_size = section.size;
-                }
-                SectionId::DebugInfo => {
-                    info_offset = section.offset;
-                    info_size = section.size;
-                }
-                SectionId::DebugLine => {
-                    line_offset = section.offset;
-                    line_size = section.size;
-                }
-                SectionId::DebugLoc => {
-                    loc_offset = section.offset;
-                    loc_size = section.size;
-                }
-                SectionId::DebugLocLists => {
-                    loclists_offset = section.offset;
-                    loclists_size = section.size;
-                }
-                SectionId::DebugStrOffsets => {
-                    str_offsets_offset = section.offset;
-                    str_offsets_size = section.size;
-                }
-                SectionId::DebugRngLists => {
-                    rnglists_offset = section.offset;
-                    rnglists_size = section.size;
-                }
-                SectionId::DebugTypes => {
-                    types_offset = section.offset;
-                    types_size = section.size;
-                }
-                SectionId::DebugMacro | SectionId::DebugMacinfo => {
-                    // These are valid but we can't parse these yet.
-                }
-                _ => return Err(Error::UnknownIndexSection),
-            }
-        }
-
-        let debug_abbrev = self.debug_abbrev.dwp_range(abbrev_offset, abbrev_size)?;
-        let debug_info = self.debug_info.dwp_range(info_offset, info_size)?;
-        let debug_line = self.debug_line.dwp_range(line_offset, line_size)?;
-        let debug_loc = self.debug_loc.dwp_range(loc_offset, loc_size)?;
-        let debug_loclists = self
-            .debug_loclists
-            .dwp_range(loclists_offset, loclists_size)?;
-        let debug_str_offsets = self
-            .debug_str_offsets
-            .dwp_range(str_offsets_offset, str_offsets_size)?;
-        let debug_rnglists = self
-            .debug_rnglists
-            .dwp_range(rnglists_offset, rnglists_size)?;
-        let debug_types = self.debug_types.dwp_range(types_offset, types_size)?;
-
-        let debug_str = self.debug_str.clone();
-
-        let debug_addr = parent.debug_addr.clone();
-        let debug_ranges = parent.ranges.debug_ranges().clone();
-
-        let debug_aranges = self.empty.clone().into();
-        let debug_line_str = self.empty.clone().into();
-
-        Ok(Dwarf {
-            debug_abbrev,
-            debug_addr,
-            debug_aranges,
-            debug_info,
-            debug_line,
-            debug_line_str,
-            debug_str,
-            debug_str_offsets,
-            debug_types,
-            locations: LocationLists::new(debug_loc, debug_loclists),
-            ranges: RangeLists::new(debug_ranges, debug_rnglists),
-            file_type: DwarfFileType::Dwo,
-            sup: parent.sup.clone(),
-            abbreviations_cache: AbbreviationsCache::new(),
-        })
-    }
-}
-
-/// All of the commonly used information for a unit in the `.debug_info` or `.debug_types`
-/// sections.
-#[derive(Debug)]
-pub struct Unit<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// The header of the unit.
-    pub header: UnitHeader<R, Offset>,
-
-    /// The parsed abbreviations for the unit.
-    pub abbreviations: Arc<Abbreviations>,
-
-    /// The `DW_AT_name` attribute of the unit.
-    pub name: Option<R>,
-
-    /// The `DW_AT_comp_dir` attribute of the unit.
-    pub comp_dir: Option<R>,
-
-    /// The `DW_AT_low_pc` attribute of the unit. Defaults to 0.
-    pub low_pc: u64,
-
-    /// The `DW_AT_str_offsets_base` attribute of the unit. Defaults to 0.
-    pub str_offsets_base: DebugStrOffsetsBase<Offset>,
-
-    /// The `DW_AT_addr_base` attribute of the unit. Defaults to 0.
-    pub addr_base: DebugAddrBase<Offset>,
-
-    /// The `DW_AT_loclists_base` attribute of the unit. Defaults to 0.
-    pub loclists_base: DebugLocListsBase<Offset>,
-
-    /// The `DW_AT_rnglists_base` attribute of the unit. Defaults to 0.
-    pub rnglists_base: DebugRngListsBase<Offset>,
-
-    /// The line number program of the unit.
-    pub line_program: Option<IncompleteLineProgram<R, Offset>>,
-
-    /// The DWO ID of a skeleton unit or split compilation unit.
-    pub dwo_id: Option<DwoId>,
-}
-
-impl<R: Reader> Unit<R> {
-    /// Construct a new `Unit` from the given unit header.
-    #[inline]
-    pub fn new(dwarf: &Dwarf<R>, header: UnitHeader<R>) -> Result<Self> {
-        let abbreviations = dwarf.abbreviations(&header)?;
-        let mut unit = Unit {
-            abbreviations,
-            name: None,
-            comp_dir: None,
-            low_pc: 0,
-            str_offsets_base: DebugStrOffsetsBase::default_for_encoding_and_file(
-                header.encoding(),
-                dwarf.file_type,
-            ),
-            // NB: Because the .debug_addr section never lives in a .dwo, we can assume its base is always 0 or provided.
-            addr_base: DebugAddrBase(R::Offset::from_u8(0)),
-            loclists_base: DebugLocListsBase::default_for_encoding_and_file(
-                header.encoding(),
-                dwarf.file_type,
-            ),
-            rnglists_base: DebugRngListsBase::default_for_encoding_and_file(
-                header.encoding(),
-                dwarf.file_type,
-            ),
-            line_program: None,
-            dwo_id: match header.type_() {
-                UnitType::Skeleton(dwo_id) | UnitType::SplitCompilation(dwo_id) => Some(dwo_id),
-                _ => None,
-            },
-            header,
-        };
-        let mut name = None;
-        let mut comp_dir = None;
-        let mut line_program_offset = None;
-        let mut low_pc_attr = None;
-
-        {
-            let mut cursor = unit.header.entries(&unit.abbreviations);
-            cursor.next_dfs()?;
-            let root = cursor.current().ok_or(Error::MissingUnitDie)?;
-            let mut attrs = root.attrs();
-            while let Some(attr) = attrs.next()? {
-                match attr.name() {
-                    constants::DW_AT_name => {
-                        name = Some(attr.value());
-                    }
-                    constants::DW_AT_comp_dir => {
-                        comp_dir = Some(attr.value());
-                    }
-                    constants::DW_AT_low_pc => {
-                        low_pc_attr = Some(attr.value());
-                    }
-                    constants::DW_AT_stmt_list => {
-                        if let AttributeValue::DebugLineRef(offset) = attr.value() {
-                            line_program_offset = Some(offset);
-                        }
-                    }
-                    constants::DW_AT_str_offsets_base => {
-                        if let AttributeValue::DebugStrOffsetsBase(base) = attr.value() {
-                            unit.str_offsets_base = base;
-                        }
-                    }
-                    constants::DW_AT_addr_base | constants::DW_AT_GNU_addr_base => {
-                        if let AttributeValue::DebugAddrBase(base) = attr.value() {
-                            unit.addr_base = base;
-                        }
-                    }
-                    constants::DW_AT_loclists_base => {
-                        if let AttributeValue::DebugLocListsBase(base) = attr.value() {
-                            unit.loclists_base = base;
-                        }
-                    }
-                    constants::DW_AT_rnglists_base | constants::DW_AT_GNU_ranges_base => {
-                        if let AttributeValue::DebugRngListsBase(base) = attr.value() {
-                            unit.rnglists_base = base;
-                        }
-                    }
-                    constants::DW_AT_GNU_dwo_id => {
-                        if unit.dwo_id.is_none() {
-                            if let AttributeValue::DwoId(dwo_id) = attr.value() {
-                                unit.dwo_id = Some(dwo_id);
-                            }
-                        }
-                    }
-                    _ => {}
-                }
-            }
-        }
-
-        unit.name = match name {
-            Some(val) => dwarf.attr_string(&unit, val).ok(),
-            None => None,
-        };
-        unit.comp_dir = match comp_dir {
-            Some(val) => dwarf.attr_string(&unit, val).ok(),
-            None => None,
-        };
-        unit.line_program = match line_program_offset {
-            Some(offset) => Some(dwarf.debug_line.program(
-                offset,
-                unit.header.address_size(),
-                unit.comp_dir.clone(),
-                unit.name.clone(),
-            )?),
-            None => None,
-        };
-        if let Some(low_pc_attr) = low_pc_attr {
-            if let Some(addr) = dwarf.attr_address(&unit, low_pc_attr)? {
-                unit.low_pc = addr;
-            }
-        }
-        Ok(unit)
-    }
-
-    /// Return the encoding parameters for this unit.
-    #[inline]
-    pub fn encoding(&self) -> Encoding {
-        self.header.encoding()
-    }
-
-    /// Read the `DebuggingInformationEntry` at the given offset.
-    pub fn entry(&self, offset: UnitOffset<R::Offset>) -> Result<DebuggingInformationEntry<R>> {
-        self.header.entry(&self.abbreviations, offset)
-    }
-
-    /// Navigate this unit's `DebuggingInformationEntry`s.
-    #[inline]
-    pub fn entries(&self) -> EntriesCursor<R> {
-        self.header.entries(&self.abbreviations)
-    }
-
-    /// Navigate this unit's `DebuggingInformationEntry`s
-    /// starting at the given offset.
-    #[inline]
-    pub fn entries_at_offset(&self, offset: UnitOffset<R::Offset>) -> Result<EntriesCursor<R>> {
-        self.header.entries_at_offset(&self.abbreviations, offset)
-    }
-
-    /// Navigate this unit's `DebuggingInformationEntry`s as a tree
-    /// starting at the given offset.
-    #[inline]
-    pub fn entries_tree(&self, offset: Option<UnitOffset<R::Offset>>) -> Result<EntriesTree<R>> {
-        self.header.entries_tree(&self.abbreviations, offset)
-    }
-
-    /// Read the raw data that defines the Debugging Information Entries.
-    #[inline]
-    pub fn entries_raw(&self, offset: Option<UnitOffset<R::Offset>>) -> Result<EntriesRaw<R>> {
-        self.header.entries_raw(&self.abbreviations, offset)
-    }
-
-    /// Copy attributes that are subject to relocation from another unit. This is intended
-    /// to be used to copy attributes from a skeleton compilation unit to the corresponding
-    /// split compilation unit.
-    pub fn copy_relocated_attributes(&mut self, other: &Unit<R>) {
-        self.low_pc = other.low_pc;
-        self.addr_base = other.addr_base;
-        if self.header.version() < 5 {
-            self.rnglists_base = other.rnglists_base;
-        }
-    }
-
-    /// Find the dwo name (if any) for this unit, automatically handling the differences
-    /// between the standardized DWARF 5 split DWARF format and the pre-DWARF 5 GNU
-    /// extension.
-    ///
-    /// The returned value is relative to this unit's `comp_dir`.
-    pub fn dwo_name(&self) -> Result<Option<AttributeValue<R>>> {
-        let mut entries = self.entries();
-        if let None = entries.next_entry()? {
-            return Ok(None);
-        }
-
-        let entry = entries.current().unwrap();
-        if self.header.version() < 5 {
-            entry.attr_value(constants::DW_AT_GNU_dwo_name)
-        } else {
-            entry.attr_value(constants::DW_AT_dwo_name)
-        }
-    }
-}
-
-impl<T: ReaderOffset> UnitSectionOffset<T> {
-    /// Convert an offset to be relative to the start of the given unit,
-    /// instead of relative to the start of the section.
-    /// Returns `None` if the offset is not within the unit entries.
-    pub fn to_unit_offset<R>(&self, unit: &Unit<R>) -> Option<UnitOffset<T>>
-    where
-        R: Reader<Offset = T>,
-    {
-        let (offset, unit_offset) = match (self, unit.header.offset()) {
-            (
-                UnitSectionOffset::DebugInfoOffset(offset),
-                UnitSectionOffset::DebugInfoOffset(unit_offset),
-            ) => (offset.0, unit_offset.0),
-            (
-                UnitSectionOffset::DebugTypesOffset(offset),
-                UnitSectionOffset::DebugTypesOffset(unit_offset),
-            ) => (offset.0, unit_offset.0),
-            _ => return None,
-        };
-        let offset = match offset.checked_sub(unit_offset) {
-            Some(offset) => UnitOffset(offset),
-            None => return None,
-        };
-        if !unit.header.is_valid_offset(offset) {
-            return None;
-        }
-        Some(offset)
-    }
-}
-
-impl<T: ReaderOffset> UnitOffset<T> {
-    /// Convert an offset to be relative to the start of the .debug_info section,
-    /// instead of relative to the start of the given compilation unit.
-    ///
-    /// Does not check that the offset is valid.
-    pub fn to_unit_section_offset<R>(&self, unit: &Unit<R>) -> UnitSectionOffset<T>
-    where
-        R: Reader<Offset = T>,
-    {
-        match unit.header.offset() {
-            UnitSectionOffset::DebugInfoOffset(unit_offset) => {
-                DebugInfoOffset(unit_offset.0 + self.0).into()
-            }
-            UnitSectionOffset::DebugTypesOffset(unit_offset) => {
-                DebugTypesOffset(unit_offset.0 + self.0).into()
-            }
-        }
-    }
-}
-
-/// An iterator for the address ranges of a `DebuggingInformationEntry`.
-///
-/// Returned by `Dwarf::die_ranges` and `Dwarf::unit_ranges`.
-#[derive(Debug)]
-pub struct RangeIter<R: Reader>(RangeIterInner<R>);
-
-#[derive(Debug)]
-enum RangeIterInner<R: Reader> {
-    Single(Option<Range>),
-    List(RngListIter<R>),
-}
-
-impl<R: Reader> Default for RangeIter<R> {
-    fn default() -> Self {
-        RangeIter(RangeIterInner::Single(None))
-    }
-}
-
-impl<R: Reader> RangeIter<R> {
-    /// Advance the iterator to the next range.
-    pub fn next(&mut self) -> Result<Option<Range>> {
-        match self.0 {
-            RangeIterInner::Single(ref mut range) => Ok(range.take()),
-            RangeIterInner::List(ref mut list) => list.next(),
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for RangeIter<R> {
-    type Item = Range;
-    type Error = Error;
-
-    #[inline]
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        RangeIter::next(self)
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::read::EndianSlice;
-    use crate::{Endianity, LittleEndian};
-
-    /// Ensure that `Dwarf<R>` is covariant wrt R.
-    #[test]
-    fn test_dwarf_variance() {
-        /// This only needs to compile.
-        fn _f<'a: 'b, 'b, E: Endianity>(x: Dwarf<EndianSlice<'a, E>>) -> Dwarf<EndianSlice<'b, E>> {
-            x
-        }
-    }
-
-    /// Ensure that `Unit<R>` is covariant wrt R.
-    #[test]
-    fn test_dwarf_unit_variance() {
-        /// This only needs to compile.
-        fn _f<'a: 'b, 'b, E: Endianity>(x: Unit<EndianSlice<'a, E>>) -> Unit<EndianSlice<'b, E>> {
-            x
-        }
-    }
-
-    #[test]
-    fn test_send() {
-        fn assert_is_send<T: Send>() {}
-        assert_is_send::<Dwarf<EndianSlice<LittleEndian>>>();
-        assert_is_send::<Unit<EndianSlice<LittleEndian>>>();
-    }
-
-    #[test]
-    fn test_format_error() {
-        let mut owned_dwarf = Dwarf::load(|_| -> Result<_> { Ok(vec![1, 2]) }).unwrap();
-        owned_dwarf
-            .load_sup(|_| -> Result<_> { Ok(vec![1, 2]) })
-            .unwrap();
-        let dwarf = owned_dwarf.borrow(|section| EndianSlice::new(&section, LittleEndian));
-
-        match dwarf.debug_str.get_str(DebugStrOffset(1)) {
-            Ok(r) => panic!("Unexpected str {:?}", r),
-            Err(e) => {
-                assert_eq!(
-                    dwarf.format_error(e),
-                    "Hit the end of input before it was expected at .debug_str+0x1"
-                );
-            }
-        }
-        match dwarf.sup().unwrap().debug_str.get_str(DebugStrOffset(1)) {
-            Ok(r) => panic!("Unexpected str {:?}", r),
-            Err(e) => {
-                assert_eq!(
-                    dwarf.format_error(e),
-                    "Hit the end of input before it was expected at .debug_str(sup)+0x1"
-                );
-            }
-        }
-        assert_eq!(dwarf.format_error(Error::Io), Error::Io.description());
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/endian_reader.rs b/vendor/gimli-0.27.3/src/read/endian_reader.rs
deleted file mode 100644
index 8852b3804..000000000
--- a/vendor/gimli-0.27.3/src/read/endian_reader.rs
+++ /dev/null
@@ -1,639 +0,0 @@
-//! Defining custom `Reader`s quickly.
-
-use alloc::borrow::Cow;
-use alloc::rc::Rc;
-use alloc::string::String;
-use alloc::sync::Arc;
-use core::fmt::Debug;
-use core::ops::{Deref, Index, Range, RangeFrom, RangeTo};
-use core::slice;
-use core::str;
-use stable_deref_trait::CloneStableDeref;
-
-use crate::endianity::Endianity;
-use crate::read::{Error, Reader, ReaderOffsetId, Result};
-
-/// A reference counted, non-thread-safe slice of bytes and associated
-/// endianity.
-///
-/// ```
-/// # #[cfg(feature = "std")] {
-/// use std::rc::Rc;
-///
-/// let buf = Rc::from(&[1, 2, 3, 4][..]);
-/// let reader = gimli::EndianRcSlice::new(buf, gimli::NativeEndian);
-/// # let _ = reader;
-/// # }
-/// ```
-pub type EndianRcSlice<Endian> = EndianReader<Endian, Rc<[u8]>>;
-
-/// An atomically reference counted, thread-safe slice of bytes and associated
-/// endianity.
-///
-/// ```
-/// # #[cfg(feature = "std")] {
-/// use std::sync::Arc;
-///
-/// let buf = Arc::from(&[1, 2, 3, 4][..]);
-/// let reader = gimli::EndianArcSlice::new(buf, gimli::NativeEndian);
-/// # let _ = reader;
-/// # }
-/// ```
-pub type EndianArcSlice<Endian> = EndianReader<Endian, Arc<[u8]>>;
-
-/// An easy way to define a custom `Reader` implementation with a reference to a
-/// generic buffer of bytes and an associated endianity.
-///
-/// Note that the whole original buffer is kept alive in memory even if there is
-/// only one reader that references only a handful of bytes from that original
-/// buffer. That is, `EndianReader` will not do any copying, moving, or
-/// compacting in order to free up unused regions of the original buffer. If you
-/// require this kind of behavior, it is up to you to implement `Reader`
-/// directly by-hand.
-///
-/// # Example
-///
-/// Say you have an `mmap`ed file that you want to serve as a `gimli::Reader`.
-/// You can wrap that `mmap`ed file up in a `MmapFile` type and use
-/// `EndianReader<Rc<MmapFile>>` or `EndianReader<Arc<MmapFile>>` as readers as
-/// long as `MmapFile` dereferences to the underlying `[u8]` data.
-///
-/// ```
-/// use std::io;
-/// use std::ops::Deref;
-/// use std::path::Path;
-/// use std::slice;
-/// use std::sync::Arc;
-///
-/// /// A type that represents an `mmap`ed file.
-/// #[derive(Debug)]
-/// pub struct MmapFile {
-///     ptr: *const u8,
-///     len: usize,
-/// }
-///
-/// impl MmapFile {
-///     pub fn new(path: &Path) -> io::Result<MmapFile> {
-///         // Call `mmap` and check for errors and all that...
-/// #       unimplemented!()
-///     }
-/// }
-///
-/// impl Drop for MmapFile {
-///     fn drop(&mut self) {
-///         // Call `munmap` to clean up after ourselves...
-/// #       unimplemented!()
-///     }
-/// }
-///
-/// // And `MmapFile` can deref to a slice of the `mmap`ed region of memory.
-/// impl Deref for MmapFile {
-///     type Target = [u8];
-///     fn deref(&self) -> &[u8] {
-///         unsafe {
-///             slice::from_raw_parts(self.ptr, self.len)
-///         }
-///     }
-/// }
-///
-/// /// A type that represents a shared `mmap`ed file.
-/// #[derive(Debug, Clone)]
-/// pub struct ArcMmapFile(Arc<MmapFile>);
-///
-/// // And `ArcMmapFile` can deref to a slice of the `mmap`ed region of memory.
-/// impl Deref for ArcMmapFile {
-///     type Target = [u8];
-///     fn deref(&self) -> &[u8] {
-///         &self.0
-///     }
-/// }
-///
-/// // These are both valid for any `Rc` or `Arc`.
-/// unsafe impl gimli::StableDeref for ArcMmapFile {}
-/// unsafe impl gimli::CloneStableDeref for ArcMmapFile {}
-///
-/// /// A `gimli::Reader` that is backed by an `mmap`ed file!
-/// pub type MmapFileReader<Endian> = gimli::EndianReader<Endian, ArcMmapFile>;
-/// # fn test(_: &MmapFileReader<gimli::NativeEndian>) { }
-/// ```
-#[derive(Debug, Clone, Copy, Hash)]
-pub struct EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    range: SubRange<T>,
-    endian: Endian,
-}
-
-impl<Endian, T1, T2> PartialEq<EndianReader<Endian, T2>> for EndianReader<Endian, T1>
-where
-    Endian: Endianity,
-    T1: CloneStableDeref<Target = [u8]> + Debug,
-    T2: CloneStableDeref<Target = [u8]> + Debug,
-{
-    fn eq(&self, rhs: &EndianReader<Endian, T2>) -> bool {
-        self.bytes() == rhs.bytes()
-    }
-}
-
-impl<Endian, T> Eq for EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-}
-
-// This is separated out from `EndianReader` so that we can avoid running afoul
-// of borrowck. We need to `read_slice(&mut self, ...) -> &[u8]` and then call
-// `self.endian.read_whatever` on the result. The problem is that the returned
-// slice keeps the `&mut self` borrow active, so we wouldn't be able to access
-// `self.endian`. Splitting the sub-range out from the endian lets us work
-// around this, making it so that only the `self.range` borrow is held active,
-// not all of `self`.
-//
-// This also serves to encapsulate the unsafe code concerning `CloneStableDeref`.
-// The `bytes` member is held so that the bytes live long enough, and the
-// `CloneStableDeref` ensures these bytes never move.  The `ptr` and `len`
-// members point inside `bytes`, and are updated during read operations.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-struct SubRange<T>
-where
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    bytes: T,
-    ptr: *const u8,
-    len: usize,
-}
-
-unsafe impl<T> Send for SubRange<T> where T: CloneStableDeref<Target = [u8]> + Debug + Send {}
-
-unsafe impl<T> Sync for SubRange<T> where T: CloneStableDeref<Target = [u8]> + Debug + Sync {}
-
-impl<T> SubRange<T>
-where
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    #[inline]
-    fn new(bytes: T) -> Self {
-        let ptr = bytes.as_ptr();
-        let len = bytes.len();
-        SubRange { bytes, ptr, len }
-    }
-
-    #[inline]
-    fn bytes(&self) -> &[u8] {
-        // Safe because `T` implements `CloneStableDeref`, `bytes` can't be modified,
-        // and all operations that modify `ptr` and `len` ensure they stay in range.
-        unsafe { slice::from_raw_parts(self.ptr, self.len) }
-    }
-
-    #[inline]
-    fn len(&self) -> usize {
-        self.len
-    }
-
-    #[inline]
-    fn truncate(&mut self, len: usize) {
-        assert!(len <= self.len);
-        self.len = len;
-    }
-
-    #[inline]
-    fn skip(&mut self, len: usize) {
-        assert!(len <= self.len);
-        self.ptr = unsafe { self.ptr.add(len) };
-        self.len -= len;
-    }
-
-    #[inline]
-    fn read_slice(&mut self, len: usize) -> Option<&[u8]> {
-        if self.len() < len {
-            None
-        } else {
-            // Same as for `bytes()`.
-            let bytes = unsafe { slice::from_raw_parts(self.ptr, len) };
-            self.skip(len);
-            Some(bytes)
-        }
-    }
-}
-
-impl<Endian, T> EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    /// Construct a new `EndianReader` with the given bytes.
-    #[inline]
-    pub fn new(bytes: T, endian: Endian) -> EndianReader<Endian, T> {
-        EndianReader {
-            range: SubRange::new(bytes),
-            endian,
-        }
-    }
-
-    /// Return a reference to the raw bytes underlying this reader.
-    #[inline]
-    pub fn bytes(&self) -> &[u8] {
-        self.range.bytes()
-    }
-}
-
-/// # Range Methods
-///
-/// Unfortunately, `std::ops::Index` *must* return a reference, so we can't
-/// implement `Index<Range<usize>>` to return a new `EndianReader` the way we
-/// would like to. Instead, we abandon fancy indexing operators and have these
-/// plain old methods.
-impl<Endian, T> EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    /// Take the given `start..end` range of the underlying buffer and return a
-    /// new `EndianReader`.
-    ///
-    /// ```
-    /// # #[cfg(feature = "std")] {
-    /// use gimli::{EndianReader, LittleEndian};
-    /// use std::sync::Arc;
-    ///
-    /// let buf = Arc::<[u8]>::from(&[0x01, 0x02, 0x03, 0x04][..]);
-    /// let reader = EndianReader::new(buf.clone(), LittleEndian);
-    /// assert_eq!(reader.range(1..3),
-    ///            EndianReader::new(&buf[1..3], LittleEndian));
-    /// # }
-    /// ```
-    ///
-    /// # Panics
-    ///
-    /// Panics if the range is out of bounds.
-    pub fn range(&self, idx: Range<usize>) -> EndianReader<Endian, T> {
-        let mut r = self.clone();
-        r.range.skip(idx.start);
-        r.range.truncate(idx.len());
-        r
-    }
-
-    /// Take the given `start..` range of the underlying buffer and return a new
-    /// `EndianReader`.
-    ///
-    /// ```
-    /// # #[cfg(feature = "std")] {
-    /// use gimli::{EndianReader, LittleEndian};
-    /// use std::sync::Arc;
-    ///
-    /// let buf = Arc::<[u8]>::from(&[0x01, 0x02, 0x03, 0x04][..]);
-    /// let reader = EndianReader::new(buf.clone(), LittleEndian);
-    /// assert_eq!(reader.range_from(2..),
-    ///            EndianReader::new(&buf[2..], LittleEndian));
-    /// # }
-    /// ```
-    ///
-    /// # Panics
-    ///
-    /// Panics if the range is out of bounds.
-    pub fn range_from(&self, idx: RangeFrom<usize>) -> EndianReader<Endian, T> {
-        let mut r = self.clone();
-        r.range.skip(idx.start);
-        r
-    }
-
-    /// Take the given `..end` range of the underlying buffer and return a new
-    /// `EndianReader`.
-    ///
-    /// ```
-    /// # #[cfg(feature = "std")] {
-    /// use gimli::{EndianReader, LittleEndian};
-    /// use std::sync::Arc;
-    ///
-    /// let buf = Arc::<[u8]>::from(&[0x01, 0x02, 0x03, 0x04][..]);
-    /// let reader = EndianReader::new(buf.clone(), LittleEndian);
-    /// assert_eq!(reader.range_to(..3),
-    ///            EndianReader::new(&buf[..3], LittleEndian));
-    /// # }
-    /// ```
-    ///
-    /// # Panics
-    ///
-    /// Panics if the range is out of bounds.
-    pub fn range_to(&self, idx: RangeTo<usize>) -> EndianReader<Endian, T> {
-        let mut r = self.clone();
-        r.range.truncate(idx.end);
-        r
-    }
-}
-
-impl<Endian, T> Index<usize> for EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    type Output = u8;
-    fn index(&self, idx: usize) -> &Self::Output {
-        &self.bytes()[idx]
-    }
-}
-
-impl<Endian, T> Index<RangeFrom<usize>> for EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    type Output = [u8];
-    fn index(&self, idx: RangeFrom<usize>) -> &Self::Output {
-        &self.bytes()[idx]
-    }
-}
-
-impl<Endian, T> Deref for EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    type Target = [u8];
-    fn deref(&self) -> &Self::Target {
-        self.bytes()
-    }
-}
-
-impl<Endian, T> Reader for EndianReader<Endian, T>
-where
-    Endian: Endianity,
-    T: CloneStableDeref<Target = [u8]> + Debug,
-{
-    type Endian = Endian;
-    type Offset = usize;
-
-    #[inline]
-    fn endian(&self) -> Endian {
-        self.endian
-    }
-
-    #[inline]
-    fn len(&self) -> usize {
-        self.range.len()
-    }
-
-    #[inline]
-    fn empty(&mut self) {
-        self.range.truncate(0);
-    }
-
-    #[inline]
-    fn truncate(&mut self, len: usize) -> Result<()> {
-        if self.len() < len {
-            Err(Error::UnexpectedEof(self.offset_id()))
-        } else {
-            self.range.truncate(len);
-            Ok(())
-        }
-    }
-
-    #[inline]
-    fn offset_from(&self, base: &EndianReader<Endian, T>) -> usize {
-        let base_ptr = base.bytes().as_ptr() as *const u8 as usize;
-        let ptr = self.bytes().as_ptr() as *const u8 as usize;
-        debug_assert!(base_ptr <= ptr);
-        debug_assert!(ptr + self.bytes().len() <= base_ptr + base.bytes().len());
-        ptr - base_ptr
-    }
-
-    #[inline]
-    fn offset_id(&self) -> ReaderOffsetId {
-        ReaderOffsetId(self.bytes().as_ptr() as u64)
-    }
-
-    #[inline]
-    fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<Self::Offset> {
-        let id = id.0;
-        let self_id = self.bytes().as_ptr() as u64;
-        let self_len = self.bytes().len() as u64;
-        if id >= self_id && id <= self_id + self_len {
-            Some((id - self_id) as usize)
-        } else {
-            None
-        }
-    }
-
-    #[inline]
-    fn find(&self, byte: u8) -> Result<usize> {
-        self.bytes()
-            .iter()
-            .position(|x| *x == byte)
-            .ok_or_else(|| Error::UnexpectedEof(self.offset_id()))
-    }
-
-    #[inline]
-    fn skip(&mut self, len: usize) -> Result<()> {
-        if self.len() < len {
-            Err(Error::UnexpectedEof(self.offset_id()))
-        } else {
-            self.range.skip(len);
-            Ok(())
-        }
-    }
-
-    #[inline]
-    fn split(&mut self, len: usize) -> Result<Self> {
-        if self.len() < len {
-            Err(Error::UnexpectedEof(self.offset_id()))
-        } else {
-            let mut r = self.clone();
-            r.range.truncate(len);
-            self.range.skip(len);
-            Ok(r)
-        }
-    }
-
-    #[inline]
-    fn to_slice(&self) -> Result<Cow<[u8]>> {
-        Ok(self.bytes().into())
-    }
-
-    #[inline]
-    fn to_string(&self) -> Result<Cow<str>> {
-        match str::from_utf8(self.bytes()) {
-            Ok(s) => Ok(s.into()),
-            _ => Err(Error::BadUtf8),
-        }
-    }
-
-    #[inline]
-    fn to_string_lossy(&self) -> Result<Cow<str>> {
-        Ok(String::from_utf8_lossy(self.bytes()))
-    }
-
-    #[inline]
-    fn read_slice(&mut self, buf: &mut [u8]) -> Result<()> {
-        match self.range.read_slice(buf.len()) {
-            Some(slice) => {
-                buf.copy_from_slice(slice);
-                Ok(())
-            }
-            None => Err(Error::UnexpectedEof(self.offset_id())),
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::endianity::NativeEndian;
-    use crate::read::Reader;
-
-    fn native_reader<T: CloneStableDeref<Target = [u8]> + Debug>(
-        bytes: T,
-    ) -> EndianReader<NativeEndian, T> {
-        EndianReader::new(bytes, NativeEndian)
-    }
-
-    const BUF: &[u8] = &[1, 2, 3, 4, 5, 6, 7, 8, 9, 0];
-
-    #[test]
-    fn test_reader_split() {
-        let mut reader = native_reader(BUF);
-        let left = reader.split(3).unwrap();
-        assert_eq!(left, native_reader(&BUF[..3]));
-        assert_eq!(reader, native_reader(&BUF[3..]));
-    }
-
-    #[test]
-    fn test_reader_split_out_of_bounds() {
-        let mut reader = native_reader(BUF);
-        assert!(reader.split(30).is_err());
-    }
-
-    #[test]
-    fn bytes_and_len_and_range_and_eq() {
-        let reader = native_reader(BUF);
-        assert_eq!(reader.len(), BUF.len());
-        assert_eq!(reader.bytes(), BUF);
-        assert_eq!(reader, native_reader(BUF));
-
-        let range = reader.range(2..8);
-        let buf_range = &BUF[2..8];
-        assert_eq!(range.len(), buf_range.len());
-        assert_eq!(range.bytes(), buf_range);
-        assert_ne!(range, native_reader(BUF));
-        assert_eq!(range, native_reader(buf_range));
-
-        let range_from = range.range_from(1..);
-        let buf_range_from = &buf_range[1..];
-        assert_eq!(range_from.len(), buf_range_from.len());
-        assert_eq!(range_from.bytes(), buf_range_from);
-        assert_ne!(range_from, native_reader(BUF));
-        assert_eq!(range_from, native_reader(buf_range_from));
-
-        let range_to = range_from.range_to(..4);
-        let buf_range_to = &buf_range_from[..4];
-        assert_eq!(range_to.len(), buf_range_to.len());
-        assert_eq!(range_to.bytes(), buf_range_to);
-        assert_ne!(range_to, native_reader(BUF));
-        assert_eq!(range_to, native_reader(buf_range_to));
-    }
-
-    #[test]
-    fn find() {
-        let mut reader = native_reader(BUF);
-        reader.skip(2).unwrap();
-        assert_eq!(
-            reader.find(5),
-            Ok(BUF[2..].iter().position(|x| *x == 5).unwrap())
-        );
-    }
-
-    #[test]
-    fn indexing() {
-        let mut reader = native_reader(BUF);
-        reader.skip(2).unwrap();
-        assert_eq!(reader[0], BUF[2]);
-    }
-
-    #[test]
-    #[should_panic]
-    fn indexing_out_of_bounds() {
-        let mut reader = native_reader(BUF);
-        reader.skip(2).unwrap();
-        let _ = reader[900];
-    }
-
-    #[test]
-    fn endian() {
-        let reader = native_reader(BUF);
-        assert_eq!(reader.endian(), NativeEndian);
-    }
-
-    #[test]
-    fn empty() {
-        let mut reader = native_reader(BUF);
-        assert!(!reader.is_empty());
-        reader.empty();
-        assert!(reader.is_empty());
-        assert!(reader.bytes().is_empty());
-    }
-
-    #[test]
-    fn truncate() {
-        let reader = native_reader(BUF);
-        let mut reader = reader.range(2..8);
-        reader.truncate(2).unwrap();
-        assert_eq!(reader.bytes(), &BUF[2..4]);
-    }
-
-    #[test]
-    fn offset_from() {
-        let reader = native_reader(BUF);
-        let sub = reader.range(2..8);
-        assert_eq!(sub.offset_from(&reader), 2);
-    }
-
-    #[test]
-    fn skip() {
-        let mut reader = native_reader(BUF);
-        reader.skip(2).unwrap();
-        assert_eq!(reader.bytes(), &BUF[2..]);
-    }
-
-    #[test]
-    fn to_slice() {
-        assert_eq!(
-            native_reader(BUF).range(2..5).to_slice(),
-            Ok(Cow::from(&BUF[2..5]))
-        );
-    }
-
-    #[test]
-    fn to_string_ok() {
-        let buf = b"hello, world!";
-        let reader = native_reader(&buf[..]);
-        let reader = reader.range_from(7..);
-        assert_eq!(reader.to_string(), Ok(Cow::from("world!")));
-    }
-
-    // The rocket emoji (🚀 = [0xf0, 0x9f, 0x9a, 0x80]) but rotated left by one
-    // to make it invalid UTF-8.
-    const BAD_UTF8: &[u8] = &[0x9f, 0x9a, 0x80, 0xf0];
-
-    #[test]
-    fn to_string_err() {
-        let reader = native_reader(BAD_UTF8);
-        assert!(reader.to_string().is_err());
-    }
-
-    #[test]
-    fn to_string_lossy() {
-        let reader = native_reader(BAD_UTF8);
-        assert_eq!(reader.to_string_lossy(), Ok(Cow::from("����")));
-    }
-
-    #[test]
-    fn read_u8_array() {
-        let mut reader = native_reader(BAD_UTF8);
-        reader.skip(1).unwrap();
-        let arr: [u8; 2] = reader.read_u8_array().unwrap();
-        assert_eq!(arr, &BAD_UTF8[1..3]);
-        assert_eq!(reader.bytes(), &BAD_UTF8[3..]);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/endian_slice.rs b/vendor/gimli-0.27.3/src/read/endian_slice.rs
deleted file mode 100644
index ded7e50a6..000000000
--- a/vendor/gimli-0.27.3/src/read/endian_slice.rs
+++ /dev/null
@@ -1,350 +0,0 @@
-//! Working with byte slices that have an associated endianity.
-
-#[cfg(feature = "read")]
-use alloc::borrow::Cow;
-#[cfg(feature = "read")]
-use alloc::string::String;
-use core::ops::{Deref, Index, Range, RangeFrom, RangeTo};
-use core::str;
-
-use crate::endianity::Endianity;
-use crate::read::{Error, Reader, ReaderOffsetId, Result};
-
-/// A `&[u8]` slice with endianity metadata.
-///
-/// This implements the `Reader` trait, which is used for all reading of DWARF sections.
-#[derive(Debug, Default, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    slice: &'input [u8],
-    endian: Endian,
-}
-
-impl<'input, Endian> EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `EndianSlice` with the given slice and endianity.
-    #[inline]
-    pub fn new(slice: &'input [u8], endian: Endian) -> EndianSlice<'input, Endian> {
-        EndianSlice { slice, endian }
-    }
-
-    /// Return a reference to the raw slice.
-    #[inline]
-    #[doc(hidden)]
-    #[deprecated(note = "Method renamed to EndianSlice::slice; use that instead.")]
-    pub fn buf(&self) -> &'input [u8] {
-        self.slice
-    }
-
-    /// Return a reference to the raw slice.
-    #[inline]
-    pub fn slice(&self) -> &'input [u8] {
-        self.slice
-    }
-
-    /// Split the slice in two at the given index, resulting in the tuple where
-    /// the first item has range [0, idx), and the second has range [idx,
-    /// len). Panics if the index is out of bounds.
-    #[inline]
-    pub fn split_at(
-        &self,
-        idx: usize,
-    ) -> (EndianSlice<'input, Endian>, EndianSlice<'input, Endian>) {
-        (self.range_to(..idx), self.range_from(idx..))
-    }
-
-    /// Find the first occurrence of a byte in the slice, and return its index.
-    #[inline]
-    pub fn find(&self, byte: u8) -> Option<usize> {
-        self.slice.iter().position(|ch| *ch == byte)
-    }
-
-    /// Return the offset of the start of the slice relative to the start
-    /// of the given slice.
-    #[inline]
-    pub fn offset_from(&self, base: EndianSlice<'input, Endian>) -> usize {
-        let base_ptr = base.slice.as_ptr() as *const u8 as usize;
-        let ptr = self.slice.as_ptr() as *const u8 as usize;
-        debug_assert!(base_ptr <= ptr);
-        debug_assert!(ptr + self.slice.len() <= base_ptr + base.slice.len());
-        ptr - base_ptr
-    }
-
-    /// Converts the slice to a string using `str::from_utf8`.
-    ///
-    /// Returns an error if the slice contains invalid characters.
-    #[inline]
-    pub fn to_string(&self) -> Result<&'input str> {
-        str::from_utf8(self.slice).map_err(|_| Error::BadUtf8)
-    }
-
-    /// Converts the slice to a string, including invalid characters,
-    /// using `String::from_utf8_lossy`.
-    #[cfg(feature = "read")]
-    #[inline]
-    pub fn to_string_lossy(&self) -> Cow<'input, str> {
-        String::from_utf8_lossy(self.slice)
-    }
-
-    #[inline]
-    fn read_slice(&mut self, len: usize) -> Result<&'input [u8]> {
-        if self.slice.len() < len {
-            Err(Error::UnexpectedEof(self.offset_id()))
-        } else {
-            let val = &self.slice[..len];
-            self.slice = &self.slice[len..];
-            Ok(val)
-        }
-    }
-}
-
-/// # Range Methods
-///
-/// Unfortunately, `std::ops::Index` *must* return a reference, so we can't
-/// implement `Index<Range<usize>>` to return a new `EndianSlice` the way we would
-/// like to. Instead, we abandon fancy indexing operators and have these plain
-/// old methods.
-impl<'input, Endian> EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    /// Take the given `start..end` range of the underlying slice and return a
-    /// new `EndianSlice`.
-    ///
-    /// ```
-    /// use gimli::{EndianSlice, LittleEndian};
-    ///
-    /// let slice = &[0x01, 0x02, 0x03, 0x04];
-    /// let endian_slice = EndianSlice::new(slice, LittleEndian);
-    /// assert_eq!(endian_slice.range(1..3),
-    ///            EndianSlice::new(&slice[1..3], LittleEndian));
-    /// ```
-    pub fn range(&self, idx: Range<usize>) -> EndianSlice<'input, Endian> {
-        EndianSlice {
-            slice: &self.slice[idx],
-            endian: self.endian,
-        }
-    }
-
-    /// Take the given `start..` range of the underlying slice and return a new
-    /// `EndianSlice`.
-    ///
-    /// ```
-    /// use gimli::{EndianSlice, LittleEndian};
-    ///
-    /// let slice = &[0x01, 0x02, 0x03, 0x04];
-    /// let endian_slice = EndianSlice::new(slice, LittleEndian);
-    /// assert_eq!(endian_slice.range_from(2..),
-    ///            EndianSlice::new(&slice[2..], LittleEndian));
-    /// ```
-    pub fn range_from(&self, idx: RangeFrom<usize>) -> EndianSlice<'input, Endian> {
-        EndianSlice {
-            slice: &self.slice[idx],
-            endian: self.endian,
-        }
-    }
-
-    /// Take the given `..end` range of the underlying slice and return a new
-    /// `EndianSlice`.
-    ///
-    /// ```
-    /// use gimli::{EndianSlice, LittleEndian};
-    ///
-    /// let slice = &[0x01, 0x02, 0x03, 0x04];
-    /// let endian_slice = EndianSlice::new(slice, LittleEndian);
-    /// assert_eq!(endian_slice.range_to(..3),
-    ///            EndianSlice::new(&slice[..3], LittleEndian));
-    /// ```
-    pub fn range_to(&self, idx: RangeTo<usize>) -> EndianSlice<'input, Endian> {
-        EndianSlice {
-            slice: &self.slice[idx],
-            endian: self.endian,
-        }
-    }
-}
-
-impl<'input, Endian> Index<usize> for EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    type Output = u8;
-    fn index(&self, idx: usize) -> &Self::Output {
-        &self.slice[idx]
-    }
-}
-
-impl<'input, Endian> Index<RangeFrom<usize>> for EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    type Output = [u8];
-    fn index(&self, idx: RangeFrom<usize>) -> &Self::Output {
-        &self.slice[idx]
-    }
-}
-
-impl<'input, Endian> Deref for EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    type Target = [u8];
-    fn deref(&self) -> &Self::Target {
-        self.slice
-    }
-}
-
-impl<'input, Endian> From<EndianSlice<'input, Endian>> for &'input [u8]
-where
-    Endian: Endianity,
-{
-    fn from(endian_slice: EndianSlice<'input, Endian>) -> &'input [u8] {
-        endian_slice.slice
-    }
-}
-
-impl<'input, Endian> Reader for EndianSlice<'input, Endian>
-where
-    Endian: Endianity,
-{
-    type Endian = Endian;
-    type Offset = usize;
-
-    #[inline]
-    fn endian(&self) -> Endian {
-        self.endian
-    }
-
-    #[inline]
-    fn len(&self) -> usize {
-        self.slice.len()
-    }
-
-    #[inline]
-    fn is_empty(&self) -> bool {
-        self.slice.is_empty()
-    }
-
-    #[inline]
-    fn empty(&mut self) {
-        self.slice = &[];
-    }
-
-    #[inline]
-    fn truncate(&mut self, len: usize) -> Result<()> {
-        if self.slice.len() < len {
-            Err(Error::UnexpectedEof(self.offset_id()))
-        } else {
-            self.slice = &self.slice[..len];
-            Ok(())
-        }
-    }
-
-    #[inline]
-    fn offset_from(&self, base: &Self) -> usize {
-        self.offset_from(*base)
-    }
-
-    #[inline]
-    fn offset_id(&self) -> ReaderOffsetId {
-        ReaderOffsetId(self.slice.as_ptr() as u64)
-    }
-
-    #[inline]
-    fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<Self::Offset> {
-        let id = id.0;
-        let self_id = self.slice.as_ptr() as u64;
-        let self_len = self.slice.len() as u64;
-        if id >= self_id && id <= self_id + self_len {
-            Some((id - self_id) as usize)
-        } else {
-            None
-        }
-    }
-
-    #[inline]
-    fn find(&self, byte: u8) -> Result<usize> {
-        self.find(byte)
-            .ok_or_else(|| Error::UnexpectedEof(self.offset_id()))
-    }
-
-    #[inline]
-    fn skip(&mut self, len: usize) -> Result<()> {
-        if self.slice.len() < len {
-            Err(Error::UnexpectedEof(self.offset_id()))
-        } else {
-            self.slice = &self.slice[len..];
-            Ok(())
-        }
-    }
-
-    #[inline]
-    fn split(&mut self, len: usize) -> Result<Self> {
-        let slice = self.read_slice(len)?;
-        Ok(EndianSlice::new(slice, self.endian))
-    }
-
-    #[cfg(not(feature = "read"))]
-    fn cannot_implement() -> super::reader::seal_if_no_alloc::Sealed {
-        super::reader::seal_if_no_alloc::Sealed
-    }
-
-    #[cfg(feature = "read")]
-    #[inline]
-    fn to_slice(&self) -> Result<Cow<[u8]>> {
-        Ok(self.slice.into())
-    }
-
-    #[cfg(feature = "read")]
-    #[inline]
-    fn to_string(&self) -> Result<Cow<str>> {
-        match str::from_utf8(self.slice) {
-            Ok(s) => Ok(s.into()),
-            _ => Err(Error::BadUtf8),
-        }
-    }
-
-    #[cfg(feature = "read")]
-    #[inline]
-    fn to_string_lossy(&self) -> Result<Cow<str>> {
-        Ok(String::from_utf8_lossy(self.slice))
-    }
-
-    #[inline]
-    fn read_slice(&mut self, buf: &mut [u8]) -> Result<()> {
-        let slice = self.read_slice(buf.len())?;
-        buf.copy_from_slice(slice);
-        Ok(())
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::endianity::NativeEndian;
-
-    #[test]
-    fn test_endian_slice_split_at() {
-        let endian = NativeEndian;
-        let slice = &[1, 2, 3, 4, 5, 6, 7, 8, 9, 0];
-        let eb = EndianSlice::new(slice, endian);
-        assert_eq!(
-            eb.split_at(3),
-            (
-                EndianSlice::new(&slice[..3], endian),
-                EndianSlice::new(&slice[3..], endian)
-            )
-        );
-    }
-
-    #[test]
-    #[should_panic]
-    fn test_endian_slice_split_at_out_of_bounds() {
-        let slice = &[1, 2, 3, 4, 5, 6, 7, 8, 9, 0];
-        let eb = EndianSlice::new(slice, NativeEndian);
-        eb.split_at(30);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/index.rs b/vendor/gimli-0.27.3/src/read/index.rs
deleted file mode 100644
index 129eb2fb1..000000000
--- a/vendor/gimli-0.27.3/src/read/index.rs
+++ /dev/null
@@ -1,535 +0,0 @@
-use core::slice;
-
-use crate::common::SectionId;
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::read::{EndianSlice, Error, Reader, ReaderOffset, Result, Section};
-
-/// The data in the `.debug_cu_index` section of a `.dwp` file.
-///
-/// This section contains the compilation unit index.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugCuIndex<R> {
-    section: R,
-}
-
-impl<'input, Endian> DebugCuIndex<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugCuIndex` instance from the data in the `.debug_cu_index`
-    /// section.
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R> Section<R> for DebugCuIndex<R> {
-    fn id() -> SectionId {
-        SectionId::DebugCuIndex
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugCuIndex<R> {
-    fn from(section: R) -> Self {
-        DebugCuIndex { section }
-    }
-}
-
-impl<R: Reader> DebugCuIndex<R> {
-    /// Parse the index header.
-    pub fn index(self) -> Result<UnitIndex<R>> {
-        UnitIndex::parse(self.section)
-    }
-}
-
-/// The data in the `.debug_tu_index` section of a `.dwp` file.
-///
-/// This section contains the type unit index.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugTuIndex<R> {
-    section: R,
-}
-
-impl<'input, Endian> DebugTuIndex<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugTuIndex` instance from the data in the `.debug_tu_index`
-    /// section.
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R> Section<R> for DebugTuIndex<R> {
-    fn id() -> SectionId {
-        SectionId::DebugTuIndex
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugTuIndex<R> {
-    fn from(section: R) -> Self {
-        DebugTuIndex { section }
-    }
-}
-
-impl<R: Reader> DebugTuIndex<R> {
-    /// Parse the index header.
-    pub fn index(self) -> Result<UnitIndex<R>> {
-        UnitIndex::parse(self.section)
-    }
-}
-
-const SECTION_COUNT_MAX: u8 = 8;
-
-/// The partially parsed index from a `DebugCuIndex` or `DebugTuIndex`.
-#[derive(Debug, Clone)]
-pub struct UnitIndex<R: Reader> {
-    version: u16,
-    section_count: u32,
-    unit_count: u32,
-    slot_count: u32,
-    hash_ids: R,
-    hash_rows: R,
-    // Only `section_count` values are valid.
-    sections: [SectionId; SECTION_COUNT_MAX as usize],
-    offsets: R,
-    sizes: R,
-}
-
-impl<R: Reader> UnitIndex<R> {
-    fn parse(mut input: R) -> Result<UnitIndex<R>> {
-        if input.is_empty() {
-            return Ok(UnitIndex {
-                version: 5,
-                section_count: 0,
-                unit_count: 0,
-                slot_count: 0,
-                hash_ids: input.clone(),
-                hash_rows: input.clone(),
-                sections: [SectionId::DebugAbbrev; SECTION_COUNT_MAX as usize],
-                offsets: input.clone(),
-                sizes: input.clone(),
-            });
-        }
-
-        // GNU split-dwarf extension to DWARF 4 uses a 32-bit version,
-        // but DWARF 5 uses a 16-bit version followed by 16-bit padding.
-        let mut original_input = input.clone();
-        let version;
-        if input.read_u32()? == 2 {
-            version = 2
-        } else {
-            version = original_input.read_u16()?;
-            if version != 5 {
-                return Err(Error::UnknownVersion(version.into()));
-            }
-        }
-
-        let section_count = input.read_u32()?;
-        let unit_count = input.read_u32()?;
-        let slot_count = input.read_u32()?;
-        if slot_count == 0 || slot_count & (slot_count - 1) != 0 || slot_count <= unit_count {
-            return Err(Error::InvalidIndexSlotCount);
-        }
-
-        let hash_ids = input.split(R::Offset::from_u64(u64::from(slot_count) * 8)?)?;
-        let hash_rows = input.split(R::Offset::from_u64(u64::from(slot_count) * 4)?)?;
-
-        let mut sections = [SectionId::DebugAbbrev; SECTION_COUNT_MAX as usize];
-        if section_count > SECTION_COUNT_MAX.into() {
-            return Err(Error::InvalidIndexSectionCount);
-        }
-        for i in 0..section_count {
-            let section = input.read_u32()?;
-            sections[i as usize] = if version == 2 {
-                match constants::DwSectV2(section) {
-                    constants::DW_SECT_V2_INFO => SectionId::DebugInfo,
-                    constants::DW_SECT_V2_TYPES => SectionId::DebugTypes,
-                    constants::DW_SECT_V2_ABBREV => SectionId::DebugAbbrev,
-                    constants::DW_SECT_V2_LINE => SectionId::DebugLine,
-                    constants::DW_SECT_V2_LOC => SectionId::DebugLoc,
-                    constants::DW_SECT_V2_STR_OFFSETS => SectionId::DebugStrOffsets,
-                    constants::DW_SECT_V2_MACINFO => SectionId::DebugMacinfo,
-                    constants::DW_SECT_V2_MACRO => SectionId::DebugMacro,
-                    _ => return Err(Error::UnknownIndexSection),
-                }
-            } else {
-                match constants::DwSect(section) {
-                    constants::DW_SECT_INFO => SectionId::DebugInfo,
-                    constants::DW_SECT_ABBREV => SectionId::DebugAbbrev,
-                    constants::DW_SECT_LINE => SectionId::DebugLine,
-                    constants::DW_SECT_LOCLISTS => SectionId::DebugLocLists,
-                    constants::DW_SECT_STR_OFFSETS => SectionId::DebugStrOffsets,
-                    constants::DW_SECT_MACRO => SectionId::DebugMacro,
-                    constants::DW_SECT_RNGLISTS => SectionId::DebugRngLists,
-                    _ => return Err(Error::UnknownIndexSection),
-                }
-            };
-        }
-
-        let offsets = input.split(R::Offset::from_u64(
-            u64::from(unit_count) * u64::from(section_count) * 4,
-        )?)?;
-        let sizes = input.split(R::Offset::from_u64(
-            u64::from(unit_count) * u64::from(section_count) * 4,
-        )?)?;
-
-        Ok(UnitIndex {
-            version,
-            section_count,
-            unit_count,
-            slot_count,
-            hash_ids,
-            hash_rows,
-            sections,
-            offsets,
-            sizes,
-        })
-    }
-
-    /// Find `id` in the index hash table, and return the row index.
-    ///
-    /// `id` may be a compilation unit ID if this index is from `.debug_cu_index`,
-    /// or a type signature if this index is from `.debug_tu_index`.
-    pub fn find(&self, id: u64) -> Option<u32> {
-        if self.slot_count == 0 {
-            return None;
-        }
-        let mask = u64::from(self.slot_count - 1);
-        let mut hash1 = id & mask;
-        let hash2 = ((id >> 32) & mask) | 1;
-        for _ in 0..self.slot_count {
-            // The length of these arrays was validated in `UnitIndex::parse`.
-            let mut hash_ids = self.hash_ids.clone();
-            hash_ids.skip(R::Offset::from_u64(hash1 * 8).ok()?).ok()?;
-            let hash_id = hash_ids.read_u64().ok()?;
-            if hash_id == id {
-                let mut hash_rows = self.hash_rows.clone();
-                hash_rows.skip(R::Offset::from_u64(hash1 * 4).ok()?).ok()?;
-                let hash_row = hash_rows.read_u32().ok()?;
-                return Some(hash_row);
-            }
-            if hash_id == 0 {
-                return None;
-            }
-            hash1 = (hash1 + hash2) & mask;
-        }
-        None
-    }
-
-    /// Return the section offsets and sizes for the given row index.
-    pub fn sections(&self, mut row: u32) -> Result<UnitIndexSectionIterator<R>> {
-        if row == 0 {
-            return Err(Error::InvalidIndexRow);
-        }
-        row -= 1;
-        if row >= self.unit_count {
-            return Err(Error::InvalidIndexRow);
-        }
-        let mut offsets = self.offsets.clone();
-        offsets.skip(R::Offset::from_u64(
-            u64::from(row) * u64::from(self.section_count) * 4,
-        )?)?;
-        let mut sizes = self.sizes.clone();
-        sizes.skip(R::Offset::from_u64(
-            u64::from(row) * u64::from(self.section_count) * 4,
-        )?)?;
-        Ok(UnitIndexSectionIterator {
-            sections: self.sections[..self.section_count as usize].iter(),
-            offsets,
-            sizes,
-        })
-    }
-
-    /// Return the version.
-    pub fn version(&self) -> u16 {
-        self.version
-    }
-
-    /// Return the number of sections.
-    pub fn section_count(&self) -> u32 {
-        self.section_count
-    }
-
-    /// Return the number of units.
-    pub fn unit_count(&self) -> u32 {
-        self.unit_count
-    }
-
-    /// Return the number of slots.
-    pub fn slot_count(&self) -> u32 {
-        self.slot_count
-    }
-}
-
-/// An iterator over the section offsets and sizes for a row in a `UnitIndex`.
-#[derive(Debug, Clone)]
-pub struct UnitIndexSectionIterator<'index, R: Reader> {
-    sections: slice::Iter<'index, SectionId>,
-    offsets: R,
-    sizes: R,
-}
-
-impl<'index, R: Reader> Iterator for UnitIndexSectionIterator<'index, R> {
-    type Item = UnitIndexSection;
-
-    fn next(&mut self) -> Option<UnitIndexSection> {
-        let section = *self.sections.next()?;
-        // The length of these arrays was validated in `UnitIndex::parse`.
-        let offset = self.offsets.read_u32().ok()?;
-        let size = self.sizes.read_u32().ok()?;
-        Some(UnitIndexSection {
-            section,
-            offset,
-            size,
-        })
-    }
-}
-
-/// Information about a unit's contribution to a section in a `.dwp` file.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct UnitIndexSection {
-    /// The section kind.
-    pub section: SectionId,
-    /// The base offset of the unit's contribution to the section.
-    pub offset: u32,
-    /// The size of the unit's contribution to the section.
-    pub size: u32,
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::endianity::BigEndian;
-    use test_assembler::{Endian, Section};
-
-    #[test]
-    fn test_empty() {
-        let buf = EndianSlice::new(&[], BigEndian);
-        let index = UnitIndex::parse(buf).unwrap();
-        assert!(index.find(0).is_none());
-    }
-
-    #[test]
-    fn test_version_2() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D32(2).D32(0).D32(0).D32(1)
-            // Slots.
-            .D64(0).D32(0);
-        let buf = section.get_contents().unwrap();
-        let buf = EndianSlice::new(&buf, BigEndian);
-        let index = UnitIndex::parse(buf).unwrap();
-        assert_eq!(index.version, 2);
-    }
-
-    #[test]
-    fn test_version_5() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D16(5).D16(0).D32(0).D32(0).D32(1)
-            // Slots.
-            .D64(0).D32(0);
-        let buf = section.get_contents().unwrap();
-        let buf = EndianSlice::new(&buf, BigEndian);
-        let index = UnitIndex::parse(buf).unwrap();
-        assert_eq!(index.version, 5);
-    }
-
-    #[test]
-    fn test_version_5_invalid() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D32(5).D32(0).D32(0).D32(1)
-            // Slots.
-            .D64(0).D32(0);
-        let buf = section.get_contents().unwrap();
-        let buf = EndianSlice::new(&buf, BigEndian);
-        assert!(UnitIndex::parse(buf).is_err());
-    }
-
-    #[test]
-    fn test_version_2_sections() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D32(2).D32(8).D32(1).D32(2)
-            // Slots.
-            .D64(0).D64(0).D32(0).D32(0)
-            // Sections.
-            .D32(constants::DW_SECT_V2_INFO.0)
-            .D32(constants::DW_SECT_V2_TYPES.0)
-            .D32(constants::DW_SECT_V2_ABBREV.0)
-            .D32(constants::DW_SECT_V2_LINE.0)
-            .D32(constants::DW_SECT_V2_LOC.0)
-            .D32(constants::DW_SECT_V2_STR_OFFSETS.0)
-            .D32(constants::DW_SECT_V2_MACINFO.0)
-            .D32(constants::DW_SECT_V2_MACRO.0)
-            // Offsets.
-            .D32(11).D32(12).D32(13).D32(14).D32(15).D32(16).D32(17).D32(18)
-            // Sizes.
-            .D32(21).D32(22).D32(23).D32(24).D32(25).D32(26).D32(27).D32(28);
-        let buf = section.get_contents().unwrap();
-        let buf = EndianSlice::new(&buf, BigEndian);
-        let index = UnitIndex::parse(buf).unwrap();
-        assert_eq!(index.section_count, 8);
-        assert_eq!(
-            index.sections,
-            [
-                SectionId::DebugInfo,
-                SectionId::DebugTypes,
-                SectionId::DebugAbbrev,
-                SectionId::DebugLine,
-                SectionId::DebugLoc,
-                SectionId::DebugStrOffsets,
-                SectionId::DebugMacinfo,
-                SectionId::DebugMacro,
-            ]
-        );
-        #[rustfmt::skip]
-        let expect = [
-            UnitIndexSection { section: SectionId::DebugInfo, offset: 11, size: 21 },
-            UnitIndexSection { section: SectionId::DebugTypes, offset: 12, size: 22 },
-            UnitIndexSection { section: SectionId::DebugAbbrev, offset: 13, size: 23 },
-            UnitIndexSection { section: SectionId::DebugLine, offset: 14, size: 24 },
-            UnitIndexSection { section: SectionId::DebugLoc, offset: 15, size: 25 },
-            UnitIndexSection { section: SectionId::DebugStrOffsets, offset: 16, size: 26 },
-            UnitIndexSection { section: SectionId::DebugMacinfo, offset: 17, size: 27 },
-            UnitIndexSection { section: SectionId::DebugMacro, offset: 18, size: 28 },
-        ];
-        let mut sections = index.sections(1).unwrap();
-        for section in &expect {
-            assert_eq!(*section, sections.next().unwrap());
-        }
-        assert!(sections.next().is_none());
-    }
-
-    #[test]
-    fn test_version_5_sections() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D16(5).D16(0).D32(7).D32(1).D32(2)
-            // Slots.
-            .D64(0).D64(0).D32(0).D32(0)
-            // Sections.
-            .D32(constants::DW_SECT_INFO.0)
-            .D32(constants::DW_SECT_ABBREV.0)
-            .D32(constants::DW_SECT_LINE.0)
-            .D32(constants::DW_SECT_LOCLISTS.0)
-            .D32(constants::DW_SECT_STR_OFFSETS.0)
-            .D32(constants::DW_SECT_MACRO.0)
-            .D32(constants::DW_SECT_RNGLISTS.0)
-            // Offsets.
-            .D32(11).D32(12).D32(13).D32(14).D32(15).D32(16).D32(17)
-            // Sizes.
-            .D32(21).D32(22).D32(23).D32(24).D32(25).D32(26).D32(27);
-        let buf = section.get_contents().unwrap();
-        let buf = EndianSlice::new(&buf, BigEndian);
-        let index = UnitIndex::parse(buf).unwrap();
-        assert_eq!(index.section_count, 7);
-        assert_eq!(
-            index.sections[..7],
-            [
-                SectionId::DebugInfo,
-                SectionId::DebugAbbrev,
-                SectionId::DebugLine,
-                SectionId::DebugLocLists,
-                SectionId::DebugStrOffsets,
-                SectionId::DebugMacro,
-                SectionId::DebugRngLists,
-            ]
-        );
-        #[rustfmt::skip]
-        let expect = [
-            UnitIndexSection { section: SectionId::DebugInfo, offset: 11, size: 21 },
-            UnitIndexSection { section: SectionId::DebugAbbrev, offset: 12, size: 22 },
-            UnitIndexSection { section: SectionId::DebugLine, offset: 13, size: 23 },
-            UnitIndexSection { section: SectionId::DebugLocLists, offset: 14, size: 24 },
-            UnitIndexSection { section: SectionId::DebugStrOffsets, offset: 15, size: 25 },
-            UnitIndexSection { section: SectionId::DebugMacro, offset: 16, size: 26 },
-            UnitIndexSection { section: SectionId::DebugRngLists, offset: 17, size: 27 },
-        ];
-        let mut sections = index.sections(1).unwrap();
-        for section in &expect {
-            assert_eq!(*section, sections.next().unwrap());
-        }
-        assert!(sections.next().is_none());
-
-        assert!(index.sections(0).is_err());
-        assert!(index.sections(2).is_err());
-    }
-
-    #[test]
-    fn test_hash() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D16(5).D16(0).D32(2).D32(3).D32(4)
-            // Slots.
-            .D64(0xffff_fff2_ffff_fff1)
-            .D64(0xffff_fff0_ffff_fff1)
-            .D64(0xffff_fff1_ffff_fff1)
-            .D64(0)
-            .D32(3).D32(1).D32(2).D32(0)
-            // Sections.
-            .D32(constants::DW_SECT_INFO.0)
-            .D32(constants::DW_SECT_ABBREV.0)
-            // Offsets.
-            .D32(0).D32(0).D32(0).D32(0).D32(0).D32(0)
-            // Sizes.
-            .D32(0).D32(0).D32(0).D32(0).D32(0).D32(0);
-        let buf = section.get_contents().unwrap();
-        let buf = EndianSlice::new(&buf, BigEndian);
-        let index = UnitIndex::parse(buf).unwrap();
-        assert_eq!(index.version(), 5);
-        assert_eq!(index.slot_count(), 4);
-        assert_eq!(index.unit_count(), 3);
-        assert_eq!(index.section_count(), 2);
-        assert_eq!(index.find(0xffff_fff0_ffff_fff1), Some(1));
-        assert_eq!(index.find(0xffff_fff1_ffff_fff1), Some(2));
-        assert_eq!(index.find(0xffff_fff2_ffff_fff1), Some(3));
-        assert_eq!(index.find(0xffff_fff3_ffff_fff1), None);
-    }
-
-    #[test]
-    fn test_cu_index() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D16(5).D16(0).D32(0).D32(0).D32(1)
-            // Slots.
-            .D64(0).D32(0);
-        let buf = section.get_contents().unwrap();
-        let cu_index = DebugCuIndex::new(&buf, BigEndian);
-        let index = cu_index.index().unwrap();
-        assert_eq!(index.version, 5);
-    }
-
-    #[test]
-    fn test_tu_index() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Big)
-            // Header.
-            .D16(5).D16(0).D32(0).D32(0).D32(1)
-            // Slots.
-            .D64(0).D32(0);
-        let buf = section.get_contents().unwrap();
-        let tu_index = DebugTuIndex::new(&buf, BigEndian);
-        let index = tu_index.index().unwrap();
-        assert_eq!(index.version, 5);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/lazy.rs b/vendor/gimli-0.27.3/src/read/lazy.rs
deleted file mode 100644
index 6138735c8..000000000
--- a/vendor/gimli-0.27.3/src/read/lazy.rs
+++ /dev/null
@@ -1,116 +0,0 @@
-pub(crate) use imp::*;
-
-#[cfg(not(feature = "std"))]
-mod imp {
-    use alloc::sync::Arc;
-    use core::sync::atomic::{AtomicPtr, Ordering};
-    use core::{mem, ptr};
-
-    #[derive(Debug, Default)]
-    pub(crate) struct LazyArc<T> {
-        // Only written once with a value obtained from `Arc<T>::into_raw`.
-        // This holds a ref count for the `Arc`, so it is always safe to
-        // clone the `Arc` given a reference to the `LazyArc`.
-        value: AtomicPtr<T>,
-    }
-
-    impl<T> Drop for LazyArc<T> {
-        fn drop(&mut self) {
-            let value_ptr = self.value.load(Ordering::Acquire);
-            if !value_ptr.is_null() {
-                // SAFETY: all writes to `self.value` are pointers obtained from `Arc::into_raw`.
-                drop(unsafe { Arc::from_raw(value_ptr) });
-            }
-        }
-    }
-
-    impl<T> LazyArc<T> {
-        pub(crate) fn get<E, F: FnOnce() -> Result<T, E>>(&self, f: F) -> Result<Arc<T>, E> {
-            // Clone an `Arc` given a pointer obtained from `Arc::into_raw`.
-            // SAFETY: `value_ptr` must be a valid pointer obtained from `Arc<T>::into_raw`.
-            unsafe fn clone_arc_ptr<T>(value_ptr: *const T) -> Arc<T> {
-                let value = Arc::from_raw(value_ptr);
-                let clone = Arc::clone(&value);
-                mem::forget(value);
-                clone
-            }
-
-            // Return the existing value if already computed.
-            // `Ordering::Acquire` is needed so that the content of the loaded `Arc` is
-            // visible to this thread.
-            let value_ptr = self.value.load(Ordering::Acquire);
-            if !value_ptr.is_null() {
-                // SAFETY: all writes to `self.value` are pointers obtained from `Arc::into_raw`.
-                return Ok(unsafe { clone_arc_ptr(value_ptr) });
-            }
-
-            // Race to compute and set the value.
-            let value = f().map(Arc::new)?;
-            let value_ptr = Arc::into_raw(value);
-            match self.value.compare_exchange(
-                ptr::null_mut(),
-                value_ptr as *mut T,
-                // Success: `Ordering::Release` is needed so that the content of the stored `Arc`
-                // is visible to other threads. No ordering is required for the null ptr that is
-                // loaded, but older rust versions (< 1.64) require that its ordering must not
-                // be weaker than the failure ordering, so we use `Ordering::AcqRel`.
-                Ordering::AcqRel,
-                // Failure: `Ordering::Acquire` is needed so that the content of the loaded `Arc`
-                // is visible to this thread.
-                Ordering::Acquire,
-            ) {
-                Ok(_) => {
-                    // Return the value we computed.
-                    // SAFETY: `value_ptr` was obtained from `Arc::into_raw`.
-                    Ok(unsafe { clone_arc_ptr(value_ptr) })
-                }
-                Err(existing_value_ptr) => {
-                    // We lost the race, drop unneeded `value_ptr`.
-                    // SAFETY: `value_ptr` was obtained from `Arc::into_raw`.
-                    drop(unsafe { Arc::from_raw(value_ptr) });
-                    // Return the existing value.
-                    // SAFETY: all writes to `self.value` are pointers obtained from `Arc::into_raw`.
-                    Ok(unsafe { clone_arc_ptr(existing_value_ptr) })
-                }
-            }
-        }
-    }
-}
-
-#[cfg(feature = "std")]
-mod imp {
-    use std::sync::{Arc, Mutex};
-
-    #[derive(Debug, Default)]
-    pub(crate) struct LazyArc<T> {
-        value: Mutex<Option<Arc<T>>>,
-    }
-
-    impl<T> LazyArc<T> {
-        pub(crate) fn get<E, F: FnOnce() -> Result<T, E>>(&self, f: F) -> Result<Arc<T>, E> {
-            let mut lock = self.value.lock().unwrap();
-            if let Some(value) = &*lock {
-                return Ok(value.clone());
-            }
-            let value = f().map(Arc::new)?;
-            *lock = Some(value.clone());
-            Ok(value)
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-
-    #[test]
-    fn lazy_arc() {
-        let lazy = LazyArc::default();
-        let value = lazy.get(|| Err(()));
-        assert_eq!(value, Err(()));
-        let value = lazy.get(|| Ok::<i32, ()>(3)).unwrap();
-        assert_eq!(*value, 3);
-        let value = lazy.get(|| Err(())).unwrap();
-        assert_eq!(*value, 3);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/line.rs b/vendor/gimli-0.27.3/src/read/line.rs
deleted file mode 100644
index 65400a99e..000000000
--- a/vendor/gimli-0.27.3/src/read/line.rs
+++ /dev/null
@@ -1,3130 +0,0 @@
-use alloc::vec::Vec;
-use core::fmt;
-use core::num::{NonZeroU64, Wrapping};
-use core::result;
-
-use crate::common::{
-    DebugLineOffset, DebugLineStrOffset, DebugStrOffset, DebugStrOffsetsIndex, Encoding, Format,
-    LineEncoding, SectionId,
-};
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::read::{AttributeValue, EndianSlice, Error, Reader, ReaderOffset, Result, Section};
-
-/// The `DebugLine` struct contains the source location to instruction mapping
-/// found in the `.debug_line` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugLine<R> {
-    debug_line_section: R,
-}
-
-impl<'input, Endian> DebugLine<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugLine` instance from the data in the `.debug_line`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_line` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugLine, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_line_section_somehow = || &buf;
-    /// let debug_line = DebugLine::new(read_debug_line_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_line_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_line_section, endian))
-    }
-}
-
-impl<R: Reader> DebugLine<R> {
-    /// Parse the line number program whose header is at the given `offset` in the
-    /// `.debug_line` section.
-    ///
-    /// The `address_size` must match the compilation unit that the lines apply to.
-    /// The `comp_dir` should be from the `DW_AT_comp_dir` attribute of the compilation
-    /// unit. The `comp_name` should be from the `DW_AT_name` attribute of the
-    /// compilation unit.
-    ///
-    /// ```rust,no_run
-    /// use gimli::{DebugLine, DebugLineOffset, IncompleteLineProgram, EndianSlice, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_line_section_somehow = || &buf;
-    /// let debug_line = DebugLine::new(read_debug_line_section_somehow(), LittleEndian);
-    ///
-    /// // In a real example, we'd grab the offset via a compilation unit
-    /// // entry's `DW_AT_stmt_list` attribute, and the address size from that
-    /// // unit directly.
-    /// let offset = DebugLineOffset(0);
-    /// let address_size = 8;
-    ///
-    /// let program = debug_line.program(offset, address_size, None, None)
-    ///     .expect("should have found a header at that offset, and parsed it OK");
-    /// ```
-    pub fn program(
-        &self,
-        offset: DebugLineOffset<R::Offset>,
-        address_size: u8,
-        comp_dir: Option<R>,
-        comp_name: Option<R>,
-    ) -> Result<IncompleteLineProgram<R>> {
-        let input = &mut self.debug_line_section.clone();
-        input.skip(offset.0)?;
-        let header = LineProgramHeader::parse(input, offset, address_size, comp_dir, comp_name)?;
-        let program = IncompleteLineProgram { header };
-        Ok(program)
-    }
-}
-
-impl<T> DebugLine<T> {
-    /// Create a `DebugLine` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugLine<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugLine<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.debug_line_section).into()
-    }
-}
-
-impl<R> Section<R> for DebugLine<R> {
-    fn id() -> SectionId {
-        SectionId::DebugLine
-    }
-
-    fn reader(&self) -> &R {
-        &self.debug_line_section
-    }
-}
-
-impl<R> From<R> for DebugLine<R> {
-    fn from(debug_line_section: R) -> Self {
-        DebugLine { debug_line_section }
-    }
-}
-
-/// Deprecated. `LineNumberProgram` has been renamed to `LineProgram`.
-#[deprecated(note = "LineNumberProgram has been renamed to LineProgram, use that instead.")]
-pub type LineNumberProgram<R, Offset> = dyn LineProgram<R, Offset>;
-
-/// A `LineProgram` provides access to a `LineProgramHeader` and
-/// a way to add files to the files table if necessary. Gimli consumers should
-/// never need to use or see this trait.
-pub trait LineProgram<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Get a reference to the held `LineProgramHeader`.
-    fn header(&self) -> &LineProgramHeader<R, Offset>;
-    /// Add a file to the file table if necessary.
-    fn add_file(&mut self, file: FileEntry<R, Offset>);
-}
-
-impl<R, Offset> LineProgram<R, Offset> for IncompleteLineProgram<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    fn header(&self) -> &LineProgramHeader<R, Offset> {
-        &self.header
-    }
-    fn add_file(&mut self, file: FileEntry<R, Offset>) {
-        self.header.file_names.push(file);
-    }
-}
-
-impl<'program, R, Offset> LineProgram<R, Offset> for &'program CompleteLineProgram<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    fn header(&self) -> &LineProgramHeader<R, Offset> {
-        &self.header
-    }
-    fn add_file(&mut self, _: FileEntry<R, Offset>) {
-        // Nop. Our file table is already complete.
-    }
-}
-
-/// Deprecated. `StateMachine` has been renamed to `LineRows`.
-#[deprecated(note = "StateMachine has been renamed to LineRows, use that instead.")]
-pub type StateMachine<R, Program, Offset> = LineRows<R, Program, Offset>;
-
-/// Executes a `LineProgram` to iterate over the rows in the matrix of line number information.
-///
-/// "The hypothetical machine used by a consumer of the line number information
-/// to expand the byte-coded instruction stream into a matrix of line number
-/// information." -- Section 6.2.1
-#[derive(Debug, Clone)]
-pub struct LineRows<R, Program, Offset = <R as Reader>::Offset>
-where
-    Program: LineProgram<R, Offset>,
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    program: Program,
-    row: LineRow,
-    instructions: LineInstructions<R>,
-}
-
-type OneShotLineRows<R, Offset = <R as Reader>::Offset> =
-    LineRows<R, IncompleteLineProgram<R, Offset>, Offset>;
-
-type ResumedLineRows<'program, R, Offset = <R as Reader>::Offset> =
-    LineRows<R, &'program CompleteLineProgram<R, Offset>, Offset>;
-
-impl<R, Program, Offset> LineRows<R, Program, Offset>
-where
-    Program: LineProgram<R, Offset>,
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    fn new(program: IncompleteLineProgram<R, Offset>) -> OneShotLineRows<R, Offset> {
-        let row = LineRow::new(program.header());
-        let instructions = LineInstructions {
-            input: program.header().program_buf.clone(),
-        };
-        LineRows {
-            program,
-            row,
-            instructions,
-        }
-    }
-
-    fn resume<'program>(
-        program: &'program CompleteLineProgram<R, Offset>,
-        sequence: &LineSequence<R>,
-    ) -> ResumedLineRows<'program, R, Offset> {
-        let row = LineRow::new(program.header());
-        let instructions = sequence.instructions.clone();
-        LineRows {
-            program,
-            row,
-            instructions,
-        }
-    }
-
-    /// Get a reference to the header for this state machine's line number
-    /// program.
-    #[inline]
-    pub fn header(&self) -> &LineProgramHeader<R, Offset> {
-        self.program.header()
-    }
-
-    /// Parse and execute the next instructions in the line number program until
-    /// another row in the line number matrix is computed.
-    ///
-    /// The freshly computed row is returned as `Ok(Some((header, row)))`.
-    /// If the matrix is complete, and there are no more new rows in the line
-    /// number matrix, then `Ok(None)` is returned. If there was an error parsing
-    /// an instruction, then `Err(e)` is returned.
-    ///
-    /// Unfortunately, the references mean that this cannot be a
-    /// `FallibleIterator`.
-    pub fn next_row(&mut self) -> Result<Option<(&LineProgramHeader<R, Offset>, &LineRow)>> {
-        // Perform any reset that was required after copying the previous row.
-        self.row.reset(self.program.header());
-
-        loop {
-            // Split the borrow here, rather than calling `self.header()`.
-            match self.instructions.next_instruction(self.program.header()) {
-                Err(err) => return Err(err),
-                Ok(None) => return Ok(None),
-                Ok(Some(instruction)) => {
-                    if self.row.execute(instruction, &mut self.program) {
-                        if self.row.tombstone {
-                            // Perform any reset that was required for the tombstone row.
-                            // Normally this is done when `next_row` is called again, but for
-                            // tombstones we loop immediately.
-                            self.row.reset(self.program.header());
-                        } else {
-                            return Ok(Some((self.header(), &self.row)));
-                        }
-                    }
-                    // Fall through, parse the next instruction, and see if that
-                    // yields a row.
-                }
-            }
-        }
-    }
-}
-
-/// Deprecated. `Opcode` has been renamed to `LineInstruction`.
-#[deprecated(note = "Opcode has been renamed to LineInstruction, use that instead.")]
-pub type Opcode<R> = LineInstruction<R, <R as Reader>::Offset>;
-
-/// A parsed line number program instruction.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub enum LineInstruction<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// > ### 6.2.5.1 Special Opcodes
-    /// >
-    /// > Each ubyte special opcode has the following effect on the state machine:
-    /// >
-    /// >   1. Add a signed integer to the line register.
-    /// >
-    /// >   2. Modify the operation pointer by incrementing the address and
-    /// >   op_index registers as described below.
-    /// >
-    /// >   3. Append a row to the matrix using the current values of the state
-    /// >   machine registers.
-    /// >
-    /// >   4. Set the basic_block register to “false.”
-    /// >
-    /// >   5. Set the prologue_end register to “false.”
-    /// >
-    /// >   6. Set the epilogue_begin register to “false.”
-    /// >
-    /// >   7. Set the discriminator register to 0.
-    /// >
-    /// > All of the special opcodes do those same seven things; they differ from
-    /// > one another only in what values they add to the line, address and
-    /// > op_index registers.
-    Special(u8),
-
-    /// "[`LineInstruction::Copy`] appends a row to the matrix using the current
-    /// values of the state machine registers. Then it sets the discriminator
-    /// register to 0, and sets the basic_block, prologue_end and epilogue_begin
-    /// registers to “false.”"
-    Copy,
-
-    /// "The DW_LNS_advance_pc opcode takes a single unsigned LEB128 operand as
-    /// the operation advance and modifies the address and op_index registers
-    /// [the same as `LineInstruction::Special`]"
-    AdvancePc(u64),
-
-    /// "The DW_LNS_advance_line opcode takes a single signed LEB128 operand and
-    /// adds that value to the line register of the state machine."
-    AdvanceLine(i64),
-
-    /// "The DW_LNS_set_file opcode takes a single unsigned LEB128 operand and
-    /// stores it in the file register of the state machine."
-    SetFile(u64),
-
-    /// "The DW_LNS_set_column opcode takes a single unsigned LEB128 operand and
-    /// stores it in the column register of the state machine."
-    SetColumn(u64),
-
-    /// "The DW_LNS_negate_stmt opcode takes no operands. It sets the is_stmt
-    /// register of the state machine to the logical negation of its current
-    /// value."
-    NegateStatement,
-
-    /// "The DW_LNS_set_basic_block opcode takes no operands. It sets the
-    /// basic_block register of the state machine to “true.”"
-    SetBasicBlock,
-
-    /// > The DW_LNS_const_add_pc opcode takes no operands. It advances the
-    /// > address and op_index registers by the increments corresponding to
-    /// > special opcode 255.
-    /// >
-    /// > When the line number program needs to advance the address by a small
-    /// > amount, it can use a single special opcode, which occupies a single
-    /// > byte. When it needs to advance the address by up to twice the range of
-    /// > the last special opcode, it can use DW_LNS_const_add_pc followed by a
-    /// > special opcode, for a total of two bytes. Only if it needs to advance
-    /// > the address by more than twice that range will it need to use both
-    /// > DW_LNS_advance_pc and a special opcode, requiring three or more bytes.
-    ConstAddPc,
-
-    /// > The DW_LNS_fixed_advance_pc opcode takes a single uhalf (unencoded)
-    /// > operand and adds it to the address register of the state machine and
-    /// > sets the op_index register to 0. This is the only standard opcode whose
-    /// > operand is not a variable length number. It also does not multiply the
-    /// > operand by the minimum_instruction_length field of the header.
-    FixedAddPc(u16),
-
-    /// "[`LineInstruction::SetPrologueEnd`] sets the prologue_end register to “true”."
-    SetPrologueEnd,
-
-    /// "[`LineInstruction::SetEpilogueBegin`] sets the epilogue_begin register to
-    /// “true”."
-    SetEpilogueBegin,
-
-    /// "The DW_LNS_set_isa opcode takes a single unsigned LEB128 operand and
-    /// stores that value in the isa register of the state machine."
-    SetIsa(u64),
-
-    /// An unknown standard opcode with zero operands.
-    UnknownStandard0(constants::DwLns),
-
-    /// An unknown standard opcode with one operand.
-    UnknownStandard1(constants::DwLns, u64),
-
-    /// An unknown standard opcode with multiple operands.
-    UnknownStandardN(constants::DwLns, R),
-
-    /// > [`LineInstruction::EndSequence`] sets the end_sequence register of the state
-    /// > machine to “true” and appends a row to the matrix using the current
-    /// > values of the state-machine registers. Then it resets the registers to
-    /// > the initial values specified above (see Section 6.2.2). Every line
-    /// > number program sequence must end with a DW_LNE_end_sequence instruction
-    /// > which creates a row whose address is that of the byte after the last
-    /// > target machine instruction of the sequence.
-    EndSequence,
-
-    /// > The DW_LNE_set_address opcode takes a single relocatable address as an
-    /// > operand. The size of the operand is the size of an address on the target
-    /// > machine. It sets the address register to the value given by the
-    /// > relocatable address and sets the op_index register to 0.
-    /// >
-    /// > All of the other line number program opcodes that affect the address
-    /// > register add a delta to it. This instruction stores a relocatable value
-    /// > into it instead.
-    SetAddress(u64),
-
-    /// Defines a new source file in the line number program and appends it to
-    /// the line number program header's list of source files.
-    DefineFile(FileEntry<R, Offset>),
-
-    /// "The DW_LNE_set_discriminator opcode takes a single parameter, an
-    /// unsigned LEB128 integer. It sets the discriminator register to the new
-    /// value."
-    SetDiscriminator(u64),
-
-    /// An unknown extended opcode and the slice of its unparsed operands.
-    UnknownExtended(constants::DwLne, R),
-}
-
-impl<R, Offset> LineInstruction<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    fn parse<'header>(
-        header: &'header LineProgramHeader<R>,
-        input: &mut R,
-    ) -> Result<LineInstruction<R>>
-    where
-        R: 'header,
-    {
-        let opcode = input.read_u8()?;
-        if opcode == 0 {
-            let length = input.read_uleb128().and_then(R::Offset::from_u64)?;
-            let mut instr_rest = input.split(length)?;
-            let opcode = instr_rest.read_u8()?;
-
-            match constants::DwLne(opcode) {
-                constants::DW_LNE_end_sequence => Ok(LineInstruction::EndSequence),
-
-                constants::DW_LNE_set_address => {
-                    let address = instr_rest.read_address(header.address_size())?;
-                    Ok(LineInstruction::SetAddress(address))
-                }
-
-                constants::DW_LNE_define_file => {
-                    if header.version() <= 4 {
-                        let path_name = instr_rest.read_null_terminated_slice()?;
-                        let entry = FileEntry::parse(&mut instr_rest, path_name)?;
-                        Ok(LineInstruction::DefineFile(entry))
-                    } else {
-                        Ok(LineInstruction::UnknownExtended(
-                            constants::DW_LNE_define_file,
-                            instr_rest,
-                        ))
-                    }
-                }
-
-                constants::DW_LNE_set_discriminator => {
-                    let discriminator = instr_rest.read_uleb128()?;
-                    Ok(LineInstruction::SetDiscriminator(discriminator))
-                }
-
-                otherwise => Ok(LineInstruction::UnknownExtended(otherwise, instr_rest)),
-            }
-        } else if opcode >= header.opcode_base {
-            Ok(LineInstruction::Special(opcode))
-        } else {
-            match constants::DwLns(opcode) {
-                constants::DW_LNS_copy => Ok(LineInstruction::Copy),
-
-                constants::DW_LNS_advance_pc => {
-                    let advance = input.read_uleb128()?;
-                    Ok(LineInstruction::AdvancePc(advance))
-                }
-
-                constants::DW_LNS_advance_line => {
-                    let increment = input.read_sleb128()?;
-                    Ok(LineInstruction::AdvanceLine(increment))
-                }
-
-                constants::DW_LNS_set_file => {
-                    let file = input.read_uleb128()?;
-                    Ok(LineInstruction::SetFile(file))
-                }
-
-                constants::DW_LNS_set_column => {
-                    let column = input.read_uleb128()?;
-                    Ok(LineInstruction::SetColumn(column))
-                }
-
-                constants::DW_LNS_negate_stmt => Ok(LineInstruction::NegateStatement),
-
-                constants::DW_LNS_set_basic_block => Ok(LineInstruction::SetBasicBlock),
-
-                constants::DW_LNS_const_add_pc => Ok(LineInstruction::ConstAddPc),
-
-                constants::DW_LNS_fixed_advance_pc => {
-                    let advance = input.read_u16()?;
-                    Ok(LineInstruction::FixedAddPc(advance))
-                }
-
-                constants::DW_LNS_set_prologue_end => Ok(LineInstruction::SetPrologueEnd),
-
-                constants::DW_LNS_set_epilogue_begin => Ok(LineInstruction::SetEpilogueBegin),
-
-                constants::DW_LNS_set_isa => {
-                    let isa = input.read_uleb128()?;
-                    Ok(LineInstruction::SetIsa(isa))
-                }
-
-                otherwise => {
-                    let mut opcode_lengths = header.standard_opcode_lengths().clone();
-                    opcode_lengths.skip(R::Offset::from_u8(opcode - 1))?;
-                    let num_args = opcode_lengths.read_u8()? as usize;
-                    match num_args {
-                        0 => Ok(LineInstruction::UnknownStandard0(otherwise)),
-                        1 => {
-                            let arg = input.read_uleb128()?;
-                            Ok(LineInstruction::UnknownStandard1(otherwise, arg))
-                        }
-                        _ => {
-                            let mut args = input.clone();
-                            for _ in 0..num_args {
-                                input.read_uleb128()?;
-                            }
-                            let len = input.offset_from(&args);
-                            args.truncate(len)?;
-                            Ok(LineInstruction::UnknownStandardN(otherwise, args))
-                        }
-                    }
-                }
-            }
-        }
-    }
-}
-
-impl<R, Offset> fmt::Display for LineInstruction<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    fn fmt(&self, f: &mut fmt::Formatter) -> result::Result<(), fmt::Error> {
-        match *self {
-            LineInstruction::Special(opcode) => write!(f, "Special opcode {}", opcode),
-            LineInstruction::Copy => write!(f, "{}", constants::DW_LNS_copy),
-            LineInstruction::AdvancePc(advance) => {
-                write!(f, "{} by {}", constants::DW_LNS_advance_pc, advance)
-            }
-            LineInstruction::AdvanceLine(increment) => {
-                write!(f, "{} by {}", constants::DW_LNS_advance_line, increment)
-            }
-            LineInstruction::SetFile(file) => {
-                write!(f, "{} to {}", constants::DW_LNS_set_file, file)
-            }
-            LineInstruction::SetColumn(column) => {
-                write!(f, "{} to {}", constants::DW_LNS_set_column, column)
-            }
-            LineInstruction::NegateStatement => write!(f, "{}", constants::DW_LNS_negate_stmt),
-            LineInstruction::SetBasicBlock => write!(f, "{}", constants::DW_LNS_set_basic_block),
-            LineInstruction::ConstAddPc => write!(f, "{}", constants::DW_LNS_const_add_pc),
-            LineInstruction::FixedAddPc(advance) => {
-                write!(f, "{} by {}", constants::DW_LNS_fixed_advance_pc, advance)
-            }
-            LineInstruction::SetPrologueEnd => write!(f, "{}", constants::DW_LNS_set_prologue_end),
-            LineInstruction::SetEpilogueBegin => {
-                write!(f, "{}", constants::DW_LNS_set_epilogue_begin)
-            }
-            LineInstruction::SetIsa(isa) => write!(f, "{} to {}", constants::DW_LNS_set_isa, isa),
-            LineInstruction::UnknownStandard0(opcode) => write!(f, "Unknown {}", opcode),
-            LineInstruction::UnknownStandard1(opcode, arg) => {
-                write!(f, "Unknown {} with operand {}", opcode, arg)
-            }
-            LineInstruction::UnknownStandardN(opcode, ref args) => {
-                write!(f, "Unknown {} with operands {:?}", opcode, args)
-            }
-            LineInstruction::EndSequence => write!(f, "{}", constants::DW_LNE_end_sequence),
-            LineInstruction::SetAddress(address) => {
-                write!(f, "{} to {}", constants::DW_LNE_set_address, address)
-            }
-            LineInstruction::DefineFile(_) => write!(f, "{}", constants::DW_LNE_define_file),
-            LineInstruction::SetDiscriminator(discr) => {
-                write!(f, "{} to {}", constants::DW_LNE_set_discriminator, discr)
-            }
-            LineInstruction::UnknownExtended(opcode, _) => write!(f, "Unknown {}", opcode),
-        }
-    }
-}
-
-/// Deprecated. `OpcodesIter` has been renamed to `LineInstructions`.
-#[deprecated(note = "OpcodesIter has been renamed to LineInstructions, use that instead.")]
-pub type OpcodesIter<R> = LineInstructions<R>;
-
-/// An iterator yielding parsed instructions.
-///
-/// See
-/// [`LineProgramHeader::instructions`](./struct.LineProgramHeader.html#method.instructions)
-/// for more details.
-#[derive(Clone, Debug)]
-pub struct LineInstructions<R: Reader> {
-    input: R,
-}
-
-impl<R: Reader> LineInstructions<R> {
-    fn remove_trailing(&self, other: &LineInstructions<R>) -> Result<LineInstructions<R>> {
-        let offset = other.input.offset_from(&self.input);
-        let mut input = self.input.clone();
-        input.truncate(offset)?;
-        Ok(LineInstructions { input })
-    }
-}
-
-impl<R: Reader> LineInstructions<R> {
-    /// Advance the iterator and return the next instruction.
-    ///
-    /// Returns the newly parsed instruction as `Ok(Some(instruction))`. Returns
-    /// `Ok(None)` when iteration is complete and all instructions have already been
-    /// parsed and yielded. If an error occurs while parsing the next attribute,
-    /// then this error is returned as `Err(e)`, and all subsequent calls return
-    /// `Ok(None)`.
-    ///
-    /// Unfortunately, the `header` parameter means that this cannot be a
-    /// `FallibleIterator`.
-    #[inline(always)]
-    pub fn next_instruction(
-        &mut self,
-        header: &LineProgramHeader<R>,
-    ) -> Result<Option<LineInstruction<R>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        match LineInstruction::parse(header, &mut self.input) {
-            Ok(instruction) => Ok(Some(instruction)),
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-/// Deprecated. `LineNumberRow` has been renamed to `LineRow`.
-#[deprecated(note = "LineNumberRow has been renamed to LineRow, use that instead.")]
-pub type LineNumberRow = LineRow;
-
-/// A row in the line number program's resulting matrix.
-///
-/// Each row is a copy of the registers of the state machine, as defined in section 6.2.2.
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub struct LineRow {
-    tombstone: bool,
-    address: Wrapping<u64>,
-    op_index: Wrapping<u64>,
-    file: u64,
-    line: Wrapping<u64>,
-    column: u64,
-    is_stmt: bool,
-    basic_block: bool,
-    end_sequence: bool,
-    prologue_end: bool,
-    epilogue_begin: bool,
-    isa: u64,
-    discriminator: u64,
-}
-
-impl LineRow {
-    /// Create a line number row in the initial state for the given program.
-    pub fn new<R: Reader>(header: &LineProgramHeader<R>) -> Self {
-        LineRow {
-            // "At the beginning of each sequence within a line number program, the
-            // state of the registers is:" -- Section 6.2.2
-            tombstone: false,
-            address: Wrapping(0),
-            op_index: Wrapping(0),
-            file: 1,
-            line: Wrapping(1),
-            column: 0,
-            // "determined by default_is_stmt in the line number program header"
-            is_stmt: header.line_encoding.default_is_stmt,
-            basic_block: false,
-            end_sequence: false,
-            prologue_end: false,
-            epilogue_begin: false,
-            // "The isa value 0 specifies that the instruction set is the
-            // architecturally determined default instruction set. This may be fixed
-            // by the ABI, or it may be specified by other means, for example, by
-            // the object file description."
-            isa: 0,
-            discriminator: 0,
-        }
-    }
-
-    /// "The program-counter value corresponding to a machine instruction
-    /// generated by the compiler."
-    #[inline]
-    pub fn address(&self) -> u64 {
-        self.address.0
-    }
-
-    /// > An unsigned integer representing the index of an operation within a VLIW
-    /// > instruction. The index of the first operation is 0. For non-VLIW
-    /// > architectures, this register will always be 0.
-    /// >
-    /// > The address and op_index registers, taken together, form an operation
-    /// > pointer that can reference any individual operation with the
-    /// > instruction stream.
-    #[inline]
-    pub fn op_index(&self) -> u64 {
-        self.op_index.0
-    }
-
-    /// "An unsigned integer indicating the identity of the source file
-    /// corresponding to a machine instruction."
-    #[inline]
-    pub fn file_index(&self) -> u64 {
-        self.file
-    }
-
-    /// The source file corresponding to the current machine instruction.
-    #[inline]
-    pub fn file<'header, R: Reader>(
-        &self,
-        header: &'header LineProgramHeader<R>,
-    ) -> Option<&'header FileEntry<R>> {
-        header.file(self.file)
-    }
-
-    /// "An unsigned integer indicating a source line number. Lines are numbered
-    /// beginning at 1. The compiler may emit the value 0 in cases where an
-    /// instruction cannot be attributed to any source line."
-    /// Line number values of 0 are represented as `None`.
-    #[inline]
-    pub fn line(&self) -> Option<NonZeroU64> {
-        NonZeroU64::new(self.line.0)
-    }
-
-    /// "An unsigned integer indicating a column number within a source
-    /// line. Columns are numbered beginning at 1. The value 0 is reserved to
-    /// indicate that a statement begins at the “left edge” of the line."
-    #[inline]
-    pub fn column(&self) -> ColumnType {
-        NonZeroU64::new(self.column)
-            .map(ColumnType::Column)
-            .unwrap_or(ColumnType::LeftEdge)
-    }
-
-    /// "A boolean indicating that the current instruction is a recommended
-    /// breakpoint location. A recommended breakpoint location is intended to
-    /// “represent” a line, a statement and/or a semantically distinct subpart
-    /// of a statement."
-    #[inline]
-    pub fn is_stmt(&self) -> bool {
-        self.is_stmt
-    }
-
-    /// "A boolean indicating that the current instruction is the beginning of a
-    /// basic block."
-    #[inline]
-    pub fn basic_block(&self) -> bool {
-        self.basic_block
-    }
-
-    /// "A boolean indicating that the current address is that of the first byte
-    /// after the end of a sequence of target machine instructions. end_sequence
-    /// terminates a sequence of lines; therefore other information in the same
-    /// row is not meaningful."
-    #[inline]
-    pub fn end_sequence(&self) -> bool {
-        self.end_sequence
-    }
-
-    /// "A boolean indicating that the current address is one (of possibly many)
-    /// where execution should be suspended for an entry breakpoint of a
-    /// function."
-    #[inline]
-    pub fn prologue_end(&self) -> bool {
-        self.prologue_end
-    }
-
-    /// "A boolean indicating that the current address is one (of possibly many)
-    /// where execution should be suspended for an exit breakpoint of a
-    /// function."
-    #[inline]
-    pub fn epilogue_begin(&self) -> bool {
-        self.epilogue_begin
-    }
-
-    /// Tag for the current instruction set architecture.
-    ///
-    /// > An unsigned integer whose value encodes the applicable instruction set
-    /// > architecture for the current instruction.
-    /// >
-    /// > The encoding of instruction sets should be shared by all users of a
-    /// > given architecture. It is recommended that this encoding be defined by
-    /// > the ABI authoring committee for each architecture.
-    #[inline]
-    pub fn isa(&self) -> u64 {
-        self.isa
-    }
-
-    /// "An unsigned integer identifying the block to which the current
-    /// instruction belongs. Discriminator values are assigned arbitrarily by
-    /// the DWARF producer and serve to distinguish among multiple blocks that
-    /// may all be associated with the same source file, line, and column. Where
-    /// only one block exists for a given source position, the discriminator
-    /// value should be zero."
-    #[inline]
-    pub fn discriminator(&self) -> u64 {
-        self.discriminator
-    }
-
-    /// Execute the given instruction, and return true if a new row in the
-    /// line number matrix needs to be generated.
-    ///
-    /// Unknown opcodes are treated as no-ops.
-    #[inline]
-    pub fn execute<R, Program>(
-        &mut self,
-        instruction: LineInstruction<R>,
-        program: &mut Program,
-    ) -> bool
-    where
-        Program: LineProgram<R>,
-        R: Reader,
-    {
-        match instruction {
-            LineInstruction::Special(opcode) => {
-                self.exec_special_opcode(opcode, program.header());
-                true
-            }
-
-            LineInstruction::Copy => true,
-
-            LineInstruction::AdvancePc(operation_advance) => {
-                self.apply_operation_advance(operation_advance, program.header());
-                false
-            }
-
-            LineInstruction::AdvanceLine(line_increment) => {
-                self.apply_line_advance(line_increment);
-                false
-            }
-
-            LineInstruction::SetFile(file) => {
-                self.file = file;
-                false
-            }
-
-            LineInstruction::SetColumn(column) => {
-                self.column = column;
-                false
-            }
-
-            LineInstruction::NegateStatement => {
-                self.is_stmt = !self.is_stmt;
-                false
-            }
-
-            LineInstruction::SetBasicBlock => {
-                self.basic_block = true;
-                false
-            }
-
-            LineInstruction::ConstAddPc => {
-                let adjusted = self.adjust_opcode(255, program.header());
-                let operation_advance = adjusted / program.header().line_encoding.line_range;
-                self.apply_operation_advance(u64::from(operation_advance), program.header());
-                false
-            }
-
-            LineInstruction::FixedAddPc(operand) => {
-                self.address += Wrapping(u64::from(operand));
-                self.op_index.0 = 0;
-                false
-            }
-
-            LineInstruction::SetPrologueEnd => {
-                self.prologue_end = true;
-                false
-            }
-
-            LineInstruction::SetEpilogueBegin => {
-                self.epilogue_begin = true;
-                false
-            }
-
-            LineInstruction::SetIsa(isa) => {
-                self.isa = isa;
-                false
-            }
-
-            LineInstruction::EndSequence => {
-                self.end_sequence = true;
-                true
-            }
-
-            LineInstruction::SetAddress(address) => {
-                let tombstone_address = !0 >> (64 - program.header().encoding.address_size * 8);
-                self.tombstone = address == tombstone_address;
-                self.address.0 = address;
-                self.op_index.0 = 0;
-                false
-            }
-
-            LineInstruction::DefineFile(entry) => {
-                program.add_file(entry);
-                false
-            }
-
-            LineInstruction::SetDiscriminator(discriminator) => {
-                self.discriminator = discriminator;
-                false
-            }
-
-            // Compatibility with future opcodes.
-            LineInstruction::UnknownStandard0(_)
-            | LineInstruction::UnknownStandard1(_, _)
-            | LineInstruction::UnknownStandardN(_, _)
-            | LineInstruction::UnknownExtended(_, _) => false,
-        }
-    }
-
-    /// Perform any reset that was required after copying the previous row.
-    #[inline]
-    pub fn reset<R: Reader>(&mut self, header: &LineProgramHeader<R>) {
-        if self.end_sequence {
-            // Previous instruction was EndSequence, so reset everything
-            // as specified in Section 6.2.5.3.
-            *self = Self::new(header);
-        } else {
-            // Previous instruction was one of:
-            // - Special - specified in Section 6.2.5.1, steps 4-7
-            // - Copy - specified in Section 6.2.5.2
-            // The reset behaviour is the same in both cases.
-            self.discriminator = 0;
-            self.basic_block = false;
-            self.prologue_end = false;
-            self.epilogue_begin = false;
-        }
-    }
-
-    /// Step 1 of section 6.2.5.1
-    fn apply_line_advance(&mut self, line_increment: i64) {
-        if line_increment < 0 {
-            let decrement = -line_increment as u64;
-            if decrement <= self.line.0 {
-                self.line.0 -= decrement;
-            } else {
-                self.line.0 = 0;
-            }
-        } else {
-            self.line += Wrapping(line_increment as u64);
-        }
-    }
-
-    /// Step 2 of section 6.2.5.1
-    fn apply_operation_advance<R: Reader>(
-        &mut self,
-        operation_advance: u64,
-        header: &LineProgramHeader<R>,
-    ) {
-        let operation_advance = Wrapping(operation_advance);
-
-        let minimum_instruction_length = u64::from(header.line_encoding.minimum_instruction_length);
-        let minimum_instruction_length = Wrapping(minimum_instruction_length);
-
-        let maximum_operations_per_instruction =
-            u64::from(header.line_encoding.maximum_operations_per_instruction);
-        let maximum_operations_per_instruction = Wrapping(maximum_operations_per_instruction);
-
-        if maximum_operations_per_instruction.0 == 1 {
-            self.address += minimum_instruction_length * operation_advance;
-            self.op_index.0 = 0;
-        } else {
-            let op_index_with_advance = self.op_index + operation_advance;
-            self.address += minimum_instruction_length
-                * (op_index_with_advance / maximum_operations_per_instruction);
-            self.op_index = op_index_with_advance % maximum_operations_per_instruction;
-        }
-    }
-
-    #[inline]
-    fn adjust_opcode<R: Reader>(&self, opcode: u8, header: &LineProgramHeader<R>) -> u8 {
-        opcode - header.opcode_base
-    }
-
-    /// Section 6.2.5.1
-    fn exec_special_opcode<R: Reader>(&mut self, opcode: u8, header: &LineProgramHeader<R>) {
-        let adjusted_opcode = self.adjust_opcode(opcode, header);
-
-        let line_range = header.line_encoding.line_range;
-        let line_advance = adjusted_opcode % line_range;
-        let operation_advance = adjusted_opcode / line_range;
-
-        // Step 1
-        let line_base = i64::from(header.line_encoding.line_base);
-        self.apply_line_advance(line_base + i64::from(line_advance));
-
-        // Step 2
-        self.apply_operation_advance(u64::from(operation_advance), header);
-    }
-}
-
-/// The type of column that a row is referring to.
-#[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord)]
-pub enum ColumnType {
-    /// The `LeftEdge` means that the statement begins at the start of the new
-    /// line.
-    LeftEdge,
-    /// A column number, whose range begins at 1.
-    Column(NonZeroU64),
-}
-
-/// Deprecated. `LineNumberSequence` has been renamed to `LineSequence`.
-#[deprecated(note = "LineNumberSequence has been renamed to LineSequence, use that instead.")]
-pub type LineNumberSequence<R> = LineSequence<R>;
-
-/// A sequence within a line number program.  A sequence, as defined in section
-/// 6.2.5 of the standard, is a linear subset of a line number program within
-/// which addresses are monotonically increasing.
-#[derive(Clone, Debug)]
-pub struct LineSequence<R: Reader> {
-    /// The first address that is covered by this sequence within the line number
-    /// program.
-    pub start: u64,
-    /// The first address that is *not* covered by this sequence within the line
-    /// number program.
-    pub end: u64,
-    instructions: LineInstructions<R>,
-}
-
-/// Deprecated. `LineNumberProgramHeader` has been renamed to `LineProgramHeader`.
-#[deprecated(
-    note = "LineNumberProgramHeader has been renamed to LineProgramHeader, use that instead."
-)]
-pub type LineNumberProgramHeader<R, Offset> = LineProgramHeader<R, Offset>;
-
-/// A header for a line number program in the `.debug_line` section, as defined
-/// in section 6.2.4 of the standard.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct LineProgramHeader<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    encoding: Encoding,
-    offset: DebugLineOffset<Offset>,
-    unit_length: Offset,
-
-    header_length: Offset,
-
-    line_encoding: LineEncoding,
-
-    /// "The number assigned to the first special opcode."
-    opcode_base: u8,
-
-    /// "This array specifies the number of LEB128 operands for each of the
-    /// standard opcodes. The first element of the array corresponds to the
-    /// opcode whose value is 1, and the last element corresponds to the opcode
-    /// whose value is `opcode_base - 1`."
-    standard_opcode_lengths: R,
-
-    /// "A sequence of directory entry format descriptions."
-    directory_entry_format: Vec<FileEntryFormat>,
-
-    /// > Entries in this sequence describe each path that was searched for
-    /// > included source files in this compilation. (The paths include those
-    /// > directories specified explicitly by the user for the compiler to search
-    /// > and those the compiler searches without explicit direction.) Each path
-    /// > entry is either a full path name or is relative to the current directory
-    /// > of the compilation.
-    /// >
-    /// > The last entry is followed by a single null byte.
-    include_directories: Vec<AttributeValue<R, Offset>>,
-
-    /// "A sequence of file entry format descriptions."
-    file_name_entry_format: Vec<FileEntryFormat>,
-
-    /// "Entries in this sequence describe source files that contribute to the
-    /// line number information for this compilation unit or is used in other
-    /// contexts."
-    file_names: Vec<FileEntry<R, Offset>>,
-
-    /// The encoded line program instructions.
-    program_buf: R,
-
-    /// The current directory of the compilation.
-    comp_dir: Option<R>,
-
-    /// The primary source file.
-    comp_file: Option<FileEntry<R, Offset>>,
-}
-
-impl<R, Offset> LineProgramHeader<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Return the offset of the line number program header in the `.debug_line` section.
-    pub fn offset(&self) -> DebugLineOffset<R::Offset> {
-        self.offset
-    }
-
-    /// Return the length of the line number program and header, not including
-    /// the length of the encoded length itself.
-    pub fn unit_length(&self) -> R::Offset {
-        self.unit_length
-    }
-
-    /// Return the encoding parameters for this header's line program.
-    pub fn encoding(&self) -> Encoding {
-        self.encoding
-    }
-
-    /// Get the version of this header's line program.
-    pub fn version(&self) -> u16 {
-        self.encoding.version
-    }
-
-    /// Get the length of the encoded line number program header, not including
-    /// the length of the encoded length itself.
-    pub fn header_length(&self) -> R::Offset {
-        self.header_length
-    }
-
-    /// Get the size in bytes of a target machine address.
-    pub fn address_size(&self) -> u8 {
-        self.encoding.address_size
-    }
-
-    /// Whether this line program is encoded in 64- or 32-bit DWARF.
-    pub fn format(&self) -> Format {
-        self.encoding.format
-    }
-
-    /// Get the line encoding parameters for this header's line program.
-    pub fn line_encoding(&self) -> LineEncoding {
-        self.line_encoding
-    }
-
-    /// Get the minimum instruction length any instruction in this header's line
-    /// program may have.
-    pub fn minimum_instruction_length(&self) -> u8 {
-        self.line_encoding.minimum_instruction_length
-    }
-
-    /// Get the maximum number of operations each instruction in this header's
-    /// line program may have.
-    pub fn maximum_operations_per_instruction(&self) -> u8 {
-        self.line_encoding.maximum_operations_per_instruction
-    }
-
-    /// Get the default value of the `is_stmt` register for this header's line
-    /// program.
-    pub fn default_is_stmt(&self) -> bool {
-        self.line_encoding.default_is_stmt
-    }
-
-    /// Get the line base for this header's line program.
-    pub fn line_base(&self) -> i8 {
-        self.line_encoding.line_base
-    }
-
-    /// Get the line range for this header's line program.
-    pub fn line_range(&self) -> u8 {
-        self.line_encoding.line_range
-    }
-
-    /// Get opcode base for this header's line program.
-    pub fn opcode_base(&self) -> u8 {
-        self.opcode_base
-    }
-
-    /// An array of `u8` that specifies the number of LEB128 operands for
-    /// each of the standard opcodes.
-    pub fn standard_opcode_lengths(&self) -> &R {
-        &self.standard_opcode_lengths
-    }
-
-    /// Get the format of a directory entry.
-    pub fn directory_entry_format(&self) -> &[FileEntryFormat] {
-        &self.directory_entry_format[..]
-    }
-
-    /// Get the set of include directories for this header's line program.
-    ///
-    /// For DWARF version <= 4, the compilation's current directory is not included
-    /// in the return value, but is implicitly considered to be in the set per spec.
-    pub fn include_directories(&self) -> &[AttributeValue<R, Offset>] {
-        &self.include_directories[..]
-    }
-
-    /// The include directory with the given directory index.
-    ///
-    /// A directory index of 0 corresponds to the compilation unit directory.
-    pub fn directory(&self, directory: u64) -> Option<AttributeValue<R, Offset>> {
-        if self.encoding.version <= 4 {
-            if directory == 0 {
-                self.comp_dir.clone().map(AttributeValue::String)
-            } else {
-                let directory = directory as usize - 1;
-                self.include_directories.get(directory).cloned()
-            }
-        } else {
-            self.include_directories.get(directory as usize).cloned()
-        }
-    }
-
-    /// Get the format of a file name entry.
-    pub fn file_name_entry_format(&self) -> &[FileEntryFormat] {
-        &self.file_name_entry_format[..]
-    }
-
-    /// Return true if the file entries may have valid timestamps.
-    ///
-    /// Only returns false if we definitely know that all timestamp fields
-    /// are invalid.
-    pub fn file_has_timestamp(&self) -> bool {
-        self.encoding.version <= 4
-            || self
-                .file_name_entry_format
-                .iter()
-                .any(|x| x.content_type == constants::DW_LNCT_timestamp)
-    }
-
-    /// Return true if the file entries may have valid sizes.
-    ///
-    /// Only returns false if we definitely know that all size fields
-    /// are invalid.
-    pub fn file_has_size(&self) -> bool {
-        self.encoding.version <= 4
-            || self
-                .file_name_entry_format
-                .iter()
-                .any(|x| x.content_type == constants::DW_LNCT_size)
-    }
-
-    /// Return true if the file name entry format contains an MD5 field.
-    pub fn file_has_md5(&self) -> bool {
-        self.file_name_entry_format
-            .iter()
-            .any(|x| x.content_type == constants::DW_LNCT_MD5)
-    }
-
-    /// Get the list of source files that appear in this header's line program.
-    pub fn file_names(&self) -> &[FileEntry<R, Offset>] {
-        &self.file_names[..]
-    }
-
-    /// The source file with the given file index.
-    ///
-    /// A file index of 0 corresponds to the compilation unit file.
-    /// Note that a file index of 0 is invalid for DWARF version <= 4,
-    /// but we support it anyway.
-    pub fn file(&self, file: u64) -> Option<&FileEntry<R, Offset>> {
-        if self.encoding.version <= 4 {
-            if file == 0 {
-                self.comp_file.as_ref()
-            } else {
-                let file = file as usize - 1;
-                self.file_names.get(file)
-            }
-        } else {
-            self.file_names.get(file as usize)
-        }
-    }
-
-    /// Get the raw, un-parsed `EndianSlice` containing this header's line number
-    /// program.
-    ///
-    /// ```
-    /// # fn foo() {
-    /// use gimli::{LineProgramHeader, EndianSlice, NativeEndian};
-    ///
-    /// fn get_line_number_program_header<'a>() -> LineProgramHeader<EndianSlice<'a, NativeEndian>> {
-    ///     // Get a line number program header from some offset in a
-    ///     // `.debug_line` section...
-    /// #   unimplemented!()
-    /// }
-    ///
-    /// let header = get_line_number_program_header();
-    /// let raw_program = header.raw_program_buf();
-    /// println!("The length of the raw program in bytes is {}", raw_program.len());
-    /// # }
-    /// ```
-    pub fn raw_program_buf(&self) -> R {
-        self.program_buf.clone()
-    }
-
-    /// Iterate over the instructions in this header's line number program, parsing
-    /// them as we go.
-    pub fn instructions(&self) -> LineInstructions<R> {
-        LineInstructions {
-            input: self.program_buf.clone(),
-        }
-    }
-
-    fn parse(
-        input: &mut R,
-        offset: DebugLineOffset<Offset>,
-        mut address_size: u8,
-        mut comp_dir: Option<R>,
-        comp_name: Option<R>,
-    ) -> Result<LineProgramHeader<R, Offset>> {
-        let (unit_length, format) = input.read_initial_length()?;
-        let rest = &mut input.split(unit_length)?;
-
-        let version = rest.read_u16()?;
-        if version < 2 || version > 5 {
-            return Err(Error::UnknownVersion(u64::from(version)));
-        }
-
-        if version >= 5 {
-            address_size = rest.read_u8()?;
-            let segment_selector_size = rest.read_u8()?;
-            if segment_selector_size != 0 {
-                return Err(Error::UnsupportedSegmentSize);
-            }
-        }
-
-        let encoding = Encoding {
-            format,
-            version,
-            address_size,
-        };
-
-        let header_length = rest.read_length(format)?;
-
-        let mut program_buf = rest.clone();
-        program_buf.skip(header_length)?;
-        rest.truncate(header_length)?;
-
-        let minimum_instruction_length = rest.read_u8()?;
-        if minimum_instruction_length == 0 {
-            return Err(Error::MinimumInstructionLengthZero);
-        }
-
-        // This field did not exist before DWARF 4, but is specified to be 1 for
-        // non-VLIW architectures, which makes it a no-op.
-        let maximum_operations_per_instruction = if version >= 4 { rest.read_u8()? } else { 1 };
-        if maximum_operations_per_instruction == 0 {
-            return Err(Error::MaximumOperationsPerInstructionZero);
-        }
-
-        let default_is_stmt = rest.read_u8()? != 0;
-        let line_base = rest.read_i8()?;
-        let line_range = rest.read_u8()?;
-        if line_range == 0 {
-            return Err(Error::LineRangeZero);
-        }
-        let line_encoding = LineEncoding {
-            minimum_instruction_length,
-            maximum_operations_per_instruction,
-            default_is_stmt,
-            line_base,
-            line_range,
-        };
-
-        let opcode_base = rest.read_u8()?;
-        if opcode_base == 0 {
-            return Err(Error::OpcodeBaseZero);
-        }
-
-        let standard_opcode_count = R::Offset::from_u8(opcode_base - 1);
-        let standard_opcode_lengths = rest.split(standard_opcode_count)?;
-
-        let directory_entry_format;
-        let mut include_directories = Vec::new();
-        if version <= 4 {
-            directory_entry_format = Vec::new();
-            loop {
-                let directory = rest.read_null_terminated_slice()?;
-                if directory.is_empty() {
-                    break;
-                }
-                include_directories.push(AttributeValue::String(directory));
-            }
-        } else {
-            comp_dir = None;
-            directory_entry_format = FileEntryFormat::parse(rest)?;
-            let count = rest.read_uleb128()?;
-            for _ in 0..count {
-                include_directories.push(parse_directory_v5(
-                    rest,
-                    encoding,
-                    &directory_entry_format,
-                )?);
-            }
-        }
-
-        let comp_file;
-        let file_name_entry_format;
-        let mut file_names = Vec::new();
-        if version <= 4 {
-            comp_file = comp_name.map(|name| FileEntry {
-                path_name: AttributeValue::String(name),
-                directory_index: 0,
-                timestamp: 0,
-                size: 0,
-                md5: [0; 16],
-            });
-
-            file_name_entry_format = Vec::new();
-            loop {
-                let path_name = rest.read_null_terminated_slice()?;
-                if path_name.is_empty() {
-                    break;
-                }
-                file_names.push(FileEntry::parse(rest, path_name)?);
-            }
-        } else {
-            comp_file = None;
-            file_name_entry_format = FileEntryFormat::parse(rest)?;
-            let count = rest.read_uleb128()?;
-            for _ in 0..count {
-                file_names.push(parse_file_v5(rest, encoding, &file_name_entry_format)?);
-            }
-        }
-
-        let header = LineProgramHeader {
-            encoding,
-            offset,
-            unit_length,
-            header_length,
-            line_encoding,
-            opcode_base,
-            standard_opcode_lengths,
-            directory_entry_format,
-            include_directories,
-            file_name_entry_format,
-            file_names,
-            program_buf,
-            comp_dir,
-            comp_file,
-        };
-        Ok(header)
-    }
-}
-
-/// Deprecated. `IncompleteLineNumberProgram` has been renamed to `IncompleteLineProgram`.
-#[deprecated(
-    note = "IncompleteLineNumberProgram has been renamed to IncompleteLineProgram, use that instead."
-)]
-pub type IncompleteLineNumberProgram<R, Offset> = IncompleteLineProgram<R, Offset>;
-
-/// A line number program that has not been run to completion.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct IncompleteLineProgram<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    header: LineProgramHeader<R, Offset>,
-}
-
-impl<R, Offset> IncompleteLineProgram<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Retrieve the `LineProgramHeader` for this program.
-    pub fn header(&self) -> &LineProgramHeader<R, Offset> {
-        &self.header
-    }
-
-    /// Construct a new `LineRows` for executing this program to iterate
-    /// over rows in the line information matrix.
-    pub fn rows(self) -> OneShotLineRows<R, Offset> {
-        OneShotLineRows::new(self)
-    }
-
-    /// Execute the line number program, completing the `IncompleteLineProgram`
-    /// into a `CompleteLineProgram` and producing an array of sequences within
-    /// the line number program that can later be used with
-    /// `CompleteLineProgram::resume_from`.
-    ///
-    /// ```
-    /// # fn foo() {
-    /// use gimli::{IncompleteLineProgram, EndianSlice, NativeEndian};
-    ///
-    /// fn get_line_number_program<'a>() -> IncompleteLineProgram<EndianSlice<'a, NativeEndian>> {
-    ///     // Get a line number program from some offset in a
-    ///     // `.debug_line` section...
-    /// #   unimplemented!()
-    /// }
-    ///
-    /// let program = get_line_number_program();
-    /// let (program, sequences) = program.sequences().unwrap();
-    /// println!("There are {} sequences in this line number program", sequences.len());
-    /// # }
-    /// ```
-    #[allow(clippy::type_complexity)]
-    pub fn sequences(self) -> Result<(CompleteLineProgram<R, Offset>, Vec<LineSequence<R>>)> {
-        let mut sequences = Vec::new();
-        let mut rows = self.rows();
-        let mut instructions = rows.instructions.clone();
-        let mut sequence_start_addr = None;
-        loop {
-            let sequence_end_addr;
-            if rows.next_row()?.is_none() {
-                break;
-            }
-
-            let row = &rows.row;
-            if row.end_sequence() {
-                sequence_end_addr = row.address();
-            } else if sequence_start_addr.is_none() {
-                sequence_start_addr = Some(row.address());
-                continue;
-            } else {
-                continue;
-            }
-
-            // We just finished a sequence.
-            sequences.push(LineSequence {
-                // In theory one could have multiple DW_LNE_end_sequence instructions
-                // in a row.
-                start: sequence_start_addr.unwrap_or(0),
-                end: sequence_end_addr,
-                instructions: instructions.remove_trailing(&rows.instructions)?,
-            });
-            sequence_start_addr = None;
-            instructions = rows.instructions.clone();
-        }
-
-        let program = CompleteLineProgram {
-            header: rows.program.header,
-        };
-        Ok((program, sequences))
-    }
-}
-
-/// Deprecated. `CompleteLineNumberProgram` has been renamed to `CompleteLineProgram`.
-#[deprecated(
-    note = "CompleteLineNumberProgram has been renamed to CompleteLineProgram, use that instead."
-)]
-pub type CompleteLineNumberProgram<R, Offset> = CompleteLineProgram<R, Offset>;
-
-/// A line number program that has previously been run to completion.
-#[derive(Clone, Debug, Eq, PartialEq)]
-pub struct CompleteLineProgram<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    header: LineProgramHeader<R, Offset>,
-}
-
-impl<R, Offset> CompleteLineProgram<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Retrieve the `LineProgramHeader` for this program.
-    pub fn header(&self) -> &LineProgramHeader<R, Offset> {
-        &self.header
-    }
-
-    /// Construct a new `LineRows` for executing the subset of the line
-    /// number program identified by 'sequence' and  generating the line information
-    /// matrix.
-    ///
-    /// ```
-    /// # fn foo() {
-    /// use gimli::{IncompleteLineProgram, EndianSlice, NativeEndian};
-    ///
-    /// fn get_line_number_program<'a>() -> IncompleteLineProgram<EndianSlice<'a, NativeEndian>> {
-    ///     // Get a line number program from some offset in a
-    ///     // `.debug_line` section...
-    /// #   unimplemented!()
-    /// }
-    ///
-    /// let program = get_line_number_program();
-    /// let (program, sequences) = program.sequences().unwrap();
-    /// for sequence in &sequences {
-    ///     let mut sm = program.resume_from(sequence);
-    /// }
-    /// # }
-    /// ```
-    pub fn resume_from<'program>(
-        &'program self,
-        sequence: &LineSequence<R>,
-    ) -> ResumedLineRows<'program, R, Offset> {
-        ResumedLineRows::resume(self, sequence)
-    }
-}
-
-/// An entry in the `LineProgramHeader`'s `file_names` set.
-#[derive(Copy, Clone, Debug, PartialEq, Eq)]
-pub struct FileEntry<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    path_name: AttributeValue<R, Offset>,
-    directory_index: u64,
-    timestamp: u64,
-    size: u64,
-    md5: [u8; 16],
-}
-
-impl<R, Offset> FileEntry<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    // version 2-4
-    fn parse(input: &mut R, path_name: R) -> Result<FileEntry<R, Offset>> {
-        let directory_index = input.read_uleb128()?;
-        let timestamp = input.read_uleb128()?;
-        let size = input.read_uleb128()?;
-
-        let entry = FileEntry {
-            path_name: AttributeValue::String(path_name),
-            directory_index,
-            timestamp,
-            size,
-            md5: [0; 16],
-        };
-
-        Ok(entry)
-    }
-
-    /// > A slice containing the full or relative path name of
-    /// > a source file. If the entry contains a file name or a relative path
-    /// > name, the file is located relative to either the compilation directory
-    /// > (as specified by the DW_AT_comp_dir attribute given in the compilation
-    /// > unit) or one of the directories in the include_directories section.
-    pub fn path_name(&self) -> AttributeValue<R, Offset> {
-        self.path_name.clone()
-    }
-
-    /// > An unsigned LEB128 number representing the directory index of the
-    /// > directory in which the file was found.
-    /// >
-    /// > ...
-    /// >
-    /// > The directory index represents an entry in the include_directories
-    /// > section of the line number program header. The index is 0 if the file
-    /// > was found in the current directory of the compilation, 1 if it was found
-    /// > in the first directory in the include_directories section, and so
-    /// > on. The directory index is ignored for file names that represent full
-    /// > path names.
-    pub fn directory_index(&self) -> u64 {
-        self.directory_index
-    }
-
-    /// Get this file's directory.
-    ///
-    /// A directory index of 0 corresponds to the compilation unit directory.
-    pub fn directory(&self, header: &LineProgramHeader<R>) -> Option<AttributeValue<R, Offset>> {
-        header.directory(self.directory_index)
-    }
-
-    /// The implementation-defined time of last modification of the file,
-    /// or 0 if not available.
-    pub fn timestamp(&self) -> u64 {
-        self.timestamp
-    }
-
-    /// "An unsigned LEB128 number representing the time of last modification of
-    /// the file, or 0 if not available."
-    // Terminology changed in DWARF version 5.
-    #[doc(hidden)]
-    pub fn last_modification(&self) -> u64 {
-        self.timestamp
-    }
-
-    /// The size of the file in bytes, or 0 if not available.
-    pub fn size(&self) -> u64 {
-        self.size
-    }
-
-    /// "An unsigned LEB128 number representing the length in bytes of the file,
-    /// or 0 if not available."
-    // Terminology changed in DWARF version 5.
-    #[doc(hidden)]
-    pub fn length(&self) -> u64 {
-        self.size
-    }
-
-    /// A 16-byte MD5 digest of the file contents.
-    ///
-    /// Only valid if `LineProgramHeader::file_has_md5` returns `true`.
-    pub fn md5(&self) -> &[u8; 16] {
-        &self.md5
-    }
-}
-
-/// The format of a component of an include directory or file name entry.
-#[derive(Copy, Clone, Debug, PartialEq, Eq)]
-pub struct FileEntryFormat {
-    /// The type of information that is represented by the component.
-    pub content_type: constants::DwLnct,
-
-    /// The encoding form of the component value.
-    pub form: constants::DwForm,
-}
-
-impl FileEntryFormat {
-    fn parse<R: Reader>(input: &mut R) -> Result<Vec<FileEntryFormat>> {
-        let format_count = input.read_u8()? as usize;
-        let mut format = Vec::with_capacity(format_count);
-        let mut path_count = 0;
-        for _ in 0..format_count {
-            let content_type = input.read_uleb128()?;
-            let content_type = if content_type > u64::from(u16::max_value()) {
-                constants::DwLnct(u16::max_value())
-            } else {
-                constants::DwLnct(content_type as u16)
-            };
-            if content_type == constants::DW_LNCT_path {
-                path_count += 1;
-            }
-
-            let form = constants::DwForm(input.read_uleb128_u16()?);
-
-            format.push(FileEntryFormat { content_type, form });
-        }
-        if path_count != 1 {
-            return Err(Error::MissingFileEntryFormatPath);
-        }
-        Ok(format)
-    }
-}
-
-fn parse_directory_v5<R: Reader>(
-    input: &mut R,
-    encoding: Encoding,
-    formats: &[FileEntryFormat],
-) -> Result<AttributeValue<R>> {
-    let mut path_name = None;
-
-    for format in formats {
-        let value = parse_attribute(input, encoding, format.form)?;
-        if format.content_type == constants::DW_LNCT_path {
-            path_name = Some(value);
-        }
-    }
-
-    Ok(path_name.unwrap())
-}
-
-fn parse_file_v5<R: Reader>(
-    input: &mut R,
-    encoding: Encoding,
-    formats: &[FileEntryFormat],
-) -> Result<FileEntry<R>> {
-    let mut path_name = None;
-    let mut directory_index = 0;
-    let mut timestamp = 0;
-    let mut size = 0;
-    let mut md5 = [0; 16];
-
-    for format in formats {
-        let value = parse_attribute(input, encoding, format.form)?;
-        match format.content_type {
-            constants::DW_LNCT_path => path_name = Some(value),
-            constants::DW_LNCT_directory_index => {
-                if let Some(value) = value.udata_value() {
-                    directory_index = value;
-                }
-            }
-            constants::DW_LNCT_timestamp => {
-                if let Some(value) = value.udata_value() {
-                    timestamp = value;
-                }
-            }
-            constants::DW_LNCT_size => {
-                if let Some(value) = value.udata_value() {
-                    size = value;
-                }
-            }
-            constants::DW_LNCT_MD5 => {
-                if let AttributeValue::Block(mut value) = value {
-                    if value.len().into_u64() == 16 {
-                        md5 = value.read_u8_array()?;
-                    }
-                }
-            }
-            // Ignore unknown content types.
-            _ => {}
-        }
-    }
-
-    Ok(FileEntry {
-        path_name: path_name.unwrap(),
-        directory_index,
-        timestamp,
-        size,
-        md5,
-    })
-}
-
-// TODO: this should be shared with unit::parse_attribute(), but that is hard to do.
-fn parse_attribute<R: Reader>(
-    input: &mut R,
-    encoding: Encoding,
-    form: constants::DwForm,
-) -> Result<AttributeValue<R>> {
-    Ok(match form {
-        constants::DW_FORM_block1 => {
-            let len = input.read_u8().map(R::Offset::from_u8)?;
-            let block = input.split(len)?;
-            AttributeValue::Block(block)
-        }
-        constants::DW_FORM_block2 => {
-            let len = input.read_u16().map(R::Offset::from_u16)?;
-            let block = input.split(len)?;
-            AttributeValue::Block(block)
-        }
-        constants::DW_FORM_block4 => {
-            let len = input.read_u32().map(R::Offset::from_u32)?;
-            let block = input.split(len)?;
-            AttributeValue::Block(block)
-        }
-        constants::DW_FORM_block => {
-            let len = input.read_uleb128().and_then(R::Offset::from_u64)?;
-            let block = input.split(len)?;
-            AttributeValue::Block(block)
-        }
-        constants::DW_FORM_data1 => {
-            let data = input.read_u8()?;
-            AttributeValue::Data1(data)
-        }
-        constants::DW_FORM_data2 => {
-            let data = input.read_u16()?;
-            AttributeValue::Data2(data)
-        }
-        constants::DW_FORM_data4 => {
-            let data = input.read_u32()?;
-            AttributeValue::Data4(data)
-        }
-        constants::DW_FORM_data8 => {
-            let data = input.read_u64()?;
-            AttributeValue::Data8(data)
-        }
-        constants::DW_FORM_data16 => {
-            let block = input.split(R::Offset::from_u8(16))?;
-            AttributeValue::Block(block)
-        }
-        constants::DW_FORM_udata => {
-            let data = input.read_uleb128()?;
-            AttributeValue::Udata(data)
-        }
-        constants::DW_FORM_sdata => {
-            let data = input.read_sleb128()?;
-            AttributeValue::Sdata(data)
-        }
-        constants::DW_FORM_flag => {
-            let present = input.read_u8()?;
-            AttributeValue::Flag(present != 0)
-        }
-        constants::DW_FORM_sec_offset => {
-            let offset = input.read_offset(encoding.format)?;
-            AttributeValue::SecOffset(offset)
-        }
-        constants::DW_FORM_string => {
-            let string = input.read_null_terminated_slice()?;
-            AttributeValue::String(string)
-        }
-        constants::DW_FORM_strp => {
-            let offset = input.read_offset(encoding.format)?;
-            AttributeValue::DebugStrRef(DebugStrOffset(offset))
-        }
-        constants::DW_FORM_strp_sup | constants::DW_FORM_GNU_strp_alt => {
-            let offset = input.read_offset(encoding.format)?;
-            AttributeValue::DebugStrRefSup(DebugStrOffset(offset))
-        }
-        constants::DW_FORM_line_strp => {
-            let offset = input.read_offset(encoding.format)?;
-            AttributeValue::DebugLineStrRef(DebugLineStrOffset(offset))
-        }
-        constants::DW_FORM_strx | constants::DW_FORM_GNU_str_index => {
-            let index = input.read_uleb128().and_then(R::Offset::from_u64)?;
-            AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-        }
-        constants::DW_FORM_strx1 => {
-            let index = input.read_u8().map(R::Offset::from_u8)?;
-            AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-        }
-        constants::DW_FORM_strx2 => {
-            let index = input.read_u16().map(R::Offset::from_u16)?;
-            AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-        }
-        constants::DW_FORM_strx3 => {
-            let index = input.read_uint(3).and_then(R::Offset::from_u64)?;
-            AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-        }
-        constants::DW_FORM_strx4 => {
-            let index = input.read_u32().map(R::Offset::from_u32)?;
-            AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-        }
-        _ => {
-            return Err(Error::UnknownForm);
-        }
-    })
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::constants;
-    use crate::endianity::LittleEndian;
-    use crate::read::{EndianSlice, Error};
-    use crate::test_util::GimliSectionMethods;
-    use core::u64;
-    use core::u8;
-    use test_assembler::{Endian, Label, LabelMaker, Section};
-
-    #[test]
-    fn test_parse_debug_line_32_ok() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 62.
-            0x3e, 0x00, 0x00, 0x00,
-            // Version.
-            0x04, 0x00,
-            // Header length = 40.
-            0x28, 0x00, 0x00, 0x00,
-            // Minimum instruction length.
-            0x01,
-            // Maximum operations per byte.
-            0x01,
-            // Default is_stmt.
-            0x01,
-            // Line base.
-            0x00,
-            // Line range.
-            0x01,
-            // Opcode base.
-            0x03,
-            // Standard opcode lengths for opcodes 1 .. opcode base - 1.
-            0x01, 0x02,
-            // Include directories = '/', 'i', 'n', 'c', '\0', '/', 'i', 'n', 'c', '2', '\0', '\0'
-            0x2f, 0x69, 0x6e, 0x63, 0x00, 0x2f, 0x69, 0x6e, 0x63, 0x32, 0x00, 0x00,
-            // File names
-                // foo.rs
-                0x66, 0x6f, 0x6f, 0x2e, 0x72, 0x73, 0x00,
-                0x00,
-                0x00,
-                0x00,
-                // bar.h
-                0x62, 0x61, 0x72, 0x2e, 0x68, 0x00,
-                0x01,
-                0x00,
-                0x00,
-            // End file names.
-            0x00,
-
-            // Dummy line program data.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy next line program.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-        let comp_dir = EndianSlice::new(b"/comp_dir", LittleEndian);
-        let comp_name = EndianSlice::new(b"/comp_name", LittleEndian);
-
-        let header =
-            LineProgramHeader::parse(rest, DebugLineOffset(0), 4, Some(comp_dir), Some(comp_name))
-                .expect("should parse header ok");
-
-        assert_eq!(
-            *rest,
-            EndianSlice::new(&buf[buf.len() - 16..], LittleEndian)
-        );
-
-        assert_eq!(header.offset, DebugLineOffset(0));
-        assert_eq!(header.version(), 4);
-        assert_eq!(header.minimum_instruction_length(), 1);
-        assert_eq!(header.maximum_operations_per_instruction(), 1);
-        assert_eq!(header.default_is_stmt(), true);
-        assert_eq!(header.line_base(), 0);
-        assert_eq!(header.line_range(), 1);
-        assert_eq!(header.opcode_base(), 3);
-        assert_eq!(header.directory(0), Some(AttributeValue::String(comp_dir)));
-        assert_eq!(
-            header.file(0).unwrap().path_name,
-            AttributeValue::String(comp_name)
-        );
-
-        let expected_lengths = [1, 2];
-        assert_eq!(header.standard_opcode_lengths().slice(), &expected_lengths);
-
-        let expected_include_directories = [
-            AttributeValue::String(EndianSlice::new(b"/inc", LittleEndian)),
-            AttributeValue::String(EndianSlice::new(b"/inc2", LittleEndian)),
-        ];
-        assert_eq!(header.include_directories(), &expected_include_directories);
-
-        let expected_file_names = [
-            FileEntry {
-                path_name: AttributeValue::String(EndianSlice::new(b"foo.rs", LittleEndian)),
-                directory_index: 0,
-                timestamp: 0,
-                size: 0,
-                md5: [0; 16],
-            },
-            FileEntry {
-                path_name: AttributeValue::String(EndianSlice::new(b"bar.h", LittleEndian)),
-                directory_index: 1,
-                timestamp: 0,
-                size: 0,
-                md5: [0; 16],
-            },
-        ];
-        assert_eq!(&*header.file_names(), &expected_file_names);
-    }
-
-    #[test]
-    fn test_parse_debug_line_header_length_too_short() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 62.
-            0x3e, 0x00, 0x00, 0x00,
-            // Version.
-            0x04, 0x00,
-            // Header length = 20. TOO SHORT!!!
-            0x15, 0x00, 0x00, 0x00,
-            // Minimum instruction length.
-            0x01,
-            // Maximum operations per byte.
-            0x01,
-            // Default is_stmt.
-            0x01,
-            // Line base.
-            0x00,
-            // Line range.
-            0x01,
-            // Opcode base.
-            0x03,
-            // Standard opcode lengths for opcodes 1 .. opcode base - 1.
-            0x01, 0x02,
-            // Include directories = '/', 'i', 'n', 'c', '\0', '/', 'i', 'n', 'c', '2', '\0', '\0'
-            0x2f, 0x69, 0x6e, 0x63, 0x00, 0x2f, 0x69, 0x6e, 0x63, 0x32, 0x00, 0x00,
-            // File names
-                // foo.rs
-                0x66, 0x6f, 0x6f, 0x2e, 0x72, 0x73, 0x00,
-                0x00,
-                0x00,
-                0x00,
-                // bar.h
-                0x62, 0x61, 0x72, 0x2e, 0x68, 0x00,
-                0x01,
-                0x00,
-                0x00,
-            // End file names.
-            0x00,
-
-            // Dummy line program data.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy next line program.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match LineProgramHeader::parse(input, DebugLineOffset(0), 4, None, None) {
-            Err(Error::UnexpectedEof(_)) => return,
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_parse_debug_line_unit_length_too_short() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length = 40. TOO SHORT!!!
-            0x28, 0x00, 0x00, 0x00,
-            // Version.
-            0x04, 0x00,
-            // Header length = 40.
-            0x28, 0x00, 0x00, 0x00,
-            // Minimum instruction length.
-            0x01,
-            // Maximum operations per byte.
-            0x01,
-            // Default is_stmt.
-            0x01,
-            // Line base.
-            0x00,
-            // Line range.
-            0x01,
-            // Opcode base.
-            0x03,
-            // Standard opcode lengths for opcodes 1 .. opcode base - 1.
-            0x01, 0x02,
-            // Include directories = '/', 'i', 'n', 'c', '\0', '/', 'i', 'n', 'c', '2', '\0', '\0'
-            0x2f, 0x69, 0x6e, 0x63, 0x00, 0x2f, 0x69, 0x6e, 0x63, 0x32, 0x00, 0x00,
-            // File names
-                // foo.rs
-                0x66, 0x6f, 0x6f, 0x2e, 0x72, 0x73, 0x00,
-                0x00,
-                0x00,
-                0x00,
-                // bar.h
-                0x62, 0x61, 0x72, 0x2e, 0x68, 0x00,
-                0x01,
-                0x00,
-                0x00,
-            // End file names.
-            0x00,
-
-            // Dummy line program data.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-
-            // Dummy next line program.
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-            0x00, 0x00, 0x00, 0x00,
-        ];
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match LineProgramHeader::parse(input, DebugLineOffset(0), 4, None, None) {
-            Err(Error::UnexpectedEof(_)) => return,
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    const OPCODE_BASE: u8 = 13;
-    const STANDARD_OPCODE_LENGTHS: &[u8] = &[0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1];
-
-    fn make_test_header(
-        buf: EndianSlice<LittleEndian>,
-    ) -> LineProgramHeader<EndianSlice<LittleEndian>> {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 8,
-        };
-        let line_encoding = LineEncoding {
-            line_base: -3,
-            line_range: 12,
-            ..Default::default()
-        };
-        LineProgramHeader {
-            encoding,
-            offset: DebugLineOffset(0),
-            unit_length: 1,
-            header_length: 1,
-            line_encoding,
-            opcode_base: OPCODE_BASE,
-            standard_opcode_lengths: EndianSlice::new(STANDARD_OPCODE_LENGTHS, LittleEndian),
-            file_names: vec![
-                FileEntry {
-                    path_name: AttributeValue::String(EndianSlice::new(b"foo.c", LittleEndian)),
-                    directory_index: 0,
-                    timestamp: 0,
-                    size: 0,
-                    md5: [0; 16],
-                },
-                FileEntry {
-                    path_name: AttributeValue::String(EndianSlice::new(b"bar.rs", LittleEndian)),
-                    directory_index: 0,
-                    timestamp: 0,
-                    size: 0,
-                    md5: [0; 16],
-                },
-            ],
-            include_directories: vec![],
-            directory_entry_format: vec![],
-            file_name_entry_format: vec![],
-            program_buf: buf,
-            comp_dir: None,
-            comp_file: None,
-        }
-    }
-
-    fn make_test_program(
-        buf: EndianSlice<LittleEndian>,
-    ) -> IncompleteLineProgram<EndianSlice<LittleEndian>> {
-        IncompleteLineProgram {
-            header: make_test_header(buf),
-        }
-    }
-
-    #[test]
-    fn test_parse_special_opcodes() {
-        for i in OPCODE_BASE..u8::MAX {
-            let input = [i, 0, 0, 0];
-            let input = EndianSlice::new(&input, LittleEndian);
-            let header = make_test_header(input);
-
-            let mut rest = input;
-            let opcode =
-                LineInstruction::parse(&header, &mut rest).expect("Should parse the opcode OK");
-
-            assert_eq!(*rest, *input.range_from(1..));
-            assert_eq!(opcode, LineInstruction::Special(i));
-        }
-    }
-
-    #[test]
-    fn test_parse_standard_opcodes() {
-        fn test<Operands>(
-            raw: constants::DwLns,
-            operands: Operands,
-            expected: LineInstruction<EndianSlice<LittleEndian>>,
-        ) where
-            Operands: AsRef<[u8]>,
-        {
-            let mut input = Vec::new();
-            input.push(raw.0);
-            input.extend_from_slice(operands.as_ref());
-
-            let expected_rest = [0, 1, 2, 3, 4];
-            input.extend_from_slice(&expected_rest);
-
-            let input = EndianSlice::new(&*input, LittleEndian);
-            let header = make_test_header(input);
-
-            let mut rest = input;
-            let opcode =
-                LineInstruction::parse(&header, &mut rest).expect("Should parse the opcode OK");
-
-            assert_eq!(opcode, expected);
-            assert_eq!(*rest, expected_rest);
-        }
-
-        test(constants::DW_LNS_copy, [], LineInstruction::Copy);
-        test(
-            constants::DW_LNS_advance_pc,
-            [42],
-            LineInstruction::AdvancePc(42),
-        );
-        test(
-            constants::DW_LNS_advance_line,
-            [9],
-            LineInstruction::AdvanceLine(9),
-        );
-        test(constants::DW_LNS_set_file, [7], LineInstruction::SetFile(7));
-        test(
-            constants::DW_LNS_set_column,
-            [1],
-            LineInstruction::SetColumn(1),
-        );
-        test(
-            constants::DW_LNS_negate_stmt,
-            [],
-            LineInstruction::NegateStatement,
-        );
-        test(
-            constants::DW_LNS_set_basic_block,
-            [],
-            LineInstruction::SetBasicBlock,
-        );
-        test(
-            constants::DW_LNS_const_add_pc,
-            [],
-            LineInstruction::ConstAddPc,
-        );
-        test(
-            constants::DW_LNS_fixed_advance_pc,
-            [42, 0],
-            LineInstruction::FixedAddPc(42),
-        );
-        test(
-            constants::DW_LNS_set_prologue_end,
-            [],
-            LineInstruction::SetPrologueEnd,
-        );
-        test(
-            constants::DW_LNS_set_isa,
-            [57 + 0x80, 100],
-            LineInstruction::SetIsa(12857),
-        );
-    }
-
-    #[test]
-    fn test_parse_unknown_standard_opcode_no_args() {
-        let input = [OPCODE_BASE, 1, 2, 3];
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut standard_opcode_lengths = Vec::new();
-        let mut header = make_test_header(input);
-        standard_opcode_lengths.extend(header.standard_opcode_lengths.slice());
-        standard_opcode_lengths.push(0);
-        header.opcode_base += 1;
-        header.standard_opcode_lengths = EndianSlice::new(&standard_opcode_lengths, LittleEndian);
-
-        let mut rest = input;
-        let opcode =
-            LineInstruction::parse(&header, &mut rest).expect("Should parse the opcode OK");
-
-        assert_eq!(
-            opcode,
-            LineInstruction::UnknownStandard0(constants::DwLns(OPCODE_BASE))
-        );
-        assert_eq!(*rest, *input.range_from(1..));
-    }
-
-    #[test]
-    fn test_parse_unknown_standard_opcode_one_arg() {
-        let input = [OPCODE_BASE, 1, 2, 3];
-        let input = EndianSlice::new(&input, LittleEndian);
-        let mut standard_opcode_lengths = Vec::new();
-        let mut header = make_test_header(input);
-        standard_opcode_lengths.extend(header.standard_opcode_lengths.slice());
-        standard_opcode_lengths.push(1);
-        header.opcode_base += 1;
-        header.standard_opcode_lengths = EndianSlice::new(&standard_opcode_lengths, LittleEndian);
-
-        let mut rest = input;
-        let opcode =
-            LineInstruction::parse(&header, &mut rest).expect("Should parse the opcode OK");
-
-        assert_eq!(
-            opcode,
-            LineInstruction::UnknownStandard1(constants::DwLns(OPCODE_BASE), 1)
-        );
-        assert_eq!(*rest, *input.range_from(2..));
-    }
-
-    #[test]
-    fn test_parse_unknown_standard_opcode_many_args() {
-        let input = [OPCODE_BASE, 1, 2, 3];
-        let input = EndianSlice::new(&input, LittleEndian);
-        let args = EndianSlice::new(&input[1..], LittleEndian);
-        let mut standard_opcode_lengths = Vec::new();
-        let mut header = make_test_header(input);
-        standard_opcode_lengths.extend(header.standard_opcode_lengths.slice());
-        standard_opcode_lengths.push(3);
-        header.opcode_base += 1;
-        header.standard_opcode_lengths = EndianSlice::new(&standard_opcode_lengths, LittleEndian);
-
-        let mut rest = input;
-        let opcode =
-            LineInstruction::parse(&header, &mut rest).expect("Should parse the opcode OK");
-
-        assert_eq!(
-            opcode,
-            LineInstruction::UnknownStandardN(constants::DwLns(OPCODE_BASE), args)
-        );
-        assert_eq!(*rest, []);
-    }
-
-    #[test]
-    fn test_parse_extended_opcodes() {
-        fn test<Operands>(
-            raw: constants::DwLne,
-            operands: Operands,
-            expected: LineInstruction<EndianSlice<LittleEndian>>,
-        ) where
-            Operands: AsRef<[u8]>,
-        {
-            let mut input = Vec::new();
-            input.push(0);
-
-            let operands = operands.as_ref();
-            input.push(1 + operands.len() as u8);
-
-            input.push(raw.0);
-            input.extend_from_slice(operands);
-
-            let expected_rest = [0, 1, 2, 3, 4];
-            input.extend_from_slice(&expected_rest);
-
-            let input = EndianSlice::new(&input, LittleEndian);
-            let header = make_test_header(input);
-
-            let mut rest = input;
-            let opcode =
-                LineInstruction::parse(&header, &mut rest).expect("Should parse the opcode OK");
-
-            assert_eq!(opcode, expected);
-            assert_eq!(*rest, expected_rest);
-        }
-
-        test(
-            constants::DW_LNE_end_sequence,
-            [],
-            LineInstruction::EndSequence,
-        );
-        test(
-            constants::DW_LNE_set_address,
-            [1, 2, 3, 4, 5, 6, 7, 8],
-            LineInstruction::SetAddress(578_437_695_752_307_201),
-        );
-        test(
-            constants::DW_LNE_set_discriminator,
-            [42],
-            LineInstruction::SetDiscriminator(42),
-        );
-
-        let mut file = Vec::new();
-        // "foo.c"
-        let path_name = [b'f', b'o', b'o', b'.', b'c', 0];
-        file.extend_from_slice(&path_name);
-        // Directory index.
-        file.push(0);
-        // Last modification of file.
-        file.push(1);
-        // Size of file.
-        file.push(2);
-
-        test(
-            constants::DW_LNE_define_file,
-            file,
-            LineInstruction::DefineFile(FileEntry {
-                path_name: AttributeValue::String(EndianSlice::new(b"foo.c", LittleEndian)),
-                directory_index: 0,
-                timestamp: 1,
-                size: 2,
-                md5: [0; 16],
-            }),
-        );
-
-        // Unknown extended opcode.
-        let operands = [1, 2, 3, 4, 5, 6];
-        let opcode = constants::DwLne(99);
-        test(
-            opcode,
-            operands,
-            LineInstruction::UnknownExtended(opcode, EndianSlice::new(&operands, LittleEndian)),
-        );
-    }
-
-    #[test]
-    fn test_file_entry_directory() {
-        let path_name = [b'f', b'o', b'o', b'.', b'r', b's', 0];
-
-        let mut file = FileEntry {
-            path_name: AttributeValue::String(EndianSlice::new(&path_name, LittleEndian)),
-            directory_index: 1,
-            timestamp: 0,
-            size: 0,
-            md5: [0; 16],
-        };
-
-        let mut header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let dir = AttributeValue::String(EndianSlice::new(b"dir", LittleEndian));
-        header.include_directories.push(dir);
-
-        assert_eq!(file.directory(&header), Some(dir));
-
-        // Now test the compilation's current directory.
-        file.directory_index = 0;
-        assert_eq!(file.directory(&header), None);
-    }
-
-    fn assert_exec_opcode<'input>(
-        header: LineProgramHeader<EndianSlice<'input, LittleEndian>>,
-        mut registers: LineRow,
-        opcode: LineInstruction<EndianSlice<'input, LittleEndian>>,
-        expected_registers: LineRow,
-        expect_new_row: bool,
-    ) {
-        let mut program = IncompleteLineProgram { header };
-        let is_new_row = registers.execute(opcode, &mut program);
-
-        assert_eq!(is_new_row, expect_new_row);
-        assert_eq!(registers, expected_registers);
-    }
-
-    #[test]
-    fn test_exec_special_noop() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::Special(16);
-        let expected_registers = initial_registers;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_special_negative_line_advance() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.line.0 = 10;
-
-        let opcode = LineInstruction::Special(13);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.line.0 -= 3;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_special_positive_line_advance() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let initial_registers = LineRow::new(&header);
-
-        let opcode = LineInstruction::Special(19);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.line.0 += 3;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_special_positive_address_advance() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let initial_registers = LineRow::new(&header);
-
-        let opcode = LineInstruction::Special(52);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 += 3;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_special_positive_address_and_line_advance() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let initial_registers = LineRow::new(&header);
-
-        let opcode = LineInstruction::Special(55);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 += 3;
-        expected_registers.line.0 += 3;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_special_positive_address_and_negative_line_advance() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.line.0 = 10;
-
-        let opcode = LineInstruction::Special(49);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 += 3;
-        expected_registers.line.0 -= 3;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_special_line_underflow() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.line.0 = 2;
-
-        // -3 line advance.
-        let opcode = LineInstruction::Special(13);
-
-        let mut expected_registers = initial_registers;
-        // Clamp at 0. No idea if this is the best way to handle this situation
-        // or not...
-        expected_registers.line.0 = 0;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_copy() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.address.0 = 1337;
-        initial_registers.line.0 = 42;
-
-        let opcode = LineInstruction::Copy;
-
-        let expected_registers = initial_registers;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_advance_pc() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::AdvancePc(42);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 += 42;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_advance_pc_overflow() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let opcode = LineInstruction::AdvancePc(42);
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.address.0 = u64::MAX;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 = 41;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_advance_line() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::AdvanceLine(42);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.line.0 += 42;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_advance_line_overflow() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let opcode = LineInstruction::AdvanceLine(42);
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.line.0 = u64::MAX;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.line.0 = 41;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_set_file_in_bounds() {
-        for file_idx in 1..3 {
-            let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-            let initial_registers = LineRow::new(&header);
-            let opcode = LineInstruction::SetFile(file_idx);
-
-            let mut expected_registers = initial_registers;
-            expected_registers.file = file_idx;
-
-            assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-        }
-    }
-
-    #[test]
-    fn test_exec_set_file_out_of_bounds() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::SetFile(100);
-
-        // The spec doesn't say anything about rejecting input programs
-        // that set the file register out of bounds of the actual number
-        // of files that have been defined. Instead, we cross our
-        // fingers and hope that one gets defined before
-        // `LineRow::file` gets called and handle the error at
-        // that time if need be.
-        let mut expected_registers = initial_registers;
-        expected_registers.file = 100;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_file_entry_file_index_out_of_bounds() {
-        // These indices are 1-based, so 0 is invalid. 100 is way more than the
-        // number of files defined in the header.
-        let out_of_bounds_indices = [0, 100];
-
-        for file_idx in &out_of_bounds_indices[..] {
-            let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-            let mut row = LineRow::new(&header);
-
-            row.file = *file_idx;
-
-            assert_eq!(row.file(&header), None);
-        }
-    }
-
-    #[test]
-    fn test_file_entry_file_index_in_bounds() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let mut row = LineRow::new(&header);
-
-        row.file = 2;
-
-        assert_eq!(row.file(&header), Some(&header.file_names()[1]));
-    }
-
-    #[test]
-    fn test_exec_set_column() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::SetColumn(42);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.column = 42;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_negate_statement() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::NegateStatement;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.is_stmt = !initial_registers.is_stmt;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_set_basic_block() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.basic_block = false;
-
-        let opcode = LineInstruction::SetBasicBlock;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.basic_block = true;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_const_add_pc() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::ConstAddPc;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 += 20;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_fixed_add_pc() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.op_index.0 = 1;
-
-        let opcode = LineInstruction::FixedAddPc(10);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 += 10;
-        expected_registers.op_index.0 = 0;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_set_prologue_end() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-
-        let mut initial_registers = LineRow::new(&header);
-        initial_registers.prologue_end = false;
-
-        let opcode = LineInstruction::SetPrologueEnd;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.prologue_end = true;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_set_isa() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::SetIsa(1993);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.isa = 1993;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_unknown_standard_0() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::UnknownStandard0(constants::DwLns(111));
-        let expected_registers = initial_registers;
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_unknown_standard_1() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::UnknownStandard1(constants::DwLns(111), 2);
-        let expected_registers = initial_registers;
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_unknown_standard_n() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::UnknownStandardN(
-            constants::DwLns(111),
-            EndianSlice::new(&[2, 2, 2], LittleEndian),
-        );
-        let expected_registers = initial_registers;
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_end_sequence() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::EndSequence;
-
-        let mut expected_registers = initial_registers;
-        expected_registers.end_sequence = true;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, true);
-    }
-
-    #[test]
-    fn test_exec_set_address() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::SetAddress(3030);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.address.0 = 3030;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_set_address_tombstone() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::SetAddress(!0);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.tombstone = true;
-        expected_registers.address.0 = !0;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_define_file() {
-        let mut program = make_test_program(EndianSlice::new(&[], LittleEndian));
-        let mut row = LineRow::new(program.header());
-
-        let file = FileEntry {
-            path_name: AttributeValue::String(EndianSlice::new(b"test.cpp", LittleEndian)),
-            directory_index: 0,
-            timestamp: 0,
-            size: 0,
-            md5: [0; 16],
-        };
-
-        let opcode = LineInstruction::DefineFile(file);
-        let is_new_row = row.execute(opcode, &mut program);
-
-        assert_eq!(is_new_row, false);
-        assert_eq!(Some(&file), program.header().file_names.last());
-    }
-
-    #[test]
-    fn test_exec_set_discriminator() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::SetDiscriminator(9);
-
-        let mut expected_registers = initial_registers;
-        expected_registers.discriminator = 9;
-
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    #[test]
-    fn test_exec_unknown_extended() {
-        let header = make_test_header(EndianSlice::new(&[], LittleEndian));
-        let initial_registers = LineRow::new(&header);
-        let opcode = LineInstruction::UnknownExtended(
-            constants::DwLne(74),
-            EndianSlice::new(&[], LittleEndian),
-        );
-        let expected_registers = initial_registers;
-        assert_exec_opcode(header, initial_registers, opcode, expected_registers, false);
-    }
-
-    /// Ensure that `LineRows<R,P>` is covariant wrt R.
-    /// This only needs to compile.
-    #[allow(dead_code, unreachable_code, unused_variables)]
-    fn test_line_rows_variance<'a, 'b>(_: &'a [u8], _: &'b [u8])
-    where
-        'a: 'b,
-    {
-        let a: &OneShotLineRows<EndianSlice<'a, LittleEndian>> = unimplemented!();
-        let _: &OneShotLineRows<EndianSlice<'b, LittleEndian>> = a;
-    }
-
-    #[test]
-    fn test_parse_debug_line_v5_ok() {
-        let expected_lengths = &[1, 2];
-        let expected_program = &[0, 1, 2, 3, 4];
-        let expected_rest = &[5, 6, 7, 8, 9];
-        let expected_include_directories = [
-            AttributeValue::String(EndianSlice::new(b"dir1", LittleEndian)),
-            AttributeValue::String(EndianSlice::new(b"dir2", LittleEndian)),
-        ];
-        let expected_file_names = [
-            FileEntry {
-                path_name: AttributeValue::String(EndianSlice::new(b"file1", LittleEndian)),
-                directory_index: 0,
-                timestamp: 0,
-                size: 0,
-                md5: [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16],
-            },
-            FileEntry {
-                path_name: AttributeValue::String(EndianSlice::new(b"file2", LittleEndian)),
-                directory_index: 1,
-                timestamp: 0,
-                size: 0,
-                md5: [
-                    11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26,
-                ],
-            },
-        ];
-
-        for format in vec![Format::Dwarf32, Format::Dwarf64] {
-            let length = Label::new();
-            let header_length = Label::new();
-            let start = Label::new();
-            let header_start = Label::new();
-            let end = Label::new();
-            let header_end = Label::new();
-            let section = Section::with_endian(Endian::Little)
-                .initial_length(format, &length, &start)
-                .D16(5)
-                // Address size.
-                .D8(4)
-                // Segment selector size.
-                .D8(0)
-                .word_label(format.word_size(), &header_length)
-                .mark(&header_start)
-                // Minimum instruction length.
-                .D8(1)
-                // Maximum operations per byte.
-                .D8(1)
-                // Default is_stmt.
-                .D8(1)
-                // Line base.
-                .D8(0)
-                // Line range.
-                .D8(1)
-                // Opcode base.
-                .D8(expected_lengths.len() as u8 + 1)
-                // Standard opcode lengths for opcodes 1 .. opcode base - 1.
-                .append_bytes(expected_lengths)
-                // Directory entry format count.
-                .D8(1)
-                .uleb(constants::DW_LNCT_path.0 as u64)
-                .uleb(constants::DW_FORM_string.0 as u64)
-                // Directory count.
-                .D8(2)
-                .append_bytes(b"dir1\0")
-                .append_bytes(b"dir2\0")
-                // File entry format count.
-                .D8(3)
-                .uleb(constants::DW_LNCT_path.0 as u64)
-                .uleb(constants::DW_FORM_string.0 as u64)
-                .uleb(constants::DW_LNCT_directory_index.0 as u64)
-                .uleb(constants::DW_FORM_data1.0 as u64)
-                .uleb(constants::DW_LNCT_MD5.0 as u64)
-                .uleb(constants::DW_FORM_data16.0 as u64)
-                // File count.
-                .D8(2)
-                .append_bytes(b"file1\0")
-                .D8(0)
-                .append_bytes(&expected_file_names[0].md5)
-                .append_bytes(b"file2\0")
-                .D8(1)
-                .append_bytes(&expected_file_names[1].md5)
-                .mark(&header_end)
-                // Dummy line program data.
-                .append_bytes(expected_program)
-                .mark(&end)
-                // Dummy trailing data.
-                .append_bytes(expected_rest);
-            length.set_const((&end - &start) as u64);
-            header_length.set_const((&header_end - &header_start) as u64);
-            let section = section.get_contents().unwrap();
-
-            let input = &mut EndianSlice::new(&section, LittleEndian);
-
-            let header = LineProgramHeader::parse(input, DebugLineOffset(0), 0, None, None)
-                .expect("should parse header ok");
-
-            assert_eq!(header.raw_program_buf().slice(), expected_program);
-            assert_eq!(input.slice(), expected_rest);
-
-            assert_eq!(header.offset, DebugLineOffset(0));
-            assert_eq!(header.version(), 5);
-            assert_eq!(header.address_size(), 4);
-            assert_eq!(header.minimum_instruction_length(), 1);
-            assert_eq!(header.maximum_operations_per_instruction(), 1);
-            assert_eq!(header.default_is_stmt(), true);
-            assert_eq!(header.line_base(), 0);
-            assert_eq!(header.line_range(), 1);
-            assert_eq!(header.opcode_base(), expected_lengths.len() as u8 + 1);
-            assert_eq!(header.standard_opcode_lengths().slice(), expected_lengths);
-            assert_eq!(
-                header.directory_entry_format(),
-                &[FileEntryFormat {
-                    content_type: constants::DW_LNCT_path,
-                    form: constants::DW_FORM_string,
-                }]
-            );
-            assert_eq!(header.include_directories(), expected_include_directories);
-            assert_eq!(header.directory(0), Some(expected_include_directories[0]));
-            assert_eq!(
-                header.file_name_entry_format(),
-                &[
-                    FileEntryFormat {
-                        content_type: constants::DW_LNCT_path,
-                        form: constants::DW_FORM_string,
-                    },
-                    FileEntryFormat {
-                        content_type: constants::DW_LNCT_directory_index,
-                        form: constants::DW_FORM_data1,
-                    },
-                    FileEntryFormat {
-                        content_type: constants::DW_LNCT_MD5,
-                        form: constants::DW_FORM_data16,
-                    }
-                ]
-            );
-            assert_eq!(header.file_names(), expected_file_names);
-            assert_eq!(header.file(0), Some(&expected_file_names[0]));
-        }
-    }
-
-    #[test]
-    fn test_sequences() {
-        #[rustfmt::skip]
-        let buf = [
-            // 32-bit length
-            94, 0x00, 0x00, 0x00,
-            // Version.
-            0x04, 0x00,
-            // Header length = 40.
-            0x28, 0x00, 0x00, 0x00,
-            // Minimum instruction length.
-            0x01,
-            // Maximum operations per byte.
-            0x01,
-            // Default is_stmt.
-            0x01,
-            // Line base.
-            0x00,
-            // Line range.
-            0x01,
-            // Opcode base.
-            0x03,
-            // Standard opcode lengths for opcodes 1 .. opcode base - 1.
-            0x01, 0x02,
-            // Include directories = '/', 'i', 'n', 'c', '\0', '/', 'i', 'n', 'c', '2', '\0', '\0'
-            0x2f, 0x69, 0x6e, 0x63, 0x00, 0x2f, 0x69, 0x6e, 0x63, 0x32, 0x00, 0x00,
-            // File names
-                // foo.rs
-                0x66, 0x6f, 0x6f, 0x2e, 0x72, 0x73, 0x00,
-                0x00,
-                0x00,
-                0x00,
-                // bar.h
-                0x62, 0x61, 0x72, 0x2e, 0x68, 0x00,
-                0x01,
-                0x00,
-                0x00,
-            // End file names.
-            0x00,
-
-            0, 5, constants::DW_LNE_set_address.0, 1, 0, 0, 0,
-            constants::DW_LNS_copy.0,
-            constants::DW_LNS_advance_pc.0, 1,
-            constants::DW_LNS_copy.0,
-            constants::DW_LNS_advance_pc.0, 2,
-            0, 1, constants::DW_LNE_end_sequence.0,
-
-            // Tombstone
-            0, 5, constants::DW_LNE_set_address.0, 0xff, 0xff, 0xff, 0xff,
-            constants::DW_LNS_copy.0,
-            constants::DW_LNS_advance_pc.0, 1,
-            constants::DW_LNS_copy.0,
-            constants::DW_LNS_advance_pc.0, 2,
-            0, 1, constants::DW_LNE_end_sequence.0,
-
-            0, 5, constants::DW_LNE_set_address.0, 11, 0, 0, 0,
-            constants::DW_LNS_copy.0,
-            constants::DW_LNS_advance_pc.0, 1,
-            constants::DW_LNS_copy.0,
-            constants::DW_LNS_advance_pc.0, 2,
-            0, 1, constants::DW_LNE_end_sequence.0,
-        ];
-        assert_eq!(buf[0] as usize, buf.len() - 4);
-
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        let header = LineProgramHeader::parse(rest, DebugLineOffset(0), 4, None, None)
-            .expect("should parse header ok");
-        let program = IncompleteLineProgram { header };
-
-        let sequences = program.sequences().unwrap().1;
-        assert_eq!(sequences.len(), 2);
-        assert_eq!(sequences[0].start, 1);
-        assert_eq!(sequences[0].end, 4);
-        assert_eq!(sequences[1].start, 11);
-        assert_eq!(sequences[1].end, 14);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/lists.rs b/vendor/gimli-0.27.3/src/read/lists.rs
deleted file mode 100644
index 898a757d3..000000000
--- a/vendor/gimli-0.27.3/src/read/lists.rs
+++ /dev/null
@@ -1,68 +0,0 @@
-use crate::common::{Encoding, Format};
-use crate::read::{Error, Reader, Result};
-
-#[derive(Debug, Clone, Copy)]
-pub(crate) struct ListsHeader {
-    encoding: Encoding,
-    #[allow(dead_code)]
-    offset_entry_count: u32,
-}
-
-impl Default for ListsHeader {
-    fn default() -> Self {
-        ListsHeader {
-            encoding: Encoding {
-                format: Format::Dwarf32,
-                version: 5,
-                address_size: 0,
-            },
-            offset_entry_count: 0,
-        }
-    }
-}
-
-impl ListsHeader {
-    /// Return the serialized size of the table header.
-    #[allow(dead_code)]
-    #[inline]
-    fn size(self) -> u8 {
-        // initial_length + version + address_size + segment_selector_size + offset_entry_count
-        ListsHeader::size_for_encoding(self.encoding)
-    }
-
-    /// Return the serialized size of the table header.
-    #[inline]
-    pub(crate) fn size_for_encoding(encoding: Encoding) -> u8 {
-        // initial_length + version + address_size + segment_selector_size + offset_entry_count
-        encoding.format.initial_length_size() + 2 + 1 + 1 + 4
-    }
-}
-
-// TODO: add an iterator over headers in the appropriate sections section
-#[allow(dead_code)]
-fn parse_header<R: Reader>(input: &mut R) -> Result<ListsHeader> {
-    let (length, format) = input.read_initial_length()?;
-    input.truncate(length)?;
-
-    let version = input.read_u16()?;
-    if version != 5 {
-        return Err(Error::UnknownVersion(u64::from(version)));
-    }
-
-    let address_size = input.read_u8()?;
-    let segment_selector_size = input.read_u8()?;
-    if segment_selector_size != 0 {
-        return Err(Error::UnsupportedSegmentSize);
-    }
-    let offset_entry_count = input.read_u32()?;
-
-    let encoding = Encoding {
-        format,
-        version,
-        address_size,
-    };
-    Ok(ListsHeader {
-        encoding,
-        offset_entry_count,
-    })
-}
diff --git a/vendor/gimli-0.27.3/src/read/loclists.rs b/vendor/gimli-0.27.3/src/read/loclists.rs
deleted file mode 100644
index 5cba675d2..000000000
--- a/vendor/gimli-0.27.3/src/read/loclists.rs
+++ /dev/null
@@ -1,1627 +0,0 @@
-use crate::common::{
-    DebugAddrBase, DebugAddrIndex, DebugLocListsBase, DebugLocListsIndex, DwarfFileType, Encoding,
-    LocationListsOffset, SectionId,
-};
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::read::{
-    lists::ListsHeader, DebugAddr, EndianSlice, Error, Expression, Range, RawRange, Reader,
-    ReaderOffset, ReaderOffsetId, Result, Section,
-};
-
-/// The raw contents of the `.debug_loc` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugLoc<R> {
-    pub(crate) section: R,
-}
-
-impl<'input, Endian> DebugLoc<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugLoc` instance from the data in the `.debug_loc`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_loc` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugLoc, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_loc_section_somehow = || &buf;
-    /// let debug_loc = DebugLoc::new(read_debug_loc_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R> Section<R> for DebugLoc<R> {
-    fn id() -> SectionId {
-        SectionId::DebugLoc
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugLoc<R> {
-    fn from(section: R) -> Self {
-        DebugLoc { section }
-    }
-}
-
-/// The `DebugLocLists` struct represents the DWARF data
-/// found in the `.debug_loclists` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugLocLists<R> {
-    section: R,
-}
-
-impl<'input, Endian> DebugLocLists<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugLocLists` instance from the data in the `.debug_loclists`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_loclists` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugLocLists, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_loclists_section_somehow = || &buf;
-    /// let debug_loclists = DebugLocLists::new(read_debug_loclists_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R> Section<R> for DebugLocLists<R> {
-    fn id() -> SectionId {
-        SectionId::DebugLocLists
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugLocLists<R> {
-    fn from(section: R) -> Self {
-        DebugLocLists { section }
-    }
-}
-
-pub(crate) type LocListsHeader = ListsHeader;
-
-impl<Offset> DebugLocListsBase<Offset>
-where
-    Offset: ReaderOffset,
-{
-    /// Returns a `DebugLocListsBase` with the default value of DW_AT_loclists_base
-    /// for the given `Encoding` and `DwarfFileType`.
-    pub fn default_for_encoding_and_file(
-        encoding: Encoding,
-        file_type: DwarfFileType,
-    ) -> DebugLocListsBase<Offset> {
-        if encoding.version >= 5 && file_type == DwarfFileType::Dwo {
-            // In .dwo files, the compiler omits the DW_AT_loclists_base attribute (because there is
-            // only a single unit in the file) but we must skip past the header, which the attribute
-            // would normally do for us.
-            DebugLocListsBase(Offset::from_u8(LocListsHeader::size_for_encoding(encoding)))
-        } else {
-            DebugLocListsBase(Offset::from_u8(0))
-        }
-    }
-}
-
-/// The DWARF data found in `.debug_loc` and `.debug_loclists` sections.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct LocationLists<R> {
-    debug_loc: DebugLoc<R>,
-    debug_loclists: DebugLocLists<R>,
-}
-
-impl<R> LocationLists<R> {
-    /// Construct a new `LocationLists` instance from the data in the `.debug_loc` and
-    /// `.debug_loclists` sections.
-    pub fn new(debug_loc: DebugLoc<R>, debug_loclists: DebugLocLists<R>) -> LocationLists<R> {
-        LocationLists {
-            debug_loc,
-            debug_loclists,
-        }
-    }
-}
-
-impl<T> LocationLists<T> {
-    /// Create a `LocationLists` that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::LocationLists<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> LocationLists<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        LocationLists {
-            debug_loc: borrow(&self.debug_loc.section).into(),
-            debug_loclists: borrow(&self.debug_loclists.section).into(),
-        }
-    }
-}
-
-impl<R: Reader> LocationLists<R> {
-    /// Iterate over the `LocationListEntry`s starting at the given offset.
-    ///
-    /// The `unit_encoding` must match the compilation unit that the
-    /// offset was contained in.
-    ///
-    /// The `base_address` should be obtained from the `DW_AT_low_pc` attribute in the
-    /// `DW_TAG_compile_unit` entry for the compilation unit that contains this location
-    /// list.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn locations(
-        &self,
-        offset: LocationListsOffset<R::Offset>,
-        unit_encoding: Encoding,
-        base_address: u64,
-        debug_addr: &DebugAddr<R>,
-        debug_addr_base: DebugAddrBase<R::Offset>,
-    ) -> Result<LocListIter<R>> {
-        Ok(LocListIter::new(
-            self.raw_locations(offset, unit_encoding)?,
-            base_address,
-            debug_addr.clone(),
-            debug_addr_base,
-        ))
-    }
-
-    /// Similar to `locations`, but with special handling for .dwo files.
-    /// This should only been used when this `LocationLists` was loaded from a
-    /// .dwo file.
-    pub fn locations_dwo(
-        &self,
-        offset: LocationListsOffset<R::Offset>,
-        unit_encoding: Encoding,
-        base_address: u64,
-        debug_addr: &DebugAddr<R>,
-        debug_addr_base: DebugAddrBase<R::Offset>,
-    ) -> Result<LocListIter<R>> {
-        Ok(LocListIter::new(
-            self.raw_locations_dwo(offset, unit_encoding)?,
-            base_address,
-            debug_addr.clone(),
-            debug_addr_base,
-        ))
-    }
-
-    /// Iterate over the raw `LocationListEntry`s starting at the given offset.
-    ///
-    /// The `unit_encoding` must match the compilation unit that the
-    /// offset was contained in.
-    ///
-    /// This iterator does not perform any processing of the location entries,
-    /// such as handling base addresses.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn raw_locations(
-        &self,
-        offset: LocationListsOffset<R::Offset>,
-        unit_encoding: Encoding,
-    ) -> Result<RawLocListIter<R>> {
-        let (mut input, format) = if unit_encoding.version <= 4 {
-            (self.debug_loc.section.clone(), LocListsFormat::Bare)
-        } else {
-            (self.debug_loclists.section.clone(), LocListsFormat::Lle)
-        };
-        input.skip(offset.0)?;
-        Ok(RawLocListIter::new(input, unit_encoding, format))
-    }
-
-    /// Similar to `raw_locations`, but with special handling for .dwo files.
-    /// This should only been used when this `LocationLists` was loaded from a
-    /// .dwo file.
-    pub fn raw_locations_dwo(
-        &self,
-        offset: LocationListsOffset<R::Offset>,
-        unit_encoding: Encoding,
-    ) -> Result<RawLocListIter<R>> {
-        let mut input = if unit_encoding.version <= 4 {
-            // In the GNU split dwarf extension the locations are present in the
-            // .debug_loc section but are encoded with the DW_LLE values used
-            // for the DWARF 5 .debug_loclists section.
-            self.debug_loc.section.clone()
-        } else {
-            self.debug_loclists.section.clone()
-        };
-        input.skip(offset.0)?;
-        Ok(RawLocListIter::new(
-            input,
-            unit_encoding,
-            LocListsFormat::Lle,
-        ))
-    }
-
-    /// Returns the `.debug_loclists` offset at the given `base` and `index`.
-    ///
-    /// The `base` must be the `DW_AT_loclists_base` value from the compilation unit DIE.
-    /// This is an offset that points to the first entry following the header.
-    ///
-    /// The `index` is the value of a `DW_FORM_loclistx` attribute.
-    pub fn get_offset(
-        &self,
-        unit_encoding: Encoding,
-        base: DebugLocListsBase<R::Offset>,
-        index: DebugLocListsIndex<R::Offset>,
-    ) -> Result<LocationListsOffset<R::Offset>> {
-        let format = unit_encoding.format;
-        let input = &mut self.debug_loclists.section.clone();
-        input.skip(base.0)?;
-        input.skip(R::Offset::from_u64(
-            index.0.into_u64() * u64::from(format.word_size()),
-        )?)?;
-        input
-            .read_offset(format)
-            .map(|x| LocationListsOffset(base.0 + x))
-    }
-
-    /// Call `Reader::lookup_offset_id` for each section, and return the first match.
-    pub fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<(SectionId, R::Offset)> {
-        self.debug_loc
-            .lookup_offset_id(id)
-            .or_else(|| self.debug_loclists.lookup_offset_id(id))
-    }
-}
-
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-enum LocListsFormat {
-    /// The bare location list format used before DWARF 5.
-    Bare,
-    /// The DW_LLE encoded range list format used in DWARF 5 and the non-standard GNU
-    /// split dwarf extension.
-    Lle,
-}
-
-/// A raw iterator over a location list.
-///
-/// This iterator does not perform any processing of the location entries,
-/// such as handling base addresses.
-#[derive(Debug)]
-pub struct RawLocListIter<R: Reader> {
-    input: R,
-    encoding: Encoding,
-    format: LocListsFormat,
-}
-
-/// A raw entry in .debug_loclists.
-#[derive(Clone, Debug)]
-pub enum RawLocListEntry<R: Reader> {
-    /// A location from DWARF version <= 4.
-    AddressOrOffsetPair {
-        /// Start of range. May be an address or an offset.
-        begin: u64,
-        /// End of range. May be an address or an offset.
-        end: u64,
-        /// expression
-        data: Expression<R>,
-    },
-    /// DW_LLE_base_address
-    BaseAddress {
-        /// base address
-        addr: u64,
-    },
-    /// DW_LLE_base_addressx
-    BaseAddressx {
-        /// base address
-        addr: DebugAddrIndex<R::Offset>,
-    },
-    /// DW_LLE_startx_endx
-    StartxEndx {
-        /// start of range
-        begin: DebugAddrIndex<R::Offset>,
-        /// end of range
-        end: DebugAddrIndex<R::Offset>,
-        /// expression
-        data: Expression<R>,
-    },
-    /// DW_LLE_startx_length
-    StartxLength {
-        /// start of range
-        begin: DebugAddrIndex<R::Offset>,
-        /// length of range
-        length: u64,
-        /// expression
-        data: Expression<R>,
-    },
-    /// DW_LLE_offset_pair
-    OffsetPair {
-        /// start of range
-        begin: u64,
-        /// end of range
-        end: u64,
-        /// expression
-        data: Expression<R>,
-    },
-    /// DW_LLE_default_location
-    DefaultLocation {
-        /// expression
-        data: Expression<R>,
-    },
-    /// DW_LLE_start_end
-    StartEnd {
-        /// start of range
-        begin: u64,
-        /// end of range
-        end: u64,
-        /// expression
-        data: Expression<R>,
-    },
-    /// DW_LLE_start_length
-    StartLength {
-        /// start of range
-        begin: u64,
-        /// length of range
-        length: u64,
-        /// expression
-        data: Expression<R>,
-    },
-}
-
-fn parse_data<R: Reader>(input: &mut R, encoding: Encoding) -> Result<Expression<R>> {
-    if encoding.version >= 5 {
-        let len = R::Offset::from_u64(input.read_uleb128()?)?;
-        Ok(Expression(input.split(len)?))
-    } else {
-        // In the GNU split-dwarf extension this is a fixed 2 byte value.
-        let len = R::Offset::from_u16(input.read_u16()?);
-        Ok(Expression(input.split(len)?))
-    }
-}
-
-impl<R: Reader> RawLocListEntry<R> {
-    /// Parse a location list entry from `.debug_loclists`
-    fn parse(input: &mut R, encoding: Encoding, format: LocListsFormat) -> Result<Option<Self>> {
-        Ok(match format {
-            LocListsFormat::Bare => {
-                let range = RawRange::parse(input, encoding.address_size)?;
-                if range.is_end() {
-                    None
-                } else if range.is_base_address(encoding.address_size) {
-                    Some(RawLocListEntry::BaseAddress { addr: range.end })
-                } else {
-                    let len = R::Offset::from_u16(input.read_u16()?);
-                    let data = Expression(input.split(len)?);
-                    Some(RawLocListEntry::AddressOrOffsetPair {
-                        begin: range.begin,
-                        end: range.end,
-                        data,
-                    })
-                }
-            }
-            LocListsFormat::Lle => match constants::DwLle(input.read_u8()?) {
-                constants::DW_LLE_end_of_list => None,
-                constants::DW_LLE_base_addressx => Some(RawLocListEntry::BaseAddressx {
-                    addr: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                }),
-                constants::DW_LLE_startx_endx => Some(RawLocListEntry::StartxEndx {
-                    begin: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                    end: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                    data: parse_data(input, encoding)?,
-                }),
-                constants::DW_LLE_startx_length => Some(RawLocListEntry::StartxLength {
-                    begin: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                    length: if encoding.version >= 5 {
-                        input.read_uleb128()?
-                    } else {
-                        // In the GNU split-dwarf extension this is a fixed 4 byte value.
-                        input.read_u32()? as u64
-                    },
-                    data: parse_data(input, encoding)?,
-                }),
-                constants::DW_LLE_offset_pair => Some(RawLocListEntry::OffsetPair {
-                    begin: input.read_uleb128()?,
-                    end: input.read_uleb128()?,
-                    data: parse_data(input, encoding)?,
-                }),
-                constants::DW_LLE_default_location => Some(RawLocListEntry::DefaultLocation {
-                    data: parse_data(input, encoding)?,
-                }),
-                constants::DW_LLE_base_address => Some(RawLocListEntry::BaseAddress {
-                    addr: input.read_address(encoding.address_size)?,
-                }),
-                constants::DW_LLE_start_end => Some(RawLocListEntry::StartEnd {
-                    begin: input.read_address(encoding.address_size)?,
-                    end: input.read_address(encoding.address_size)?,
-                    data: parse_data(input, encoding)?,
-                }),
-                constants::DW_LLE_start_length => Some(RawLocListEntry::StartLength {
-                    begin: input.read_address(encoding.address_size)?,
-                    length: input.read_uleb128()?,
-                    data: parse_data(input, encoding)?,
-                }),
-                _ => {
-                    return Err(Error::InvalidAddressRange);
-                }
-            },
-        })
-    }
-}
-
-impl<R: Reader> RawLocListIter<R> {
-    /// Construct a `RawLocListIter`.
-    fn new(input: R, encoding: Encoding, format: LocListsFormat) -> RawLocListIter<R> {
-        RawLocListIter {
-            input,
-            encoding,
-            format,
-        }
-    }
-
-    /// Advance the iterator to the next location.
-    pub fn next(&mut self) -> Result<Option<RawLocListEntry<R>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        match RawLocListEntry::parse(&mut self.input, self.encoding, self.format) {
-            Ok(entry) => {
-                if entry.is_none() {
-                    self.input.empty();
-                }
-                Ok(entry)
-            }
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for RawLocListIter<R> {
-    type Item = RawLocListEntry<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        RawLocListIter::next(self)
-    }
-}
-
-/// An iterator over a location list.
-///
-/// This iterator internally handles processing of base address selection entries
-/// and list end entries.  Thus, it only returns location entries that are valid
-/// and already adjusted for the base address.
-#[derive(Debug)]
-pub struct LocListIter<R: Reader> {
-    raw: RawLocListIter<R>,
-    base_address: u64,
-    debug_addr: DebugAddr<R>,
-    debug_addr_base: DebugAddrBase<R::Offset>,
-}
-
-impl<R: Reader> LocListIter<R> {
-    /// Construct a `LocListIter`.
-    fn new(
-        raw: RawLocListIter<R>,
-        base_address: u64,
-        debug_addr: DebugAddr<R>,
-        debug_addr_base: DebugAddrBase<R::Offset>,
-    ) -> LocListIter<R> {
-        LocListIter {
-            raw,
-            base_address,
-            debug_addr,
-            debug_addr_base,
-        }
-    }
-
-    #[inline]
-    fn get_address(&self, index: DebugAddrIndex<R::Offset>) -> Result<u64> {
-        self.debug_addr
-            .get_address(self.raw.encoding.address_size, self.debug_addr_base, index)
-    }
-
-    /// Advance the iterator to the next location.
-    pub fn next(&mut self) -> Result<Option<LocationListEntry<R>>> {
-        loop {
-            let raw_loc = match self.raw.next()? {
-                Some(loc) => loc,
-                None => return Ok(None),
-            };
-
-            let loc = self.convert_raw(raw_loc)?;
-            if loc.is_some() {
-                return Ok(loc);
-            }
-        }
-    }
-
-    /// Return the next raw location.
-    ///
-    /// The raw location should be passed to `convert_raw`.
-    #[doc(hidden)]
-    pub fn next_raw(&mut self) -> Result<Option<RawLocListEntry<R>>> {
-        self.raw.next()
-    }
-
-    /// Convert a raw location into a location, and update the state of the iterator.
-    ///
-    /// The raw location should have been obtained from `next_raw`.
-    #[doc(hidden)]
-    pub fn convert_raw(
-        &mut self,
-        raw_loc: RawLocListEntry<R>,
-    ) -> Result<Option<LocationListEntry<R>>> {
-        let mask = !0 >> (64 - self.raw.encoding.address_size * 8);
-        let tombstone = if self.raw.encoding.version <= 4 {
-            mask - 1
-        } else {
-            mask
-        };
-
-        let (range, data) = match raw_loc {
-            RawLocListEntry::BaseAddress { addr } => {
-                self.base_address = addr;
-                return Ok(None);
-            }
-            RawLocListEntry::BaseAddressx { addr } => {
-                self.base_address = self.get_address(addr)?;
-                return Ok(None);
-            }
-            RawLocListEntry::StartxEndx { begin, end, data } => {
-                let begin = self.get_address(begin)?;
-                let end = self.get_address(end)?;
-                (Range { begin, end }, data)
-            }
-            RawLocListEntry::StartxLength {
-                begin,
-                length,
-                data,
-            } => {
-                let begin = self.get_address(begin)?;
-                let end = begin.wrapping_add(length) & mask;
-                (Range { begin, end }, data)
-            }
-            RawLocListEntry::DefaultLocation { data } => (
-                Range {
-                    begin: 0,
-                    end: u64::max_value(),
-                },
-                data,
-            ),
-            RawLocListEntry::AddressOrOffsetPair { begin, end, data }
-            | RawLocListEntry::OffsetPair { begin, end, data } => {
-                if self.base_address == tombstone {
-                    return Ok(None);
-                }
-                let mut range = Range { begin, end };
-                range.add_base_address(self.base_address, self.raw.encoding.address_size);
-                (range, data)
-            }
-            RawLocListEntry::StartEnd { begin, end, data } => (Range { begin, end }, data),
-            RawLocListEntry::StartLength {
-                begin,
-                length,
-                data,
-            } => {
-                let end = begin.wrapping_add(length) & mask;
-                (Range { begin, end }, data)
-            }
-        };
-
-        if range.begin == tombstone {
-            return Ok(None);
-        }
-
-        if range.begin > range.end {
-            self.raw.input.empty();
-            return Err(Error::InvalidLocationAddressRange);
-        }
-
-        Ok(Some(LocationListEntry { range, data }))
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for LocListIter<R> {
-    type Item = LocationListEntry<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        LocListIter::next(self)
-    }
-}
-
-/// A location list entry from the `.debug_loc` or `.debug_loclists` sections.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct LocationListEntry<R: Reader> {
-    /// The address range that this location is valid for.
-    pub range: Range,
-
-    /// The data containing a single location description.
-    pub data: Expression<R>,
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::common::Format;
-    use crate::endianity::LittleEndian;
-    use crate::read::{EndianSlice, Range};
-    use crate::test_util::GimliSectionMethods;
-    use test_assembler::{Endian, Label, LabelMaker, Section};
-
-    #[test]
-    fn test_loclists_32() {
-        let tombstone = !0u32;
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 4,
-        };
-
-        let section = Section::with_endian(Endian::Little)
-            .L32(0x0300_0000)
-            .L32(0x0301_0300)
-            .L32(0x0301_0400)
-            .L32(0x0301_0500)
-            .L32(tombstone)
-            .L32(0x0301_0600);
-        let buf = section.get_contents().unwrap();
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&buf, LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-
-        let start = Label::new();
-        let first = Label::new();
-        let size = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // Header
-            .mark(&start)
-            .L32(&size)
-            .L16(encoding.version)
-            .L8(encoding.address_size)
-            .L8(0)
-            .L32(0)
-            .mark(&first)
-            // OffsetPair
-            .L8(4).uleb(0x10200).uleb(0x10300).uleb(4).L32(2)
-            // A base address selection followed by an OffsetPair.
-            .L8(6).L32(0x0200_0000)
-            .L8(4).uleb(0x10400).uleb(0x10500).uleb(4).L32(3)
-            // An empty OffsetPair followed by a normal OffsetPair.
-            .L8(4).uleb(0x10600).uleb(0x10600).uleb(4).L32(4)
-            .L8(4).uleb(0x10800).uleb(0x10900).uleb(4).L32(5)
-            // A StartEnd
-            .L8(7).L32(0x201_0a00).L32(0x201_0b00).uleb(4).L32(6)
-            // A StartLength
-            .L8(8).L32(0x201_0c00).uleb(0x100).uleb(4).L32(7)
-            // An OffsetPair that starts at 0.
-            .L8(4).uleb(0).uleb(1).uleb(4).L32(8)
-            // An OffsetPair that ends at -1.
-            .L8(6).L32(0)
-            .L8(4).uleb(0).uleb(0xffff_ffff).uleb(4).L32(9)
-            // A DefaultLocation
-            .L8(5).uleb(4).L32(10)
-            // A BaseAddressx + OffsetPair
-            .L8(1).uleb(0)
-            .L8(4).uleb(0x10100).uleb(0x10200).uleb(4).L32(11)
-            // A StartxEndx
-            .L8(2).uleb(1).uleb(2).uleb(4).L32(12)
-            // A StartxLength
-            .L8(3).uleb(3).uleb(0x100).uleb(4).L32(13)
-
-            // Tombstone entries, all of which should be ignored.
-            // A BaseAddressx that is a tombstone.
-            .L8(1).uleb(4)
-            .L8(4).uleb(0x11100).uleb(0x11200).uleb(4).L32(20)
-            // A BaseAddress that is a tombstone.
-            .L8(6).L32(tombstone)
-            .L8(4).uleb(0x11300).uleb(0x11400).uleb(4).L32(21)
-            // A StartxEndx that is a tombstone.
-            .L8(2).uleb(4).uleb(5).uleb(4).L32(22)
-            // A StartxLength that is a tombstone.
-            .L8(3).uleb(4).uleb(0x100).uleb(4).L32(23)
-            // A StartEnd that is a tombstone.
-            .L8(7).L32(tombstone).L32(0x201_1500).uleb(4).L32(24)
-            // A StartLength that is a tombstone.
-            .L8(8).L32(tombstone).uleb(0x100).uleb(4).L32(25)
-            // A StartEnd (not ignored)
-            .L8(7).L32(0x201_1600).L32(0x201_1700).uleb(4).L32(26)
-
-            // A range end.
-            .L8(0)
-            // Some extra data.
-            .L32(0xffff_ffff);
-        size.set_const((&section.here() - &start - 4) as u64);
-
-        let buf = section.get_contents().unwrap();
-        let debug_loc = DebugLoc::new(&[], LittleEndian);
-        let debug_loclists = DebugLocLists::new(&buf, LittleEndian);
-        let loclists = LocationLists::new(debug_loc, debug_loclists);
-        let offset = LocationListsOffset((&first - &start) as usize);
-        let mut locations = loclists
-            .locations(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0101_0200,
-                    end: 0x0101_0300,
-                },
-                data: Expression(EndianSlice::new(&[2, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A base address selection followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0400,
-                    end: 0x0201_0500,
-                },
-                data: Expression(EndianSlice::new(&[3, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // An empty location range followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0600,
-                    end: 0x0201_0600,
-                },
-                data: Expression(EndianSlice::new(&[4, 0, 0, 0], LittleEndian)),
-            }))
-        );
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0800,
-                    end: 0x0201_0900,
-                },
-                data: Expression(EndianSlice::new(&[5, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0a00,
-                    end: 0x0201_0b00,
-                },
-                data: Expression(EndianSlice::new(&[6, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0c00,
-                    end: 0x0201_0d00,
-                },
-                data: Expression(EndianSlice::new(&[7, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that starts at 0.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0200_0000,
-                    end: 0x0200_0001,
-                },
-                data: Expression(EndianSlice::new(&[8, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that ends at -1.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0000_0000,
-                    end: 0xffff_ffff,
-                },
-                data: Expression(EndianSlice::new(&[9, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A DefaultLocation.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0,
-                    end: u64::max_value(),
-                },
-                data: Expression(EndianSlice::new(&[10, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A BaseAddressx + OffsetPair
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0301_0100,
-                    end: 0x0301_0200,
-                },
-                data: Expression(EndianSlice::new(&[11, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A StartxEndx
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0301_0300,
-                    end: 0x0301_0400,
-                },
-                data: Expression(EndianSlice::new(&[12, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A StartxLength
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0301_0500,
-                    end: 0x0301_0600,
-                },
-                data: Expression(EndianSlice::new(&[13, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A StartEnd location following the tombstones
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_1600,
-                    end: 0x0201_1700,
-                },
-                data: Expression(EndianSlice::new(&[26, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location list end.
-        assert_eq!(locations.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut locations = loclists
-            .locations(
-                LocationListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(locations.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_loclists_64() {
-        let tombstone = !0u64;
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-
-        let section = Section::with_endian(Endian::Little)
-            .L64(0x0300_0000)
-            .L64(0x0301_0300)
-            .L64(0x0301_0400)
-            .L64(0x0301_0500)
-            .L64(tombstone)
-            .L64(0x0301_0600);
-        let buf = section.get_contents().unwrap();
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&buf, LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-
-        let start = Label::new();
-        let first = Label::new();
-        let size = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // Header
-            .mark(&start)
-            .L32(0xffff_ffff)
-            .L64(&size)
-            .L16(encoding.version)
-            .L8(encoding.address_size)
-            .L8(0)
-            .L32(0)
-            .mark(&first)
-            // OffsetPair
-            .L8(4).uleb(0x10200).uleb(0x10300).uleb(4).L32(2)
-            // A base address selection followed by an OffsetPair.
-            .L8(6).L64(0x0200_0000)
-            .L8(4).uleb(0x10400).uleb(0x10500).uleb(4).L32(3)
-            // An empty OffsetPair followed by a normal OffsetPair.
-            .L8(4).uleb(0x10600).uleb(0x10600).uleb(4).L32(4)
-            .L8(4).uleb(0x10800).uleb(0x10900).uleb(4).L32(5)
-            // A StartEnd
-            .L8(7).L64(0x201_0a00).L64(0x201_0b00).uleb(4).L32(6)
-            // A StartLength
-            .L8(8).L64(0x201_0c00).uleb(0x100).uleb(4).L32(7)
-            // An OffsetPair that starts at 0.
-            .L8(4).uleb(0).uleb(1).uleb(4).L32(8)
-            // An OffsetPair that ends at -1.
-            .L8(6).L64(0)
-            .L8(4).uleb(0).uleb(0xffff_ffff).uleb(4).L32(9)
-            // A DefaultLocation
-            .L8(5).uleb(4).L32(10)
-            // A BaseAddressx + OffsetPair
-            .L8(1).uleb(0)
-            .L8(4).uleb(0x10100).uleb(0x10200).uleb(4).L32(11)
-            // A StartxEndx
-            .L8(2).uleb(1).uleb(2).uleb(4).L32(12)
-            // A StartxLength
-            .L8(3).uleb(3).uleb(0x100).uleb(4).L32(13)
-
-            // Tombstone entries, all of which should be ignored.
-            // A BaseAddressx that is a tombstone.
-            .L8(1).uleb(4)
-            .L8(4).uleb(0x11100).uleb(0x11200).uleb(4).L32(20)
-            // A BaseAddress that is a tombstone.
-            .L8(6).L64(tombstone)
-            .L8(4).uleb(0x11300).uleb(0x11400).uleb(4).L32(21)
-            // A StartxEndx that is a tombstone.
-            .L8(2).uleb(4).uleb(5).uleb(4).L32(22)
-            // A StartxLength that is a tombstone.
-            .L8(3).uleb(4).uleb(0x100).uleb(4).L32(23)
-            // A StartEnd that is a tombstone.
-            .L8(7).L64(tombstone).L64(0x201_1500).uleb(4).L32(24)
-            // A StartLength that is a tombstone.
-            .L8(8).L64(tombstone).uleb(0x100).uleb(4).L32(25)
-            // A StartEnd (not ignored)
-            .L8(7).L64(0x201_1600).L64(0x201_1700).uleb(4).L32(26)
-
-            // A range end.
-            .L8(0)
-            // Some extra data.
-            .L32(0xffff_ffff);
-        size.set_const((&section.here() - &start - 12) as u64);
-
-        let buf = section.get_contents().unwrap();
-        let debug_loc = DebugLoc::new(&[], LittleEndian);
-        let debug_loclists = DebugLocLists::new(&buf, LittleEndian);
-        let loclists = LocationLists::new(debug_loc, debug_loclists);
-        let offset = LocationListsOffset((&first - &start) as usize);
-        let mut locations = loclists
-            .locations(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0101_0200,
-                    end: 0x0101_0300,
-                },
-                data: Expression(EndianSlice::new(&[2, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A base address selection followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0400,
-                    end: 0x0201_0500,
-                },
-                data: Expression(EndianSlice::new(&[3, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // An empty location range followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0600,
-                    end: 0x0201_0600,
-                },
-                data: Expression(EndianSlice::new(&[4, 0, 0, 0], LittleEndian)),
-            }))
-        );
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0800,
-                    end: 0x0201_0900,
-                },
-                data: Expression(EndianSlice::new(&[5, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0a00,
-                    end: 0x0201_0b00,
-                },
-                data: Expression(EndianSlice::new(&[6, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0c00,
-                    end: 0x0201_0d00,
-                },
-                data: Expression(EndianSlice::new(&[7, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that starts at 0.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0200_0000,
-                    end: 0x0200_0001,
-                },
-                data: Expression(EndianSlice::new(&[8, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that ends at -1.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0000_0000,
-                    end: 0xffff_ffff,
-                },
-                data: Expression(EndianSlice::new(&[9, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A DefaultLocation.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0,
-                    end: u64::max_value(),
-                },
-                data: Expression(EndianSlice::new(&[10, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A BaseAddressx + OffsetPair
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0301_0100,
-                    end: 0x0301_0200,
-                },
-                data: Expression(EndianSlice::new(&[11, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A StartxEndx
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0301_0300,
-                    end: 0x0301_0400,
-                },
-                data: Expression(EndianSlice::new(&[12, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A StartxLength
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0301_0500,
-                    end: 0x0301_0600,
-                },
-                data: Expression(EndianSlice::new(&[13, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A StartEnd location following the tombstones
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_1600,
-                    end: 0x0201_1700,
-                },
-                data: Expression(EndianSlice::new(&[26, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location list end.
-        assert_eq!(locations.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut locations = loclists
-            .locations(
-                LocationListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(locations.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_location_list_32() {
-        let tombstone = !0u32 - 1;
-        let start = Label::new();
-        let first = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // A location before the offset.
-            .mark(&start)
-            .L32(0x10000).L32(0x10100).L16(4).L32(1)
-            .mark(&first)
-            // A normal location.
-            .L32(0x10200).L32(0x10300).L16(4).L32(2)
-            // A base address selection followed by a normal location.
-            .L32(0xffff_ffff).L32(0x0200_0000)
-            .L32(0x10400).L32(0x10500).L16(4).L32(3)
-            // An empty location range followed by a normal location.
-            .L32(0x10600).L32(0x10600).L16(4).L32(4)
-            .L32(0x10800).L32(0x10900).L16(4).L32(5)
-            // A location range that starts at 0.
-            .L32(0).L32(1).L16(4).L32(6)
-            // A location range that ends at -1.
-            .L32(0xffff_ffff).L32(0x0000_0000)
-            .L32(0).L32(0xffff_ffff).L16(4).L32(7)
-            // A normal location with tombstone.
-            .L32(tombstone).L32(tombstone).L16(4).L32(8)
-            // A base address selection with tombstone followed by a normal location.
-            .L32(0xffff_ffff).L32(tombstone)
-            .L32(0x10a00).L32(0x10b00).L16(4).L32(9)
-            // A location list end.
-            .L32(0).L32(0)
-            // Some extra data.
-            .L32(0);
-
-        let buf = section.get_contents().unwrap();
-        let debug_loc = DebugLoc::new(&buf, LittleEndian);
-        let debug_loclists = DebugLocLists::new(&[], LittleEndian);
-        let loclists = LocationLists::new(debug_loc, debug_loclists);
-        let offset = LocationListsOffset((&first - &start) as usize);
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&[], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut locations = loclists
-            .locations(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0101_0200,
-                    end: 0x0101_0300,
-                },
-                data: Expression(EndianSlice::new(&[2, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A base address selection followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0400,
-                    end: 0x0201_0500,
-                },
-                data: Expression(EndianSlice::new(&[3, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // An empty location range followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0600,
-                    end: 0x0201_0600,
-                },
-                data: Expression(EndianSlice::new(&[4, 0, 0, 0], LittleEndian)),
-            }))
-        );
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0800,
-                    end: 0x0201_0900,
-                },
-                data: Expression(EndianSlice::new(&[5, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that starts at 0.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0200_0000,
-                    end: 0x0200_0001,
-                },
-                data: Expression(EndianSlice::new(&[6, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that ends at -1.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0000_0000,
-                    end: 0xffff_ffff,
-                },
-                data: Expression(EndianSlice::new(&[7, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location list end.
-        assert_eq!(locations.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut locations = loclists
-            .locations(
-                LocationListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(locations.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_location_list_64() {
-        let tombstone = !0u64 - 1;
-        let start = Label::new();
-        let first = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // A location before the offset.
-            .mark(&start)
-            .L64(0x10000).L64(0x10100).L16(4).L32(1)
-            .mark(&first)
-            // A normal location.
-            .L64(0x10200).L64(0x10300).L16(4).L32(2)
-            // A base address selection followed by a normal location.
-            .L64(0xffff_ffff_ffff_ffff).L64(0x0200_0000)
-            .L64(0x10400).L64(0x10500).L16(4).L32(3)
-            // An empty location range followed by a normal location.
-            .L64(0x10600).L64(0x10600).L16(4).L32(4)
-            .L64(0x10800).L64(0x10900).L16(4).L32(5)
-            // A location range that starts at 0.
-            .L64(0).L64(1).L16(4).L32(6)
-            // A location range that ends at -1.
-            .L64(0xffff_ffff_ffff_ffff).L64(0x0000_0000)
-            .L64(0).L64(0xffff_ffff_ffff_ffff).L16(4).L32(7)
-            // A normal location with tombstone.
-            .L64(tombstone).L64(tombstone).L16(4).L32(8)
-            // A base address selection with tombstone followed by a normal location.
-            .L64(0xffff_ffff_ffff_ffff).L64(tombstone)
-            .L64(0x10a00).L64(0x10b00).L16(4).L32(9)
-            // A location list end.
-            .L64(0).L64(0)
-            // Some extra data.
-            .L64(0);
-
-        let buf = section.get_contents().unwrap();
-        let debug_loc = DebugLoc::new(&buf, LittleEndian);
-        let debug_loclists = DebugLocLists::new(&[], LittleEndian);
-        let loclists = LocationLists::new(debug_loc, debug_loclists);
-        let offset = LocationListsOffset((&first - &start) as usize);
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&[], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 4,
-            address_size: 8,
-        };
-        let mut locations = loclists
-            .locations(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0101_0200,
-                    end: 0x0101_0300,
-                },
-                data: Expression(EndianSlice::new(&[2, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A base address selection followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0400,
-                    end: 0x0201_0500,
-                },
-                data: Expression(EndianSlice::new(&[3, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // An empty location range followed by a normal location.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0600,
-                    end: 0x0201_0600,
-                },
-                data: Expression(EndianSlice::new(&[4, 0, 0, 0], LittleEndian)),
-            }))
-        );
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0201_0800,
-                    end: 0x0201_0900,
-                },
-                data: Expression(EndianSlice::new(&[5, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that starts at 0.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0200_0000,
-                    end: 0x0200_0001,
-                },
-                data: Expression(EndianSlice::new(&[6, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location range that ends at -1.
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0,
-                    end: 0xffff_ffff_ffff_ffff,
-                },
-                data: Expression(EndianSlice::new(&[7, 0, 0, 0], LittleEndian)),
-            }))
-        );
-
-        // A location list end.
-        assert_eq!(locations.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut locations = loclists
-            .locations(
-                LocationListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(locations.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_locations_invalid() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // An invalid location range.
-            .L32(0x20000).L32(0x10000).L16(4).L32(1)
-            // An invalid range after wrapping.
-            .L32(0x20000).L32(0xff01_0000).L16(4).L32(2);
-
-        let buf = section.get_contents().unwrap();
-        let debug_loc = DebugLoc::new(&buf, LittleEndian);
-        let debug_loclists = DebugLocLists::new(&[], LittleEndian);
-        let loclists = LocationLists::new(debug_loc, debug_loclists);
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&[], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-
-        // An invalid location range.
-        let mut locations = loclists
-            .locations(
-                LocationListsOffset(0x0),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(locations.next(), Err(Error::InvalidLocationAddressRange));
-
-        // An invalid location range after wrapping.
-        let mut locations = loclists
-            .locations(
-                LocationListsOffset(14),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(locations.next(), Err(Error::InvalidLocationAddressRange));
-
-        // An invalid offset.
-        match loclists.locations(
-            LocationListsOffset(buf.len() + 1),
-            encoding,
-            0x0100_0000,
-            debug_addr,
-            debug_addr_base,
-        ) {
-            Err(Error::UnexpectedEof(_)) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_get_offset() {
-        for format in vec![Format::Dwarf32, Format::Dwarf64] {
-            let encoding = Encoding {
-                format,
-                version: 5,
-                address_size: 4,
-            };
-
-            let zero = Label::new();
-            let length = Label::new();
-            let start = Label::new();
-            let first = Label::new();
-            let end = Label::new();
-            let mut section = Section::with_endian(Endian::Little)
-                .mark(&zero)
-                .initial_length(format, &length, &start)
-                .D16(encoding.version)
-                .D8(encoding.address_size)
-                .D8(0)
-                .D32(20)
-                .mark(&first);
-            for i in 0..20 {
-                section = section.word(format.word_size(), 1000 + i);
-            }
-            section = section.mark(&end);
-            length.set_const((&end - &start) as u64);
-            let section = section.get_contents().unwrap();
-
-            let debug_loc = DebugLoc::from(EndianSlice::new(&[], LittleEndian));
-            let debug_loclists = DebugLocLists::from(EndianSlice::new(&section, LittleEndian));
-            let locations = LocationLists::new(debug_loc, debug_loclists);
-
-            let base = DebugLocListsBase((&first - &zero) as usize);
-            assert_eq!(
-                locations.get_offset(encoding, base, DebugLocListsIndex(0)),
-                Ok(LocationListsOffset(base.0 + 1000))
-            );
-            assert_eq!(
-                locations.get_offset(encoding, base, DebugLocListsIndex(19)),
-                Ok(LocationListsOffset(base.0 + 1019))
-            );
-        }
-    }
-
-    #[test]
-    fn test_loclists_gnu_v4_split_dwarf() {
-        #[rustfmt::skip]
-        let buf = [
-            0x03, // DW_LLE_startx_length
-            0x00, // ULEB encoded b7
-            0x08, 0x00, 0x00, 0x00, // Fixed 4 byte length of 8
-            0x03, 0x00, // Fixed two byte length of the location
-            0x11, 0x00, // DW_OP_constu 0
-            0x9f, // DW_OP_stack_value
-            // Padding data
-            //0x99, 0x99, 0x99, 0x99
-        ];
-        let data_buf = [0x11, 0x00, 0x9f];
-        let expected_data = EndianSlice::new(&data_buf, LittleEndian);
-        let debug_loc = DebugLoc::new(&buf, LittleEndian);
-        let debug_loclists = DebugLocLists::new(&[], LittleEndian);
-        let loclists = LocationLists::new(debug_loc, debug_loclists);
-        let debug_addr =
-            &DebugAddr::from(EndianSlice::new(&[0x01, 0x02, 0x03, 0x04], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-
-        // An invalid location range.
-        let mut locations = loclists
-            .locations_dwo(
-                LocationListsOffset(0x0),
-                encoding,
-                0,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(
-            locations.next(),
-            Ok(Some(LocationListEntry {
-                range: Range {
-                    begin: 0x0403_0201,
-                    end: 0x0403_0209
-                },
-                data: Expression(expected_data),
-            }))
-        );
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/lookup.rs b/vendor/gimli-0.27.3/src/read/lookup.rs
deleted file mode 100644
index 1d082f24f..000000000
--- a/vendor/gimli-0.27.3/src/read/lookup.rs
+++ /dev/null
@@ -1,202 +0,0 @@
-use core::marker::PhantomData;
-
-use crate::common::{DebugInfoOffset, Format};
-use crate::read::{parse_debug_info_offset, Error, Reader, ReaderOffset, Result, UnitOffset};
-
-// The various "Accelerated Access" sections (DWARF standard v4 Section 6.1) all have
-// similar structures. They consist of a header with metadata and an offset into the
-// .debug_info section for the entire compilation unit, and a series
-// of following entries that list addresses (for .debug_aranges) or names
-// (for .debug_pubnames and .debug_pubtypes) that are covered.
-//
-// Because these three tables all have similar structures, we abstract out some of
-// the parsing mechanics.
-
-pub trait LookupParser<R: Reader> {
-    /// The type of the produced header.
-    type Header;
-    /// The type of the produced entry.
-    type Entry;
-
-    /// Parse a header from `input`. Returns a tuple of `input` sliced to contain just the entries
-    /// corresponding to this header (without the header itself), and the parsed representation of
-    /// the header itself.
-    fn parse_header(input: &mut R) -> Result<(R, Self::Header)>;
-
-    /// Parse a single entry from `input`. Returns either a parsed representation of the entry
-    /// or None if `input` is exhausted.
-    fn parse_entry(input: &mut R, header: &Self::Header) -> Result<Option<Self::Entry>>;
-}
-
-#[derive(Clone, Debug)]
-pub struct DebugLookup<R, Parser>
-where
-    R: Reader,
-    Parser: LookupParser<R>,
-{
-    input_buffer: R,
-    phantom: PhantomData<Parser>,
-}
-
-impl<R, Parser> From<R> for DebugLookup<R, Parser>
-where
-    R: Reader,
-    Parser: LookupParser<R>,
-{
-    fn from(input_buffer: R) -> Self {
-        DebugLookup {
-            input_buffer,
-            phantom: PhantomData,
-        }
-    }
-}
-
-impl<R, Parser> DebugLookup<R, Parser>
-where
-    R: Reader,
-    Parser: LookupParser<R>,
-{
-    pub fn items(&self) -> LookupEntryIter<R, Parser> {
-        LookupEntryIter {
-            current_set: None,
-            remaining_input: self.input_buffer.clone(),
-        }
-    }
-
-    pub fn reader(&self) -> &R {
-        &self.input_buffer
-    }
-}
-
-#[derive(Clone, Debug)]
-pub struct LookupEntryIter<R, Parser>
-where
-    R: Reader,
-    Parser: LookupParser<R>,
-{
-    current_set: Option<(R, Parser::Header)>, // Only none at the very beginning and end.
-    remaining_input: R,
-}
-
-impl<R, Parser> LookupEntryIter<R, Parser>
-where
-    R: Reader,
-    Parser: LookupParser<R>,
-{
-    /// Advance the iterator and return the next entry.
-    ///
-    /// Returns the newly parsed entry as `Ok(Some(Parser::Entry))`. Returns
-    /// `Ok(None)` when iteration is complete and all entries have already been
-    /// parsed and yielded. If an error occurs while parsing the next entry,
-    /// then this error is returned as `Err(e)`, and all subsequent calls return
-    /// `Ok(None)`.
-    ///
-    /// Can be [used with `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn next(&mut self) -> Result<Option<Parser::Entry>> {
-        loop {
-            if let Some((ref mut input, ref header)) = self.current_set {
-                if !input.is_empty() {
-                    match Parser::parse_entry(input, header) {
-                        Ok(Some(entry)) => return Ok(Some(entry)),
-                        Ok(None) => {}
-                        Err(e) => {
-                            input.empty();
-                            self.remaining_input.empty();
-                            return Err(e);
-                        }
-                    }
-                }
-            }
-            if self.remaining_input.is_empty() {
-                self.current_set = None;
-                return Ok(None);
-            }
-            match Parser::parse_header(&mut self.remaining_input) {
-                Ok(set) => {
-                    self.current_set = Some(set);
-                }
-                Err(e) => {
-                    self.current_set = None;
-                    self.remaining_input.empty();
-                    return Err(e);
-                }
-            }
-        }
-    }
-}
-
-#[derive(Debug, Clone, PartialEq, Eq)]
-pub struct PubStuffHeader<T = usize> {
-    format: Format,
-    length: T,
-    version: u16,
-    unit_offset: DebugInfoOffset<T>,
-    unit_length: T,
-}
-
-pub trait PubStuffEntry<R: Reader> {
-    fn new(
-        die_offset: UnitOffset<R::Offset>,
-        name: R,
-        unit_header_offset: DebugInfoOffset<R::Offset>,
-    ) -> Self;
-}
-
-#[derive(Clone, Debug)]
-pub struct PubStuffParser<R, Entry>
-where
-    R: Reader,
-    Entry: PubStuffEntry<R>,
-{
-    // This struct is never instantiated.
-    phantom: PhantomData<(R, Entry)>,
-}
-
-impl<R, Entry> LookupParser<R> for PubStuffParser<R, Entry>
-where
-    R: Reader,
-    Entry: PubStuffEntry<R>,
-{
-    type Header = PubStuffHeader<R::Offset>;
-    type Entry = Entry;
-
-    /// Parse an pubthings set header. Returns a tuple of the
-    /// pubthings to be parsed for this set, and the newly created PubThingHeader struct.
-    fn parse_header(input: &mut R) -> Result<(R, Self::Header)> {
-        let (length, format) = input.read_initial_length()?;
-        let mut rest = input.split(length)?;
-
-        let version = rest.read_u16()?;
-        if version != 2 {
-            return Err(Error::UnknownVersion(u64::from(version)));
-        }
-
-        let unit_offset = parse_debug_info_offset(&mut rest, format)?;
-        let unit_length = rest.read_length(format)?;
-
-        let header = PubStuffHeader {
-            format,
-            length,
-            version,
-            unit_offset,
-            unit_length,
-        };
-        Ok((rest, header))
-    }
-
-    /// Parse a single pubthing. Return `None` for the null pubthing, `Some` for an actual pubthing.
-    fn parse_entry(input: &mut R, header: &Self::Header) -> Result<Option<Self::Entry>> {
-        let offset = input.read_offset(header.format)?;
-        if offset.into_u64() == 0 {
-            input.empty();
-            Ok(None)
-        } else {
-            let name = input.read_null_terminated_slice()?;
-            Ok(Some(Self::Entry::new(
-                UnitOffset(offset),
-                name,
-                header.unit_offset,
-            )))
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/mod.rs b/vendor/gimli-0.27.3/src/read/mod.rs
deleted file mode 100644
index 82b79502d..000000000
--- a/vendor/gimli-0.27.3/src/read/mod.rs
+++ /dev/null
@@ -1,830 +0,0 @@
-//! Read DWARF debugging information.
-//!
-//! * [Example Usage](#example-usage)
-//! * [API Structure](#api-structure)
-//! * [Using with `FallibleIterator`](#using-with-fallibleiterator)
-//!
-//! ## Example Usage
-//!
-//! Print out all of the functions in the debuggee program:
-//!
-//! ```rust,no_run
-//! # fn example() -> Result<(), gimli::Error> {
-//! # type R = gimli::EndianSlice<'static, gimli::LittleEndian>;
-//! # let get_file_section_reader = |name| -> Result<R, gimli::Error> { unimplemented!() };
-//! # let get_sup_file_section_reader = |name| -> Result<R, gimli::Error> { unimplemented!() };
-//! // Read the DWARF sections with whatever object loader you're using.
-//! // These closures should return a `Reader` instance (e.g. `EndianSlice`).
-//! let loader = |section: gimli::SectionId| { get_file_section_reader(section.name()) };
-//! let sup_loader = |section: gimli::SectionId| { get_sup_file_section_reader(section.name()) };
-//! let mut dwarf = gimli::Dwarf::load(loader)?;
-//! dwarf.load_sup(sup_loader)?;
-//!
-//! // Iterate over all compilation units.
-//! let mut iter = dwarf.units();
-//! while let Some(header) = iter.next()? {
-//!     // Parse the abbreviations and other information for this compilation unit.
-//!     let unit = dwarf.unit(header)?;
-//!
-//!     // Iterate over all of this compilation unit's entries.
-//!     let mut entries = unit.entries();
-//!     while let Some((_, entry)) = entries.next_dfs()? {
-//!         // If we find an entry for a function, print it.
-//!         if entry.tag() == gimli::DW_TAG_subprogram {
-//!             println!("Found a function: {:?}", entry);
-//!         }
-//!     }
-//! }
-//! # unreachable!()
-//! # }
-//! ```
-//!
-//! Full example programs:
-//!
-//!   * [A simple parser](https://github.com/gimli-rs/gimli/blob/master/examples/simple.rs)
-//!
-//!   * [A `dwarfdump`
-//!     clone](https://github.com/gimli-rs/gimli/blob/master/examples/dwarfdump.rs)
-//!
-//!   * [An `addr2line` clone](https://github.com/gimli-rs/addr2line)
-//!
-//!   * [`ddbug`](https://github.com/gimli-rs/ddbug), a utility giving insight into
-//!     code generation by making debugging information readable
-//!
-//!   * [`dwprod`](https://github.com/fitzgen/dwprod), a tiny utility to list the
-//!     compilers used to create each compilation unit within a shared library or
-//!     executable (via `DW_AT_producer`)
-//!
-//!   * [`dwarf-validate`](https://github.com/gimli-rs/gimli/blob/master/examples/dwarf-validate.rs),
-//!     a program to validate the integrity of some DWARF and its references
-//!     between sections and compilation units.
-//!
-//! ## API Structure
-//!
-//! * Basic familiarity with DWARF is assumed.
-//!
-//! * The [`Dwarf`](./struct.Dwarf.html) type contains the commonly used DWARF
-//! sections. It has methods that simplify access to debugging data that spans
-//! multiple sections. Use of this type is optional, but recommended.
-//!
-//! * Each section gets its own type. Consider these types the entry points to
-//! the library:
-//!
-//!   * [`DebugAbbrev`](./struct.DebugAbbrev.html): The `.debug_abbrev` section.
-//!
-//!   * [`DebugAddr`](./struct.DebugAddr.html): The `.debug_addr` section.
-//!
-//!   * [`DebugAranges`](./struct.DebugAranges.html): The `.debug_aranges`
-//!   section.
-//!
-//!   * [`DebugFrame`](./struct.DebugFrame.html): The `.debug_frame` section.
-//!
-//!   * [`DebugInfo`](./struct.DebugInfo.html): The `.debug_info` section.
-//!
-//!   * [`DebugLine`](./struct.DebugLine.html): The `.debug_line` section.
-//!
-//!   * [`DebugLineStr`](./struct.DebugLineStr.html): The `.debug_line_str` section.
-//!
-//!   * [`DebugLoc`](./struct.DebugLoc.html): The `.debug_loc` section.
-//!
-//!   * [`DebugLocLists`](./struct.DebugLocLists.html): The `.debug_loclists` section.
-//!
-//!   * [`DebugPubNames`](./struct.DebugPubNames.html): The `.debug_pubnames`
-//!   section.
-//!
-//!   * [`DebugPubTypes`](./struct.DebugPubTypes.html): The `.debug_pubtypes`
-//!   section.
-//!
-//!   * [`DebugRanges`](./struct.DebugRanges.html): The `.debug_ranges` section.
-//!
-//!   * [`DebugRngLists`](./struct.DebugRngLists.html): The `.debug_rnglists` section.
-//!
-//!   * [`DebugStr`](./struct.DebugStr.html): The `.debug_str` section.
-//!
-//!   * [`DebugStrOffsets`](./struct.DebugStrOffsets.html): The `.debug_str_offsets` section.
-//!
-//!   * [`DebugTypes`](./struct.DebugTypes.html): The `.debug_types` section.
-//!
-//!   * [`DebugCuIndex`](./struct.DebugCuIndex.html): The `.debug_cu_index` section.
-//!
-//!   * [`DebugTuIndex`](./struct.DebugTuIndex.html): The `.debug_tu_index` section.
-//!
-//!   * [`EhFrame`](./struct.EhFrame.html): The `.eh_frame` section.
-//!
-//!   * [`EhFrameHdr`](./struct.EhFrameHdr.html): The `.eh_frame_hdr` section.
-//!
-//! * Each section type exposes methods for accessing the debugging data encoded
-//! in that section. For example, the [`DebugInfo`](./struct.DebugInfo.html)
-//! struct has the [`units`](./struct.DebugInfo.html#method.units) method for
-//! iterating over the compilation units defined within it.
-//!
-//! * Offsets into a section are strongly typed: an offset into `.debug_info` is
-//! the [`DebugInfoOffset`](./struct.DebugInfoOffset.html) type. It cannot be
-//! used to index into the [`DebugLine`](./struct.DebugLine.html) type because
-//! `DebugLine` represents the `.debug_line` section. There are similar types
-//! for offsets relative to a compilation unit rather than a section.
-//!
-//! ## Using with `FallibleIterator`
-//!
-//! The standard library's `Iterator` trait and related APIs do not play well
-//! with iterators where the `next` operation is fallible. One can make the
-//! `Iterator`'s associated `Item` type be a `Result<T, E>`, however the
-//! provided methods cannot gracefully handle the case when an `Err` is
-//! returned.
-//!
-//! This situation led to the
-//! [`fallible-iterator`](https://crates.io/crates/fallible-iterator) crate's
-//! existence. You can read more of the rationale for its existence in its
-//! docs. The crate provides the helpers you have come to expect (eg `map`,
-//! `filter`, etc) for iterators that can fail.
-//!
-//! `gimli`'s many lazy parsing iterators are a perfect match for the
-//! `fallible-iterator` crate's `FallibleIterator` trait because parsing is not
-//! done eagerly. Parse errors later in the input might only be discovered after
-//! having iterated through many items.
-//!
-//! To use `gimli` iterators with `FallibleIterator`, import the crate and trait
-//! into your code:
-//!
-//! ```
-//! # #[cfg(feature = "fallible-iterator")]
-//! # fn foo() {
-//! // Use the `FallibleIterator` trait so its methods are in scope!
-//! use fallible_iterator::FallibleIterator;
-//! use gimli::{DebugAranges, EndianSlice, LittleEndian};
-//!
-//! fn find_sum_of_address_range_lengths(aranges: DebugAranges<EndianSlice<LittleEndian>>)
-//!     -> gimli::Result<u64>
-//! {
-//!     // `DebugAranges::headers` returns a `FallibleIterator`!
-//!     aranges.headers()
-//!         // `flat_map` is provided by `FallibleIterator`!
-//!         .flat_map(|header| Ok(header.entries()))
-//!         // `map` is provided by `FallibleIterator`!
-//!         .map(|arange| Ok(arange.length()))
-//!         // `fold` is provided by `FallibleIterator`!
-//!         .fold(0, |sum, len| Ok(sum + len))
-//! }
-//! # }
-//! # fn main() {}
-//! ```
-
-use core::fmt::{self, Debug};
-use core::result;
-#[cfg(feature = "std")]
-use std::{error, io};
-
-use crate::common::{Register, SectionId};
-use crate::constants;
-
-mod util;
-pub use util::*;
-
-mod addr;
-pub use self::addr::*;
-
-mod cfi;
-pub use self::cfi::*;
-
-#[cfg(feature = "read")]
-mod dwarf;
-#[cfg(feature = "read")]
-pub use self::dwarf::*;
-
-mod endian_slice;
-pub use self::endian_slice::*;
-
-#[cfg(feature = "endian-reader")]
-mod endian_reader;
-#[cfg(feature = "endian-reader")]
-pub use self::endian_reader::*;
-
-mod reader;
-pub use self::reader::*;
-
-#[cfg(feature = "read")]
-mod abbrev;
-#[cfg(feature = "read")]
-pub use self::abbrev::*;
-
-mod aranges;
-pub use self::aranges::*;
-
-mod index;
-pub use self::index::*;
-
-#[cfg(feature = "read")]
-mod lazy;
-
-#[cfg(feature = "read")]
-mod line;
-#[cfg(feature = "read")]
-pub use self::line::*;
-
-mod lists;
-
-mod loclists;
-pub use self::loclists::*;
-
-#[cfg(feature = "read")]
-mod lookup;
-
-mod op;
-pub use self::op::*;
-
-#[cfg(feature = "read")]
-mod pubnames;
-#[cfg(feature = "read")]
-pub use self::pubnames::*;
-
-#[cfg(feature = "read")]
-mod pubtypes;
-#[cfg(feature = "read")]
-pub use self::pubtypes::*;
-
-mod rnglists;
-pub use self::rnglists::*;
-
-mod str;
-pub use self::str::*;
-
-/// An offset into the current compilation or type unit.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Ord, PartialOrd, Hash)]
-pub struct UnitOffset<T = usize>(pub T);
-
-#[cfg(feature = "read")]
-mod unit;
-#[cfg(feature = "read")]
-pub use self::unit::*;
-
-mod value;
-pub use self::value::*;
-
-/// Indicates that storage should be allocated on heap.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct StoreOnHeap;
-
-/// `EndianBuf` has been renamed to `EndianSlice`. For ease of upgrading across
-/// `gimli` versions, we export this type alias.
-#[deprecated(note = "EndianBuf has been renamed to EndianSlice, use that instead.")]
-pub type EndianBuf<'input, Endian> = EndianSlice<'input, Endian>;
-
-/// An error that occurred when parsing.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum Error {
-    /// An I/O error occurred while reading.
-    Io,
-    /// Found a PC relative pointer, but the section base is undefined.
-    PcRelativePointerButSectionBaseIsUndefined,
-    /// Found a `.text` relative pointer, but the `.text` base is undefined.
-    TextRelativePointerButTextBaseIsUndefined,
-    /// Found a data relative pointer, but the data base is undefined.
-    DataRelativePointerButDataBaseIsUndefined,
-    /// Found a function relative pointer in a context that does not have a
-    /// function base.
-    FuncRelativePointerInBadContext,
-    /// Cannot parse a pointer with a `DW_EH_PE_omit` encoding.
-    CannotParseOmitPointerEncoding,
-    /// An error parsing an unsigned LEB128 value.
-    BadUnsignedLeb128,
-    /// An error parsing a signed LEB128 value.
-    BadSignedLeb128,
-    /// An abbreviation declared that its tag is zero, but zero is reserved for
-    /// null records.
-    AbbreviationTagZero,
-    /// An attribute specification declared that its form is zero, but zero is
-    /// reserved for null records.
-    AttributeFormZero,
-    /// The abbreviation's has-children byte was not one of
-    /// `DW_CHILDREN_{yes,no}`.
-    BadHasChildren,
-    /// The specified length is impossible.
-    BadLength,
-    /// Found an unknown `DW_FORM_*` type.
-    UnknownForm,
-    /// Expected a zero, found something else.
-    ExpectedZero,
-    /// Found an abbreviation code that has already been used.
-    DuplicateAbbreviationCode,
-    /// Found a duplicate arange.
-    DuplicateArange,
-    /// Found an unknown reserved length value.
-    UnknownReservedLength,
-    /// Found an unknown DWARF version.
-    UnknownVersion(u64),
-    /// Found a record with an unknown abbreviation code.
-    UnknownAbbreviation,
-    /// Hit the end of input before it was expected.
-    UnexpectedEof(ReaderOffsetId),
-    /// Read a null entry before it was expected.
-    UnexpectedNull,
-    /// Found an unknown standard opcode.
-    UnknownStandardOpcode(constants::DwLns),
-    /// Found an unknown extended opcode.
-    UnknownExtendedOpcode(constants::DwLne),
-    /// The specified address size is not supported.
-    UnsupportedAddressSize(u8),
-    /// The specified offset size is not supported.
-    UnsupportedOffsetSize(u8),
-    /// The specified field size is not supported.
-    UnsupportedFieldSize(u8),
-    /// The minimum instruction length must not be zero.
-    MinimumInstructionLengthZero,
-    /// The maximum operations per instruction must not be zero.
-    MaximumOperationsPerInstructionZero,
-    /// The line range must not be zero.
-    LineRangeZero,
-    /// The opcode base must not be zero.
-    OpcodeBaseZero,
-    /// Found an invalid UTF-8 string.
-    BadUtf8,
-    /// Expected to find the CIE ID, but found something else.
-    NotCieId,
-    /// Expected to find a pointer to a CIE, but found the CIE ID instead.
-    NotCiePointer,
-    /// Expected to find a pointer to an FDE, but found a CIE instead.
-    NotFdePointer,
-    /// Invalid branch target for a DW_OP_bra or DW_OP_skip.
-    BadBranchTarget(u64),
-    /// DW_OP_push_object_address used but no address passed in.
-    InvalidPushObjectAddress,
-    /// Not enough items on the stack when evaluating an expression.
-    NotEnoughStackItems,
-    /// Too many iterations to compute the expression.
-    TooManyIterations,
-    /// An unrecognized operation was found while parsing a DWARF
-    /// expression.
-    InvalidExpression(constants::DwOp),
-    /// An unsupported operation was found while evaluating a DWARF expression.
-    UnsupportedEvaluation,
-    /// The expression had a piece followed by an expression
-    /// terminator without a piece.
-    InvalidPiece,
-    /// An expression-terminating operation was followed by something
-    /// other than the end of the expression or a piece operation.
-    InvalidExpressionTerminator(u64),
-    /// Division or modulus by zero when evaluating an expression.
-    DivisionByZero,
-    /// An expression operation used mismatching types.
-    TypeMismatch,
-    /// An expression operation required an integral type but saw a
-    /// floating point type.
-    IntegralTypeRequired,
-    /// An expression operation used types that are not supported.
-    UnsupportedTypeOperation,
-    /// The shift value in an expression must be a non-negative integer.
-    InvalidShiftExpression,
-    /// An unknown DW_CFA_* instruction.
-    UnknownCallFrameInstruction(constants::DwCfa),
-    /// The end of an address range was before the beginning.
-    InvalidAddressRange,
-    /// The end offset of a loc list entry was before the beginning.
-    InvalidLocationAddressRange,
-    /// Encountered a call frame instruction in a context in which it is not
-    /// valid.
-    CfiInstructionInInvalidContext,
-    /// When evaluating call frame instructions, found a `DW_CFA_restore_state`
-    /// stack pop instruction, but the stack was empty, and had nothing to pop.
-    PopWithEmptyStack,
-    /// Do not have unwind info for the given address.
-    NoUnwindInfoForAddress,
-    /// An offset value was larger than the maximum supported value.
-    UnsupportedOffset,
-    /// The given pointer encoding is either unknown or invalid.
-    UnknownPointerEncoding,
-    /// Did not find an entry at the given offset.
-    NoEntryAtGivenOffset,
-    /// The given offset is out of bounds.
-    OffsetOutOfBounds,
-    /// Found an unknown CFI augmentation.
-    UnknownAugmentation,
-    /// We do not support the given pointer encoding yet.
-    UnsupportedPointerEncoding,
-    /// Registers larger than `u16` are not supported.
-    UnsupportedRegister(u64),
-    /// The CFI program defined more register rules than we have storage for.
-    TooManyRegisterRules,
-    /// Attempted to push onto the CFI or evaluation stack, but it was already
-    /// at full capacity.
-    StackFull,
-    /// The `.eh_frame_hdr` binary search table claims to be variable-length encoded,
-    /// which makes binary search impossible.
-    VariableLengthSearchTable,
-    /// The `DW_UT_*` value for this unit is not supported yet.
-    UnsupportedUnitType,
-    /// Ranges using AddressIndex are not supported yet.
-    UnsupportedAddressIndex,
-    /// Nonzero segment selector sizes aren't supported yet.
-    UnsupportedSegmentSize,
-    /// A compilation unit or type unit is missing its top level DIE.
-    MissingUnitDie,
-    /// A DIE attribute used an unsupported form.
-    UnsupportedAttributeForm,
-    /// Missing DW_LNCT_path in file entry format.
-    MissingFileEntryFormatPath,
-    /// Expected an attribute value to be a string form.
-    ExpectedStringAttributeValue,
-    /// `DW_FORM_implicit_const` used in an invalid context.
-    InvalidImplicitConst,
-    /// Invalid section count in `.dwp` index.
-    InvalidIndexSectionCount,
-    /// Invalid slot count in `.dwp` index.
-    InvalidIndexSlotCount,
-    /// Invalid hash row in `.dwp` index.
-    InvalidIndexRow,
-    /// Unknown section type in `.dwp` index.
-    UnknownIndexSection,
-}
-
-impl fmt::Display for Error {
-    #[inline]
-    fn fmt(&self, f: &mut fmt::Formatter) -> ::core::result::Result<(), fmt::Error> {
-        write!(f, "{}", self.description())
-    }
-}
-
-impl Error {
-    /// A short description of the error.
-    pub fn description(&self) -> &str {
-        match *self {
-            Error::Io => "An I/O error occurred while reading.",
-            Error::PcRelativePointerButSectionBaseIsUndefined => {
-                "Found a PC relative pointer, but the section base is undefined."
-            }
-            Error::TextRelativePointerButTextBaseIsUndefined => {
-                "Found a `.text` relative pointer, but the `.text` base is undefined."
-            }
-            Error::DataRelativePointerButDataBaseIsUndefined => {
-                "Found a data relative pointer, but the data base is undefined."
-            }
-            Error::FuncRelativePointerInBadContext => {
-                "Found a function relative pointer in a context that does not have a function base."
-            }
-            Error::CannotParseOmitPointerEncoding => {
-                "Cannot parse a pointer with a `DW_EH_PE_omit` encoding."
-            }
-            Error::BadUnsignedLeb128 => "An error parsing an unsigned LEB128 value",
-            Error::BadSignedLeb128 => "An error parsing a signed LEB128 value",
-            Error::AbbreviationTagZero => {
-                "An abbreviation declared that its tag is zero,
-                 but zero is reserved for null records"
-            }
-            Error::AttributeFormZero => {
-                "An attribute specification declared that its form is zero,
-                 but zero is reserved for null records"
-            }
-            Error::BadHasChildren => {
-                "The abbreviation's has-children byte was not one of
-                 `DW_CHILDREN_{yes,no}`"
-            }
-            Error::BadLength => "The specified length is impossible",
-            Error::UnknownForm => "Found an unknown `DW_FORM_*` type",
-            Error::ExpectedZero => "Expected a zero, found something else",
-            Error::DuplicateAbbreviationCode => {
-                "Found an abbreviation code that has already been used"
-            }
-            Error::DuplicateArange => "Found a duplicate arange",
-            Error::UnknownReservedLength => "Found an unknown reserved length value",
-            Error::UnknownVersion(_) => "Found an unknown DWARF version",
-            Error::UnknownAbbreviation => "Found a record with an unknown abbreviation code",
-            Error::UnexpectedEof(_) => "Hit the end of input before it was expected",
-            Error::UnexpectedNull => "Read a null entry before it was expected.",
-            Error::UnknownStandardOpcode(_) => "Found an unknown standard opcode",
-            Error::UnknownExtendedOpcode(_) => "Found an unknown extended opcode",
-            Error::UnsupportedAddressSize(_) => "The specified address size is not supported",
-            Error::UnsupportedOffsetSize(_) => "The specified offset size is not supported",
-            Error::UnsupportedFieldSize(_) => "The specified field size is not supported",
-            Error::MinimumInstructionLengthZero => {
-                "The minimum instruction length must not be zero."
-            }
-            Error::MaximumOperationsPerInstructionZero => {
-                "The maximum operations per instruction must not be zero."
-            }
-            Error::LineRangeZero => "The line range must not be zero.",
-            Error::OpcodeBaseZero => "The opcode base must not be zero.",
-            Error::BadUtf8 => "Found an invalid UTF-8 string.",
-            Error::NotCieId => "Expected to find the CIE ID, but found something else.",
-            Error::NotCiePointer => "Expected to find a CIE pointer, but found the CIE ID instead.",
-            Error::NotFdePointer => {
-                "Expected to find an FDE pointer, but found a CIE pointer instead."
-            }
-            Error::BadBranchTarget(_) => "Invalid branch target in DWARF expression",
-            Error::InvalidPushObjectAddress => {
-                "DW_OP_push_object_address used but no object address given"
-            }
-            Error::NotEnoughStackItems => "Not enough items on stack when evaluating expression",
-            Error::TooManyIterations => "Too many iterations to evaluate DWARF expression",
-            Error::InvalidExpression(_) => "Invalid opcode in DWARF expression",
-            Error::UnsupportedEvaluation => "Unsupported operation when evaluating expression",
-            Error::InvalidPiece => {
-                "DWARF expression has piece followed by non-piece expression at end"
-            }
-            Error::InvalidExpressionTerminator(_) => "Expected DW_OP_piece or DW_OP_bit_piece",
-            Error::DivisionByZero => "Division or modulus by zero when evaluating expression",
-            Error::TypeMismatch => "Type mismatch when evaluating expression",
-            Error::IntegralTypeRequired => "Integral type expected when evaluating expression",
-            Error::UnsupportedTypeOperation => {
-                "An expression operation used types that are not supported"
-            }
-            Error::InvalidShiftExpression => {
-                "The shift value in an expression must be a non-negative integer."
-            }
-            Error::UnknownCallFrameInstruction(_) => "An unknown DW_CFA_* instructiion",
-            Error::InvalidAddressRange => {
-                "The end of an address range must not be before the beginning."
-            }
-            Error::InvalidLocationAddressRange => {
-                "The end offset of a location list entry must not be before the beginning."
-            }
-            Error::CfiInstructionInInvalidContext => {
-                "Encountered a call frame instruction in a context in which it is not valid."
-            }
-            Error::PopWithEmptyStack => {
-                "When evaluating call frame instructions, found a `DW_CFA_restore_state` stack pop \
-                 instruction, but the stack was empty, and had nothing to pop."
-            }
-            Error::NoUnwindInfoForAddress => "Do not have unwind info for the given address.",
-            Error::UnsupportedOffset => {
-                "An offset value was larger than the maximum supported value."
-            }
-            Error::UnknownPointerEncoding => {
-                "The given pointer encoding is either unknown or invalid."
-            }
-            Error::NoEntryAtGivenOffset => "Did not find an entry at the given offset.",
-            Error::OffsetOutOfBounds => "The given offset is out of bounds.",
-            Error::UnknownAugmentation => "Found an unknown CFI augmentation.",
-            Error::UnsupportedPointerEncoding => {
-                "We do not support the given pointer encoding yet."
-            }
-            Error::UnsupportedRegister(_) => "Registers larger than `u16` are not supported.",
-            Error::TooManyRegisterRules => {
-                "The CFI program defined more register rules than we have storage for."
-            }
-            Error::StackFull => {
-                "Attempted to push onto the CFI stack, but it was already at full capacity."
-            }
-            Error::VariableLengthSearchTable => {
-                "The `.eh_frame_hdr` binary search table claims to be variable-length encoded, \
-                 which makes binary search impossible."
-            }
-            Error::UnsupportedUnitType => "The `DW_UT_*` value for this unit is not supported yet",
-            Error::UnsupportedAddressIndex => "Ranges involving AddressIndex are not supported yet",
-            Error::UnsupportedSegmentSize => "Nonzero segment size not supported yet",
-            Error::MissingUnitDie => {
-                "A compilation unit or type unit is missing its top level DIE."
-            }
-            Error::UnsupportedAttributeForm => "A DIE attribute used an unsupported form.",
-            Error::MissingFileEntryFormatPath => "Missing DW_LNCT_path in file entry format.",
-            Error::ExpectedStringAttributeValue => {
-                "Expected an attribute value to be a string form."
-            }
-            Error::InvalidImplicitConst => "DW_FORM_implicit_const used in an invalid context.",
-            Error::InvalidIndexSectionCount => "Invalid section count in `.dwp` index.",
-            Error::InvalidIndexSlotCount => "Invalid slot count in `.dwp` index.",
-            Error::InvalidIndexRow => "Invalid hash row in `.dwp` index.",
-            Error::UnknownIndexSection => "Unknown section type in `.dwp` index.",
-        }
-    }
-}
-
-#[cfg(feature = "std")]
-impl error::Error for Error {}
-
-#[cfg(feature = "std")]
-impl From<io::Error> for Error {
-    fn from(_: io::Error) -> Self {
-        Error::Io
-    }
-}
-
-/// The result of a parse.
-pub type Result<T> = result::Result<T, Error>;
-
-/// A convenience trait for loading DWARF sections from object files.  To be
-/// used like:
-///
-/// ```
-/// use gimli::{DebugInfo, EndianSlice, LittleEndian, Reader, Section};
-///
-/// let buf = [0x00, 0x01, 0x02, 0x03];
-/// let reader = EndianSlice::new(&buf, LittleEndian);
-/// let loader = |name| -> Result<_, ()> { Ok(reader) };
-///
-/// let debug_info: DebugInfo<_> = Section::load(loader).unwrap();
-/// ```
-pub trait Section<R>: From<R> {
-    /// Returns the section id for this type.
-    fn id() -> SectionId;
-
-    /// Returns the ELF section name for this type.
-    fn section_name() -> &'static str {
-        Self::id().name()
-    }
-
-    /// Returns the ELF section name (if any) for this type when used in a dwo
-    /// file.
-    fn dwo_section_name() -> Option<&'static str> {
-        Self::id().dwo_name()
-    }
-
-    /// Returns the XCOFF section name (if any) for this type when used in a XCOFF
-    /// file.
-    fn xcoff_section_name() -> Option<&'static str> {
-        Self::id().xcoff_name()
-    }
-
-    /// Try to load the section using the given loader function.
-    fn load<F, E>(f: F) -> core::result::Result<Self, E>
-    where
-        F: FnOnce(SectionId) -> core::result::Result<R, E>,
-    {
-        f(Self::id()).map(From::from)
-    }
-
-    /// Returns the `Reader` for this section.
-    fn reader(&self) -> &R
-    where
-        R: Reader;
-
-    /// Returns the subrange of the section that is the contribution of
-    /// a unit in a `.dwp` file.
-    fn dwp_range(&self, offset: u32, size: u32) -> Result<Self>
-    where
-        R: Reader,
-    {
-        let mut data = self.reader().clone();
-        data.skip(R::Offset::from_u32(offset))?;
-        data.truncate(R::Offset::from_u32(size))?;
-        Ok(data.into())
-    }
-
-    /// Returns the `Reader` for this section.
-    fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<(SectionId, R::Offset)>
-    where
-        R: Reader,
-    {
-        self.reader()
-            .lookup_offset_id(id)
-            .map(|offset| (Self::id(), offset))
-    }
-}
-
-impl Register {
-    pub(crate) fn from_u64(x: u64) -> Result<Register> {
-        let y = x as u16;
-        if u64::from(y) == x {
-            Ok(Register(y))
-        } else {
-            Err(Error::UnsupportedRegister(x))
-        }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::common::Format;
-    use crate::endianity::LittleEndian;
-    use test_assembler::{Endian, Section};
-
-    #[test]
-    fn test_parse_initial_length_32_ok() {
-        let section = Section::with_endian(Endian::Little).L32(0x7856_3412);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_initial_length() {
-            Ok((length, format)) => {
-                assert_eq!(input.len(), 0);
-                assert_eq!(format, Format::Dwarf32);
-                assert_eq!(0x7856_3412, length);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_parse_initial_length_64_ok() {
-        let section = Section::with_endian(Endian::Little)
-            // Dwarf_64_INITIAL_UNIT_LENGTH
-            .L32(0xffff_ffff)
-            // Actual length
-            .L64(0xffde_bc9a_7856_3412);
-        let buf = section.get_contents().unwrap();
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-
-        #[cfg(target_pointer_width = "64")]
-        match input.read_initial_length() {
-            Ok((length, format)) => {
-                assert_eq!(input.len(), 0);
-                assert_eq!(format, Format::Dwarf64);
-                assert_eq!(0xffde_bc9a_7856_3412, length);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-
-        #[cfg(target_pointer_width = "32")]
-        match input.read_initial_length() {
-            Err(Error::UnsupportedOffset) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_initial_length_unknown_reserved_value() {
-        let section = Section::with_endian(Endian::Little).L32(0xffff_fffe);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_initial_length() {
-            Err(Error::UnknownReservedLength) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_initial_length_incomplete() {
-        let buf = [0xff, 0xff, 0xff]; // Need at least 4 bytes.
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_initial_length() {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_initial_length_64_incomplete() {
-        let section = Section::with_endian(Endian::Little)
-            // Dwarf_64_INITIAL_UNIT_LENGTH
-            .L32(0xffff_ffff)
-            // Actual length is not long enough.
-            .L32(0x7856_3412);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_initial_length() {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_offset_32() {
-        let section = Section::with_endian(Endian::Little).L32(0x0123_4567);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_offset(Format::Dwarf32) {
-            Ok(val) => {
-                assert_eq!(input.len(), 0);
-                assert_eq!(val, 0x0123_4567);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_offset_64_small() {
-        let section = Section::with_endian(Endian::Little).L64(0x0123_4567);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_offset(Format::Dwarf64) {
-            Ok(val) => {
-                assert_eq!(input.len(), 0);
-                assert_eq!(val, 0x0123_4567);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_offset_64_large() {
-        let section = Section::with_endian(Endian::Little).L64(0x0123_4567_89ab_cdef);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_offset(Format::Dwarf64) {
-            Ok(val) => {
-                assert_eq!(input.len(), 0);
-                assert_eq!(val, 0x0123_4567_89ab_cdef);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "32")]
-    fn test_parse_offset_64_large() {
-        let section = Section::with_endian(Endian::Little).L64(0x0123_4567_89ab_cdef);
-        let buf = section.get_contents().unwrap();
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        match input.read_offset(Format::Dwarf64) {
-            Err(Error::UnsupportedOffset) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/op.rs b/vendor/gimli-0.27.3/src/read/op.rs
deleted file mode 100644
index 0b6a71b48..000000000
--- a/vendor/gimli-0.27.3/src/read/op.rs
+++ /dev/null
@@ -1,4119 +0,0 @@
-//! Functions for parsing and evaluating DWARF expressions.
-
-#[cfg(feature = "read")]
-use alloc::vec::Vec;
-use core::mem;
-
-use super::util::{ArrayLike, ArrayVec};
-use crate::common::{DebugAddrIndex, DebugInfoOffset, Encoding, Register};
-use crate::constants;
-use crate::read::{Error, Reader, ReaderOffset, Result, StoreOnHeap, UnitOffset, Value, ValueType};
-
-/// A reference to a DIE, either relative to the current CU or
-/// relative to the section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum DieReference<T = usize> {
-    /// A CU-relative reference.
-    UnitRef(UnitOffset<T>),
-    /// A section-relative reference.
-    DebugInfoRef(DebugInfoOffset<T>),
-}
-
-/// A single decoded DWARF expression operation.
-///
-/// DWARF expression evaluation is done in two parts: first the raw
-/// bytes of the next part of the expression are decoded; and then the
-/// decoded operation is evaluated.  This approach lets other
-/// consumers inspect the DWARF expression without reimplementing the
-/// decoding operation.
-///
-/// Multiple DWARF opcodes may decode into a single `Operation`.  For
-/// example, both `DW_OP_deref` and `DW_OP_xderef` are represented
-/// using `Operation::Deref`.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum Operation<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Dereference the topmost value of the stack.
-    Deref {
-        /// The DIE of the base type or 0 to indicate the generic type
-        base_type: UnitOffset<Offset>,
-        /// The size of the data to dereference.
-        size: u8,
-        /// True if the dereference operation takes an address space
-        /// argument from the stack; false otherwise.
-        space: bool,
-    },
-    /// Drop an item from the stack.
-    Drop,
-    /// Pick an item from the stack and push it on top of the stack.
-    /// This operation handles `DW_OP_pick`, `DW_OP_dup`, and
-    /// `DW_OP_over`.
-    Pick {
-        /// The index, from the top of the stack, of the item to copy.
-        index: u8,
-    },
-    /// Swap the top two stack items.
-    Swap,
-    /// Rotate the top three stack items.
-    Rot,
-    /// Take the absolute value of the top of the stack.
-    Abs,
-    /// Bitwise `and` of the top two values on the stack.
-    And,
-    /// Divide the top two values on the stack.
-    Div,
-    /// Subtract the top two values on the stack.
-    Minus,
-    /// Modulus of the top two values on the stack.
-    Mod,
-    /// Multiply the top two values on the stack.
-    Mul,
-    /// Negate the top of the stack.
-    Neg,
-    /// Bitwise `not` of the top of the stack.
-    Not,
-    /// Bitwise `or` of the top two values on the stack.
-    Or,
-    /// Add the top two values on the stack.
-    Plus,
-    /// Add a constant to the topmost value on the stack.
-    PlusConstant {
-        /// The value to add.
-        value: u64,
-    },
-    /// Logical left shift of the 2nd value on the stack by the number
-    /// of bits given by the topmost value on the stack.
-    Shl,
-    /// Right shift of the 2nd value on the stack by the number of
-    /// bits given by the topmost value on the stack.
-    Shr,
-    /// Arithmetic left shift of the 2nd value on the stack by the
-    /// number of bits given by the topmost value on the stack.
-    Shra,
-    /// Bitwise `xor` of the top two values on the stack.
-    Xor,
-    /// Branch to the target location if the top of stack is nonzero.
-    Bra {
-        /// The relative offset to the target bytecode.
-        target: i16,
-    },
-    /// Compare the top two stack values for equality.
-    Eq,
-    /// Compare the top two stack values using `>=`.
-    Ge,
-    /// Compare the top two stack values using `>`.
-    Gt,
-    /// Compare the top two stack values using `<=`.
-    Le,
-    /// Compare the top two stack values using `<`.
-    Lt,
-    /// Compare the top two stack values using `!=`.
-    Ne,
-    /// Unconditional branch to the target location.
-    Skip {
-        /// The relative offset to the target bytecode.
-        target: i16,
-    },
-    /// Push an unsigned constant value on the stack.  This handles multiple
-    /// DWARF opcodes.
-    UnsignedConstant {
-        /// The value to push.
-        value: u64,
-    },
-    /// Push a signed constant value on the stack.  This handles multiple
-    /// DWARF opcodes.
-    SignedConstant {
-        /// The value to push.
-        value: i64,
-    },
-    /// Indicate that this piece's location is in the given register.
-    ///
-    /// Completes the piece or expression.
-    Register {
-        /// The register number.
-        register: Register,
-    },
-    /// Find the value of the given register, add the offset, and then
-    /// push the resulting sum on the stack.
-    RegisterOffset {
-        /// The register number.
-        register: Register,
-        /// The offset to add.
-        offset: i64,
-        /// The DIE of the base type or 0 to indicate the generic type
-        base_type: UnitOffset<Offset>,
-    },
-    /// Compute the frame base (using `DW_AT_frame_base`), add the
-    /// given offset, and then push the resulting sum on the stack.
-    FrameOffset {
-        /// The offset to add.
-        offset: i64,
-    },
-    /// No operation.
-    Nop,
-    /// Push the object address on the stack.
-    PushObjectAddress,
-    /// Evaluate a DWARF expression as a subroutine.  The expression
-    /// comes from the `DW_AT_location` attribute of the indicated
-    /// DIE.
-    Call {
-        /// The DIE to use.
-        offset: DieReference<Offset>,
-    },
-    /// Compute the address of a thread-local variable and push it on
-    /// the stack.
-    TLS,
-    /// Compute the call frame CFA and push it on the stack.
-    CallFrameCFA,
-    /// Terminate a piece.
-    Piece {
-        /// The size of this piece in bits.
-        size_in_bits: u64,
-        /// The bit offset of this piece.  If `None`, then this piece
-        /// was specified using `DW_OP_piece` and should start at the
-        /// next byte boundary.
-        bit_offset: Option<u64>,
-    },
-    /// The object has no location, but has a known constant value.
-    ///
-    /// Represents `DW_OP_implicit_value`.
-    /// Completes the piece or expression.
-    ImplicitValue {
-        /// The implicit value to use.
-        data: R,
-    },
-    /// The object has no location, but its value is at the top of the stack.
-    ///
-    /// Represents `DW_OP_stack_value`.
-    /// Completes the piece or expression.
-    StackValue,
-    /// The object is a pointer to a value which has no actual location,
-    /// such as an implicit value or a stack value.
-    ///
-    /// Represents `DW_OP_implicit_pointer`.
-    /// Completes the piece or expression.
-    ImplicitPointer {
-        /// The `.debug_info` offset of the value that this is an implicit pointer into.
-        value: DebugInfoOffset<Offset>,
-        /// The byte offset into the value that the implicit pointer points to.
-        byte_offset: i64,
-    },
-    /// Evaluate an expression at the entry to the current subprogram, and push it on the stack.
-    ///
-    /// Represents `DW_OP_entry_value`.
-    EntryValue {
-        /// The expression to be evaluated.
-        expression: R,
-    },
-    /// This represents a parameter that was optimized out.
-    ///
-    /// The offset points to the definition of the parameter, and is
-    /// matched to the `DW_TAG_GNU_call_site_parameter` in the caller that also
-    /// points to the same definition of the parameter.
-    ///
-    /// Represents `DW_OP_GNU_parameter_ref`.
-    ParameterRef {
-        /// The DIE to use.
-        offset: UnitOffset<Offset>,
-    },
-    /// Relocate the address if needed, and push it on the stack.
-    ///
-    /// Represents `DW_OP_addr`.
-    Address {
-        /// The offset to add.
-        address: u64,
-    },
-    /// Read the address at the given index in `.debug_addr, relocate the address if needed,
-    /// and push it on the stack.
-    ///
-    /// Represents `DW_OP_addrx`.
-    AddressIndex {
-        /// The index of the address in `.debug_addr`.
-        index: DebugAddrIndex<Offset>,
-    },
-    /// Read the address at the given index in `.debug_addr, and push it on the stack.
-    /// Do not relocate the address.
-    ///
-    /// Represents `DW_OP_constx`.
-    ConstantIndex {
-        /// The index of the address in `.debug_addr`.
-        index: DebugAddrIndex<Offset>,
-    },
-    /// Interpret the value bytes as a constant of a given type, and push it on the stack.
-    ///
-    /// Represents `DW_OP_const_type`.
-    TypedLiteral {
-        /// The DIE of the base type.
-        base_type: UnitOffset<Offset>,
-        /// The value bytes.
-        value: R,
-    },
-    /// Pop the top stack entry, convert it to a different type, and push it on the stack.
-    ///
-    /// Represents `DW_OP_convert`.
-    Convert {
-        /// The DIE of the base type.
-        base_type: UnitOffset<Offset>,
-    },
-    /// Pop the top stack entry, reinterpret the bits in its value as a different type,
-    /// and push it on the stack.
-    ///
-    /// Represents `DW_OP_reinterpret`.
-    Reinterpret {
-        /// The DIE of the base type.
-        base_type: UnitOffset<Offset>,
-    },
-    /// The index of a local in the currently executing function.
-    ///
-    /// Represents `DW_OP_WASM_location 0x00`.
-    /// Completes the piece or expression.
-    WasmLocal {
-        /// The index of the local.
-        index: u32,
-    },
-    /// The index of a global.
-    ///
-    /// Represents `DW_OP_WASM_location 0x01` or `DW_OP_WASM_location 0x03`.
-    /// Completes the piece or expression.
-    WasmGlobal {
-        /// The index of the global.
-        index: u32,
-    },
-    /// The index of an item on the operand stack.
-    ///
-    /// Represents `DW_OP_WASM_location 0x02`.
-    /// Completes the piece or expression.
-    WasmStack {
-        /// The index of the stack item. 0 is the bottom of the operand stack.
-        index: u32,
-    },
-}
-
-#[derive(Debug)]
-enum OperationEvaluationResult<R: Reader> {
-    Piece,
-    Incomplete,
-    Complete { location: Location<R> },
-    Waiting(EvaluationWaiting<R>, EvaluationResult<R>),
-}
-
-/// A single location of a piece of the result of a DWARF expression.
-#[derive(Debug, Clone, Copy, PartialEq)]
-pub enum Location<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// The piece is empty.  Ordinarily this means the piece has been
-    /// optimized away.
-    Empty,
-    /// The piece is found in a register.
-    Register {
-        /// The register number.
-        register: Register,
-    },
-    /// The piece is found in memory.
-    Address {
-        /// The address.
-        address: u64,
-    },
-    /// The piece has no location but its value is known.
-    Value {
-        /// The value.
-        value: Value,
-    },
-    /// The piece is represented by some constant bytes.
-    Bytes {
-        /// The value.
-        value: R,
-    },
-    /// The piece is a pointer to a value which has no actual location.
-    ImplicitPointer {
-        /// The `.debug_info` offset of the value that this is an implicit pointer into.
-        value: DebugInfoOffset<Offset>,
-        /// The byte offset into the value that the implicit pointer points to.
-        byte_offset: i64,
-    },
-}
-
-impl<R, Offset> Location<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Return true if the piece is empty.
-    pub fn is_empty(&self) -> bool {
-        matches!(*self, Location::Empty)
-    }
-}
-
-/// The description of a single piece of the result of a DWARF
-/// expression.
-#[derive(Debug, Clone, Copy, PartialEq)]
-pub struct Piece<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// If given, the size of the piece in bits.  If `None`, there
-    /// must be only one piece whose size is all of the object.
-    pub size_in_bits: Option<u64>,
-    /// If given, the bit offset of the piece within the location.
-    /// If the location is a `Location::Register` or `Location::Value`,
-    /// then this offset is from the least significant bit end of
-    /// the register or value.
-    /// If the location is a `Location::Address` then the offset uses
-    /// the bit numbering and direction conventions of the language
-    /// and target system.
-    ///
-    /// If `None`, the piece starts at the location. If the
-    /// location is a register whose size is larger than the piece,
-    /// then placement within the register is defined by the ABI.
-    pub bit_offset: Option<u64>,
-    /// Where this piece is to be found.
-    pub location: Location<R, Offset>,
-}
-
-// A helper function to handle branch offsets.
-fn compute_pc<R: Reader>(pc: &R, bytecode: &R, offset: i16) -> Result<R> {
-    let pc_offset = pc.offset_from(bytecode);
-    let new_pc_offset = pc_offset.wrapping_add(R::Offset::from_i16(offset));
-    if new_pc_offset > bytecode.len() {
-        Err(Error::BadBranchTarget(new_pc_offset.into_u64()))
-    } else {
-        let mut new_pc = bytecode.clone();
-        new_pc.skip(new_pc_offset)?;
-        Ok(new_pc)
-    }
-}
-
-fn generic_type<O: ReaderOffset>() -> UnitOffset<O> {
-    UnitOffset(O::from_u64(0).unwrap())
-}
-
-impl<R, Offset> Operation<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Parse a single DWARF expression operation.
-    ///
-    /// This is useful when examining a DWARF expression for reasons other
-    /// than direct evaluation.
-    ///
-    /// `bytes` points to a the operation to decode.  It should point into
-    /// the same array as `bytecode`, which should be the entire
-    /// expression.
-    pub fn parse(bytes: &mut R, encoding: Encoding) -> Result<Operation<R, Offset>> {
-        let opcode = bytes.read_u8()?;
-        let name = constants::DwOp(opcode);
-        match name {
-            constants::DW_OP_addr => {
-                let address = bytes.read_address(encoding.address_size)?;
-                Ok(Operation::Address { address })
-            }
-            constants::DW_OP_deref => Ok(Operation::Deref {
-                base_type: generic_type(),
-                size: encoding.address_size,
-                space: false,
-            }),
-            constants::DW_OP_const1u => {
-                let value = bytes.read_u8()?;
-                Ok(Operation::UnsignedConstant {
-                    value: u64::from(value),
-                })
-            }
-            constants::DW_OP_const1s => {
-                let value = bytes.read_i8()?;
-                Ok(Operation::SignedConstant {
-                    value: i64::from(value),
-                })
-            }
-            constants::DW_OP_const2u => {
-                let value = bytes.read_u16()?;
-                Ok(Operation::UnsignedConstant {
-                    value: u64::from(value),
-                })
-            }
-            constants::DW_OP_const2s => {
-                let value = bytes.read_i16()?;
-                Ok(Operation::SignedConstant {
-                    value: i64::from(value),
-                })
-            }
-            constants::DW_OP_const4u => {
-                let value = bytes.read_u32()?;
-                Ok(Operation::UnsignedConstant {
-                    value: u64::from(value),
-                })
-            }
-            constants::DW_OP_const4s => {
-                let value = bytes.read_i32()?;
-                Ok(Operation::SignedConstant {
-                    value: i64::from(value),
-                })
-            }
-            constants::DW_OP_const8u => {
-                let value = bytes.read_u64()?;
-                Ok(Operation::UnsignedConstant { value })
-            }
-            constants::DW_OP_const8s => {
-                let value = bytes.read_i64()?;
-                Ok(Operation::SignedConstant { value })
-            }
-            constants::DW_OP_constu => {
-                let value = bytes.read_uleb128()?;
-                Ok(Operation::UnsignedConstant { value })
-            }
-            constants::DW_OP_consts => {
-                let value = bytes.read_sleb128()?;
-                Ok(Operation::SignedConstant { value })
-            }
-            constants::DW_OP_dup => Ok(Operation::Pick { index: 0 }),
-            constants::DW_OP_drop => Ok(Operation::Drop),
-            constants::DW_OP_over => Ok(Operation::Pick { index: 1 }),
-            constants::DW_OP_pick => {
-                let value = bytes.read_u8()?;
-                Ok(Operation::Pick { index: value })
-            }
-            constants::DW_OP_swap => Ok(Operation::Swap),
-            constants::DW_OP_rot => Ok(Operation::Rot),
-            constants::DW_OP_xderef => Ok(Operation::Deref {
-                base_type: generic_type(),
-                size: encoding.address_size,
-                space: true,
-            }),
-            constants::DW_OP_abs => Ok(Operation::Abs),
-            constants::DW_OP_and => Ok(Operation::And),
-            constants::DW_OP_div => Ok(Operation::Div),
-            constants::DW_OP_minus => Ok(Operation::Minus),
-            constants::DW_OP_mod => Ok(Operation::Mod),
-            constants::DW_OP_mul => Ok(Operation::Mul),
-            constants::DW_OP_neg => Ok(Operation::Neg),
-            constants::DW_OP_not => Ok(Operation::Not),
-            constants::DW_OP_or => Ok(Operation::Or),
-            constants::DW_OP_plus => Ok(Operation::Plus),
-            constants::DW_OP_plus_uconst => {
-                let value = bytes.read_uleb128()?;
-                Ok(Operation::PlusConstant { value })
-            }
-            constants::DW_OP_shl => Ok(Operation::Shl),
-            constants::DW_OP_shr => Ok(Operation::Shr),
-            constants::DW_OP_shra => Ok(Operation::Shra),
-            constants::DW_OP_xor => Ok(Operation::Xor),
-            constants::DW_OP_bra => {
-                let target = bytes.read_i16()?;
-                Ok(Operation::Bra { target })
-            }
-            constants::DW_OP_eq => Ok(Operation::Eq),
-            constants::DW_OP_ge => Ok(Operation::Ge),
-            constants::DW_OP_gt => Ok(Operation::Gt),
-            constants::DW_OP_le => Ok(Operation::Le),
-            constants::DW_OP_lt => Ok(Operation::Lt),
-            constants::DW_OP_ne => Ok(Operation::Ne),
-            constants::DW_OP_skip => {
-                let target = bytes.read_i16()?;
-                Ok(Operation::Skip { target })
-            }
-            constants::DW_OP_lit0
-            | constants::DW_OP_lit1
-            | constants::DW_OP_lit2
-            | constants::DW_OP_lit3
-            | constants::DW_OP_lit4
-            | constants::DW_OP_lit5
-            | constants::DW_OP_lit6
-            | constants::DW_OP_lit7
-            | constants::DW_OP_lit8
-            | constants::DW_OP_lit9
-            | constants::DW_OP_lit10
-            | constants::DW_OP_lit11
-            | constants::DW_OP_lit12
-            | constants::DW_OP_lit13
-            | constants::DW_OP_lit14
-            | constants::DW_OP_lit15
-            | constants::DW_OP_lit16
-            | constants::DW_OP_lit17
-            | constants::DW_OP_lit18
-            | constants::DW_OP_lit19
-            | constants::DW_OP_lit20
-            | constants::DW_OP_lit21
-            | constants::DW_OP_lit22
-            | constants::DW_OP_lit23
-            | constants::DW_OP_lit24
-            | constants::DW_OP_lit25
-            | constants::DW_OP_lit26
-            | constants::DW_OP_lit27
-            | constants::DW_OP_lit28
-            | constants::DW_OP_lit29
-            | constants::DW_OP_lit30
-            | constants::DW_OP_lit31 => Ok(Operation::UnsignedConstant {
-                value: (opcode - constants::DW_OP_lit0.0).into(),
-            }),
-            constants::DW_OP_reg0
-            | constants::DW_OP_reg1
-            | constants::DW_OP_reg2
-            | constants::DW_OP_reg3
-            | constants::DW_OP_reg4
-            | constants::DW_OP_reg5
-            | constants::DW_OP_reg6
-            | constants::DW_OP_reg7
-            | constants::DW_OP_reg8
-            | constants::DW_OP_reg9
-            | constants::DW_OP_reg10
-            | constants::DW_OP_reg11
-            | constants::DW_OP_reg12
-            | constants::DW_OP_reg13
-            | constants::DW_OP_reg14
-            | constants::DW_OP_reg15
-            | constants::DW_OP_reg16
-            | constants::DW_OP_reg17
-            | constants::DW_OP_reg18
-            | constants::DW_OP_reg19
-            | constants::DW_OP_reg20
-            | constants::DW_OP_reg21
-            | constants::DW_OP_reg22
-            | constants::DW_OP_reg23
-            | constants::DW_OP_reg24
-            | constants::DW_OP_reg25
-            | constants::DW_OP_reg26
-            | constants::DW_OP_reg27
-            | constants::DW_OP_reg28
-            | constants::DW_OP_reg29
-            | constants::DW_OP_reg30
-            | constants::DW_OP_reg31 => Ok(Operation::Register {
-                register: Register((opcode - constants::DW_OP_reg0.0).into()),
-            }),
-            constants::DW_OP_breg0
-            | constants::DW_OP_breg1
-            | constants::DW_OP_breg2
-            | constants::DW_OP_breg3
-            | constants::DW_OP_breg4
-            | constants::DW_OP_breg5
-            | constants::DW_OP_breg6
-            | constants::DW_OP_breg7
-            | constants::DW_OP_breg8
-            | constants::DW_OP_breg9
-            | constants::DW_OP_breg10
-            | constants::DW_OP_breg11
-            | constants::DW_OP_breg12
-            | constants::DW_OP_breg13
-            | constants::DW_OP_breg14
-            | constants::DW_OP_breg15
-            | constants::DW_OP_breg16
-            | constants::DW_OP_breg17
-            | constants::DW_OP_breg18
-            | constants::DW_OP_breg19
-            | constants::DW_OP_breg20
-            | constants::DW_OP_breg21
-            | constants::DW_OP_breg22
-            | constants::DW_OP_breg23
-            | constants::DW_OP_breg24
-            | constants::DW_OP_breg25
-            | constants::DW_OP_breg26
-            | constants::DW_OP_breg27
-            | constants::DW_OP_breg28
-            | constants::DW_OP_breg29
-            | constants::DW_OP_breg30
-            | constants::DW_OP_breg31 => {
-                let value = bytes.read_sleb128()?;
-                Ok(Operation::RegisterOffset {
-                    register: Register((opcode - constants::DW_OP_breg0.0).into()),
-                    offset: value,
-                    base_type: generic_type(),
-                })
-            }
-            constants::DW_OP_regx => {
-                let register = bytes.read_uleb128().and_then(Register::from_u64)?;
-                Ok(Operation::Register { register })
-            }
-            constants::DW_OP_fbreg => {
-                let value = bytes.read_sleb128()?;
-                Ok(Operation::FrameOffset { offset: value })
-            }
-            constants::DW_OP_bregx => {
-                let register = bytes.read_uleb128().and_then(Register::from_u64)?;
-                let offset = bytes.read_sleb128()?;
-                Ok(Operation::RegisterOffset {
-                    register,
-                    offset,
-                    base_type: generic_type(),
-                })
-            }
-            constants::DW_OP_piece => {
-                let size = bytes.read_uleb128()?;
-                Ok(Operation::Piece {
-                    size_in_bits: 8 * size,
-                    bit_offset: None,
-                })
-            }
-            constants::DW_OP_deref_size => {
-                let size = bytes.read_u8()?;
-                Ok(Operation::Deref {
-                    base_type: generic_type(),
-                    size,
-                    space: false,
-                })
-            }
-            constants::DW_OP_xderef_size => {
-                let size = bytes.read_u8()?;
-                Ok(Operation::Deref {
-                    base_type: generic_type(),
-                    size,
-                    space: true,
-                })
-            }
-            constants::DW_OP_nop => Ok(Operation::Nop),
-            constants::DW_OP_push_object_address => Ok(Operation::PushObjectAddress),
-            constants::DW_OP_call2 => {
-                let value = bytes.read_u16().map(R::Offset::from_u16)?;
-                Ok(Operation::Call {
-                    offset: DieReference::UnitRef(UnitOffset(value)),
-                })
-            }
-            constants::DW_OP_call4 => {
-                let value = bytes.read_u32().map(R::Offset::from_u32)?;
-                Ok(Operation::Call {
-                    offset: DieReference::UnitRef(UnitOffset(value)),
-                })
-            }
-            constants::DW_OP_call_ref => {
-                let value = bytes.read_offset(encoding.format)?;
-                Ok(Operation::Call {
-                    offset: DieReference::DebugInfoRef(DebugInfoOffset(value)),
-                })
-            }
-            constants::DW_OP_form_tls_address | constants::DW_OP_GNU_push_tls_address => {
-                Ok(Operation::TLS)
-            }
-            constants::DW_OP_call_frame_cfa => Ok(Operation::CallFrameCFA),
-            constants::DW_OP_bit_piece => {
-                let size = bytes.read_uleb128()?;
-                let offset = bytes.read_uleb128()?;
-                Ok(Operation::Piece {
-                    size_in_bits: size,
-                    bit_offset: Some(offset),
-                })
-            }
-            constants::DW_OP_implicit_value => {
-                let len = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                let data = bytes.split(len)?;
-                Ok(Operation::ImplicitValue { data })
-            }
-            constants::DW_OP_stack_value => Ok(Operation::StackValue),
-            constants::DW_OP_implicit_pointer | constants::DW_OP_GNU_implicit_pointer => {
-                let value = if encoding.version == 2 {
-                    bytes
-                        .read_address(encoding.address_size)
-                        .and_then(Offset::from_u64)?
-                } else {
-                    bytes.read_offset(encoding.format)?
-                };
-                let byte_offset = bytes.read_sleb128()?;
-                Ok(Operation::ImplicitPointer {
-                    value: DebugInfoOffset(value),
-                    byte_offset,
-                })
-            }
-            constants::DW_OP_addrx | constants::DW_OP_GNU_addr_index => {
-                let index = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::AddressIndex {
-                    index: DebugAddrIndex(index),
-                })
-            }
-            constants::DW_OP_constx | constants::DW_OP_GNU_const_index => {
-                let index = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::ConstantIndex {
-                    index: DebugAddrIndex(index),
-                })
-            }
-            constants::DW_OP_entry_value | constants::DW_OP_GNU_entry_value => {
-                let len = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                let expression = bytes.split(len)?;
-                Ok(Operation::EntryValue { expression })
-            }
-            constants::DW_OP_GNU_parameter_ref => {
-                let value = bytes.read_u32().map(R::Offset::from_u32)?;
-                Ok(Operation::ParameterRef {
-                    offset: UnitOffset(value),
-                })
-            }
-            constants::DW_OP_const_type | constants::DW_OP_GNU_const_type => {
-                let base_type = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                let len = bytes.read_u8()?;
-                let value = bytes.split(R::Offset::from_u8(len))?;
-                Ok(Operation::TypedLiteral {
-                    base_type: UnitOffset(base_type),
-                    value,
-                })
-            }
-            constants::DW_OP_regval_type | constants::DW_OP_GNU_regval_type => {
-                let register = bytes.read_uleb128().and_then(Register::from_u64)?;
-                let base_type = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::RegisterOffset {
-                    register,
-                    offset: 0,
-                    base_type: UnitOffset(base_type),
-                })
-            }
-            constants::DW_OP_deref_type | constants::DW_OP_GNU_deref_type => {
-                let size = bytes.read_u8()?;
-                let base_type = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::Deref {
-                    base_type: UnitOffset(base_type),
-                    size,
-                    space: false,
-                })
-            }
-            constants::DW_OP_xderef_type => {
-                let size = bytes.read_u8()?;
-                let base_type = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::Deref {
-                    base_type: UnitOffset(base_type),
-                    size,
-                    space: true,
-                })
-            }
-            constants::DW_OP_convert | constants::DW_OP_GNU_convert => {
-                let base_type = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::Convert {
-                    base_type: UnitOffset(base_type),
-                })
-            }
-            constants::DW_OP_reinterpret | constants::DW_OP_GNU_reinterpret => {
-                let base_type = bytes.read_uleb128().and_then(R::Offset::from_u64)?;
-                Ok(Operation::Reinterpret {
-                    base_type: UnitOffset(base_type),
-                })
-            }
-            constants::DW_OP_WASM_location => match bytes.read_u8()? {
-                0x0 => {
-                    let index = bytes.read_uleb128_u32()?;
-                    Ok(Operation::WasmLocal { index })
-                }
-                0x1 => {
-                    let index = bytes.read_uleb128_u32()?;
-                    Ok(Operation::WasmGlobal { index })
-                }
-                0x2 => {
-                    let index = bytes.read_uleb128_u32()?;
-                    Ok(Operation::WasmStack { index })
-                }
-                0x3 => {
-                    let index = bytes.read_u32()?;
-                    Ok(Operation::WasmGlobal { index })
-                }
-                _ => Err(Error::InvalidExpression(name)),
-            },
-            _ => Err(Error::InvalidExpression(name)),
-        }
-    }
-}
-
-#[derive(Debug)]
-enum EvaluationState<R: Reader> {
-    Start(Option<u64>),
-    Ready,
-    Error(Error),
-    Complete,
-    Waiting(EvaluationWaiting<R>),
-}
-
-#[derive(Debug)]
-enum EvaluationWaiting<R: Reader> {
-    Memory,
-    Register { offset: i64 },
-    FrameBase { offset: i64 },
-    Tls,
-    Cfa,
-    AtLocation,
-    EntryValue,
-    ParameterRef,
-    RelocatedAddress,
-    IndexedAddress,
-    TypedLiteral { value: R },
-    Convert,
-    Reinterpret,
-}
-
-/// The state of an `Evaluation` after evaluating a DWARF expression.
-/// The evaluation is either `Complete`, or it requires more data
-/// to continue, as described by the variant.
-#[derive(Debug, PartialEq)]
-pub enum EvaluationResult<R: Reader> {
-    /// The `Evaluation` is complete, and `Evaluation::result()` can be called.
-    Complete,
-    /// The `Evaluation` needs a value from memory to proceed further.  Once the
-    /// caller determines what value to provide it should resume the `Evaluation`
-    /// by calling `Evaluation::resume_with_memory`.
-    RequiresMemory {
-        /// The address of the value required.
-        address: u64,
-        /// The size of the value required. This is guaranteed to be at most the
-        /// word size of the target architecture.
-        size: u8,
-        /// If not `None`, a target-specific address space value.
-        space: Option<u64>,
-        /// The DIE of the base type or 0 to indicate the generic type
-        base_type: UnitOffset<R::Offset>,
-    },
-    /// The `Evaluation` needs a value from a register to proceed further.  Once
-    /// the caller determines what value to provide it should resume the
-    /// `Evaluation` by calling `Evaluation::resume_with_register`.
-    RequiresRegister {
-        /// The register number.
-        register: Register,
-        /// The DIE of the base type or 0 to indicate the generic type
-        base_type: UnitOffset<R::Offset>,
-    },
-    /// The `Evaluation` needs the frame base address to proceed further.  Once
-    /// the caller determines what value to provide it should resume the
-    /// `Evaluation` by calling `Evaluation::resume_with_frame_base`.  The frame
-    /// base address is the address produced by the location description in the
-    /// `DW_AT_frame_base` attribute of the current function.
-    RequiresFrameBase,
-    /// The `Evaluation` needs a value from TLS to proceed further.  Once the
-    /// caller determines what value to provide it should resume the
-    /// `Evaluation` by calling `Evaluation::resume_with_tls`.
-    RequiresTls(u64),
-    /// The `Evaluation` needs the CFA to proceed further.  Once the caller
-    /// determines what value to provide it should resume the `Evaluation` by
-    /// calling `Evaluation::resume_with_call_frame_cfa`.
-    RequiresCallFrameCfa,
-    /// The `Evaluation` needs the DWARF expression at the given location to
-    /// proceed further.  Once the caller determines what value to provide it
-    /// should resume the `Evaluation` by calling
-    /// `Evaluation::resume_with_at_location`.
-    RequiresAtLocation(DieReference<R::Offset>),
-    /// The `Evaluation` needs the value produced by evaluating a DWARF
-    /// expression at the entry point of the current subprogram.  Once the
-    /// caller determines what value to provide it should resume the
-    /// `Evaluation` by calling `Evaluation::resume_with_entry_value`.
-    RequiresEntryValue(Expression<R>),
-    /// The `Evaluation` needs the value of the parameter at the given location
-    /// in the current function's caller.  Once the caller determines what value
-    /// to provide it should resume the `Evaluation` by calling
-    /// `Evaluation::resume_with_parameter_ref`.
-    RequiresParameterRef(UnitOffset<R::Offset>),
-    /// The `Evaluation` needs an address to be relocated to proceed further.
-    /// Once the caller determines what value to provide it should resume the
-    /// `Evaluation` by calling `Evaluation::resume_with_relocated_address`.
-    RequiresRelocatedAddress(u64),
-    /// The `Evaluation` needs an address from the `.debug_addr` section.
-    /// This address may also need to be relocated.
-    /// Once the caller determines what value to provide it should resume the
-    /// `Evaluation` by calling `Evaluation::resume_with_indexed_address`.
-    RequiresIndexedAddress {
-        /// The index of the address in the `.debug_addr` section,
-        /// relative to the `DW_AT_addr_base` of the compilation unit.
-        index: DebugAddrIndex<R::Offset>,
-        /// Whether the address also needs to be relocated.
-        relocate: bool,
-    },
-    /// The `Evaluation` needs the `ValueType` for the base type DIE at
-    /// the give unit offset.  Once the caller determines what value to provide it
-    /// should resume the `Evaluation` by calling
-    /// `Evaluation::resume_with_base_type`.
-    RequiresBaseType(UnitOffset<R::Offset>),
-}
-
-/// The bytecode for a DWARF expression or location description.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct Expression<R: Reader>(pub R);
-
-impl<R: Reader> Expression<R> {
-    /// Create an evaluation for this expression.
-    ///
-    /// The `encoding` is determined by the
-    /// [`CompilationUnitHeader`](struct.CompilationUnitHeader.html) or
-    /// [`TypeUnitHeader`](struct.TypeUnitHeader.html) that this expression
-    /// relates to.
-    ///
-    /// # Examples
-    /// ```rust,no_run
-    /// use gimli::Expression;
-    /// # let endian = gimli::LittleEndian;
-    /// # let debug_info = gimli::DebugInfo::from(gimli::EndianSlice::new(&[], endian));
-    /// # let unit = debug_info.units().next().unwrap().unwrap();
-    /// # let bytecode = gimli::EndianSlice::new(&[], endian);
-    /// let expression = gimli::Expression(bytecode);
-    /// let mut eval = expression.evaluation(unit.encoding());
-    /// let mut result = eval.evaluate().unwrap();
-    /// ```
-    #[cfg(feature = "read")]
-    #[inline]
-    pub fn evaluation(self, encoding: Encoding) -> Evaluation<R> {
-        Evaluation::new(self.0, encoding)
-    }
-
-    /// Return an iterator for the operations in the expression.
-    pub fn operations(self, encoding: Encoding) -> OperationIter<R> {
-        OperationIter {
-            input: self.0,
-            encoding,
-        }
-    }
-}
-
-/// An iterator for the operations in an expression.
-#[derive(Debug, Clone, Copy)]
-pub struct OperationIter<R: Reader> {
-    input: R,
-    encoding: Encoding,
-}
-
-impl<R: Reader> OperationIter<R> {
-    /// Read the next operation in an expression.
-    pub fn next(&mut self) -> Result<Option<Operation<R>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-        match Operation::parse(&mut self.input, self.encoding) {
-            Ok(op) => Ok(Some(op)),
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-
-    /// Return the current byte offset of the iterator.
-    pub fn offset_from(&self, expression: &Expression<R>) -> R::Offset {
-        self.input.offset_from(&expression.0)
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for OperationIter<R> {
-    type Item = Operation<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        OperationIter::next(self)
-    }
-}
-
-/// Specification of what storage should be used for [`Evaluation`].
-///
-#[cfg_attr(
-    feature = "read",
-    doc = "
-Normally you would only need to use [`StoreOnHeap`], which places the stacks and the results
-on the heap using [`Vec`]. This is the default storage type parameter for [`Evaluation`].
-"
-)]
-///
-/// If you need to avoid [`Evaluation`] from allocating memory, e.g. for signal safety,
-/// you can provide you own storage specification:
-/// ```rust,no_run
-/// # use gimli::*;
-/// # let bytecode = EndianSlice::new(&[], LittleEndian);
-/// # let encoding = unimplemented!();
-/// # let get_register_value = |_, _| Value::Generic(42);
-/// # let get_frame_base = || 0xdeadbeef;
-/// #
-/// struct StoreOnStack;
-///
-/// impl<R: Reader> EvaluationStorage<R> for StoreOnStack {
-///     type Stack = [Value; 64];
-///     type ExpressionStack = [(R, R); 4];
-///     type Result = [Piece<R>; 1];
-/// }
-///
-/// let mut eval = Evaluation::<_, StoreOnStack>::new_in(bytecode, encoding);
-/// let mut result = eval.evaluate().unwrap();
-/// while result != EvaluationResult::Complete {
-///   match result {
-///     EvaluationResult::RequiresRegister { register, base_type } => {
-///       let value = get_register_value(register, base_type);
-///       result = eval.resume_with_register(value).unwrap();
-///     },
-///     EvaluationResult::RequiresFrameBase => {
-///       let frame_base = get_frame_base();
-///       result = eval.resume_with_frame_base(frame_base).unwrap();
-///     },
-///     _ => unimplemented!(),
-///   };
-/// }
-///
-/// let result = eval.as_result();
-/// println!("{:?}", result);
-/// ```
-pub trait EvaluationStorage<R: Reader> {
-    /// The storage used for the evaluation stack.
-    type Stack: ArrayLike<Item = Value>;
-    /// The storage used for the expression stack.
-    type ExpressionStack: ArrayLike<Item = (R, R)>;
-    /// The storage used for the results.
-    type Result: ArrayLike<Item = Piece<R>>;
-}
-
-#[cfg(feature = "read")]
-impl<R: Reader> EvaluationStorage<R> for StoreOnHeap {
-    type Stack = Vec<Value>;
-    type ExpressionStack = Vec<(R, R)>;
-    type Result = Vec<Piece<R>>;
-}
-
-/// A DWARF expression evaluator.
-///
-/// # Usage
-/// A DWARF expression may require additional data to produce a final result,
-/// such as the value of a register or a memory location.  Once initial setup
-/// is complete (i.e. `set_initial_value()`, `set_object_address()`) the
-/// consumer calls the `evaluate()` method.  That returns an `EvaluationResult`,
-/// which is either `EvaluationResult::Complete` or a value indicating what
-/// data is needed to resume the `Evaluation`.  The consumer is responsible for
-/// producing that data and resuming the computation with the correct method,
-/// as documented for `EvaluationResult`.  Only once an `EvaluationResult::Complete`
-/// is returned can the consumer call `result()`.
-///
-/// This design allows the consumer of `Evaluation` to decide how and when to
-/// produce the required data and resume the computation.  The `Evaluation` can
-/// be driven synchronously (as shown below) or by some asynchronous mechanism
-/// such as futures.
-///
-/// # Examples
-/// ```rust,no_run
-/// use gimli::{EndianSlice, Evaluation, EvaluationResult, Format, LittleEndian, Value};
-/// # let bytecode = EndianSlice::new(&[], LittleEndian);
-/// # let encoding = unimplemented!();
-/// # let get_register_value = |_, _| Value::Generic(42);
-/// # let get_frame_base = || 0xdeadbeef;
-///
-/// let mut eval = Evaluation::new(bytecode, encoding);
-/// let mut result = eval.evaluate().unwrap();
-/// while result != EvaluationResult::Complete {
-///   match result {
-///     EvaluationResult::RequiresRegister { register, base_type } => {
-///       let value = get_register_value(register, base_type);
-///       result = eval.resume_with_register(value).unwrap();
-///     },
-///     EvaluationResult::RequiresFrameBase => {
-///       let frame_base = get_frame_base();
-///       result = eval.resume_with_frame_base(frame_base).unwrap();
-///     },
-///     _ => unimplemented!(),
-///   };
-/// }
-///
-/// let result = eval.result();
-/// println!("{:?}", result);
-/// ```
-#[derive(Debug)]
-pub struct Evaluation<R: Reader, S: EvaluationStorage<R> = StoreOnHeap> {
-    bytecode: R,
-    encoding: Encoding,
-    object_address: Option<u64>,
-    max_iterations: Option<u32>,
-    iteration: u32,
-    state: EvaluationState<R>,
-
-    // Stack operations are done on word-sized values.  We do all
-    // operations on 64-bit values, and then mask the results
-    // appropriately when popping.
-    addr_mask: u64,
-
-    // The stack.
-    stack: ArrayVec<S::Stack>,
-
-    // The next operation to decode and evaluate.
-    pc: R,
-
-    // If we see a DW_OP_call* operation, the previous PC and bytecode
-    // is stored here while evaluating the subroutine.
-    expression_stack: ArrayVec<S::ExpressionStack>,
-
-    result: ArrayVec<S::Result>,
-}
-
-#[cfg(feature = "read")]
-impl<R: Reader> Evaluation<R> {
-    /// Create a new DWARF expression evaluator.
-    ///
-    /// The new evaluator is created without an initial value, without
-    /// an object address, and without a maximum number of iterations.
-    pub fn new(bytecode: R, encoding: Encoding) -> Self {
-        Self::new_in(bytecode, encoding)
-    }
-
-    /// Get the result of this `Evaluation`.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` has not been driven to completion.
-    pub fn result(self) -> Vec<Piece<R>> {
-        match self.state {
-            EvaluationState::Complete => self.result.into_vec(),
-            _ => {
-                panic!("Called `Evaluation::result` on an `Evaluation` that has not been completed")
-            }
-        }
-    }
-}
-
-impl<R: Reader, S: EvaluationStorage<R>> Evaluation<R, S> {
-    /// Create a new DWARF expression evaluator.
-    ///
-    /// The new evaluator is created without an initial value, without
-    /// an object address, and without a maximum number of iterations.
-    pub fn new_in(bytecode: R, encoding: Encoding) -> Self {
-        let pc = bytecode.clone();
-        Evaluation {
-            bytecode,
-            encoding,
-            object_address: None,
-            max_iterations: None,
-            iteration: 0,
-            state: EvaluationState::Start(None),
-            addr_mask: if encoding.address_size == 8 {
-                !0u64
-            } else {
-                (1 << (8 * u64::from(encoding.address_size))) - 1
-            },
-            stack: Default::default(),
-            expression_stack: Default::default(),
-            pc,
-            result: Default::default(),
-        }
-    }
-
-    /// Set an initial value to be pushed on the DWARF expression
-    /// evaluator's stack.  This can be used in cases like
-    /// `DW_AT_vtable_elem_location`, which require a value on the
-    /// stack before evaluation commences.  If no initial value is
-    /// set, and the expression uses an opcode requiring the initial
-    /// value, then evaluation will fail with an error.
-    ///
-    /// # Panics
-    /// Panics if `set_initial_value()` has already been called, or if
-    /// `evaluate()` has already been called.
-    pub fn set_initial_value(&mut self, value: u64) {
-        match self.state {
-            EvaluationState::Start(None) => {
-                self.state = EvaluationState::Start(Some(value));
-            }
-            _ => panic!(
-                "`Evaluation::set_initial_value` was called twice, or after evaluation began."
-            ),
-        };
-    }
-
-    /// Set the enclosing object's address, as used by
-    /// `DW_OP_push_object_address`.  If no object address is set, and
-    /// the expression uses an opcode requiring the object address,
-    /// then evaluation will fail with an error.
-    pub fn set_object_address(&mut self, value: u64) {
-        self.object_address = Some(value);
-    }
-
-    /// Set the maximum number of iterations to be allowed by the
-    /// expression evaluator.
-    ///
-    /// An iteration corresponds approximately to the evaluation of a
-    /// single operation in an expression ("approximately" because the
-    /// implementation may allow two such operations in some cases).
-    /// The default is not to have a maximum; once set, it's not
-    /// possible to go back to this default state.  This value can be
-    /// set to avoid denial of service attacks by bad DWARF bytecode.
-    pub fn set_max_iterations(&mut self, value: u32) {
-        self.max_iterations = Some(value);
-    }
-
-    fn pop(&mut self) -> Result<Value> {
-        match self.stack.pop() {
-            Some(value) => Ok(value),
-            None => Err(Error::NotEnoughStackItems),
-        }
-    }
-
-    fn push(&mut self, value: Value) -> Result<()> {
-        self.stack.try_push(value).map_err(|_| Error::StackFull)
-    }
-
-    fn evaluate_one_operation(&mut self) -> Result<OperationEvaluationResult<R>> {
-        let operation = Operation::parse(&mut self.pc, self.encoding)?;
-
-        match operation {
-            Operation::Deref {
-                base_type,
-                size,
-                space,
-            } => {
-                let entry = self.pop()?;
-                let addr = entry.to_u64(self.addr_mask)?;
-                let addr_space = if space {
-                    let entry = self.pop()?;
-                    let value = entry.to_u64(self.addr_mask)?;
-                    Some(value)
-                } else {
-                    None
-                };
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::Memory,
-                    EvaluationResult::RequiresMemory {
-                        address: addr,
-                        size,
-                        space: addr_space,
-                        base_type,
-                    },
-                ));
-            }
-
-            Operation::Drop => {
-                self.pop()?;
-            }
-            Operation::Pick { index } => {
-                let len = self.stack.len();
-                let index = index as usize;
-                if index >= len {
-                    return Err(Error::NotEnoughStackItems);
-                }
-                let value = self.stack[len - index - 1];
-                self.push(value)?;
-            }
-            Operation::Swap => {
-                let top = self.pop()?;
-                let next = self.pop()?;
-                self.push(top)?;
-                self.push(next)?;
-            }
-            Operation::Rot => {
-                let one = self.pop()?;
-                let two = self.pop()?;
-                let three = self.pop()?;
-                self.push(one)?;
-                self.push(three)?;
-                self.push(two)?;
-            }
-
-            Operation::Abs => {
-                let value = self.pop()?;
-                let result = value.abs(self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::And => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.and(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Div => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.div(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Minus => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.sub(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Mod => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.rem(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Mul => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.mul(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Neg => {
-                let v = self.pop()?;
-                let result = v.neg(self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Not => {
-                let value = self.pop()?;
-                let result = value.not(self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Or => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.or(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Plus => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.add(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::PlusConstant { value } => {
-                let lhs = self.pop()?;
-                let rhs = Value::from_u64(lhs.value_type(), value)?;
-                let result = lhs.add(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Shl => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.shl(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Shr => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.shr(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Shra => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.shra(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Xor => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.xor(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-
-            Operation::Bra { target } => {
-                let entry = self.pop()?;
-                let v = entry.to_u64(self.addr_mask)?;
-                if v != 0 {
-                    self.pc = compute_pc(&self.pc, &self.bytecode, target)?;
-                }
-            }
-
-            Operation::Eq => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.eq(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Ge => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.ge(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Gt => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.gt(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Le => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.le(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Lt => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.lt(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-            Operation::Ne => {
-                let rhs = self.pop()?;
-                let lhs = self.pop()?;
-                let result = lhs.ne(rhs, self.addr_mask)?;
-                self.push(result)?;
-            }
-
-            Operation::Skip { target } => {
-                self.pc = compute_pc(&self.pc, &self.bytecode, target)?;
-            }
-
-            Operation::UnsignedConstant { value } => {
-                self.push(Value::Generic(value))?;
-            }
-
-            Operation::SignedConstant { value } => {
-                self.push(Value::Generic(value as u64))?;
-            }
-
-            Operation::RegisterOffset {
-                register,
-                offset,
-                base_type,
-            } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::Register { offset },
-                    EvaluationResult::RequiresRegister {
-                        register,
-                        base_type,
-                    },
-                ));
-            }
-
-            Operation::FrameOffset { offset } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::FrameBase { offset },
-                    EvaluationResult::RequiresFrameBase,
-                ));
-            }
-
-            Operation::Nop => {}
-
-            Operation::PushObjectAddress => {
-                if let Some(value) = self.object_address {
-                    self.push(Value::Generic(value))?;
-                } else {
-                    return Err(Error::InvalidPushObjectAddress);
-                }
-            }
-
-            Operation::Call { offset } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::AtLocation,
-                    EvaluationResult::RequiresAtLocation(offset),
-                ));
-            }
-
-            Operation::TLS => {
-                let entry = self.pop()?;
-                let index = entry.to_u64(self.addr_mask)?;
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::Tls,
-                    EvaluationResult::RequiresTls(index),
-                ));
-            }
-
-            Operation::CallFrameCFA => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::Cfa,
-                    EvaluationResult::RequiresCallFrameCfa,
-                ));
-            }
-
-            Operation::Register { register } => {
-                let location = Location::Register { register };
-                return Ok(OperationEvaluationResult::Complete { location });
-            }
-
-            Operation::ImplicitValue { ref data } => {
-                let location = Location::Bytes {
-                    value: data.clone(),
-                };
-                return Ok(OperationEvaluationResult::Complete { location });
-            }
-
-            Operation::StackValue => {
-                let value = self.pop()?;
-                let location = Location::Value { value };
-                return Ok(OperationEvaluationResult::Complete { location });
-            }
-
-            Operation::ImplicitPointer { value, byte_offset } => {
-                let location = Location::ImplicitPointer { value, byte_offset };
-                return Ok(OperationEvaluationResult::Complete { location });
-            }
-
-            Operation::EntryValue { ref expression } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::EntryValue,
-                    EvaluationResult::RequiresEntryValue(Expression(expression.clone())),
-                ));
-            }
-
-            Operation::ParameterRef { offset } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::ParameterRef,
-                    EvaluationResult::RequiresParameterRef(offset),
-                ));
-            }
-
-            Operation::Address { address } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::RelocatedAddress,
-                    EvaluationResult::RequiresRelocatedAddress(address),
-                ));
-            }
-
-            Operation::AddressIndex { index } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::IndexedAddress,
-                    EvaluationResult::RequiresIndexedAddress {
-                        index,
-                        relocate: true,
-                    },
-                ));
-            }
-
-            Operation::ConstantIndex { index } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::IndexedAddress,
-                    EvaluationResult::RequiresIndexedAddress {
-                        index,
-                        relocate: false,
-                    },
-                ));
-            }
-
-            Operation::Piece {
-                size_in_bits,
-                bit_offset,
-            } => {
-                let location = if self.stack.is_empty() {
-                    Location::Empty
-                } else {
-                    let entry = self.pop()?;
-                    let address = entry.to_u64(self.addr_mask)?;
-                    Location::Address { address }
-                };
-                self.result
-                    .try_push(Piece {
-                        size_in_bits: Some(size_in_bits),
-                        bit_offset,
-                        location,
-                    })
-                    .map_err(|_| Error::StackFull)?;
-                return Ok(OperationEvaluationResult::Piece);
-            }
-
-            Operation::TypedLiteral { base_type, value } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::TypedLiteral { value },
-                    EvaluationResult::RequiresBaseType(base_type),
-                ));
-            }
-            Operation::Convert { base_type } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::Convert,
-                    EvaluationResult::RequiresBaseType(base_type),
-                ));
-            }
-            Operation::Reinterpret { base_type } => {
-                return Ok(OperationEvaluationResult::Waiting(
-                    EvaluationWaiting::Reinterpret,
-                    EvaluationResult::RequiresBaseType(base_type),
-                ));
-            }
-            Operation::WasmLocal { .. }
-            | Operation::WasmGlobal { .. }
-            | Operation::WasmStack { .. } => {
-                return Err(Error::UnsupportedEvaluation);
-            }
-        }
-
-        Ok(OperationEvaluationResult::Incomplete)
-    }
-
-    /// Get the result of this `Evaluation`.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` has not been driven to completion.
-    pub fn as_result(&self) -> &[Piece<R>] {
-        match self.state {
-            EvaluationState::Complete => &self.result,
-            _ => {
-                panic!("Called `Evaluation::result` on an `Evaluation` that has not been completed")
-            }
-        }
-    }
-
-    /// Evaluate a DWARF expression.  This method should only ever be called
-    /// once.  If the returned `EvaluationResult` is not
-    /// `EvaluationResult::Complete`, the caller should provide the required
-    /// value and resume the evaluation by calling the appropriate resume_with
-    /// method on `Evaluation`.
-    pub fn evaluate(&mut self) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Start(initial_value) => {
-                if let Some(value) = initial_value {
-                    self.push(Value::Generic(value))?;
-                }
-                self.state = EvaluationState::Ready;
-            }
-            EvaluationState::Ready => {}
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Complete => return Ok(EvaluationResult::Complete),
-            EvaluationState::Waiting(_) => panic!(),
-        };
-
-        match self.evaluate_internal() {
-            Ok(r) => Ok(r),
-            Err(e) => {
-                self.state = EvaluationState::Error(e);
-                Err(e)
-            }
-        }
-    }
-
-    /// Resume the `Evaluation` with the provided memory `value`.  This will apply
-    /// the provided memory value to the evaluation and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresMemory`.
-    pub fn resume_with_memory(&mut self, value: Value) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::Memory) => {
-                self.push(value)?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_memory` without a preceding `EvaluationResult::RequiresMemory`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `register` value.  This will apply
-    /// the provided register value to the evaluation and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresRegister`.
-    pub fn resume_with_register(&mut self, value: Value) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::Register { offset }) => {
-                let offset = Value::from_u64(value.value_type(), offset as u64)?;
-                let value = value.add(offset, self.addr_mask)?;
-                self.push(value)?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_register` without a preceding `EvaluationResult::RequiresRegister`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `frame_base`.  This will
-    /// apply the provided frame base value to the evaluation and continue
-    /// evaluating opcodes until the evaluation is completed, reaches an error,
-    /// or needs more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresFrameBase`.
-    pub fn resume_with_frame_base(&mut self, frame_base: u64) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::FrameBase { offset }) => {
-                self.push(Value::Generic(frame_base.wrapping_add(offset as u64)))?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_frame_base` without a preceding `EvaluationResult::RequiresFrameBase`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `value`.  This will apply
-    /// the provided TLS value to the evaluation and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresTls`.
-    pub fn resume_with_tls(&mut self, value: u64) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::Tls) => {
-                self.push(Value::Generic(value))?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_tls` without a preceding `EvaluationResult::RequiresTls`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `cfa`.  This will
-    /// apply the provided CFA value to the evaluation and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresCallFrameCfa`.
-    pub fn resume_with_call_frame_cfa(&mut self, cfa: u64) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::Cfa) => {
-                self.push(Value::Generic(cfa))?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_call_frame_cfa` without a preceding `EvaluationResult::RequiresCallFrameCfa`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `bytes`.  This will
-    /// continue processing the evaluation with the new expression provided
-    /// until the evaluation is completed, reaches an error, or needs more
-    /// information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresAtLocation`.
-    pub fn resume_with_at_location(&mut self, mut bytes: R) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::AtLocation) => {
-                if !bytes.is_empty() {
-                    let mut pc = bytes.clone();
-                    mem::swap(&mut pc, &mut self.pc);
-                    mem::swap(&mut bytes, &mut self.bytecode);
-                    self.expression_stack.try_push((pc, bytes)).map_err(|_| Error::StackFull)?;
-                }
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_at_location` without a precedeing `EvaluationResult::RequiresAtLocation`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `entry_value`.  This will
-    /// apply the provided entry value to the evaluation and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresEntryValue`.
-    pub fn resume_with_entry_value(&mut self, entry_value: Value) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::EntryValue) => {
-                self.push(entry_value)?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_entry_value` without a preceding `EvaluationResult::RequiresEntryValue`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `parameter_value`.  This will
-    /// apply the provided parameter value to the evaluation and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresParameterRef`.
-    pub fn resume_with_parameter_ref(
-        &mut self,
-        parameter_value: u64,
-    ) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::ParameterRef) => {
-                self.push(Value::Generic(parameter_value))?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_parameter_ref` without a preceding `EvaluationResult::RequiresParameterRef`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided relocated `address`.  This will use the
-    /// provided relocated address for the operation that required it, and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with
-    /// `EvaluationResult::RequiresRelocatedAddress`.
-    pub fn resume_with_relocated_address(&mut self, address: u64) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::RelocatedAddress) => {
-                self.push(Value::Generic(address))?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_relocated_address` without a preceding `EvaluationResult::RequiresRelocatedAddress`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided indexed `address`.  This will use the
-    /// provided indexed address for the operation that required it, and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with
-    /// `EvaluationResult::RequiresIndexedAddress`.
-    pub fn resume_with_indexed_address(&mut self, address: u64) -> Result<EvaluationResult<R>> {
-        match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::IndexedAddress) => {
-                self.push(Value::Generic(address))?;
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_indexed_address` without a preceding `EvaluationResult::RequiresIndexedAddress`"
-            ),
-        };
-
-        self.evaluate_internal()
-    }
-
-    /// Resume the `Evaluation` with the provided `base_type`.  This will use the
-    /// provided base type for the operation that required it, and continue evaluating
-    /// opcodes until the evaluation is completed, reaches an error, or needs
-    /// more information again.
-    ///
-    /// # Panics
-    /// Panics if this `Evaluation` did not previously stop with `EvaluationResult::RequiresBaseType`.
-    pub fn resume_with_base_type(&mut self, base_type: ValueType) -> Result<EvaluationResult<R>> {
-        let value = match self.state {
-            EvaluationState::Error(err) => return Err(err),
-            EvaluationState::Waiting(EvaluationWaiting::TypedLiteral { ref value }) => {
-                Value::parse(base_type, value.clone())?
-            }
-            EvaluationState::Waiting(EvaluationWaiting::Convert) => {
-                let entry = self.pop()?;
-                entry.convert(base_type, self.addr_mask)?
-            }
-            EvaluationState::Waiting(EvaluationWaiting::Reinterpret) => {
-                let entry = self.pop()?;
-                entry.reinterpret(base_type, self.addr_mask)?
-            }
-            _ => panic!(
-                "Called `Evaluation::resume_with_base_type` without a preceding `EvaluationResult::RequiresBaseType`"
-            ),
-        };
-        self.push(value)?;
-        self.evaluate_internal()
-    }
-
-    fn end_of_expression(&mut self) -> bool {
-        while self.pc.is_empty() {
-            match self.expression_stack.pop() {
-                Some((newpc, newbytes)) => {
-                    self.pc = newpc;
-                    self.bytecode = newbytes;
-                }
-                None => return true,
-            }
-        }
-        false
-    }
-
-    fn evaluate_internal(&mut self) -> Result<EvaluationResult<R>> {
-        while !self.end_of_expression() {
-            self.iteration += 1;
-            if let Some(max_iterations) = self.max_iterations {
-                if self.iteration > max_iterations {
-                    return Err(Error::TooManyIterations);
-                }
-            }
-
-            let op_result = self.evaluate_one_operation()?;
-            match op_result {
-                OperationEvaluationResult::Piece => {}
-                OperationEvaluationResult::Incomplete => {
-                    if self.end_of_expression() && !self.result.is_empty() {
-                        // We saw a piece earlier and then some
-                        // unterminated piece.  It's not clear this is
-                        // well-defined.
-                        return Err(Error::InvalidPiece);
-                    }
-                }
-                OperationEvaluationResult::Complete { location } => {
-                    if self.end_of_expression() {
-                        if !self.result.is_empty() {
-                            // We saw a piece earlier and then some
-                            // unterminated piece.  It's not clear this is
-                            // well-defined.
-                            return Err(Error::InvalidPiece);
-                        }
-                        self.result
-                            .try_push(Piece {
-                                size_in_bits: None,
-                                bit_offset: None,
-                                location,
-                            })
-                            .map_err(|_| Error::StackFull)?;
-                    } else {
-                        // If there are more operations, then the next operation must
-                        // be a Piece.
-                        match Operation::parse(&mut self.pc, self.encoding)? {
-                            Operation::Piece {
-                                size_in_bits,
-                                bit_offset,
-                            } => {
-                                self.result
-                                    .try_push(Piece {
-                                        size_in_bits: Some(size_in_bits),
-                                        bit_offset,
-                                        location,
-                                    })
-                                    .map_err(|_| Error::StackFull)?;
-                            }
-                            _ => {
-                                let value =
-                                    self.bytecode.len().into_u64() - self.pc.len().into_u64() - 1;
-                                return Err(Error::InvalidExpressionTerminator(value));
-                            }
-                        }
-                    }
-                }
-                OperationEvaluationResult::Waiting(waiting, result) => {
-                    self.state = EvaluationState::Waiting(waiting);
-                    return Ok(result);
-                }
-            };
-        }
-
-        // If no pieces have been seen, use the stack top as the
-        // result.
-        if self.result.is_empty() {
-            let entry = self.pop()?;
-            let addr = entry.to_u64(self.addr_mask)?;
-            self.result
-                .try_push(Piece {
-                    size_in_bits: None,
-                    bit_offset: None,
-                    location: Location::Address { address: addr },
-                })
-                .map_err(|_| Error::StackFull)?;
-        }
-
-        self.state = EvaluationState::Complete;
-        Ok(EvaluationResult::Complete)
-    }
-}
-
-#[cfg(test)]
-// Tests require leb128::write.
-#[cfg(feature = "write")]
-mod tests {
-    use super::*;
-    use crate::common::Format;
-    use crate::constants;
-    use crate::endianity::LittleEndian;
-    use crate::leb128;
-    use crate::read::{EndianSlice, Error, Result, UnitOffset};
-    use crate::test_util::GimliSectionMethods;
-    use core::usize;
-    use test_assembler::{Endian, Section};
-
-    fn encoding4() -> Encoding {
-        Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        }
-    }
-
-    fn encoding8() -> Encoding {
-        Encoding {
-            format: Format::Dwarf64,
-            version: 4,
-            address_size: 8,
-        }
-    }
-
-    #[test]
-    fn test_compute_pc() {
-        // Contents don't matter for this test, just length.
-        let bytes = [0, 1, 2, 3, 4];
-        let bytecode = &bytes[..];
-        let ebuf = &EndianSlice::new(bytecode, LittleEndian);
-
-        assert_eq!(compute_pc(ebuf, ebuf, 0), Ok(*ebuf));
-        assert_eq!(
-            compute_pc(ebuf, ebuf, -1),
-            Err(Error::BadBranchTarget(usize::MAX as u64))
-        );
-        assert_eq!(compute_pc(ebuf, ebuf, 5), Ok(ebuf.range_from(5..)));
-        assert_eq!(
-            compute_pc(&ebuf.range_from(3..), ebuf, -2),
-            Ok(ebuf.range_from(1..))
-        );
-        assert_eq!(
-            compute_pc(&ebuf.range_from(2..), ebuf, 2),
-            Ok(ebuf.range_from(4..))
-        );
-    }
-
-    fn check_op_parse_simple<'input>(
-        input: &'input [u8],
-        expect: &Operation<EndianSlice<'input, LittleEndian>>,
-        encoding: Encoding,
-    ) {
-        let buf = EndianSlice::new(input, LittleEndian);
-        let mut pc = buf;
-        let value = Operation::parse(&mut pc, encoding);
-        match value {
-            Ok(val) => {
-                assert_eq!(val, *expect);
-                assert_eq!(pc.len(), 0);
-            }
-            _ => panic!("Unexpected result"),
-        }
-    }
-
-    fn check_op_parse_eof(input: &[u8], encoding: Encoding) {
-        let buf = EndianSlice::new(input, LittleEndian);
-        let mut pc = buf;
-        match Operation::parse(&mut pc, encoding) {
-            Err(Error::UnexpectedEof(id)) => {
-                assert!(buf.lookup_offset_id(id).is_some());
-            }
-
-            _ => panic!("Unexpected result"),
-        }
-    }
-
-    fn check_op_parse<F>(
-        input: F,
-        expect: &Operation<EndianSlice<LittleEndian>>,
-        encoding: Encoding,
-    ) where
-        F: Fn(Section) -> Section,
-    {
-        let input = input(Section::with_endian(Endian::Little))
-            .get_contents()
-            .unwrap();
-        for i in 1..input.len() {
-            check_op_parse_eof(&input[..i], encoding);
-        }
-        check_op_parse_simple(&input, expect, encoding);
-    }
-
-    #[test]
-    fn test_op_parse_onebyte() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        // Test all single-byte opcodes.
-        #[rustfmt::skip]
-        let inputs = [
-            (
-                constants::DW_OP_deref,
-                Operation::Deref {
-                    base_type: generic_type(),
-                    size: encoding.address_size,
-                    space: false,
-                },
-            ),
-            (constants::DW_OP_dup, Operation::Pick { index: 0 }),
-            (constants::DW_OP_drop, Operation::Drop),
-            (constants::DW_OP_over, Operation::Pick { index: 1 }),
-            (constants::DW_OP_swap, Operation::Swap),
-            (constants::DW_OP_rot, Operation::Rot),
-            (
-                constants::DW_OP_xderef,
-                Operation::Deref {
-                    base_type: generic_type(),
-                    size: encoding.address_size,
-                    space: true,
-                },
-            ),
-            (constants::DW_OP_abs, Operation::Abs),
-            (constants::DW_OP_and, Operation::And),
-            (constants::DW_OP_div, Operation::Div),
-            (constants::DW_OP_minus, Operation::Minus),
-            (constants::DW_OP_mod, Operation::Mod),
-            (constants::DW_OP_mul, Operation::Mul),
-            (constants::DW_OP_neg, Operation::Neg),
-            (constants::DW_OP_not, Operation::Not),
-            (constants::DW_OP_or, Operation::Or),
-            (constants::DW_OP_plus, Operation::Plus),
-            (constants::DW_OP_shl, Operation::Shl),
-            (constants::DW_OP_shr, Operation::Shr),
-            (constants::DW_OP_shra, Operation::Shra),
-            (constants::DW_OP_xor, Operation::Xor),
-            (constants::DW_OP_eq, Operation::Eq),
-            (constants::DW_OP_ge, Operation::Ge),
-            (constants::DW_OP_gt, Operation::Gt),
-            (constants::DW_OP_le, Operation::Le),
-            (constants::DW_OP_lt, Operation::Lt),
-            (constants::DW_OP_ne, Operation::Ne),
-            (constants::DW_OP_lit0, Operation::UnsignedConstant { value: 0 }),
-            (constants::DW_OP_lit1, Operation::UnsignedConstant { value: 1 }),
-            (constants::DW_OP_lit2, Operation::UnsignedConstant { value: 2 }),
-            (constants::DW_OP_lit3, Operation::UnsignedConstant { value: 3 }),
-            (constants::DW_OP_lit4, Operation::UnsignedConstant { value: 4 }),
-            (constants::DW_OP_lit5, Operation::UnsignedConstant { value: 5 }),
-            (constants::DW_OP_lit6, Operation::UnsignedConstant { value: 6 }),
-            (constants::DW_OP_lit7, Operation::UnsignedConstant { value: 7 }),
-            (constants::DW_OP_lit8, Operation::UnsignedConstant { value: 8 }),
-            (constants::DW_OP_lit9, Operation::UnsignedConstant { value: 9 }),
-            (constants::DW_OP_lit10, Operation::UnsignedConstant { value: 10 }),
-            (constants::DW_OP_lit11, Operation::UnsignedConstant { value: 11 }),
-            (constants::DW_OP_lit12, Operation::UnsignedConstant { value: 12 }),
-            (constants::DW_OP_lit13, Operation::UnsignedConstant { value: 13 }),
-            (constants::DW_OP_lit14, Operation::UnsignedConstant { value: 14 }),
-            (constants::DW_OP_lit15, Operation::UnsignedConstant { value: 15 }),
-            (constants::DW_OP_lit16, Operation::UnsignedConstant { value: 16 }),
-            (constants::DW_OP_lit17, Operation::UnsignedConstant { value: 17 }),
-            (constants::DW_OP_lit18, Operation::UnsignedConstant { value: 18 }),
-            (constants::DW_OP_lit19, Operation::UnsignedConstant { value: 19 }),
-            (constants::DW_OP_lit20, Operation::UnsignedConstant { value: 20 }),
-            (constants::DW_OP_lit21, Operation::UnsignedConstant { value: 21 }),
-            (constants::DW_OP_lit22, Operation::UnsignedConstant { value: 22 }),
-            (constants::DW_OP_lit23, Operation::UnsignedConstant { value: 23 }),
-            (constants::DW_OP_lit24, Operation::UnsignedConstant { value: 24 }),
-            (constants::DW_OP_lit25, Operation::UnsignedConstant { value: 25 }),
-            (constants::DW_OP_lit26, Operation::UnsignedConstant { value: 26 }),
-            (constants::DW_OP_lit27, Operation::UnsignedConstant { value: 27 }),
-            (constants::DW_OP_lit28, Operation::UnsignedConstant { value: 28 }),
-            (constants::DW_OP_lit29, Operation::UnsignedConstant { value: 29 }),
-            (constants::DW_OP_lit30, Operation::UnsignedConstant { value: 30 }),
-            (constants::DW_OP_lit31, Operation::UnsignedConstant { value: 31 }),
-            (constants::DW_OP_reg0, Operation::Register { register: Register(0) }),
-            (constants::DW_OP_reg1, Operation::Register { register: Register(1) }),
-            (constants::DW_OP_reg2, Operation::Register { register: Register(2) }),
-            (constants::DW_OP_reg3, Operation::Register { register: Register(3) }),
-            (constants::DW_OP_reg4, Operation::Register { register: Register(4) }),
-            (constants::DW_OP_reg5, Operation::Register { register: Register(5) }),
-            (constants::DW_OP_reg6, Operation::Register { register: Register(6) }),
-            (constants::DW_OP_reg7, Operation::Register { register: Register(7) }),
-            (constants::DW_OP_reg8, Operation::Register { register: Register(8) }),
-            (constants::DW_OP_reg9, Operation::Register { register: Register(9) }),
-            (constants::DW_OP_reg10, Operation::Register { register: Register(10) }),
-            (constants::DW_OP_reg11, Operation::Register { register: Register(11) }),
-            (constants::DW_OP_reg12, Operation::Register { register: Register(12) }),
-            (constants::DW_OP_reg13, Operation::Register { register: Register(13) }),
-            (constants::DW_OP_reg14, Operation::Register { register: Register(14) }),
-            (constants::DW_OP_reg15, Operation::Register { register: Register(15) }),
-            (constants::DW_OP_reg16, Operation::Register { register: Register(16) }),
-            (constants::DW_OP_reg17, Operation::Register { register: Register(17) }),
-            (constants::DW_OP_reg18, Operation::Register { register: Register(18) }),
-            (constants::DW_OP_reg19, Operation::Register { register: Register(19) }),
-            (constants::DW_OP_reg20, Operation::Register { register: Register(20) }),
-            (constants::DW_OP_reg21, Operation::Register { register: Register(21) }),
-            (constants::DW_OP_reg22, Operation::Register { register: Register(22) }),
-            (constants::DW_OP_reg23, Operation::Register { register: Register(23) }),
-            (constants::DW_OP_reg24, Operation::Register { register: Register(24) }),
-            (constants::DW_OP_reg25, Operation::Register { register: Register(25) }),
-            (constants::DW_OP_reg26, Operation::Register { register: Register(26) }),
-            (constants::DW_OP_reg27, Operation::Register { register: Register(27) }),
-            (constants::DW_OP_reg28, Operation::Register { register: Register(28) }),
-            (constants::DW_OP_reg29, Operation::Register { register: Register(29) }),
-            (constants::DW_OP_reg30, Operation::Register { register: Register(30) }),
-            (constants::DW_OP_reg31, Operation::Register { register: Register(31) }),
-            (constants::DW_OP_nop, Operation::Nop),
-            (constants::DW_OP_push_object_address, Operation::PushObjectAddress),
-            (constants::DW_OP_form_tls_address, Operation::TLS),
-            (constants::DW_OP_GNU_push_tls_address, Operation::TLS),
-            (constants::DW_OP_call_frame_cfa, Operation::CallFrameCFA),
-            (constants::DW_OP_stack_value, Operation::StackValue),
-        ];
-
-        let input = [];
-        check_op_parse_eof(&input[..], encoding);
-
-        for item in inputs.iter() {
-            let (opcode, ref result) = *item;
-            check_op_parse(|s| s.D8(opcode.0), result, encoding);
-        }
-    }
-
-    #[test]
-    fn test_op_parse_twobyte() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let inputs = [
-            (
-                constants::DW_OP_const1u,
-                23,
-                Operation::UnsignedConstant { value: 23 },
-            ),
-            (
-                constants::DW_OP_const1s,
-                (-23i8) as u8,
-                Operation::SignedConstant { value: -23 },
-            ),
-            (constants::DW_OP_pick, 7, Operation::Pick { index: 7 }),
-            (
-                constants::DW_OP_deref_size,
-                19,
-                Operation::Deref {
-                    base_type: generic_type(),
-                    size: 19,
-                    space: false,
-                },
-            ),
-            (
-                constants::DW_OP_xderef_size,
-                19,
-                Operation::Deref {
-                    base_type: generic_type(),
-                    size: 19,
-                    space: true,
-                },
-            ),
-        ];
-
-        for item in inputs.iter() {
-            let (opcode, arg, ref result) = *item;
-            check_op_parse(|s| s.D8(opcode.0).D8(arg), result, encoding);
-        }
-    }
-
-    #[test]
-    fn test_op_parse_threebyte() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        // While bra and skip are 3-byte opcodes, they aren't tested here,
-        // but rather specially in their own function.
-        let inputs = [
-            (
-                constants::DW_OP_const2u,
-                23,
-                Operation::UnsignedConstant { value: 23 },
-            ),
-            (
-                constants::DW_OP_const2s,
-                (-23i16) as u16,
-                Operation::SignedConstant { value: -23 },
-            ),
-            (
-                constants::DW_OP_call2,
-                1138,
-                Operation::Call {
-                    offset: DieReference::UnitRef(UnitOffset(1138)),
-                },
-            ),
-            (
-                constants::DW_OP_bra,
-                (-23i16) as u16,
-                Operation::Bra { target: -23 },
-            ),
-            (
-                constants::DW_OP_skip,
-                (-23i16) as u16,
-                Operation::Skip { target: -23 },
-            ),
-        ];
-
-        for item in inputs.iter() {
-            let (opcode, arg, ref result) = *item;
-            check_op_parse(|s| s.D8(opcode.0).L16(arg), result, encoding);
-        }
-    }
-
-    #[test]
-    fn test_op_parse_fivebyte() {
-        // There are some tests here that depend on address size.
-        let encoding = encoding4();
-
-        let inputs = [
-            (
-                constants::DW_OP_addr,
-                0x1234_5678,
-                Operation::Address {
-                    address: 0x1234_5678,
-                },
-            ),
-            (
-                constants::DW_OP_const4u,
-                0x1234_5678,
-                Operation::UnsignedConstant { value: 0x1234_5678 },
-            ),
-            (
-                constants::DW_OP_const4s,
-                (-23i32) as u32,
-                Operation::SignedConstant { value: -23 },
-            ),
-            (
-                constants::DW_OP_call4,
-                0x1234_5678,
-                Operation::Call {
-                    offset: DieReference::UnitRef(UnitOffset(0x1234_5678)),
-                },
-            ),
-            (
-                constants::DW_OP_call_ref,
-                0x1234_5678,
-                Operation::Call {
-                    offset: DieReference::DebugInfoRef(DebugInfoOffset(0x1234_5678)),
-                },
-            ),
-        ];
-
-        for item in inputs.iter() {
-            let (op, arg, ref expect) = *item;
-            check_op_parse(|s| s.D8(op.0).L32(arg), expect, encoding);
-        }
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_op_parse_ninebyte() {
-        // There are some tests here that depend on address size.
-        let encoding = encoding8();
-
-        let inputs = [
-            (
-                constants::DW_OP_addr,
-                0x1234_5678_1234_5678,
-                Operation::Address {
-                    address: 0x1234_5678_1234_5678,
-                },
-            ),
-            (
-                constants::DW_OP_const8u,
-                0x1234_5678_1234_5678,
-                Operation::UnsignedConstant {
-                    value: 0x1234_5678_1234_5678,
-                },
-            ),
-            (
-                constants::DW_OP_const8s,
-                (-23i64) as u64,
-                Operation::SignedConstant { value: -23 },
-            ),
-            (
-                constants::DW_OP_call_ref,
-                0x1234_5678_1234_5678,
-                Operation::Call {
-                    offset: DieReference::DebugInfoRef(DebugInfoOffset(0x1234_5678_1234_5678)),
-                },
-            ),
-        ];
-
-        for item in inputs.iter() {
-            let (op, arg, ref expect) = *item;
-            check_op_parse(|s| s.D8(op.0).L64(arg), expect, encoding);
-        }
-    }
-
-    #[test]
-    fn test_op_parse_sleb() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let values = [
-            -1i64,
-            0,
-            1,
-            0x100,
-            0x1eee_eeee,
-            0x7fff_ffff_ffff_ffff,
-            -0x100,
-            -0x1eee_eeee,
-            -0x7fff_ffff_ffff_ffff,
-        ];
-        for value in values.iter() {
-            let mut inputs = vec![
-                (
-                    constants::DW_OP_consts.0,
-                    Operation::SignedConstant { value: *value },
-                ),
-                (
-                    constants::DW_OP_fbreg.0,
-                    Operation::FrameOffset { offset: *value },
-                ),
-            ];
-
-            for i in 0..32 {
-                inputs.push((
-                    constants::DW_OP_breg0.0 + i,
-                    Operation::RegisterOffset {
-                        register: Register(i.into()),
-                        offset: *value,
-                        base_type: UnitOffset(0),
-                    },
-                ));
-            }
-
-            for item in inputs.iter() {
-                let (op, ref expect) = *item;
-                check_op_parse(|s| s.D8(op).sleb(*value), expect, encoding);
-            }
-        }
-    }
-
-    #[test]
-    fn test_op_parse_uleb() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let values = [
-            0,
-            1,
-            0x100,
-            (!0u16).into(),
-            0x1eee_eeee,
-            0x7fff_ffff_ffff_ffff,
-            !0u64,
-        ];
-        for value in values.iter() {
-            let mut inputs = vec![
-                (
-                    constants::DW_OP_constu,
-                    Operation::UnsignedConstant { value: *value },
-                ),
-                (
-                    constants::DW_OP_plus_uconst,
-                    Operation::PlusConstant { value: *value },
-                ),
-            ];
-
-            if *value <= (!0u16).into() {
-                inputs.push((
-                    constants::DW_OP_regx,
-                    Operation::Register {
-                        register: Register::from_u64(*value).unwrap(),
-                    },
-                ));
-            }
-
-            if *value <= (!0u32).into() {
-                inputs.extend(&[
-                    (
-                        constants::DW_OP_addrx,
-                        Operation::AddressIndex {
-                            index: DebugAddrIndex(*value as usize),
-                        },
-                    ),
-                    (
-                        constants::DW_OP_constx,
-                        Operation::ConstantIndex {
-                            index: DebugAddrIndex(*value as usize),
-                        },
-                    ),
-                ]);
-            }
-
-            // FIXME
-            if *value < !0u64 / 8 {
-                inputs.push((
-                    constants::DW_OP_piece,
-                    Operation::Piece {
-                        size_in_bits: 8 * value,
-                        bit_offset: None,
-                    },
-                ));
-            }
-
-            for item in inputs.iter() {
-                let (op, ref expect) = *item;
-                let input = Section::with_endian(Endian::Little)
-                    .D8(op.0)
-                    .uleb(*value)
-                    .get_contents()
-                    .unwrap();
-                check_op_parse_simple(&input, expect, encoding);
-            }
-        }
-    }
-
-    #[test]
-    fn test_op_parse_bregx() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let uvalues = [0, 1, 0x100, !0u16];
-        let svalues = [
-            -1i64,
-            0,
-            1,
-            0x100,
-            0x1eee_eeee,
-            0x7fff_ffff_ffff_ffff,
-            -0x100,
-            -0x1eee_eeee,
-            -0x7fff_ffff_ffff_ffff,
-        ];
-
-        for v1 in uvalues.iter() {
-            for v2 in svalues.iter() {
-                check_op_parse(
-                    |s| s.D8(constants::DW_OP_bregx.0).uleb((*v1).into()).sleb(*v2),
-                    &Operation::RegisterOffset {
-                        register: Register(*v1),
-                        offset: *v2,
-                        base_type: UnitOffset(0),
-                    },
-                    encoding,
-                );
-            }
-        }
-    }
-
-    #[test]
-    fn test_op_parse_bit_piece() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let values = [0, 1, 0x100, 0x1eee_eeee, 0x7fff_ffff_ffff_ffff, !0u64];
-
-        for v1 in values.iter() {
-            for v2 in values.iter() {
-                let input = Section::with_endian(Endian::Little)
-                    .D8(constants::DW_OP_bit_piece.0)
-                    .uleb(*v1)
-                    .uleb(*v2)
-                    .get_contents()
-                    .unwrap();
-                check_op_parse_simple(
-                    &input,
-                    &Operation::Piece {
-                        size_in_bits: *v1,
-                        bit_offset: Some(*v2),
-                    },
-                    encoding,
-                );
-            }
-        }
-    }
-
-    #[test]
-    fn test_op_parse_implicit_value() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let data = b"hello";
-
-        check_op_parse(
-            |s| {
-                s.D8(constants::DW_OP_implicit_value.0)
-                    .uleb(data.len() as u64)
-                    .append_bytes(&data[..])
-            },
-            &Operation::ImplicitValue {
-                data: EndianSlice::new(&data[..], LittleEndian),
-            },
-            encoding,
-        );
-    }
-
-    #[test]
-    fn test_op_parse_const_type() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        let data = b"hello";
-
-        check_op_parse(
-            |s| {
-                s.D8(constants::DW_OP_const_type.0)
-                    .uleb(100)
-                    .D8(data.len() as u8)
-                    .append_bytes(&data[..])
-            },
-            &Operation::TypedLiteral {
-                base_type: UnitOffset(100),
-                value: EndianSlice::new(&data[..], LittleEndian),
-            },
-            encoding,
-        );
-        check_op_parse(
-            |s| {
-                s.D8(constants::DW_OP_GNU_const_type.0)
-                    .uleb(100)
-                    .D8(data.len() as u8)
-                    .append_bytes(&data[..])
-            },
-            &Operation::TypedLiteral {
-                base_type: UnitOffset(100),
-                value: EndianSlice::new(&data[..], LittleEndian),
-            },
-            encoding,
-        );
-    }
-
-    #[test]
-    fn test_op_parse_regval_type() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_regval_type.0).uleb(1).uleb(100),
-            &Operation::RegisterOffset {
-                register: Register(1),
-                offset: 0,
-                base_type: UnitOffset(100),
-            },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_GNU_regval_type.0).uleb(1).uleb(100),
-            &Operation::RegisterOffset {
-                register: Register(1),
-                offset: 0,
-                base_type: UnitOffset(100),
-            },
-            encoding,
-        );
-    }
-
-    #[test]
-    fn test_op_parse_deref_type() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_deref_type.0).D8(8).uleb(100),
-            &Operation::Deref {
-                base_type: UnitOffset(100),
-                size: 8,
-                space: false,
-            },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_GNU_deref_type.0).D8(8).uleb(100),
-            &Operation::Deref {
-                base_type: UnitOffset(100),
-                size: 8,
-                space: false,
-            },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_xderef_type.0).D8(8).uleb(100),
-            &Operation::Deref {
-                base_type: UnitOffset(100),
-                size: 8,
-                space: true,
-            },
-            encoding,
-        );
-    }
-
-    #[test]
-    fn test_op_convert() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_convert.0).uleb(100),
-            &Operation::Convert {
-                base_type: UnitOffset(100),
-            },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_GNU_convert.0).uleb(100),
-            &Operation::Convert {
-                base_type: UnitOffset(100),
-            },
-            encoding,
-        );
-    }
-
-    #[test]
-    fn test_op_reinterpret() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_reinterpret.0).uleb(100),
-            &Operation::Reinterpret {
-                base_type: UnitOffset(100),
-            },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_GNU_reinterpret.0).uleb(100),
-            &Operation::Reinterpret {
-                base_type: UnitOffset(100),
-            },
-            encoding,
-        );
-    }
-
-    #[test]
-    fn test_op_parse_implicit_pointer() {
-        for op in &[
-            constants::DW_OP_implicit_pointer,
-            constants::DW_OP_GNU_implicit_pointer,
-        ] {
-            check_op_parse(
-                |s| s.D8(op.0).D32(0x1234_5678).sleb(0x123),
-                &Operation::ImplicitPointer {
-                    value: DebugInfoOffset(0x1234_5678),
-                    byte_offset: 0x123,
-                },
-                encoding4(),
-            );
-
-            check_op_parse(
-                |s| s.D8(op.0).D64(0x1234_5678).sleb(0x123),
-                &Operation::ImplicitPointer {
-                    value: DebugInfoOffset(0x1234_5678),
-                    byte_offset: 0x123,
-                },
-                encoding8(),
-            );
-
-            check_op_parse(
-                |s| s.D8(op.0).D64(0x1234_5678).sleb(0x123),
-                &Operation::ImplicitPointer {
-                    value: DebugInfoOffset(0x1234_5678),
-                    byte_offset: 0x123,
-                },
-                Encoding {
-                    format: Format::Dwarf32,
-                    version: 2,
-                    address_size: 8,
-                },
-            )
-        }
-    }
-
-    #[test]
-    fn test_op_parse_entry_value() {
-        for op in &[
-            constants::DW_OP_entry_value,
-            constants::DW_OP_GNU_entry_value,
-        ] {
-            let data = b"hello";
-            check_op_parse(
-                |s| s.D8(op.0).uleb(data.len() as u64).append_bytes(&data[..]),
-                &Operation::EntryValue {
-                    expression: EndianSlice::new(&data[..], LittleEndian),
-                },
-                encoding4(),
-            );
-        }
-    }
-
-    #[test]
-    fn test_op_parse_gnu_parameter_ref() {
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_GNU_parameter_ref.0).D32(0x1234_5678),
-            &Operation::ParameterRef {
-                offset: UnitOffset(0x1234_5678),
-            },
-            encoding4(),
-        )
-    }
-
-    #[test]
-    fn test_op_wasm() {
-        // Doesn't matter for this test.
-        let encoding = encoding4();
-
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_WASM_location.0).D8(0).uleb(1000),
-            &Operation::WasmLocal { index: 1000 },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_WASM_location.0).D8(1).uleb(1000),
-            &Operation::WasmGlobal { index: 1000 },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_WASM_location.0).D8(2).uleb(1000),
-            &Operation::WasmStack { index: 1000 },
-            encoding,
-        );
-        check_op_parse(
-            |s| s.D8(constants::DW_OP_WASM_location.0).D8(3).D32(1000),
-            &Operation::WasmGlobal { index: 1000 },
-            encoding,
-        );
-    }
-
-    enum AssemblerEntry {
-        Op(constants::DwOp),
-        Mark(u8),
-        Branch(u8),
-        U8(u8),
-        U16(u16),
-        U32(u32),
-        U64(u64),
-        Uleb(u64),
-        Sleb(u64),
-    }
-
-    fn assemble(entries: &[AssemblerEntry]) -> Vec<u8> {
-        let mut result = Vec::new();
-
-        struct Marker(Option<usize>, Vec<usize>);
-
-        let mut markers = Vec::new();
-        for _ in 0..256 {
-            markers.push(Marker(None, Vec::new()));
-        }
-
-        fn write(stack: &mut Vec<u8>, index: usize, mut num: u64, nbytes: u8) {
-            for i in 0..nbytes as usize {
-                stack[index + i] = (num & 0xff) as u8;
-                num >>= 8;
-            }
-        }
-
-        fn push(stack: &mut Vec<u8>, num: u64, nbytes: u8) {
-            let index = stack.len();
-            for _ in 0..nbytes {
-                stack.push(0);
-            }
-            write(stack, index, num, nbytes);
-        }
-
-        for item in entries {
-            match *item {
-                AssemblerEntry::Op(op) => result.push(op.0),
-                AssemblerEntry::Mark(num) => {
-                    assert!(markers[num as usize].0.is_none());
-                    markers[num as usize].0 = Some(result.len());
-                }
-                AssemblerEntry::Branch(num) => {
-                    markers[num as usize].1.push(result.len());
-                    push(&mut result, 0, 2);
-                }
-                AssemblerEntry::U8(num) => result.push(num),
-                AssemblerEntry::U16(num) => push(&mut result, u64::from(num), 2),
-                AssemblerEntry::U32(num) => push(&mut result, u64::from(num), 4),
-                AssemblerEntry::U64(num) => push(&mut result, num, 8),
-                AssemblerEntry::Uleb(num) => {
-                    leb128::write::unsigned(&mut result, num).unwrap();
-                }
-                AssemblerEntry::Sleb(num) => {
-                    leb128::write::signed(&mut result, num as i64).unwrap();
-                }
-            }
-        }
-
-        // Update all the branches.
-        for marker in markers {
-            if let Some(offset) = marker.0 {
-                for branch_offset in marker.1 {
-                    let delta = offset.wrapping_sub(branch_offset + 2) as u64;
-                    write(&mut result, branch_offset, delta, 2);
-                }
-            }
-        }
-
-        result
-    }
-
-    fn check_eval_with_args<F>(
-        program: &[AssemblerEntry],
-        expect: Result<&[Piece<EndianSlice<LittleEndian>>]>,
-        encoding: Encoding,
-        object_address: Option<u64>,
-        initial_value: Option<u64>,
-        max_iterations: Option<u32>,
-        f: F,
-    ) where
-        for<'a> F: Fn(
-            &mut Evaluation<EndianSlice<'a, LittleEndian>>,
-            EvaluationResult<EndianSlice<'a, LittleEndian>>,
-        ) -> Result<EvaluationResult<EndianSlice<'a, LittleEndian>>>,
-    {
-        let bytes = assemble(program);
-        let bytes = EndianSlice::new(&bytes, LittleEndian);
-
-        let mut eval = Evaluation::new(bytes, encoding);
-
-        if let Some(val) = object_address {
-            eval.set_object_address(val);
-        }
-        if let Some(val) = initial_value {
-            eval.set_initial_value(val);
-        }
-        if let Some(val) = max_iterations {
-            eval.set_max_iterations(val);
-        }
-
-        let result = match eval.evaluate() {
-            Err(e) => Err(e),
-            Ok(r) => f(&mut eval, r),
-        };
-
-        match (result, expect) {
-            (Ok(EvaluationResult::Complete), Ok(pieces)) => {
-                let vec = eval.result();
-                assert_eq!(vec.len(), pieces.len());
-                for i in 0..pieces.len() {
-                    assert_eq!(vec[i], pieces[i]);
-                }
-            }
-            (Err(f1), Err(f2)) => {
-                assert_eq!(f1, f2);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    fn check_eval(
-        program: &[AssemblerEntry],
-        expect: Result<&[Piece<EndianSlice<LittleEndian>>]>,
-        encoding: Encoding,
-    ) {
-        check_eval_with_args(program, expect, encoding, None, None, None, |_, result| {
-            Ok(result)
-        });
-    }
-
-    #[test]
-    fn test_eval_arith() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        // Indices of marks in the assembly.
-        let done = 0;
-        let fail = 1;
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_const1u), U8(23),
-            Op(DW_OP_const1s), U8((-23i8) as u8),
-            Op(DW_OP_plus),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const2u), U16(23),
-            Op(DW_OP_const2s), U16((-23i16) as u16),
-            Op(DW_OP_plus),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const4u), U32(0x1111_2222),
-            Op(DW_OP_const4s), U32((-0x1111_2222i32) as u32),
-            Op(DW_OP_plus),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Plus should overflow.
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_const1u), U8(1),
-            Op(DW_OP_plus),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_plus_uconst), Uleb(1),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Minus should underflow.
-            Op(DW_OP_const1s), U8(0),
-            Op(DW_OP_const1u), U8(1),
-            Op(DW_OP_minus),
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_abs),
-            Op(DW_OP_const1u), U8(1),
-            Op(DW_OP_minus),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const4u), U32(0xf078_fffe),
-            Op(DW_OP_const4u), U32(0x0f87_0001),
-            Op(DW_OP_and),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const4u), U32(0xf078_fffe),
-            Op(DW_OP_const4u), U32(0xf000_00fe),
-            Op(DW_OP_and),
-            Op(DW_OP_const4u), U32(0xf000_00fe),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Division is signed.
-            Op(DW_OP_const1s), U8(0xfe),
-            Op(DW_OP_const1s), U8(2),
-            Op(DW_OP_div),
-            Op(DW_OP_plus_uconst), Uleb(1),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Mod is unsigned.
-            Op(DW_OP_const1s), U8(0xfd),
-            Op(DW_OP_const1s), U8(2),
-            Op(DW_OP_mod),
-            Op(DW_OP_neg),
-            Op(DW_OP_plus_uconst), Uleb(1),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Overflow is defined for multiplication.
-            Op(DW_OP_const4u), U32(0x8000_0001),
-            Op(DW_OP_lit2),
-            Op(DW_OP_mul),
-            Op(DW_OP_lit2),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const4u), U32(0xf0f0_f0f0),
-            Op(DW_OP_const4u), U32(0xf0f0_f0f0),
-            Op(DW_OP_xor),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const4u), U32(0xf0f0_f0f0),
-            Op(DW_OP_const4u), U32(0x0f0f_0f0f),
-            Op(DW_OP_or),
-            Op(DW_OP_not),
-            Op(DW_OP_bra), Branch(fail),
-
-            // In 32 bit mode, values are truncated.
-            Op(DW_OP_const8u), U64(0xffff_ffff_0000_0000),
-            Op(DW_OP_lit2),
-            Op(DW_OP_div),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1u), U8(0xff),
-            Op(DW_OP_lit1),
-            Op(DW_OP_shl),
-            Op(DW_OP_const2u), U16(0x1fe),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1u), U8(0xff),
-            Op(DW_OP_const1u), U8(50),
-            Op(DW_OP_shl),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Absurd shift.
-            Op(DW_OP_const1u), U8(0xff),
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_shl),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_lit1),
-            Op(DW_OP_shr),
-            Op(DW_OP_const4u), U32(0x7fff_ffff),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_const1u), U8(0xff),
-            Op(DW_OP_shr),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_lit1),
-            Op(DW_OP_shra),
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_const1u), U8(0xff),
-            Op(DW_OP_shra),
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Success.
-            Op(DW_OP_lit0),
-            Op(DW_OP_nop),
-            Op(DW_OP_skip), Branch(done),
-
-            Mark(fail),
-            Op(DW_OP_lit1),
-
-            Mark(done),
-            Op(DW_OP_stack_value),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(0),
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-    }
-
-    #[test]
-    fn test_eval_arith64() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        // Indices of marks in the assembly.
-        let done = 0;
-        let fail = 1;
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_const8u), U64(0x1111_2222_3333_4444),
-            Op(DW_OP_const8s), U64((-0x1111_2222_3333_4444i64) as u64),
-            Op(DW_OP_plus),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_constu), Uleb(0x1111_2222_3333_4444),
-            Op(DW_OP_consts), Sleb((-0x1111_2222_3333_4444i64) as u64),
-            Op(DW_OP_plus),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit1),
-            Op(DW_OP_plus_uconst), Uleb(!0u64),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit1),
-            Op(DW_OP_neg),
-            Op(DW_OP_not),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const8u), U64(0x8000_0000_0000_0000),
-            Op(DW_OP_const1u), U8(63),
-            Op(DW_OP_shr),
-            Op(DW_OP_lit1),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const8u), U64(0x8000_0000_0000_0000),
-            Op(DW_OP_const1u), U8(62),
-            Op(DW_OP_shra),
-            Op(DW_OP_plus_uconst), Uleb(2),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit1),
-            Op(DW_OP_const1u), U8(63),
-            Op(DW_OP_shl),
-            Op(DW_OP_const8u), U64(0x8000_0000_0000_0000),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Success.
-            Op(DW_OP_lit0),
-            Op(DW_OP_nop),
-            Op(DW_OP_skip), Branch(done),
-
-            Mark(fail),
-            Op(DW_OP_lit1),
-
-            Mark(done),
-            Op(DW_OP_stack_value),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(0),
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding8());
-    }
-
-    #[test]
-    fn test_eval_compare() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        // Indices of marks in the assembly.
-        let done = 0;
-        let fail = 1;
-
-        #[rustfmt::skip]
-        let program = [
-            // Comparisons are signed.
-            Op(DW_OP_const1s), U8(1),
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_lt),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_const1s), U8(1),
-            Op(DW_OP_gt),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(1),
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_le),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_const1s), U8(1),
-            Op(DW_OP_ge),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const1s), U8(0xff),
-            Op(DW_OP_const1s), U8(1),
-            Op(DW_OP_eq),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_const4s), U32(1),
-            Op(DW_OP_const1s), U8(1),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Success.
-            Op(DW_OP_lit0),
-            Op(DW_OP_nop),
-            Op(DW_OP_skip), Branch(done),
-
-            Mark(fail),
-            Op(DW_OP_lit1),
-
-            Mark(done),
-            Op(DW_OP_stack_value),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(0),
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-    }
-
-    #[test]
-    fn test_eval_stack() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_lit17),                // -- 17
-            Op(DW_OP_dup),                  // -- 17 17
-            Op(DW_OP_over),                 // -- 17 17 17
-            Op(DW_OP_minus),                // -- 17 0
-            Op(DW_OP_swap),                 // -- 0 17
-            Op(DW_OP_dup),                  // -- 0 17 17
-            Op(DW_OP_plus_uconst), Uleb(1), // -- 0 17 18
-            Op(DW_OP_rot),                  // -- 18 0 17
-            Op(DW_OP_pick), U8(2),          // -- 18 0 17 18
-            Op(DW_OP_pick), U8(3),          // -- 18 0 17 18 18
-            Op(DW_OP_minus),                // -- 18 0 17 0
-            Op(DW_OP_drop),                 // -- 18 0 17
-            Op(DW_OP_swap),                 // -- 18 17 0
-            Op(DW_OP_drop),                 // -- 18 17
-            Op(DW_OP_minus),                // -- 1
-            Op(DW_OP_stack_value),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(1),
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-    }
-
-    #[test]
-    fn test_eval_lit_and_reg() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        let mut program = Vec::new();
-        program.push(Op(DW_OP_lit0));
-        for i in 0..32 {
-            program.push(Op(DwOp(DW_OP_lit0.0 + i)));
-            program.push(Op(DwOp(DW_OP_breg0.0 + i)));
-            program.push(Sleb(u64::from(i)));
-            program.push(Op(DW_OP_plus));
-            program.push(Op(DW_OP_plus));
-        }
-
-        program.push(Op(DW_OP_bregx));
-        program.push(Uleb(0x1234));
-        program.push(Sleb(0x1234));
-        program.push(Op(DW_OP_plus));
-
-        program.push(Op(DW_OP_stack_value));
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(496),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding4(),
-            None,
-            None,
-            None,
-            |eval, mut result| {
-                while result != EvaluationResult::Complete {
-                    result = eval.resume_with_register(match result {
-                        EvaluationResult::RequiresRegister {
-                            register,
-                            base_type,
-                        } => {
-                            assert_eq!(base_type, UnitOffset(0));
-                            Value::Generic(u64::from(register.0).wrapping_neg())
-                        }
-                        _ => panic!(),
-                    })?;
-                }
-                Ok(result)
-            },
-        );
-    }
-
-    #[test]
-    fn test_eval_memory() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        // Indices of marks in the assembly.
-        let done = 0;
-        let fail = 1;
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_addr), U32(0x7fff_ffff),
-            Op(DW_OP_deref),
-            Op(DW_OP_const4u), U32(0xffff_fffc),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_addr), U32(0x7fff_ffff),
-            Op(DW_OP_deref_size), U8(2),
-            Op(DW_OP_const4u), U32(0xfffc),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit1),
-            Op(DW_OP_addr), U32(0x7fff_ffff),
-            Op(DW_OP_xderef),
-            Op(DW_OP_const4u), U32(0xffff_fffd),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit1),
-            Op(DW_OP_addr), U32(0x7fff_ffff),
-            Op(DW_OP_xderef_size), U8(2),
-            Op(DW_OP_const4u), U32(0xfffd),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit17),
-            Op(DW_OP_form_tls_address),
-            Op(DW_OP_constu), Uleb(!17),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_lit17),
-            Op(DW_OP_GNU_push_tls_address),
-            Op(DW_OP_constu), Uleb(!17),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_addrx), Uleb(0x10),
-            Op(DW_OP_deref),
-            Op(DW_OP_const4u), U32(0x4040),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            Op(DW_OP_constx), Uleb(17),
-            Op(DW_OP_form_tls_address),
-            Op(DW_OP_constu), Uleb(!27),
-            Op(DW_OP_ne),
-            Op(DW_OP_bra), Branch(fail),
-
-            // Success.
-            Op(DW_OP_lit0),
-            Op(DW_OP_nop),
-            Op(DW_OP_skip), Branch(done),
-
-            Mark(fail),
-            Op(DW_OP_lit1),
-
-            Mark(done),
-            Op(DW_OP_stack_value),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(0),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding4(),
-            None,
-            None,
-            None,
-            |eval, mut result| {
-                while result != EvaluationResult::Complete {
-                    result = match result {
-                        EvaluationResult::RequiresMemory {
-                            address,
-                            size,
-                            space,
-                            base_type,
-                        } => {
-                            assert_eq!(base_type, UnitOffset(0));
-                            let mut v = address << 2;
-                            if let Some(value) = space {
-                                v += value;
-                            }
-                            v &= (1u64 << (8 * size)) - 1;
-                            eval.resume_with_memory(Value::Generic(v))?
-                        }
-                        EvaluationResult::RequiresTls(slot) => eval.resume_with_tls(!slot)?,
-                        EvaluationResult::RequiresRelocatedAddress(address) => {
-                            eval.resume_with_relocated_address(address)?
-                        }
-                        EvaluationResult::RequiresIndexedAddress { index, relocate } => {
-                            if relocate {
-                                eval.resume_with_indexed_address(0x1000 + index.0 as u64)?
-                            } else {
-                                eval.resume_with_indexed_address(10 + index.0 as u64)?
-                            }
-                        }
-                        _ => panic!(),
-                    };
-                }
-
-                Ok(result)
-            },
-        );
-    }
-
-    #[test]
-    fn test_eval_register() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        for i in 0..32 {
-            #[rustfmt::skip]
-            let program = [
-                Op(DwOp(DW_OP_reg0.0 + i)),
-                // Included only in the "bad" run.
-                Op(DW_OP_lit23),
-            ];
-            let ok_result = [Piece {
-                size_in_bits: None,
-                bit_offset: None,
-                location: Location::Register {
-                    register: Register(i.into()),
-                },
-            }];
-
-            check_eval(&program[..1], Ok(&ok_result), encoding4());
-
-            check_eval(
-                &program,
-                Err(Error::InvalidExpressionTerminator(1)),
-                encoding4(),
-            );
-        }
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_regx), Uleb(0x1234)
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Register {
-                register: Register(0x1234),
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-    }
-
-    #[test]
-    fn test_eval_context() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        // Test `frame_base` and `call_frame_cfa` callbacks.
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_fbreg), Sleb((-8i8) as u64),
-            Op(DW_OP_call_frame_cfa),
-            Op(DW_OP_plus),
-            Op(DW_OP_neg),
-            Op(DW_OP_stack_value)
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(9),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding8(),
-            None,
-            None,
-            None,
-            |eval, result| {
-                match result {
-                    EvaluationResult::RequiresFrameBase => {}
-                    _ => panic!(),
-                };
-                match eval.resume_with_frame_base(0x0123_4567_89ab_cdef)? {
-                    EvaluationResult::RequiresCallFrameCfa => {}
-                    _ => panic!(),
-                };
-                eval.resume_with_call_frame_cfa(0xfedc_ba98_7654_3210)
-            },
-        );
-
-        // Test `evaluate_entry_value` callback.
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_entry_value), Uleb(8), U64(0x1234_5678),
-            Op(DW_OP_stack_value)
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(0x1234_5678),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding8(),
-            None,
-            None,
-            None,
-            |eval, result| {
-                let entry_value = match result {
-                    EvaluationResult::RequiresEntryValue(mut expression) => {
-                        expression.0.read_u64()?
-                    }
-                    _ => panic!(),
-                };
-                eval.resume_with_entry_value(Value::Generic(entry_value))
-            },
-        );
-
-        // Test missing `object_address` field.
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_push_object_address),
-        ];
-
-        check_eval_with_args(
-            &program,
-            Err(Error::InvalidPushObjectAddress),
-            encoding4(),
-            None,
-            None,
-            None,
-            |_, _| panic!(),
-        );
-
-        // Test `object_address` field.
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_push_object_address),
-            Op(DW_OP_stack_value),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(0xff),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding8(),
-            Some(0xff),
-            None,
-            None,
-            |_, result| Ok(result),
-        );
-
-        // Test `initial_value` field.
-        #[rustfmt::skip]
-        let program = [
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Address {
-                address: 0x1234_5678,
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding8(),
-            None,
-            Some(0x1234_5678),
-            None,
-            |_, result| Ok(result),
-        );
-    }
-
-    #[test]
-    fn test_eval_empty_stack() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_stack_value)
-        ];
-
-        check_eval(&program, Err(Error::NotEnoughStackItems), encoding4());
-    }
-
-    #[test]
-    fn test_eval_call() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_lit23),
-            Op(DW_OP_call2), U16(0x7755),
-            Op(DW_OP_call4), U32(0x7755_aaee),
-            Op(DW_OP_call_ref), U32(0x7755_aaee),
-            Op(DW_OP_stack_value)
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(23),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding4(),
-            None,
-            None,
-            None,
-            |eval, result| {
-                let buf = EndianSlice::new(&[], LittleEndian);
-                match result {
-                    EvaluationResult::RequiresAtLocation(_) => {}
-                    _ => panic!(),
-                };
-
-                eval.resume_with_at_location(buf)?;
-
-                match result {
-                    EvaluationResult::RequiresAtLocation(_) => {}
-                    _ => panic!(),
-                };
-
-                eval.resume_with_at_location(buf)?;
-
-                match result {
-                    EvaluationResult::RequiresAtLocation(_) => {}
-                    _ => panic!(),
-                };
-
-                eval.resume_with_at_location(buf)
-            },
-        );
-
-        // DW_OP_lit2 DW_OP_mul
-        const SUBR: &[u8] = &[0x32, 0x1e];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Value {
-                value: Value::Generic(184),
-            },
-        }];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding4(),
-            None,
-            None,
-            None,
-            |eval, result| {
-                let buf = EndianSlice::new(SUBR, LittleEndian);
-                match result {
-                    EvaluationResult::RequiresAtLocation(_) => {}
-                    _ => panic!(),
-                };
-
-                eval.resume_with_at_location(buf)?;
-
-                match result {
-                    EvaluationResult::RequiresAtLocation(_) => {}
-                    _ => panic!(),
-                };
-
-                eval.resume_with_at_location(buf)?;
-
-                match result {
-                    EvaluationResult::RequiresAtLocation(_) => {}
-                    _ => panic!(),
-                };
-
-                eval.resume_with_at_location(buf)
-            },
-        );
-    }
-
-    #[test]
-    fn test_eval_pieces() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        // Example from DWARF 2.6.1.3.
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_reg3),
-            Op(DW_OP_piece), Uleb(4),
-            Op(DW_OP_reg4),
-            Op(DW_OP_piece), Uleb(2),
-        ];
-
-        let result = [
-            Piece {
-                size_in_bits: Some(32),
-                bit_offset: None,
-                location: Location::Register {
-                    register: Register(3),
-                },
-            },
-            Piece {
-                size_in_bits: Some(16),
-                bit_offset: None,
-                location: Location::Register {
-                    register: Register(4),
-                },
-            },
-        ];
-
-        check_eval(&program, Ok(&result), encoding4());
-
-        // Example from DWARF 2.6.1.3 (but hacked since dealing with fbreg
-        // in the tests is a pain).
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_reg0),
-            Op(DW_OP_piece), Uleb(4),
-            Op(DW_OP_piece), Uleb(4),
-            Op(DW_OP_addr), U32(0x7fff_ffff),
-            Op(DW_OP_piece), Uleb(4),
-        ];
-
-        let result = [
-            Piece {
-                size_in_bits: Some(32),
-                bit_offset: None,
-                location: Location::Register {
-                    register: Register(0),
-                },
-            },
-            Piece {
-                size_in_bits: Some(32),
-                bit_offset: None,
-                location: Location::Empty,
-            },
-            Piece {
-                size_in_bits: Some(32),
-                bit_offset: None,
-                location: Location::Address {
-                    address: 0x7fff_ffff,
-                },
-            },
-        ];
-
-        check_eval_with_args(
-            &program,
-            Ok(&result),
-            encoding4(),
-            None,
-            None,
-            None,
-            |eval, mut result| {
-                while result != EvaluationResult::Complete {
-                    result = match result {
-                        EvaluationResult::RequiresRelocatedAddress(address) => {
-                            eval.resume_with_relocated_address(address)?
-                        }
-                        _ => panic!(),
-                    };
-                }
-
-                Ok(result)
-            },
-        );
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_implicit_value), Uleb(5),
-            U8(23), U8(24), U8(25), U8(26), U8(0),
-        ];
-
-        const BYTES: &[u8] = &[23, 24, 25, 26, 0];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Bytes {
-                value: EndianSlice::new(BYTES, LittleEndian),
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_lit7),
-            Op(DW_OP_stack_value),
-            Op(DW_OP_bit_piece), Uleb(5), Uleb(0),
-            Op(DW_OP_bit_piece), Uleb(3), Uleb(0),
-        ];
-
-        let result = [
-            Piece {
-                size_in_bits: Some(5),
-                bit_offset: Some(0),
-                location: Location::Value {
-                    value: Value::Generic(7),
-                },
-            },
-            Piece {
-                size_in_bits: Some(3),
-                bit_offset: Some(0),
-                location: Location::Empty,
-            },
-        ];
-
-        check_eval(&program, Ok(&result), encoding4());
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_lit7),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::Address { address: 7 },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_implicit_pointer), U32(0x1234_5678), Sleb(0x123),
-        ];
-
-        let result = [Piece {
-            size_in_bits: None,
-            bit_offset: None,
-            location: Location::ImplicitPointer {
-                value: DebugInfoOffset(0x1234_5678),
-                byte_offset: 0x123,
-            },
-        }];
-
-        check_eval(&program, Ok(&result), encoding4());
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_reg3),
-            Op(DW_OP_piece), Uleb(4),
-            Op(DW_OP_reg4),
-        ];
-
-        check_eval(&program, Err(Error::InvalidPiece), encoding4());
-
-        #[rustfmt::skip]
-        let program = [
-            Op(DW_OP_reg3),
-            Op(DW_OP_piece), Uleb(4),
-            Op(DW_OP_lit0),
-        ];
-
-        check_eval(&program, Err(Error::InvalidPiece), encoding4());
-    }
-
-    #[test]
-    fn test_eval_max_iterations() {
-        // It's nice if an operation and its arguments can fit on a single
-        // line in the test program.
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        #[rustfmt::skip]
-        let program = [
-            Mark(1),
-            Op(DW_OP_skip), Branch(1),
-        ];
-
-        check_eval_with_args(
-            &program,
-            Err(Error::TooManyIterations),
-            encoding4(),
-            None,
-            None,
-            Some(150),
-            |_, _| panic!(),
-        );
-    }
-
-    #[test]
-    fn test_eval_typed_stack() {
-        use self::AssemblerEntry::*;
-        use crate::constants::*;
-
-        let base_types = [
-            ValueType::Generic,
-            ValueType::U16,
-            ValueType::U32,
-            ValueType::F32,
-        ];
-
-        // TODO: convert, reinterpret
-        #[rustfmt::skip]
-        let tests = [
-            (
-                &[
-                    Op(DW_OP_const_type), Uleb(1), U8(2), U16(0x1234),
-                    Op(DW_OP_stack_value),
-                ][..],
-                Value::U16(0x1234),
-            ),
-            (
-                &[
-                    Op(DW_OP_regval_type), Uleb(0x1234), Uleb(1),
-                    Op(DW_OP_stack_value),
-                ][..],
-                Value::U16(0x2340),
-            ),
-            (
-                &[
-                    Op(DW_OP_addr), U32(0x7fff_ffff),
-                    Op(DW_OP_deref_type), U8(2), Uleb(1),
-                    Op(DW_OP_stack_value),
-                ][..],
-                Value::U16(0xfff0),
-            ),
-            (
-                &[
-                    Op(DW_OP_lit1),
-                    Op(DW_OP_addr), U32(0x7fff_ffff),
-                    Op(DW_OP_xderef_type), U8(2), Uleb(1),
-                    Op(DW_OP_stack_value),
-                ][..],
-                Value::U16(0xfff1),
-            ),
-            (
-                &[
-                    Op(DW_OP_const_type), Uleb(1), U8(2), U16(0x1234),
-                    Op(DW_OP_convert), Uleb(2),
-                    Op(DW_OP_stack_value),
-                ][..],
-                Value::U32(0x1234),
-            ),
-            (
-                &[
-                    Op(DW_OP_const_type), Uleb(2), U8(4), U32(0x3f80_0000),
-                    Op(DW_OP_reinterpret), Uleb(3),
-                    Op(DW_OP_stack_value),
-                ][..],
-                Value::F32(1.0),
-            ),
-        ];
-        for &(program, value) in &tests {
-            let result = [Piece {
-                size_in_bits: None,
-                bit_offset: None,
-                location: Location::Value { value },
-            }];
-
-            check_eval_with_args(
-                program,
-                Ok(&result),
-                encoding4(),
-                None,
-                None,
-                None,
-                |eval, mut result| {
-                    while result != EvaluationResult::Complete {
-                        result = match result {
-                            EvaluationResult::RequiresMemory {
-                                address,
-                                size,
-                                space,
-                                base_type,
-                            } => {
-                                let mut v = address << 4;
-                                if let Some(value) = space {
-                                    v += value;
-                                }
-                                v &= (1u64 << (8 * size)) - 1;
-                                let v = Value::from_u64(base_types[base_type.0], v)?;
-                                eval.resume_with_memory(v)?
-                            }
-                            EvaluationResult::RequiresRegister {
-                                register,
-                                base_type,
-                            } => {
-                                let v = Value::from_u64(
-                                    base_types[base_type.0],
-                                    u64::from(register.0) << 4,
-                                )?;
-                                eval.resume_with_register(v)?
-                            }
-                            EvaluationResult::RequiresBaseType(offset) => {
-                                eval.resume_with_base_type(base_types[offset.0])?
-                            }
-                            EvaluationResult::RequiresRelocatedAddress(address) => {
-                                eval.resume_with_relocated_address(address)?
-                            }
-                            _ => panic!("Unexpected result {:?}", result),
-                        }
-                    }
-                    Ok(result)
-                },
-            );
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/pubnames.rs b/vendor/gimli-0.27.3/src/read/pubnames.rs
deleted file mode 100644
index e8b7e5528..000000000
--- a/vendor/gimli-0.27.3/src/read/pubnames.rs
+++ /dev/null
@@ -1,141 +0,0 @@
-use crate::common::{DebugInfoOffset, SectionId};
-use crate::endianity::Endianity;
-use crate::read::lookup::{DebugLookup, LookupEntryIter, PubStuffEntry, PubStuffParser};
-use crate::read::{EndianSlice, Reader, Result, Section, UnitOffset};
-
-/// A single parsed pubname.
-#[derive(Debug, Clone)]
-pub struct PubNamesEntry<R: Reader> {
-    unit_header_offset: DebugInfoOffset<R::Offset>,
-    die_offset: UnitOffset<R::Offset>,
-    name: R,
-}
-
-impl<R: Reader> PubNamesEntry<R> {
-    /// Returns the name this entry refers to.
-    pub fn name(&self) -> &R {
-        &self.name
-    }
-
-    /// Returns the offset into the .debug_info section for the header of the compilation unit
-    /// which contains this name.
-    pub fn unit_header_offset(&self) -> DebugInfoOffset<R::Offset> {
-        self.unit_header_offset
-    }
-
-    /// Returns the offset into the compilation unit for the debugging information entry which
-    /// has this name.
-    pub fn die_offset(&self) -> UnitOffset<R::Offset> {
-        self.die_offset
-    }
-}
-
-impl<R: Reader> PubStuffEntry<R> for PubNamesEntry<R> {
-    fn new(
-        die_offset: UnitOffset<R::Offset>,
-        name: R,
-        unit_header_offset: DebugInfoOffset<R::Offset>,
-    ) -> Self {
-        PubNamesEntry {
-            unit_header_offset,
-            die_offset,
-            name,
-        }
-    }
-}
-
-/// The `DebugPubNames` struct represents the DWARF public names information
-/// found in the `.debug_pubnames` section.
-#[derive(Debug, Clone)]
-pub struct DebugPubNames<R: Reader>(DebugLookup<R, PubStuffParser<R, PubNamesEntry<R>>>);
-
-impl<'input, Endian> DebugPubNames<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugPubNames` instance from the data in the `.debug_pubnames`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_pubnames` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugPubNames, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_pubnames_section_somehow = || &buf;
-    /// let debug_pubnames =
-    ///     DebugPubNames::new(read_debug_pubnames_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_pubnames_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_pubnames_section, endian))
-    }
-}
-
-impl<R: Reader> DebugPubNames<R> {
-    /// Iterate the pubnames in the `.debug_pubnames` section.
-    ///
-    /// ```
-    /// use gimli::{DebugPubNames, EndianSlice, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_pubnames_section_somehow = || &buf;
-    /// let debug_pubnames =
-    ///     DebugPubNames::new(read_debug_pubnames_section_somehow(), LittleEndian);
-    ///
-    /// let mut iter = debug_pubnames.items();
-    /// while let Some(pubname) = iter.next().unwrap() {
-    ///   println!("pubname {} found!", pubname.name().to_string_lossy());
-    /// }
-    /// ```
-    pub fn items(&self) -> PubNamesEntryIter<R> {
-        PubNamesEntryIter(self.0.items())
-    }
-}
-
-impl<R: Reader> Section<R> for DebugPubNames<R> {
-    fn id() -> SectionId {
-        SectionId::DebugPubNames
-    }
-
-    fn reader(&self) -> &R {
-        self.0.reader()
-    }
-}
-
-impl<R: Reader> From<R> for DebugPubNames<R> {
-    fn from(debug_pubnames_section: R) -> Self {
-        DebugPubNames(DebugLookup::from(debug_pubnames_section))
-    }
-}
-
-/// An iterator over the pubnames from a `.debug_pubnames` section.
-///
-/// Can be [used with
-/// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-#[derive(Debug, Clone)]
-pub struct PubNamesEntryIter<R: Reader>(LookupEntryIter<R, PubStuffParser<R, PubNamesEntry<R>>>);
-
-impl<R: Reader> PubNamesEntryIter<R> {
-    /// Advance the iterator and return the next pubname.
-    ///
-    /// Returns the newly parsed pubname as `Ok(Some(pubname))`. Returns
-    /// `Ok(None)` when iteration is complete and all pubnames have already been
-    /// parsed and yielded. If an error occurs while parsing the next pubname,
-    /// then this error is returned as `Err(e)`, and all subsequent calls return
-    /// `Ok(None)`.
-    pub fn next(&mut self) -> Result<Option<PubNamesEntry<R>>> {
-        self.0.next()
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for PubNamesEntryIter<R> {
-    type Item = PubNamesEntry<R>;
-    type Error = crate::read::Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        self.0.next()
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/pubtypes.rs b/vendor/gimli-0.27.3/src/read/pubtypes.rs
deleted file mode 100644
index 6723b4222..000000000
--- a/vendor/gimli-0.27.3/src/read/pubtypes.rs
+++ /dev/null
@@ -1,141 +0,0 @@
-use crate::common::{DebugInfoOffset, SectionId};
-use crate::endianity::Endianity;
-use crate::read::lookup::{DebugLookup, LookupEntryIter, PubStuffEntry, PubStuffParser};
-use crate::read::{EndianSlice, Reader, Result, Section, UnitOffset};
-
-/// A single parsed pubtype.
-#[derive(Debug, Clone)]
-pub struct PubTypesEntry<R: Reader> {
-    unit_header_offset: DebugInfoOffset<R::Offset>,
-    die_offset: UnitOffset<R::Offset>,
-    name: R,
-}
-
-impl<R: Reader> PubTypesEntry<R> {
-    /// Returns the name of the type this entry refers to.
-    pub fn name(&self) -> &R {
-        &self.name
-    }
-
-    /// Returns the offset into the .debug_info section for the header of the compilation unit
-    /// which contains the type with this name.
-    pub fn unit_header_offset(&self) -> DebugInfoOffset<R::Offset> {
-        self.unit_header_offset
-    }
-
-    /// Returns the offset into the compilation unit for the debugging information entry which
-    /// the type with this name.
-    pub fn die_offset(&self) -> UnitOffset<R::Offset> {
-        self.die_offset
-    }
-}
-
-impl<R: Reader> PubStuffEntry<R> for PubTypesEntry<R> {
-    fn new(
-        die_offset: UnitOffset<R::Offset>,
-        name: R,
-        unit_header_offset: DebugInfoOffset<R::Offset>,
-    ) -> Self {
-        PubTypesEntry {
-            unit_header_offset,
-            die_offset,
-            name,
-        }
-    }
-}
-
-/// The `DebugPubTypes` struct represents the DWARF public types information
-/// found in the `.debug_info` section.
-#[derive(Debug, Clone)]
-pub struct DebugPubTypes<R: Reader>(DebugLookup<R, PubStuffParser<R, PubTypesEntry<R>>>);
-
-impl<'input, Endian> DebugPubTypes<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugPubTypes` instance from the data in the `.debug_pubtypes`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_pubtypes` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugPubTypes, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_pubtypes_somehow = || &buf;
-    /// let debug_pubtypes =
-    ///     DebugPubTypes::new(read_debug_pubtypes_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_pubtypes_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_pubtypes_section, endian))
-    }
-}
-
-impl<R: Reader> DebugPubTypes<R> {
-    /// Iterate the pubtypes in the `.debug_pubtypes` section.
-    ///
-    /// ```
-    /// use gimli::{DebugPubTypes, EndianSlice, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_pubtypes_section_somehow = || &buf;
-    /// let debug_pubtypes =
-    ///     DebugPubTypes::new(read_debug_pubtypes_section_somehow(), LittleEndian);
-    ///
-    /// let mut iter = debug_pubtypes.items();
-    /// while let Some(pubtype) = iter.next().unwrap() {
-    ///   println!("pubtype {} found!", pubtype.name().to_string_lossy());
-    /// }
-    /// ```
-    pub fn items(&self) -> PubTypesEntryIter<R> {
-        PubTypesEntryIter(self.0.items())
-    }
-}
-
-impl<R: Reader> Section<R> for DebugPubTypes<R> {
-    fn id() -> SectionId {
-        SectionId::DebugPubTypes
-    }
-
-    fn reader(&self) -> &R {
-        self.0.reader()
-    }
-}
-
-impl<R: Reader> From<R> for DebugPubTypes<R> {
-    fn from(debug_pubtypes_section: R) -> Self {
-        DebugPubTypes(DebugLookup::from(debug_pubtypes_section))
-    }
-}
-
-/// An iterator over the pubtypes from a `.debug_pubtypes` section.
-///
-/// Can be [used with
-/// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-#[derive(Debug, Clone)]
-pub struct PubTypesEntryIter<R: Reader>(LookupEntryIter<R, PubStuffParser<R, PubTypesEntry<R>>>);
-
-impl<R: Reader> PubTypesEntryIter<R> {
-    /// Advance the iterator and return the next pubtype.
-    ///
-    /// Returns the newly parsed pubtype as `Ok(Some(pubtype))`. Returns
-    /// `Ok(None)` when iteration is complete and all pubtypes have already been
-    /// parsed and yielded. If an error occurs while parsing the next pubtype,
-    /// then this error is returned as `Err(e)`, and all subsequent calls return
-    /// `Ok(None)`.
-    pub fn next(&mut self) -> Result<Option<PubTypesEntry<R>>> {
-        self.0.next()
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for PubTypesEntryIter<R> {
-    type Item = PubTypesEntry<R>;
-    type Error = crate::read::Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        self.0.next()
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/reader.rs b/vendor/gimli-0.27.3/src/read/reader.rs
deleted file mode 100644
index e7dd4772c..000000000
--- a/vendor/gimli-0.27.3/src/read/reader.rs
+++ /dev/null
@@ -1,502 +0,0 @@
-#[cfg(feature = "read")]
-use alloc::borrow::Cow;
-use core::convert::TryInto;
-use core::fmt::Debug;
-use core::hash::Hash;
-use core::ops::{Add, AddAssign, Sub};
-
-use crate::common::Format;
-use crate::endianity::Endianity;
-use crate::leb128;
-use crate::read::{Error, Result};
-
-/// An identifier for an offset within a section reader.
-///
-/// This is used for error reporting. The meaning of this value is specific to
-/// each reader implementation. The values should be chosen to be unique amongst
-/// all readers. If values are not unique then errors may point to the wrong reader.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct ReaderOffsetId(pub u64);
-
-/// A trait for offsets with a DWARF section.
-///
-/// This allows consumers to choose a size that is appropriate for their address space.
-pub trait ReaderOffset:
-    Debug + Copy + Eq + Ord + Hash + Add<Output = Self> + AddAssign + Sub<Output = Self>
-{
-    /// Convert a u8 to an offset.
-    fn from_u8(offset: u8) -> Self;
-
-    /// Convert a u16 to an offset.
-    fn from_u16(offset: u16) -> Self;
-
-    /// Convert an i16 to an offset.
-    fn from_i16(offset: i16) -> Self;
-
-    /// Convert a u32 to an offset.
-    fn from_u32(offset: u32) -> Self;
-
-    /// Convert a u64 to an offset.
-    ///
-    /// Returns `Error::UnsupportedOffset` if the value is too large.
-    fn from_u64(offset: u64) -> Result<Self>;
-
-    /// Convert an offset to a u64.
-    fn into_u64(self) -> u64;
-
-    /// Wrapping (modular) addition. Computes `self + other`.
-    fn wrapping_add(self, other: Self) -> Self;
-
-    /// Checked subtraction. Computes `self - other`.
-    fn checked_sub(self, other: Self) -> Option<Self>;
-}
-
-impl ReaderOffset for u64 {
-    #[inline]
-    fn from_u8(offset: u8) -> Self {
-        u64::from(offset)
-    }
-
-    #[inline]
-    fn from_u16(offset: u16) -> Self {
-        u64::from(offset)
-    }
-
-    #[inline]
-    fn from_i16(offset: i16) -> Self {
-        offset as u64
-    }
-
-    #[inline]
-    fn from_u32(offset: u32) -> Self {
-        u64::from(offset)
-    }
-
-    #[inline]
-    fn from_u64(offset: u64) -> Result<Self> {
-        Ok(offset)
-    }
-
-    #[inline]
-    fn into_u64(self) -> u64 {
-        self
-    }
-
-    #[inline]
-    fn wrapping_add(self, other: Self) -> Self {
-        self.wrapping_add(other)
-    }
-
-    #[inline]
-    fn checked_sub(self, other: Self) -> Option<Self> {
-        self.checked_sub(other)
-    }
-}
-
-impl ReaderOffset for u32 {
-    #[inline]
-    fn from_u8(offset: u8) -> Self {
-        u32::from(offset)
-    }
-
-    #[inline]
-    fn from_u16(offset: u16) -> Self {
-        u32::from(offset)
-    }
-
-    #[inline]
-    fn from_i16(offset: i16) -> Self {
-        offset as u32
-    }
-
-    #[inline]
-    fn from_u32(offset: u32) -> Self {
-        offset
-    }
-
-    #[inline]
-    fn from_u64(offset64: u64) -> Result<Self> {
-        let offset = offset64 as u32;
-        if u64::from(offset) == offset64 {
-            Ok(offset)
-        } else {
-            Err(Error::UnsupportedOffset)
-        }
-    }
-
-    #[inline]
-    fn into_u64(self) -> u64 {
-        u64::from(self)
-    }
-
-    #[inline]
-    fn wrapping_add(self, other: Self) -> Self {
-        self.wrapping_add(other)
-    }
-
-    #[inline]
-    fn checked_sub(self, other: Self) -> Option<Self> {
-        self.checked_sub(other)
-    }
-}
-
-impl ReaderOffset for usize {
-    #[inline]
-    fn from_u8(offset: u8) -> Self {
-        offset as usize
-    }
-
-    #[inline]
-    fn from_u16(offset: u16) -> Self {
-        offset as usize
-    }
-
-    #[inline]
-    fn from_i16(offset: i16) -> Self {
-        offset as usize
-    }
-
-    #[inline]
-    fn from_u32(offset: u32) -> Self {
-        offset as usize
-    }
-
-    #[inline]
-    fn from_u64(offset64: u64) -> Result<Self> {
-        let offset = offset64 as usize;
-        if offset as u64 == offset64 {
-            Ok(offset)
-        } else {
-            Err(Error::UnsupportedOffset)
-        }
-    }
-
-    #[inline]
-    fn into_u64(self) -> u64 {
-        self as u64
-    }
-
-    #[inline]
-    fn wrapping_add(self, other: Self) -> Self {
-        self.wrapping_add(other)
-    }
-
-    #[inline]
-    fn checked_sub(self, other: Self) -> Option<Self> {
-        self.checked_sub(other)
-    }
-}
-
-#[cfg(not(feature = "read"))]
-pub(crate) mod seal_if_no_alloc {
-    #[derive(Debug)]
-    pub struct Sealed;
-}
-
-/// A trait for reading the data from a DWARF section.
-///
-/// All read operations advance the section offset of the reader
-/// unless specified otherwise.
-///
-/// ## Choosing a `Reader` Implementation
-///
-/// `gimli` comes with a few different `Reader` implementations and lets you
-/// choose the one that is right for your use case. A `Reader` is essentially a
-/// view into the raw bytes that make up some DWARF, but this view might borrow
-/// the underlying data or use reference counting ownership, and it might be
-/// thread safe or not.
-///
-/// | Implementation    | Ownership         | Thread Safe | Notes |
-/// |:------------------|:------------------|:------------|:------|
-/// | [`EndianSlice`](./struct.EndianSlice.html)        | Borrowed          | Yes         | Fastest, but requires that all of your code work with borrows. |
-/// | [`EndianRcSlice`](./struct.EndianRcSlice.html)    | Reference counted | No          | Shared ownership via reference counting, which alleviates the borrow restrictions of `EndianSlice` but imposes reference counting increments and decrements. Cannot be sent across threads, because the reference count is not atomic. |
-/// | [`EndianArcSlice`](./struct.EndianArcSlice.html)  | Reference counted | Yes         | The same as `EndianRcSlice`, but uses atomic reference counting, and therefore reference counting operations are slower but `EndianArcSlice`s may be sent across threads. |
-/// | [`EndianReader<T>`](./struct.EndianReader.html)   | Same as `T`       | Same as `T` | Escape hatch for easily defining your own type of `Reader`. |
-pub trait Reader: Debug + Clone {
-    /// The endianity of bytes that are read.
-    type Endian: Endianity;
-
-    /// The type used for offsets and lengths.
-    type Offset: ReaderOffset;
-
-    /// Return the endianity of bytes that are read.
-    fn endian(&self) -> Self::Endian;
-
-    /// Return the number of bytes remaining.
-    fn len(&self) -> Self::Offset;
-
-    /// Set the number of bytes remaining to zero.
-    fn empty(&mut self);
-
-    /// Set the number of bytes remaining to the specified length.
-    fn truncate(&mut self, len: Self::Offset) -> Result<()>;
-
-    /// Return the offset of this reader's data relative to the start of
-    /// the given base reader's data.
-    ///
-    /// May panic if this reader's data is not contained within the given
-    /// base reader's data.
-    fn offset_from(&self, base: &Self) -> Self::Offset;
-
-    /// Return an identifier for the current reader offset.
-    fn offset_id(&self) -> ReaderOffsetId;
-
-    /// Return the offset corresponding to the given `id` if
-    /// it is associated with this reader.
-    fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<Self::Offset>;
-
-    /// Find the index of the first occurrence of the given byte.
-    /// The offset of the reader is not changed.
-    fn find(&self, byte: u8) -> Result<Self::Offset>;
-
-    /// Discard the specified number of bytes.
-    fn skip(&mut self, len: Self::Offset) -> Result<()>;
-
-    /// Split a reader in two.
-    ///
-    /// A new reader is returned that can be used to read the next
-    /// `len` bytes, and `self` is advanced so that it reads the remainder.
-    fn split(&mut self, len: Self::Offset) -> Result<Self>;
-
-    /// This trait cannot be implemented if "read" feature is not enabled.
-    ///
-    /// `Reader` trait has a few methods that depend on `alloc` crate.
-    /// Disallowing `Reader` trait implementation prevents a crate that only depends on
-    /// "read-core" from being broken if another crate depending on `gimli` enables
-    /// "read" feature.
-    #[cfg(not(feature = "read"))]
-    fn cannot_implement() -> seal_if_no_alloc::Sealed;
-
-    /// Return all remaining data as a clone-on-write slice.
-    ///
-    /// The slice will be borrowed where possible, but some readers may
-    /// always return an owned vector.
-    ///
-    /// Does not advance the reader.
-    #[cfg(feature = "read")]
-    fn to_slice(&self) -> Result<Cow<[u8]>>;
-
-    /// Convert all remaining data to a clone-on-write string.
-    ///
-    /// The string will be borrowed where possible, but some readers may
-    /// always return an owned string.
-    ///
-    /// Does not advance the reader.
-    ///
-    /// Returns an error if the data contains invalid characters.
-    #[cfg(feature = "read")]
-    fn to_string(&self) -> Result<Cow<str>>;
-
-    /// Convert all remaining data to a clone-on-write string, including invalid characters.
-    ///
-    /// The string will be borrowed where possible, but some readers may
-    /// always return an owned string.
-    ///
-    /// Does not advance the reader.
-    #[cfg(feature = "read")]
-    fn to_string_lossy(&self) -> Result<Cow<str>>;
-
-    /// Read exactly `buf.len()` bytes into `buf`.
-    fn read_slice(&mut self, buf: &mut [u8]) -> Result<()>;
-
-    /// Read a u8 array.
-    #[inline]
-    fn read_u8_array<A>(&mut self) -> Result<A>
-    where
-        A: Sized + Default + AsMut<[u8]>,
-    {
-        let mut val = Default::default();
-        self.read_slice(<A as AsMut<[u8]>>::as_mut(&mut val))?;
-        Ok(val)
-    }
-
-    /// Return true if the number of bytes remaining is zero.
-    #[inline]
-    fn is_empty(&self) -> bool {
-        self.len() == Self::Offset::from_u8(0)
-    }
-
-    /// Read a u8.
-    #[inline]
-    fn read_u8(&mut self) -> Result<u8> {
-        let a: [u8; 1] = self.read_u8_array()?;
-        Ok(a[0])
-    }
-
-    /// Read an i8.
-    #[inline]
-    fn read_i8(&mut self) -> Result<i8> {
-        let a: [u8; 1] = self.read_u8_array()?;
-        Ok(a[0] as i8)
-    }
-
-    /// Read a u16.
-    #[inline]
-    fn read_u16(&mut self) -> Result<u16> {
-        let a: [u8; 2] = self.read_u8_array()?;
-        Ok(self.endian().read_u16(&a))
-    }
-
-    /// Read an i16.
-    #[inline]
-    fn read_i16(&mut self) -> Result<i16> {
-        let a: [u8; 2] = self.read_u8_array()?;
-        Ok(self.endian().read_i16(&a))
-    }
-
-    /// Read a u32.
-    #[inline]
-    fn read_u32(&mut self) -> Result<u32> {
-        let a: [u8; 4] = self.read_u8_array()?;
-        Ok(self.endian().read_u32(&a))
-    }
-
-    /// Read an i32.
-    #[inline]
-    fn read_i32(&mut self) -> Result<i32> {
-        let a: [u8; 4] = self.read_u8_array()?;
-        Ok(self.endian().read_i32(&a))
-    }
-
-    /// Read a u64.
-    #[inline]
-    fn read_u64(&mut self) -> Result<u64> {
-        let a: [u8; 8] = self.read_u8_array()?;
-        Ok(self.endian().read_u64(&a))
-    }
-
-    /// Read an i64.
-    #[inline]
-    fn read_i64(&mut self) -> Result<i64> {
-        let a: [u8; 8] = self.read_u8_array()?;
-        Ok(self.endian().read_i64(&a))
-    }
-
-    /// Read a f32.
-    #[inline]
-    fn read_f32(&mut self) -> Result<f32> {
-        let a: [u8; 4] = self.read_u8_array()?;
-        Ok(self.endian().read_f32(&a))
-    }
-
-    /// Read a f64.
-    #[inline]
-    fn read_f64(&mut self) -> Result<f64> {
-        let a: [u8; 8] = self.read_u8_array()?;
-        Ok(self.endian().read_f64(&a))
-    }
-
-    /// Read an unsigned n-bytes integer u64.
-    ///
-    /// # Panics
-    ///
-    /// Panics when nbytes < 1 or nbytes > 8
-    #[inline]
-    fn read_uint(&mut self, n: usize) -> Result<u64> {
-        let mut buf = [0; 8];
-        self.read_slice(&mut buf[..n])?;
-        Ok(self.endian().read_uint(&buf[..n]))
-    }
-
-    /// Read a null-terminated slice, and return it (excluding the null).
-    fn read_null_terminated_slice(&mut self) -> Result<Self> {
-        let idx = self.find(0)?;
-        let val = self.split(idx)?;
-        self.skip(Self::Offset::from_u8(1))?;
-        Ok(val)
-    }
-
-    /// Skip a LEB128 encoded integer.
-    fn skip_leb128(&mut self) -> Result<()> {
-        leb128::read::skip(self)
-    }
-
-    /// Read an unsigned LEB128 encoded integer.
-    fn read_uleb128(&mut self) -> Result<u64> {
-        leb128::read::unsigned(self)
-    }
-
-    /// Read an unsigned LEB128 encoded u32.
-    fn read_uleb128_u32(&mut self) -> Result<u32> {
-        leb128::read::unsigned(self)?
-            .try_into()
-            .map_err(|_| Error::BadUnsignedLeb128)
-    }
-
-    /// Read an unsigned LEB128 encoded u16.
-    fn read_uleb128_u16(&mut self) -> Result<u16> {
-        leb128::read::u16(self)
-    }
-
-    /// Read a signed LEB128 encoded integer.
-    fn read_sleb128(&mut self) -> Result<i64> {
-        leb128::read::signed(self)
-    }
-
-    /// Read an initial length field.
-    ///
-    /// This field is encoded as either a 32-bit length or
-    /// a 64-bit length, and the returned `Format` indicates which.
-    fn read_initial_length(&mut self) -> Result<(Self::Offset, Format)> {
-        const MAX_DWARF_32_UNIT_LENGTH: u32 = 0xffff_fff0;
-        const DWARF_64_INITIAL_UNIT_LENGTH: u32 = 0xffff_ffff;
-
-        let val = self.read_u32()?;
-        if val < MAX_DWARF_32_UNIT_LENGTH {
-            Ok((Self::Offset::from_u32(val), Format::Dwarf32))
-        } else if val == DWARF_64_INITIAL_UNIT_LENGTH {
-            let val = self.read_u64().and_then(Self::Offset::from_u64)?;
-            Ok((val, Format::Dwarf64))
-        } else {
-            Err(Error::UnknownReservedLength)
-        }
-    }
-
-    /// Read an address-sized integer, and return it as a `u64`.
-    fn read_address(&mut self, address_size: u8) -> Result<u64> {
-        match address_size {
-            1 => self.read_u8().map(u64::from),
-            2 => self.read_u16().map(u64::from),
-            4 => self.read_u32().map(u64::from),
-            8 => self.read_u64(),
-            otherwise => Err(Error::UnsupportedAddressSize(otherwise)),
-        }
-    }
-
-    /// Parse a word-sized integer according to the DWARF format.
-    ///
-    /// These are always used to encode section offsets or lengths,
-    /// and so have a type of `Self::Offset`.
-    fn read_word(&mut self, format: Format) -> Result<Self::Offset> {
-        match format {
-            Format::Dwarf32 => self.read_u32().map(Self::Offset::from_u32),
-            Format::Dwarf64 => self.read_u64().and_then(Self::Offset::from_u64),
-        }
-    }
-
-    /// Parse a word-sized section length according to the DWARF format.
-    #[inline]
-    fn read_length(&mut self, format: Format) -> Result<Self::Offset> {
-        self.read_word(format)
-    }
-
-    /// Parse a word-sized section offset according to the DWARF format.
-    #[inline]
-    fn read_offset(&mut self, format: Format) -> Result<Self::Offset> {
-        self.read_word(format)
-    }
-
-    /// Parse a section offset of the given size.
-    ///
-    /// This is used for `DW_FORM_ref_addr` values in DWARF version 2.
-    fn read_sized_offset(&mut self, size: u8) -> Result<Self::Offset> {
-        match size {
-            1 => self.read_u8().map(u64::from),
-            2 => self.read_u16().map(u64::from),
-            4 => self.read_u32().map(u64::from),
-            8 => self.read_u64(),
-            otherwise => Err(Error::UnsupportedOffsetSize(otherwise)),
-        }
-        .and_then(Self::Offset::from_u64)
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/rnglists.rs b/vendor/gimli-0.27.3/src/read/rnglists.rs
deleted file mode 100644
index 12e3e04ee..000000000
--- a/vendor/gimli-0.27.3/src/read/rnglists.rs
+++ /dev/null
@@ -1,1458 +0,0 @@
-use crate::common::{
-    DebugAddrBase, DebugAddrIndex, DebugRngListsBase, DebugRngListsIndex, DwarfFileType, Encoding,
-    RangeListsOffset, SectionId,
-};
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::read::{
-    lists::ListsHeader, DebugAddr, EndianSlice, Error, Reader, ReaderOffset, ReaderOffsetId,
-    Result, Section,
-};
-
-/// The raw contents of the `.debug_ranges` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugRanges<R> {
-    pub(crate) section: R,
-}
-
-impl<'input, Endian> DebugRanges<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugRanges` instance from the data in the `.debug_ranges`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_ranges` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugRanges, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_ranges_section_somehow = || &buf;
-    /// let debug_ranges = DebugRanges::new(read_debug_ranges_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R> Section<R> for DebugRanges<R> {
-    fn id() -> SectionId {
-        SectionId::DebugRanges
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugRanges<R> {
-    fn from(section: R) -> Self {
-        DebugRanges { section }
-    }
-}
-
-/// The `DebugRngLists` struct represents the contents of the
-/// `.debug_rnglists` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugRngLists<R> {
-    section: R,
-}
-
-impl<'input, Endian> DebugRngLists<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugRngLists` instance from the data in the
-    /// `.debug_rnglists` section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_rnglists`
-    /// section and present it as a `&[u8]` slice. That means using some ELF
-    /// loader on Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugRngLists, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_rnglists_section_somehow = || &buf;
-    /// let debug_rnglists =
-    ///     DebugRngLists::new(read_debug_rnglists_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(section, endian))
-    }
-}
-
-impl<R> Section<R> for DebugRngLists<R> {
-    fn id() -> SectionId {
-        SectionId::DebugRngLists
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugRngLists<R> {
-    fn from(section: R) -> Self {
-        DebugRngLists { section }
-    }
-}
-
-#[allow(unused)]
-pub(crate) type RngListsHeader = ListsHeader;
-
-impl<Offset> DebugRngListsBase<Offset>
-where
-    Offset: ReaderOffset,
-{
-    /// Returns a `DebugRngListsBase` with the default value of DW_AT_rnglists_base
-    /// for the given `Encoding` and `DwarfFileType`.
-    pub fn default_for_encoding_and_file(
-        encoding: Encoding,
-        file_type: DwarfFileType,
-    ) -> DebugRngListsBase<Offset> {
-        if encoding.version >= 5 && file_type == DwarfFileType::Dwo {
-            // In .dwo files, the compiler omits the DW_AT_rnglists_base attribute (because there is
-            // only a single unit in the file) but we must skip past the header, which the attribute
-            // would normally do for us.
-            DebugRngListsBase(Offset::from_u8(RngListsHeader::size_for_encoding(encoding)))
-        } else {
-            DebugRngListsBase(Offset::from_u8(0))
-        }
-    }
-}
-
-/// The DWARF data found in `.debug_ranges` and `.debug_rnglists` sections.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct RangeLists<R> {
-    debug_ranges: DebugRanges<R>,
-    debug_rnglists: DebugRngLists<R>,
-}
-
-impl<R> RangeLists<R> {
-    /// Construct a new `RangeLists` instance from the data in the `.debug_ranges` and
-    /// `.debug_rnglists` sections.
-    pub fn new(debug_ranges: DebugRanges<R>, debug_rnglists: DebugRngLists<R>) -> RangeLists<R> {
-        RangeLists {
-            debug_ranges,
-            debug_rnglists,
-        }
-    }
-
-    /// Return the `.debug_ranges` section.
-    pub fn debug_ranges(&self) -> &DebugRanges<R> {
-        &self.debug_ranges
-    }
-
-    /// Replace the `.debug_ranges` section.
-    ///
-    /// This is useful for `.dwo` files when using the GNU split-dwarf extension to DWARF 4.
-    pub fn set_debug_ranges(&mut self, debug_ranges: DebugRanges<R>) {
-        self.debug_ranges = debug_ranges;
-    }
-
-    /// Return the `.debug_rnglists` section.
-    pub fn debug_rnglists(&self) -> &DebugRngLists<R> {
-        &self.debug_rnglists
-    }
-}
-
-impl<T> RangeLists<T> {
-    /// Create a `RangeLists` that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::RangeLists<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> RangeLists<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        RangeLists {
-            debug_ranges: borrow(&self.debug_ranges.section).into(),
-            debug_rnglists: borrow(&self.debug_rnglists.section).into(),
-        }
-    }
-}
-
-impl<R: Reader> RangeLists<R> {
-    /// Iterate over the `Range` list entries starting at the given offset.
-    ///
-    /// The `unit_version` and `address_size` must match the compilation unit that the
-    /// offset was contained in.
-    ///
-    /// The `base_address` should be obtained from the `DW_AT_low_pc` attribute in the
-    /// `DW_TAG_compile_unit` entry for the compilation unit that contains this range list.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn ranges(
-        &self,
-        offset: RangeListsOffset<R::Offset>,
-        unit_encoding: Encoding,
-        base_address: u64,
-        debug_addr: &DebugAddr<R>,
-        debug_addr_base: DebugAddrBase<R::Offset>,
-    ) -> Result<RngListIter<R>> {
-        Ok(RngListIter::new(
-            self.raw_ranges(offset, unit_encoding)?,
-            base_address,
-            debug_addr.clone(),
-            debug_addr_base,
-        ))
-    }
-
-    /// Iterate over the `RawRngListEntry`ies starting at the given offset.
-    ///
-    /// The `unit_encoding` must match the compilation unit that the
-    /// offset was contained in.
-    ///
-    /// This iterator does not perform any processing of the range entries,
-    /// such as handling base addresses.
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn raw_ranges(
-        &self,
-        offset: RangeListsOffset<R::Offset>,
-        unit_encoding: Encoding,
-    ) -> Result<RawRngListIter<R>> {
-        let (mut input, format) = if unit_encoding.version <= 4 {
-            (self.debug_ranges.section.clone(), RangeListsFormat::Bare)
-        } else {
-            (self.debug_rnglists.section.clone(), RangeListsFormat::Rle)
-        };
-        input.skip(offset.0)?;
-        Ok(RawRngListIter::new(input, unit_encoding, format))
-    }
-
-    /// Returns the `.debug_rnglists` offset at the given `base` and `index`.
-    ///
-    /// The `base` must be the `DW_AT_rnglists_base` value from the compilation unit DIE.
-    /// This is an offset that points to the first entry following the header.
-    ///
-    /// The `index` is the value of a `DW_FORM_rnglistx` attribute.
-    ///
-    /// The `unit_encoding` must match the compilation unit that the
-    /// index was contained in.
-    pub fn get_offset(
-        &self,
-        unit_encoding: Encoding,
-        base: DebugRngListsBase<R::Offset>,
-        index: DebugRngListsIndex<R::Offset>,
-    ) -> Result<RangeListsOffset<R::Offset>> {
-        let format = unit_encoding.format;
-        let input = &mut self.debug_rnglists.section.clone();
-        input.skip(base.0)?;
-        input.skip(R::Offset::from_u64(
-            index.0.into_u64() * u64::from(format.word_size()),
-        )?)?;
-        input
-            .read_offset(format)
-            .map(|x| RangeListsOffset(base.0 + x))
-    }
-
-    /// Call `Reader::lookup_offset_id` for each section, and return the first match.
-    pub fn lookup_offset_id(&self, id: ReaderOffsetId) -> Option<(SectionId, R::Offset)> {
-        self.debug_ranges
-            .lookup_offset_id(id)
-            .or_else(|| self.debug_rnglists.lookup_offset_id(id))
-    }
-}
-
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-enum RangeListsFormat {
-    /// The bare range list format used before DWARF 5.
-    Bare,
-    /// The DW_RLE encoded range list format used in DWARF 5.
-    Rle,
-}
-
-/// A raw iterator over an address range list.
-///
-/// This iterator does not perform any processing of the range entries,
-/// such as handling base addresses.
-#[derive(Debug)]
-pub struct RawRngListIter<R: Reader> {
-    input: R,
-    encoding: Encoding,
-    format: RangeListsFormat,
-}
-
-/// A raw entry in .debug_rnglists
-#[derive(Clone, Debug)]
-pub enum RawRngListEntry<T> {
-    /// A range from DWARF version <= 4.
-    AddressOrOffsetPair {
-        /// Start of range. May be an address or an offset.
-        begin: u64,
-        /// End of range. May be an address or an offset.
-        end: u64,
-    },
-    /// DW_RLE_base_address
-    BaseAddress {
-        /// base address
-        addr: u64,
-    },
-    /// DW_RLE_base_addressx
-    BaseAddressx {
-        /// base address
-        addr: DebugAddrIndex<T>,
-    },
-    /// DW_RLE_startx_endx
-    StartxEndx {
-        /// start of range
-        begin: DebugAddrIndex<T>,
-        /// end of range
-        end: DebugAddrIndex<T>,
-    },
-    /// DW_RLE_startx_length
-    StartxLength {
-        /// start of range
-        begin: DebugAddrIndex<T>,
-        /// length of range
-        length: u64,
-    },
-    /// DW_RLE_offset_pair
-    OffsetPair {
-        /// start of range
-        begin: u64,
-        /// end of range
-        end: u64,
-    },
-    /// DW_RLE_start_end
-    StartEnd {
-        /// start of range
-        begin: u64,
-        /// end of range
-        end: u64,
-    },
-    /// DW_RLE_start_length
-    StartLength {
-        /// start of range
-        begin: u64,
-        /// length of range
-        length: u64,
-    },
-}
-
-impl<T: ReaderOffset> RawRngListEntry<T> {
-    /// Parse a range entry from `.debug_rnglists`
-    fn parse<R: Reader<Offset = T>>(
-        input: &mut R,
-        encoding: Encoding,
-        format: RangeListsFormat,
-    ) -> Result<Option<Self>> {
-        Ok(match format {
-            RangeListsFormat::Bare => {
-                let range = RawRange::parse(input, encoding.address_size)?;
-                if range.is_end() {
-                    None
-                } else if range.is_base_address(encoding.address_size) {
-                    Some(RawRngListEntry::BaseAddress { addr: range.end })
-                } else {
-                    Some(RawRngListEntry::AddressOrOffsetPair {
-                        begin: range.begin,
-                        end: range.end,
-                    })
-                }
-            }
-            RangeListsFormat::Rle => match constants::DwRle(input.read_u8()?) {
-                constants::DW_RLE_end_of_list => None,
-                constants::DW_RLE_base_addressx => Some(RawRngListEntry::BaseAddressx {
-                    addr: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                }),
-                constants::DW_RLE_startx_endx => Some(RawRngListEntry::StartxEndx {
-                    begin: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                    end: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                }),
-                constants::DW_RLE_startx_length => Some(RawRngListEntry::StartxLength {
-                    begin: DebugAddrIndex(input.read_uleb128().and_then(R::Offset::from_u64)?),
-                    length: input.read_uleb128()?,
-                }),
-                constants::DW_RLE_offset_pair => Some(RawRngListEntry::OffsetPair {
-                    begin: input.read_uleb128()?,
-                    end: input.read_uleb128()?,
-                }),
-                constants::DW_RLE_base_address => Some(RawRngListEntry::BaseAddress {
-                    addr: input.read_address(encoding.address_size)?,
-                }),
-                constants::DW_RLE_start_end => Some(RawRngListEntry::StartEnd {
-                    begin: input.read_address(encoding.address_size)?,
-                    end: input.read_address(encoding.address_size)?,
-                }),
-                constants::DW_RLE_start_length => Some(RawRngListEntry::StartLength {
-                    begin: input.read_address(encoding.address_size)?,
-                    length: input.read_uleb128()?,
-                }),
-                _ => {
-                    return Err(Error::InvalidAddressRange);
-                }
-            },
-        })
-    }
-}
-
-impl<R: Reader> RawRngListIter<R> {
-    /// Construct a `RawRngListIter`.
-    fn new(input: R, encoding: Encoding, format: RangeListsFormat) -> RawRngListIter<R> {
-        RawRngListIter {
-            input,
-            encoding,
-            format,
-        }
-    }
-
-    /// Advance the iterator to the next range.
-    pub fn next(&mut self) -> Result<Option<RawRngListEntry<R::Offset>>> {
-        if self.input.is_empty() {
-            return Ok(None);
-        }
-
-        match RawRngListEntry::parse(&mut self.input, self.encoding, self.format) {
-            Ok(range) => {
-                if range.is_none() {
-                    self.input.empty();
-                }
-                Ok(range)
-            }
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for RawRngListIter<R> {
-    type Item = RawRngListEntry<R::Offset>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        RawRngListIter::next(self)
-    }
-}
-
-/// An iterator over an address range list.
-///
-/// This iterator internally handles processing of base addresses and different
-/// entry types.  Thus, it only returns range entries that are valid
-/// and already adjusted for the base address.
-#[derive(Debug)]
-pub struct RngListIter<R: Reader> {
-    raw: RawRngListIter<R>,
-    base_address: u64,
-    debug_addr: DebugAddr<R>,
-    debug_addr_base: DebugAddrBase<R::Offset>,
-}
-
-impl<R: Reader> RngListIter<R> {
-    /// Construct a `RngListIter`.
-    fn new(
-        raw: RawRngListIter<R>,
-        base_address: u64,
-        debug_addr: DebugAddr<R>,
-        debug_addr_base: DebugAddrBase<R::Offset>,
-    ) -> RngListIter<R> {
-        RngListIter {
-            raw,
-            base_address,
-            debug_addr,
-            debug_addr_base,
-        }
-    }
-
-    #[inline]
-    fn get_address(&self, index: DebugAddrIndex<R::Offset>) -> Result<u64> {
-        self.debug_addr
-            .get_address(self.raw.encoding.address_size, self.debug_addr_base, index)
-    }
-
-    /// Advance the iterator to the next range.
-    pub fn next(&mut self) -> Result<Option<Range>> {
-        loop {
-            let raw_range = match self.raw.next()? {
-                Some(range) => range,
-                None => return Ok(None),
-            };
-
-            let range = self.convert_raw(raw_range)?;
-            if range.is_some() {
-                return Ok(range);
-            }
-        }
-    }
-
-    /// Return the next raw range.
-    ///
-    /// The raw range should be passed to `convert_range`.
-    #[doc(hidden)]
-    pub fn next_raw(&mut self) -> Result<Option<RawRngListEntry<R::Offset>>> {
-        self.raw.next()
-    }
-
-    /// Convert a raw range into a range, and update the state of the iterator.
-    ///
-    /// The raw range should have been obtained from `next_raw`.
-    #[doc(hidden)]
-    pub fn convert_raw(&mut self, raw_range: RawRngListEntry<R::Offset>) -> Result<Option<Range>> {
-        let mask = !0 >> (64 - self.raw.encoding.address_size * 8);
-        let tombstone = if self.raw.encoding.version <= 4 {
-            mask - 1
-        } else {
-            mask
-        };
-
-        let range = match raw_range {
-            RawRngListEntry::BaseAddress { addr } => {
-                self.base_address = addr;
-                return Ok(None);
-            }
-            RawRngListEntry::BaseAddressx { addr } => {
-                self.base_address = self.get_address(addr)?;
-                return Ok(None);
-            }
-            RawRngListEntry::StartxEndx { begin, end } => {
-                let begin = self.get_address(begin)?;
-                let end = self.get_address(end)?;
-                Range { begin, end }
-            }
-            RawRngListEntry::StartxLength { begin, length } => {
-                let begin = self.get_address(begin)?;
-                let end = begin.wrapping_add(length) & mask;
-                Range { begin, end }
-            }
-            RawRngListEntry::AddressOrOffsetPair { begin, end }
-            | RawRngListEntry::OffsetPair { begin, end } => {
-                if self.base_address == tombstone {
-                    return Ok(None);
-                }
-                let mut range = Range { begin, end };
-                range.add_base_address(self.base_address, self.raw.encoding.address_size);
-                range
-            }
-            RawRngListEntry::StartEnd { begin, end } => Range { begin, end },
-            RawRngListEntry::StartLength { begin, length } => {
-                let end = begin.wrapping_add(length) & mask;
-                Range { begin, end }
-            }
-        };
-
-        if range.begin == tombstone {
-            return Ok(None);
-        }
-
-        if range.begin > range.end {
-            self.raw.input.empty();
-            return Err(Error::InvalidAddressRange);
-        }
-
-        Ok(Some(range))
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for RngListIter<R> {
-    type Item = Range;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        RngListIter::next(self)
-    }
-}
-
-/// A raw address range from the `.debug_ranges` section.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub(crate) struct RawRange {
-    /// The beginning address of the range.
-    pub begin: u64,
-
-    /// The first address past the end of the range.
-    pub end: u64,
-}
-
-impl RawRange {
-    /// Check if this is a range end entry.
-    #[inline]
-    pub fn is_end(&self) -> bool {
-        self.begin == 0 && self.end == 0
-    }
-
-    /// Check if this is a base address selection entry.
-    ///
-    /// A base address selection entry changes the base address that subsequent
-    /// range entries are relative to.
-    #[inline]
-    pub fn is_base_address(&self, address_size: u8) -> bool {
-        self.begin == !0 >> (64 - address_size * 8)
-    }
-
-    /// Parse an address range entry from `.debug_ranges` or `.debug_loc`.
-    #[inline]
-    pub fn parse<R: Reader>(input: &mut R, address_size: u8) -> Result<RawRange> {
-        let begin = input.read_address(address_size)?;
-        let end = input.read_address(address_size)?;
-        let range = RawRange { begin, end };
-        Ok(range)
-    }
-}
-
-/// An address range from the `.debug_ranges`, `.debug_rnglists`, or `.debug_aranges` sections.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct Range {
-    /// The beginning address of the range.
-    pub begin: u64,
-
-    /// The first address past the end of the range.
-    pub end: u64,
-}
-
-impl Range {
-    /// Add a base address to this range.
-    #[inline]
-    pub(crate) fn add_base_address(&mut self, base_address: u64, address_size: u8) {
-        let mask = !0 >> (64 - address_size * 8);
-        self.begin = base_address.wrapping_add(self.begin) & mask;
-        self.end = base_address.wrapping_add(self.end) & mask;
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::common::Format;
-    use crate::endianity::LittleEndian;
-    use crate::test_util::GimliSectionMethods;
-    use test_assembler::{Endian, Label, LabelMaker, Section};
-
-    #[test]
-    fn test_rnglists_32() {
-        let tombstone = !0u32;
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 4,
-        };
-        let section = Section::with_endian(Endian::Little)
-            .L32(0x0300_0000)
-            .L32(0x0301_0300)
-            .L32(0x0301_0400)
-            .L32(0x0301_0500)
-            .L32(tombstone)
-            .L32(0x0301_0600);
-        let buf = section.get_contents().unwrap();
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&buf, LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-
-        let start = Label::new();
-        let first = Label::new();
-        let size = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // Header
-            .mark(&start)
-            .L32(&size)
-            .L16(encoding.version)
-            .L8(encoding.address_size)
-            .L8(0)
-            .L32(0)
-            .mark(&first)
-            // An OffsetPair using the unit base address.
-            .L8(4).uleb(0x10200).uleb(0x10300)
-            // A base address selection followed by an OffsetPair.
-            .L8(5).L32(0x0200_0000)
-            .L8(4).uleb(0x10400).uleb(0x10500)
-            // An empty OffsetPair followed by a normal OffsetPair.
-            .L8(4).uleb(0x10600).uleb(0x10600)
-            .L8(4).uleb(0x10800).uleb(0x10900)
-            // A StartEnd
-            .L8(6).L32(0x201_0a00).L32(0x201_0b00)
-            // A StartLength
-            .L8(7).L32(0x201_0c00).uleb(0x100)
-            // An OffsetPair that starts at 0.
-            .L8(4).uleb(0).uleb(1)
-            // An OffsetPair that starts and ends at 0.
-            .L8(4).uleb(0).uleb(0)
-            // An OffsetPair that ends at -1.
-            .L8(5).L32(0)
-            .L8(4).uleb(0).uleb(0xffff_ffff)
-            // A BaseAddressx + OffsetPair
-            .L8(1).uleb(0)
-            .L8(4).uleb(0x10100).uleb(0x10200)
-            // A StartxEndx
-            .L8(2).uleb(1).uleb(2)
-            // A StartxLength
-            .L8(3).uleb(3).uleb(0x100)
-
-            // Tombstone entries, all of which should be ignored.
-            // A BaseAddressx that is a tombstone.
-            .L8(1).uleb(4)
-            .L8(4).uleb(0x11100).uleb(0x11200)
-            // A BaseAddress that is a tombstone.
-            .L8(5).L32(tombstone)
-            .L8(4).uleb(0x11300).uleb(0x11400)
-            // A StartxEndx that is a tombstone.
-            .L8(2).uleb(4).uleb(5)
-            // A StartxLength that is a tombstone.
-            .L8(3).uleb(4).uleb(0x100)
-            // A StartEnd that is a tombstone.
-            .L8(6).L32(tombstone).L32(0x201_1500)
-            // A StartLength that is a tombstone.
-            .L8(7).L32(tombstone).uleb(0x100)
-            // A StartEnd (not ignored)
-            .L8(6).L32(0x201_1600).L32(0x201_1700)
-
-            // A range end.
-            .L8(0)
-            // Some extra data.
-            .L32(0xffff_ffff);
-        size.set_const((&section.here() - &start - 4) as u64);
-
-        let buf = section.get_contents().unwrap();
-        let debug_ranges = DebugRanges::new(&[], LittleEndian);
-        let debug_rnglists = DebugRngLists::new(&buf, LittleEndian);
-        let rnglists = RangeLists::new(debug_ranges, debug_rnglists);
-        let offset = RangeListsOffset((&first - &start) as usize);
-        let mut ranges = rnglists
-            .ranges(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0101_0200,
-                end: 0x0101_0300,
-            }))
-        );
-
-        // A base address selection followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0400,
-                end: 0x0201_0500,
-            }))
-        );
-
-        // An empty range followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0600,
-                end: 0x0201_0600,
-            }))
-        );
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0800,
-                end: 0x0201_0900,
-            }))
-        );
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0a00,
-                end: 0x0201_0b00,
-            }))
-        );
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0c00,
-                end: 0x0201_0d00,
-            }))
-        );
-
-        // A range that starts at 0.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0200_0000,
-                end: 0x0200_0001,
-            }))
-        );
-
-        // A range that starts and ends at 0.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0200_0000,
-                end: 0x0200_0000,
-            }))
-        );
-
-        // A range that ends at -1.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0000_0000,
-                end: 0xffff_ffff,
-            }))
-        );
-
-        // A BaseAddressx + OffsetPair
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0301_0100,
-                end: 0x0301_0200,
-            }))
-        );
-
-        // A StartxEndx
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0301_0300,
-                end: 0x0301_0400,
-            }))
-        );
-
-        // A StartxLength
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0301_0500,
-                end: 0x0301_0600,
-            }))
-        );
-
-        // A StartEnd range following the tombstones
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_1600,
-                end: 0x0201_1700,
-            }))
-        );
-
-        // A range end.
-        assert_eq!(ranges.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut ranges = rnglists
-            .ranges(
-                RangeListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(ranges.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_rnglists_64() {
-        let tombstone = !0u64;
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let section = Section::with_endian(Endian::Little)
-            .L64(0x0300_0000)
-            .L64(0x0301_0300)
-            .L64(0x0301_0400)
-            .L64(0x0301_0500)
-            .L64(tombstone)
-            .L64(0x0301_0600);
-        let buf = section.get_contents().unwrap();
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&buf, LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-
-        let start = Label::new();
-        let first = Label::new();
-        let size = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // Header
-            .mark(&start)
-            .L32(0xffff_ffff)
-            .L64(&size)
-            .L16(encoding.version)
-            .L8(encoding.address_size)
-            .L8(0)
-            .L32(0)
-            .mark(&first)
-            // An OffsetPair using the unit base address.
-            .L8(4).uleb(0x10200).uleb(0x10300)
-            // A base address selection followed by an OffsetPair.
-            .L8(5).L64(0x0200_0000)
-            .L8(4).uleb(0x10400).uleb(0x10500)
-            // An empty OffsetPair followed by a normal OffsetPair.
-            .L8(4).uleb(0x10600).uleb(0x10600)
-            .L8(4).uleb(0x10800).uleb(0x10900)
-            // A StartEnd
-            .L8(6).L64(0x201_0a00).L64(0x201_0b00)
-            // A StartLength
-            .L8(7).L64(0x201_0c00).uleb(0x100)
-            // An OffsetPair that starts at 0.
-            .L8(4).uleb(0).uleb(1)
-            // An OffsetPair that starts and ends at 0.
-            .L8(4).uleb(0).uleb(0)
-            // An OffsetPair that ends at -1.
-            .L8(5).L64(0)
-            .L8(4).uleb(0).uleb(0xffff_ffff)
-            // A BaseAddressx + OffsetPair
-            .L8(1).uleb(0)
-            .L8(4).uleb(0x10100).uleb(0x10200)
-            // A StartxEndx
-            .L8(2).uleb(1).uleb(2)
-            // A StartxLength
-            .L8(3).uleb(3).uleb(0x100)
-
-            // Tombstone entries, all of which should be ignored.
-            // A BaseAddressx that is a tombstone.
-            .L8(1).uleb(4)
-            .L8(4).uleb(0x11100).uleb(0x11200)
-            // A BaseAddress that is a tombstone.
-            .L8(5).L64(tombstone)
-            .L8(4).uleb(0x11300).uleb(0x11400)
-            // A StartxEndx that is a tombstone.
-            .L8(2).uleb(4).uleb(5)
-            // A StartxLength that is a tombstone.
-            .L8(3).uleb(4).uleb(0x100)
-            // A StartEnd that is a tombstone.
-            .L8(6).L64(tombstone).L64(0x201_1500)
-            // A StartLength that is a tombstone.
-            .L8(7).L64(tombstone).uleb(0x100)
-            // A StartEnd (not ignored)
-            .L8(6).L64(0x201_1600).L64(0x201_1700)
-
-            // A range end.
-            .L8(0)
-            // Some extra data.
-            .L32(0xffff_ffff);
-        size.set_const((&section.here() - &start - 12) as u64);
-
-        let buf = section.get_contents().unwrap();
-        let debug_ranges = DebugRanges::new(&[], LittleEndian);
-        let debug_rnglists = DebugRngLists::new(&buf, LittleEndian);
-        let rnglists = RangeLists::new(debug_ranges, debug_rnglists);
-        let offset = RangeListsOffset((&first - &start) as usize);
-        let mut ranges = rnglists
-            .ranges(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0101_0200,
-                end: 0x0101_0300,
-            }))
-        );
-
-        // A base address selection followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0400,
-                end: 0x0201_0500,
-            }))
-        );
-
-        // An empty range followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0600,
-                end: 0x0201_0600,
-            }))
-        );
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0800,
-                end: 0x0201_0900,
-            }))
-        );
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0a00,
-                end: 0x0201_0b00,
-            }))
-        );
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0c00,
-                end: 0x0201_0d00,
-            }))
-        );
-
-        // A range that starts at 0.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0200_0000,
-                end: 0x0200_0001,
-            }))
-        );
-
-        // A range that starts and ends at 0.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0200_0000,
-                end: 0x0200_0000,
-            }))
-        );
-
-        // A range that ends at -1.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0000_0000,
-                end: 0xffff_ffff,
-            }))
-        );
-
-        // A BaseAddressx + OffsetPair
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0301_0100,
-                end: 0x0301_0200,
-            }))
-        );
-
-        // A StartxEndx
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0301_0300,
-                end: 0x0301_0400,
-            }))
-        );
-
-        // A StartxLength
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0301_0500,
-                end: 0x0301_0600,
-            }))
-        );
-
-        // A StartEnd range following the tombstones
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_1600,
-                end: 0x0201_1700,
-            }))
-        );
-
-        // A range end.
-        assert_eq!(ranges.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut ranges = rnglists
-            .ranges(
-                RangeListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(ranges.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_raw_range() {
-        let range = RawRange {
-            begin: 0,
-            end: 0xffff_ffff,
-        };
-        assert!(!range.is_end());
-        assert!(!range.is_base_address(4));
-        assert!(!range.is_base_address(8));
-
-        let range = RawRange { begin: 0, end: 0 };
-        assert!(range.is_end());
-        assert!(!range.is_base_address(4));
-        assert!(!range.is_base_address(8));
-
-        let range = RawRange {
-            begin: 0xffff_ffff,
-            end: 0,
-        };
-        assert!(!range.is_end());
-        assert!(range.is_base_address(4));
-        assert!(!range.is_base_address(8));
-
-        let range = RawRange {
-            begin: 0xffff_ffff_ffff_ffff,
-            end: 0,
-        };
-        assert!(!range.is_end());
-        assert!(!range.is_base_address(4));
-        assert!(range.is_base_address(8));
-    }
-
-    #[test]
-    fn test_ranges_32() {
-        let tombstone = !0u32 - 1;
-        let start = Label::new();
-        let first = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // A range before the offset.
-            .mark(&start)
-            .L32(0x10000).L32(0x10100)
-            .mark(&first)
-            // A normal range.
-            .L32(0x10200).L32(0x10300)
-            // A base address selection followed by a normal range.
-            .L32(0xffff_ffff).L32(0x0200_0000)
-            .L32(0x10400).L32(0x10500)
-            // An empty range followed by a normal range.
-            .L32(0x10600).L32(0x10600)
-            .L32(0x10800).L32(0x10900)
-            // A range that starts at 0.
-            .L32(0).L32(1)
-            // A range that ends at -1.
-            .L32(0xffff_ffff).L32(0x0000_0000)
-            .L32(0).L32(0xffff_ffff)
-            // A normal range with tombstone.
-            .L32(tombstone).L32(tombstone)
-            // A base address selection with tombstone followed by a normal range.
-            .L32(0xffff_ffff).L32(tombstone)
-            .L32(0x10a00).L32(0x10b00)
-            // A range end.
-            .L32(0).L32(0)
-            // Some extra data.
-            .L32(0);
-
-        let buf = section.get_contents().unwrap();
-        let debug_ranges = DebugRanges::new(&buf, LittleEndian);
-        let debug_rnglists = DebugRngLists::new(&[], LittleEndian);
-        let rnglists = RangeLists::new(debug_ranges, debug_rnglists);
-        let offset = RangeListsOffset((&first - &start) as usize);
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&[], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut ranges = rnglists
-            .ranges(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0101_0200,
-                end: 0x0101_0300,
-            }))
-        );
-
-        // A base address selection followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0400,
-                end: 0x0201_0500,
-            }))
-        );
-
-        // An empty range followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0600,
-                end: 0x0201_0600,
-            }))
-        );
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0800,
-                end: 0x0201_0900,
-            }))
-        );
-
-        // A range that starts at 0.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0200_0000,
-                end: 0x0200_0001,
-            }))
-        );
-
-        // A range that ends at -1.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0000_0000,
-                end: 0xffff_ffff,
-            }))
-        );
-
-        // A range end.
-        assert_eq!(ranges.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut ranges = rnglists
-            .ranges(
-                RangeListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(ranges.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_ranges_64() {
-        let tombstone = !0u64 - 1;
-        let start = Label::new();
-        let first = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // A range before the offset.
-            .mark(&start)
-            .L64(0x10000).L64(0x10100)
-            .mark(&first)
-            // A normal range.
-            .L64(0x10200).L64(0x10300)
-            // A base address selection followed by a normal range.
-            .L64(0xffff_ffff_ffff_ffff).L64(0x0200_0000)
-            .L64(0x10400).L64(0x10500)
-            // An empty range followed by a normal range.
-            .L64(0x10600).L64(0x10600)
-            .L64(0x10800).L64(0x10900)
-            // A range that starts at 0.
-            .L64(0).L64(1)
-            // A range that ends at -1.
-            .L64(0xffff_ffff_ffff_ffff).L64(0x0000_0000)
-            .L64(0).L64(0xffff_ffff_ffff_ffff)
-            // A normal range with tombstone.
-            .L64(tombstone).L64(tombstone)
-            // A base address selection with tombstone followed by a normal range.
-            .L64(0xffff_ffff_ffff_ffff).L64(tombstone)
-            .L64(0x10a00).L64(0x10b00)
-            // A range end.
-            .L64(0).L64(0)
-            // Some extra data.
-            .L64(0);
-
-        let buf = section.get_contents().unwrap();
-        let debug_ranges = DebugRanges::new(&buf, LittleEndian);
-        let debug_rnglists = DebugRngLists::new(&[], LittleEndian);
-        let rnglists = RangeLists::new(debug_ranges, debug_rnglists);
-        let offset = RangeListsOffset((&first - &start) as usize);
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&[], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 4,
-            address_size: 8,
-        };
-        let mut ranges = rnglists
-            .ranges(offset, encoding, 0x0100_0000, debug_addr, debug_addr_base)
-            .unwrap();
-
-        // A normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0101_0200,
-                end: 0x0101_0300,
-            }))
-        );
-
-        // A base address selection followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0400,
-                end: 0x0201_0500,
-            }))
-        );
-
-        // An empty range followed by a normal range.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0600,
-                end: 0x0201_0600,
-            }))
-        );
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0201_0800,
-                end: 0x0201_0900,
-            }))
-        );
-
-        // A range that starts at 0.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0200_0000,
-                end: 0x0200_0001,
-            }))
-        );
-
-        // A range that ends at -1.
-        assert_eq!(
-            ranges.next(),
-            Ok(Some(Range {
-                begin: 0x0,
-                end: 0xffff_ffff_ffff_ffff,
-            }))
-        );
-
-        // A range end.
-        assert_eq!(ranges.next(), Ok(None));
-
-        // An offset at the end of buf.
-        let mut ranges = rnglists
-            .ranges(
-                RangeListsOffset(buf.len()),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(ranges.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_ranges_invalid() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            // An invalid range.
-            .L32(0x20000).L32(0x10000)
-            // An invalid range after wrapping.
-            .L32(0x20000).L32(0xff01_0000);
-
-        let buf = section.get_contents().unwrap();
-        let debug_ranges = DebugRanges::new(&buf, LittleEndian);
-        let debug_rnglists = DebugRngLists::new(&[], LittleEndian);
-        let rnglists = RangeLists::new(debug_ranges, debug_rnglists);
-        let debug_addr = &DebugAddr::from(EndianSlice::new(&[], LittleEndian));
-        let debug_addr_base = DebugAddrBase(0);
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-
-        // An invalid range.
-        let mut ranges = rnglists
-            .ranges(
-                RangeListsOffset(0x0),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(ranges.next(), Err(Error::InvalidAddressRange));
-
-        // An invalid range after wrapping.
-        let mut ranges = rnglists
-            .ranges(
-                RangeListsOffset(0x8),
-                encoding,
-                0x0100_0000,
-                debug_addr,
-                debug_addr_base,
-            )
-            .unwrap();
-        assert_eq!(ranges.next(), Err(Error::InvalidAddressRange));
-
-        // An invalid offset.
-        match rnglists.ranges(
-            RangeListsOffset(buf.len() + 1),
-            encoding,
-            0x0100_0000,
-            debug_addr,
-            debug_addr_base,
-        ) {
-            Err(Error::UnexpectedEof(_)) => {}
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_get_offset() {
-        for format in vec![Format::Dwarf32, Format::Dwarf64] {
-            let encoding = Encoding {
-                format,
-                version: 5,
-                address_size: 4,
-            };
-
-            let zero = Label::new();
-            let length = Label::new();
-            let start = Label::new();
-            let first = Label::new();
-            let end = Label::new();
-            let mut section = Section::with_endian(Endian::Little)
-                .mark(&zero)
-                .initial_length(format, &length, &start)
-                .D16(encoding.version)
-                .D8(encoding.address_size)
-                .D8(0)
-                .D32(20)
-                .mark(&first);
-            for i in 0..20 {
-                section = section.word(format.word_size(), 1000 + i);
-            }
-            section = section.mark(&end);
-            length.set_const((&end - &start) as u64);
-            let section = section.get_contents().unwrap();
-
-            let debug_ranges = DebugRanges::from(EndianSlice::new(&[], LittleEndian));
-            let debug_rnglists = DebugRngLists::from(EndianSlice::new(&section, LittleEndian));
-            let ranges = RangeLists::new(debug_ranges, debug_rnglists);
-
-            let base = DebugRngListsBase((&first - &zero) as usize);
-            assert_eq!(
-                ranges.get_offset(encoding, base, DebugRngListsIndex(0)),
-                Ok(RangeListsOffset(base.0 + 1000))
-            );
-            assert_eq!(
-                ranges.get_offset(encoding, base, DebugRngListsIndex(19)),
-                Ok(RangeListsOffset(base.0 + 1019))
-            );
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/str.rs b/vendor/gimli-0.27.3/src/read/str.rs
deleted file mode 100644
index c6b87d8f9..000000000
--- a/vendor/gimli-0.27.3/src/read/str.rs
+++ /dev/null
@@ -1,321 +0,0 @@
-use crate::common::{
-    DebugLineStrOffset, DebugStrOffset, DebugStrOffsetsBase, DebugStrOffsetsIndex, DwarfFileType,
-    Encoding, SectionId,
-};
-use crate::endianity::Endianity;
-use crate::read::{EndianSlice, Reader, ReaderOffset, Result, Section};
-use crate::Format;
-
-/// The `DebugStr` struct represents the DWARF strings
-/// found in the `.debug_str` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugStr<R> {
-    debug_str_section: R,
-}
-
-impl<'input, Endian> DebugStr<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugStr` instance from the data in the `.debug_str`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_str` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugStr, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_str_section_somehow = || &buf;
-    /// let debug_str = DebugStr::new(read_debug_str_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_str_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_str_section, endian))
-    }
-}
-
-impl<R: Reader> DebugStr<R> {
-    /// Lookup a string from the `.debug_str` section by DebugStrOffset.
-    ///
-    /// ```
-    /// use gimli::{DebugStr, DebugStrOffset, LittleEndian};
-    ///
-    /// # let buf = [0x01, 0x02, 0x00];
-    /// # let offset = DebugStrOffset(0);
-    /// # let read_debug_str_section_somehow = || &buf;
-    /// # let debug_str_offset_somehow = || offset;
-    /// let debug_str = DebugStr::new(read_debug_str_section_somehow(), LittleEndian);
-    /// println!("Found string {:?}", debug_str.get_str(debug_str_offset_somehow()));
-    /// ```
-    pub fn get_str(&self, offset: DebugStrOffset<R::Offset>) -> Result<R> {
-        let input = &mut self.debug_str_section.clone();
-        input.skip(offset.0)?;
-        input.read_null_terminated_slice()
-    }
-}
-
-impl<T> DebugStr<T> {
-    /// Create a `DebugStr` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugStr<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugStr<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.debug_str_section).into()
-    }
-}
-
-impl<R> Section<R> for DebugStr<R> {
-    fn id() -> SectionId {
-        SectionId::DebugStr
-    }
-
-    fn reader(&self) -> &R {
-        &self.debug_str_section
-    }
-}
-
-impl<R> From<R> for DebugStr<R> {
-    fn from(debug_str_section: R) -> Self {
-        DebugStr { debug_str_section }
-    }
-}
-
-/// The raw contents of the `.debug_str_offsets` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugStrOffsets<R> {
-    section: R,
-}
-
-impl<R: Reader> DebugStrOffsets<R> {
-    // TODO: add an iterator over the sets of entries in the section.
-    // This is not needed for common usage of the section though.
-
-    /// Returns the `.debug_str` offset at the given `base` and `index`.
-    ///
-    /// A set of entries in the `.debug_str_offsets` section consists of a header
-    /// followed by a series of string table offsets.
-    ///
-    /// The `base` must be the `DW_AT_str_offsets_base` value from the compilation unit DIE.
-    /// This is an offset that points to the first entry following the header.
-    ///
-    /// The `index` is the value of a `DW_FORM_strx` attribute.
-    ///
-    /// The `format` must be the DWARF format of the compilation unit. This format must
-    /// match the header. However, note that we do not parse the header to validate this,
-    /// since locating the header is unreliable, and the GNU extensions do not emit it.
-    pub fn get_str_offset(
-        &self,
-        format: Format,
-        base: DebugStrOffsetsBase<R::Offset>,
-        index: DebugStrOffsetsIndex<R::Offset>,
-    ) -> Result<DebugStrOffset<R::Offset>> {
-        let input = &mut self.section.clone();
-        input.skip(base.0)?;
-        input.skip(R::Offset::from_u64(
-            index.0.into_u64() * u64::from(format.word_size()),
-        )?)?;
-        input.read_offset(format).map(DebugStrOffset)
-    }
-}
-
-impl<T> DebugStrOffsets<T> {
-    /// Create a `DebugStrOffsets` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugStrOffsets<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugStrOffsets<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.section).into()
-    }
-}
-
-impl<R> Section<R> for DebugStrOffsets<R> {
-    fn id() -> SectionId {
-        SectionId::DebugStrOffsets
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugStrOffsets<R> {
-    fn from(section: R) -> Self {
-        DebugStrOffsets { section }
-    }
-}
-
-impl<Offset> DebugStrOffsetsBase<Offset>
-where
-    Offset: ReaderOffset,
-{
-    /// Returns a `DebugStrOffsetsBase` with the default value of DW_AT_str_offsets_base
-    /// for the given `Encoding` and `DwarfFileType`.
-    pub fn default_for_encoding_and_file(
-        encoding: Encoding,
-        file_type: DwarfFileType,
-    ) -> DebugStrOffsetsBase<Offset> {
-        if encoding.version >= 5 && file_type == DwarfFileType::Dwo {
-            // In .dwo files, the compiler omits the DW_AT_str_offsets_base attribute (because there is
-            // only a single unit in the file) but we must skip past the header, which the attribute
-            // would normally do for us.
-            // initial_length_size + version + 2 bytes of padding.
-            DebugStrOffsetsBase(Offset::from_u8(
-                encoding.format.initial_length_size() + 2 + 2,
-            ))
-        } else {
-            DebugStrOffsetsBase(Offset::from_u8(0))
-        }
-    }
-}
-
-/// The `DebugLineStr` struct represents the DWARF strings
-/// found in the `.debug_line_str` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugLineStr<R> {
-    section: R,
-}
-
-impl<'input, Endian> DebugLineStr<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugLineStr` instance from the data in the `.debug_line_str`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_line_str` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugLineStr, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_line_str_section_somehow = || &buf;
-    /// let debug_str = DebugLineStr::new(read_debug_line_str_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_line_str_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_line_str_section, endian))
-    }
-}
-
-impl<R: Reader> DebugLineStr<R> {
-    /// Lookup a string from the `.debug_line_str` section by DebugLineStrOffset.
-    pub fn get_str(&self, offset: DebugLineStrOffset<R::Offset>) -> Result<R> {
-        let input = &mut self.section.clone();
-        input.skip(offset.0)?;
-        input.read_null_terminated_slice()
-    }
-}
-
-impl<T> DebugLineStr<T> {
-    /// Create a `DebugLineStr` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugLineStr<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugLineStr<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.section).into()
-    }
-}
-
-impl<R> Section<R> for DebugLineStr<R> {
-    fn id() -> SectionId {
-        SectionId::DebugLineStr
-    }
-
-    fn reader(&self) -> &R {
-        &self.section
-    }
-}
-
-impl<R> From<R> for DebugLineStr<R> {
-    fn from(section: R) -> Self {
-        DebugLineStr { section }
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::test_util::GimliSectionMethods;
-    use crate::LittleEndian;
-    use test_assembler::{Endian, Label, LabelMaker, Section};
-
-    #[test]
-    fn test_get_str_offset() {
-        for format in vec![Format::Dwarf32, Format::Dwarf64] {
-            let zero = Label::new();
-            let length = Label::new();
-            let start = Label::new();
-            let first = Label::new();
-            let end = Label::new();
-            let mut section = Section::with_endian(Endian::Little)
-                .mark(&zero)
-                .initial_length(format, &length, &start)
-                .D16(5)
-                .D16(0)
-                .mark(&first);
-            for i in 0..20 {
-                section = section.word(format.word_size(), 1000 + i);
-            }
-            section = section.mark(&end);
-            length.set_const((&end - &start) as u64);
-
-            let section = section.get_contents().unwrap();
-            let debug_str_offsets = DebugStrOffsets::from(EndianSlice::new(&section, LittleEndian));
-            let base = DebugStrOffsetsBase((&first - &zero) as usize);
-
-            assert_eq!(
-                debug_str_offsets.get_str_offset(format, base, DebugStrOffsetsIndex(0)),
-                Ok(DebugStrOffset(1000))
-            );
-            assert_eq!(
-                debug_str_offsets.get_str_offset(format, base, DebugStrOffsetsIndex(19)),
-                Ok(DebugStrOffset(1019))
-            );
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/unit.rs b/vendor/gimli-0.27.3/src/read/unit.rs
deleted file mode 100644
index 672435330..000000000
--- a/vendor/gimli-0.27.3/src/read/unit.rs
+++ /dev/null
@@ -1,6139 +0,0 @@
-//! Functions for parsing DWARF `.debug_info` and `.debug_types` sections.
-
-use core::cell::Cell;
-use core::ops::{Range, RangeFrom, RangeTo};
-use core::{u16, u8};
-
-use crate::common::{
-    DebugAbbrevOffset, DebugAddrBase, DebugAddrIndex, DebugInfoOffset, DebugLineOffset,
-    DebugLineStrOffset, DebugLocListsBase, DebugLocListsIndex, DebugMacinfoOffset,
-    DebugMacroOffset, DebugRngListsBase, DebugRngListsIndex, DebugStrOffset, DebugStrOffsetsBase,
-    DebugStrOffsetsIndex, DebugTypeSignature, DebugTypesOffset, DwoId, Encoding, Format,
-    LocationListsOffset, RawRangeListsOffset, SectionId, UnitSectionOffset,
-};
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::read::abbrev::get_attribute_size;
-use crate::read::{
-    Abbreviation, Abbreviations, AttributeSpecification, DebugAbbrev, DebugStr, EndianSlice, Error,
-    Expression, Reader, ReaderOffset, Result, Section, UnitOffset,
-};
-
-impl<T: ReaderOffset> DebugTypesOffset<T> {
-    /// Convert an offset to be relative to the start of the given unit,
-    /// instead of relative to the start of the .debug_types section.
-    /// Returns `None` if the offset is not within the unit entries.
-    pub fn to_unit_offset<R>(&self, unit: &UnitHeader<R>) -> Option<UnitOffset<T>>
-    where
-        R: Reader<Offset = T>,
-    {
-        let unit_offset = unit.offset().as_debug_types_offset()?;
-        let offset = UnitOffset(self.0.checked_sub(unit_offset.0)?);
-        if !unit.is_valid_offset(offset) {
-            return None;
-        }
-        Some(offset)
-    }
-}
-
-impl<T: ReaderOffset> DebugInfoOffset<T> {
-    /// Convert an offset to be relative to the start of the given unit,
-    /// instead of relative to the start of the .debug_info section.
-    /// Returns `None` if the offset is not within this unit entries.
-    pub fn to_unit_offset<R>(&self, unit: &UnitHeader<R>) -> Option<UnitOffset<T>>
-    where
-        R: Reader<Offset = T>,
-    {
-        let unit_offset = unit.offset().as_debug_info_offset()?;
-        let offset = UnitOffset(self.0.checked_sub(unit_offset.0)?);
-        if !unit.is_valid_offset(offset) {
-            return None;
-        }
-        Some(offset)
-    }
-}
-
-impl<T: ReaderOffset> UnitOffset<T> {
-    /// Convert an offset to be relative to the start of the .debug_info section,
-    /// instead of relative to the start of the given unit. Returns None if the
-    /// provided unit lives in the .debug_types section.
-    pub fn to_debug_info_offset<R>(&self, unit: &UnitHeader<R>) -> Option<DebugInfoOffset<T>>
-    where
-        R: Reader<Offset = T>,
-    {
-        let unit_offset = unit.offset().as_debug_info_offset()?;
-        Some(DebugInfoOffset(unit_offset.0 + self.0))
-    }
-
-    /// Convert an offset to be relative to the start of the .debug_types section,
-    /// instead of relative to the start of the given unit. Returns None if the
-    /// provided unit lives in the .debug_info section.
-    pub fn to_debug_types_offset<R>(&self, unit: &UnitHeader<R>) -> Option<DebugTypesOffset<T>>
-    where
-        R: Reader<Offset = T>,
-    {
-        let unit_offset = unit.offset().as_debug_types_offset()?;
-        Some(DebugTypesOffset(unit_offset.0 + self.0))
-    }
-}
-
-/// The `DebugInfo` struct represents the DWARF debugging information found in
-/// the `.debug_info` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugInfo<R> {
-    debug_info_section: R,
-}
-
-impl<'input, Endian> DebugInfo<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugInfo` instance from the data in the `.debug_info`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_info` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugInfo, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_info_section_somehow = || &buf;
-    /// let debug_info = DebugInfo::new(read_debug_info_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_info_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_info_section, endian))
-    }
-}
-
-impl<R: Reader> DebugInfo<R> {
-    /// Iterate the units in this `.debug_info` section.
-    ///
-    /// ```
-    /// use gimli::{DebugInfo, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_info_section_somehow = || &buf;
-    /// let debug_info = DebugInfo::new(read_debug_info_section_somehow(), LittleEndian);
-    ///
-    /// let mut iter = debug_info.units();
-    /// while let Some(unit) = iter.next().unwrap() {
-    ///     println!("unit's length is {}", unit.unit_length());
-    /// }
-    /// ```
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn units(&self) -> DebugInfoUnitHeadersIter<R> {
-        DebugInfoUnitHeadersIter {
-            input: self.debug_info_section.clone(),
-            offset: DebugInfoOffset(R::Offset::from_u8(0)),
-        }
-    }
-
-    /// Get the UnitHeader located at offset from this .debug_info section.
-    ///
-    ///
-    pub fn header_from_offset(&self, offset: DebugInfoOffset<R::Offset>) -> Result<UnitHeader<R>> {
-        let input = &mut self.debug_info_section.clone();
-        input.skip(offset.0)?;
-        parse_unit_header(input, offset.into())
-    }
-}
-
-impl<T> DebugInfo<T> {
-    /// Create a `DebugInfo` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugInfo<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugInfo<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.debug_info_section).into()
-    }
-}
-
-impl<R> Section<R> for DebugInfo<R> {
-    fn id() -> SectionId {
-        SectionId::DebugInfo
-    }
-
-    fn reader(&self) -> &R {
-        &self.debug_info_section
-    }
-}
-
-impl<R> From<R> for DebugInfo<R> {
-    fn from(debug_info_section: R) -> Self {
-        DebugInfo { debug_info_section }
-    }
-}
-
-/// An iterator over the units of a .debug_info section.
-///
-/// See the [documentation on
-/// `DebugInfo::units`](./struct.DebugInfo.html#method.units) for more detail.
-#[derive(Clone, Debug)]
-pub struct DebugInfoUnitHeadersIter<R: Reader> {
-    input: R,
-    offset: DebugInfoOffset<R::Offset>,
-}
-
-impl<R: Reader> DebugInfoUnitHeadersIter<R> {
-    /// Advance the iterator to the next unit header.
-    pub fn next(&mut self) -> Result<Option<UnitHeader<R>>> {
-        if self.input.is_empty() {
-            Ok(None)
-        } else {
-            let len = self.input.len();
-            match parse_unit_header(&mut self.input, self.offset.into()) {
-                Ok(header) => {
-                    self.offset.0 += len - self.input.len();
-                    Ok(Some(header))
-                }
-                Err(e) => {
-                    self.input.empty();
-                    Err(e)
-                }
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for DebugInfoUnitHeadersIter<R> {
-    type Item = UnitHeader<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        DebugInfoUnitHeadersIter::next(self)
-    }
-}
-
-/// Parse the unit type from the unit header.
-fn parse_unit_type<R: Reader>(input: &mut R) -> Result<constants::DwUt> {
-    let val = input.read_u8()?;
-    Ok(constants::DwUt(val))
-}
-
-/// Parse the `debug_abbrev_offset` in the compilation unit header.
-fn parse_debug_abbrev_offset<R: Reader>(
-    input: &mut R,
-    format: Format,
-) -> Result<DebugAbbrevOffset<R::Offset>> {
-    input.read_offset(format).map(DebugAbbrevOffset)
-}
-
-/// Parse the `debug_info_offset` in the arange header.
-pub(crate) fn parse_debug_info_offset<R: Reader>(
-    input: &mut R,
-    format: Format,
-) -> Result<DebugInfoOffset<R::Offset>> {
-    input.read_offset(format).map(DebugInfoOffset)
-}
-
-/// This enum specifies the type of the unit and any type
-/// specific data carried in the header (e.g. the type
-/// signature/type offset of a type unit).
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum UnitType<Offset>
-where
-    Offset: ReaderOffset,
-{
-    /// In DWARF5, a unit with type `DW_UT_compile`. In previous DWARF versions,
-    /// any unit appearing in the .debug_info section.
-    Compilation,
-    /// In DWARF5, a unit with type `DW_UT_type`. In DWARF4, any unit appearing
-    /// in the .debug_types section.
-    Type {
-        /// The unique type signature for this type unit.
-        type_signature: DebugTypeSignature,
-        /// The offset within this type unit where the type is defined.
-        type_offset: UnitOffset<Offset>,
-    },
-    /// A unit with type `DW_UT_partial`. The root DIE of this unit should be a
-    /// `DW_TAG_partial_unit`.
-    Partial,
-    /// A unit with type `DW_UT_skeleton`. The enclosed dwo_id can be used to
-    /// link this with the corresponding `SplitCompilation` unit in a dwo file.
-    /// NB: The non-standard GNU split DWARF extension to DWARF 4 will instead
-    /// be a `Compilation` unit with the dwo_id present as an attribute on the
-    /// root DIE.
-    Skeleton(DwoId),
-    /// A unit with type `DW_UT_split_compile`. The enclosed dwo_id can be used to
-    /// link this with the corresponding `Skeleton` unit in the original binary.
-    /// NB: The non-standard GNU split DWARF extension to DWARF 4 will instead
-    /// be a `Compilation` unit with the dwo_id present as an attribute on the
-    /// root DIE.
-    SplitCompilation(DwoId),
-    /// A unit with type `DW_UT_split_type`. A split type unit is identical to a
-    /// conventional type unit except for the section in which it appears.
-    SplitType {
-        /// The unique type signature for this type unit.
-        type_signature: DebugTypeSignature,
-        /// The offset within this type unit where the type is defined.
-        type_offset: UnitOffset<Offset>,
-    },
-}
-
-impl<Offset> UnitType<Offset>
-where
-    Offset: ReaderOffset,
-{
-    // TODO: This will be used by the DWARF writing code once it
-    // supports unit types other than simple compilation units.
-    #[allow(unused)]
-    pub(crate) fn dw_ut(&self) -> constants::DwUt {
-        match self {
-            UnitType::Compilation => constants::DW_UT_compile,
-            UnitType::Type { .. } => constants::DW_UT_type,
-            UnitType::Partial => constants::DW_UT_partial,
-            UnitType::Skeleton(_) => constants::DW_UT_skeleton,
-            UnitType::SplitCompilation(_) => constants::DW_UT_split_compile,
-            UnitType::SplitType { .. } => constants::DW_UT_split_type,
-        }
-    }
-}
-
-/// The common fields for the headers of compilation units and
-/// type units.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub struct UnitHeader<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    encoding: Encoding,
-    unit_length: Offset,
-    unit_type: UnitType<Offset>,
-    debug_abbrev_offset: DebugAbbrevOffset<Offset>,
-    unit_offset: UnitSectionOffset<Offset>,
-    entries_buf: R,
-}
-
-/// Static methods.
-impl<R, Offset> UnitHeader<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Construct a new `UnitHeader`.
-    pub fn new(
-        encoding: Encoding,
-        unit_length: Offset,
-        unit_type: UnitType<Offset>,
-        debug_abbrev_offset: DebugAbbrevOffset<Offset>,
-        unit_offset: UnitSectionOffset<Offset>,
-        entries_buf: R,
-    ) -> Self {
-        UnitHeader {
-            encoding,
-            unit_length,
-            unit_type,
-            debug_abbrev_offset,
-            unit_offset,
-            entries_buf,
-        }
-    }
-}
-
-/// Instance methods.
-impl<R, Offset> UnitHeader<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Get the offset of this unit within its section.
-    pub fn offset(&self) -> UnitSectionOffset<Offset> {
-        self.unit_offset
-    }
-
-    /// Return the serialized size of the common unit header for the given
-    /// DWARF format.
-    pub fn size_of_header(&self) -> usize {
-        let unit_length_size = self.encoding.format.initial_length_size() as usize;
-        let version_size = 2;
-        let debug_abbrev_offset_size = self.encoding.format.word_size() as usize;
-        let address_size_size = 1;
-        let unit_type_size = if self.encoding.version == 5 { 1 } else { 0 };
-        let type_specific_size = match self.unit_type {
-            UnitType::Compilation | UnitType::Partial => 0,
-            UnitType::Type { .. } | UnitType::SplitType { .. } => {
-                let type_signature_size = 8;
-                let type_offset_size = self.encoding.format.word_size() as usize;
-                type_signature_size + type_offset_size
-            }
-            UnitType::Skeleton(_) | UnitType::SplitCompilation(_) => 8,
-        };
-
-        unit_length_size
-            + version_size
-            + debug_abbrev_offset_size
-            + address_size_size
-            + unit_type_size
-            + type_specific_size
-    }
-
-    /// Get the length of the debugging info for this compilation unit, not
-    /// including the byte length of the encoded length itself.
-    pub fn unit_length(&self) -> Offset {
-        self.unit_length
-    }
-
-    /// Get the length of the debugging info for this compilation unit,
-    /// including the byte length of the encoded length itself.
-    pub fn length_including_self(&self) -> Offset {
-        Offset::from_u8(self.format().initial_length_size()) + self.unit_length
-    }
-
-    /// Return the encoding parameters for this unit.
-    pub fn encoding(&self) -> Encoding {
-        self.encoding
-    }
-
-    /// Get the DWARF version of the debugging info for this compilation unit.
-    pub fn version(&self) -> u16 {
-        self.encoding.version
-    }
-
-    /// Get the UnitType of this unit.
-    pub fn type_(&self) -> UnitType<Offset> {
-        self.unit_type
-    }
-
-    /// The offset into the `.debug_abbrev` section for this compilation unit's
-    /// debugging information entries' abbreviations.
-    pub fn debug_abbrev_offset(&self) -> DebugAbbrevOffset<Offset> {
-        self.debug_abbrev_offset
-    }
-
-    /// The size of addresses (in bytes) in this compilation unit.
-    pub fn address_size(&self) -> u8 {
-        self.encoding.address_size
-    }
-
-    /// Whether this compilation unit is encoded in 64- or 32-bit DWARF.
-    pub fn format(&self) -> Format {
-        self.encoding.format
-    }
-
-    /// The serialized size of the header for this compilation unit.
-    pub fn header_size(&self) -> Offset {
-        self.length_including_self() - self.entries_buf.len()
-    }
-
-    pub(crate) fn is_valid_offset(&self, offset: UnitOffset<Offset>) -> bool {
-        let size_of_header = self.header_size();
-        if offset.0 < size_of_header {
-            return false;
-        }
-
-        let relative_to_entries_buf = offset.0 - size_of_header;
-        relative_to_entries_buf < self.entries_buf.len()
-    }
-
-    /// Get the underlying bytes for the supplied range.
-    pub fn range(&self, idx: Range<UnitOffset<Offset>>) -> Result<R> {
-        if !self.is_valid_offset(idx.start) {
-            return Err(Error::OffsetOutOfBounds);
-        }
-        if !self.is_valid_offset(idx.end) {
-            return Err(Error::OffsetOutOfBounds);
-        }
-        assert!(idx.start <= idx.end);
-        let size_of_header = self.header_size();
-        let start = idx.start.0 - size_of_header;
-        let end = idx.end.0 - size_of_header;
-        let mut input = self.entries_buf.clone();
-        input.skip(start)?;
-        input.truncate(end - start)?;
-        Ok(input)
-    }
-
-    /// Get the underlying bytes for the supplied range.
-    pub fn range_from(&self, idx: RangeFrom<UnitOffset<Offset>>) -> Result<R> {
-        if !self.is_valid_offset(idx.start) {
-            return Err(Error::OffsetOutOfBounds);
-        }
-        let start = idx.start.0 - self.header_size();
-        let mut input = self.entries_buf.clone();
-        input.skip(start)?;
-        Ok(input)
-    }
-
-    /// Get the underlying bytes for the supplied range.
-    pub fn range_to(&self, idx: RangeTo<UnitOffset<Offset>>) -> Result<R> {
-        if !self.is_valid_offset(idx.end) {
-            return Err(Error::OffsetOutOfBounds);
-        }
-        let end = idx.end.0 - self.header_size();
-        let mut input = self.entries_buf.clone();
-        input.truncate(end)?;
-        Ok(input)
-    }
-
-    /// Read the `DebuggingInformationEntry` at the given offset.
-    pub fn entry<'me, 'abbrev>(
-        &'me self,
-        abbreviations: &'abbrev Abbreviations,
-        offset: UnitOffset<Offset>,
-    ) -> Result<DebuggingInformationEntry<'abbrev, 'me, R>> {
-        let mut input = self.range_from(offset..)?;
-        let entry = DebuggingInformationEntry::parse(&mut input, self, abbreviations)?;
-        entry.ok_or(Error::NoEntryAtGivenOffset)
-    }
-
-    /// Navigate this unit's `DebuggingInformationEntry`s.
-    pub fn entries<'me, 'abbrev>(
-        &'me self,
-        abbreviations: &'abbrev Abbreviations,
-    ) -> EntriesCursor<'abbrev, 'me, R> {
-        EntriesCursor {
-            unit: self,
-            input: self.entries_buf.clone(),
-            abbreviations,
-            cached_current: None,
-            delta_depth: 0,
-        }
-    }
-
-    /// Navigate this compilation unit's `DebuggingInformationEntry`s
-    /// starting at the given offset.
-    pub fn entries_at_offset<'me, 'abbrev>(
-        &'me self,
-        abbreviations: &'abbrev Abbreviations,
-        offset: UnitOffset<Offset>,
-    ) -> Result<EntriesCursor<'abbrev, 'me, R>> {
-        let input = self.range_from(offset..)?;
-        Ok(EntriesCursor {
-            unit: self,
-            input,
-            abbreviations,
-            cached_current: None,
-            delta_depth: 0,
-        })
-    }
-
-    /// Navigate this unit's `DebuggingInformationEntry`s as a tree
-    /// starting at the given offset.
-    pub fn entries_tree<'me, 'abbrev>(
-        &'me self,
-        abbreviations: &'abbrev Abbreviations,
-        offset: Option<UnitOffset<Offset>>,
-    ) -> Result<EntriesTree<'abbrev, 'me, R>> {
-        let input = match offset {
-            Some(offset) => self.range_from(offset..)?,
-            None => self.entries_buf.clone(),
-        };
-        Ok(EntriesTree::new(input, self, abbreviations))
-    }
-
-    /// Read the raw data that defines the Debugging Information Entries.
-    pub fn entries_raw<'me, 'abbrev>(
-        &'me self,
-        abbreviations: &'abbrev Abbreviations,
-        offset: Option<UnitOffset<Offset>>,
-    ) -> Result<EntriesRaw<'abbrev, 'me, R>> {
-        let input = match offset {
-            Some(offset) => self.range_from(offset..)?,
-            None => self.entries_buf.clone(),
-        };
-        Ok(EntriesRaw {
-            input,
-            unit: self,
-            abbreviations,
-            depth: 0,
-        })
-    }
-
-    /// Parse this unit's abbreviations.
-    pub fn abbreviations(&self, debug_abbrev: &DebugAbbrev<R>) -> Result<Abbreviations> {
-        debug_abbrev.abbreviations(self.debug_abbrev_offset())
-    }
-}
-
-/// Parse a unit header.
-fn parse_unit_header<R, Offset>(
-    input: &mut R,
-    unit_offset: UnitSectionOffset<Offset>,
-) -> Result<UnitHeader<R>>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    let (unit_length, format) = input.read_initial_length()?;
-    let mut rest = input.split(unit_length)?;
-
-    let version = rest.read_u16()?;
-    let abbrev_offset;
-    let address_size;
-    let unit_type;
-    // DWARF 1 was very different, and is obsolete, so isn't supported by this
-    // reader.
-    if 2 <= version && version <= 4 {
-        abbrev_offset = parse_debug_abbrev_offset(&mut rest, format)?;
-        address_size = rest.read_u8()?;
-        // Before DWARF5, all units in the .debug_info section are compilation
-        // units, and all units in the .debug_types section are type units.
-        unit_type = match unit_offset {
-            UnitSectionOffset::DebugInfoOffset(_) => constants::DW_UT_compile,
-            UnitSectionOffset::DebugTypesOffset(_) => constants::DW_UT_type,
-        };
-    } else if version == 5 {
-        unit_type = parse_unit_type(&mut rest)?;
-        address_size = rest.read_u8()?;
-        abbrev_offset = parse_debug_abbrev_offset(&mut rest, format)?;
-    } else {
-        return Err(Error::UnknownVersion(u64::from(version)));
-    }
-    let encoding = Encoding {
-        format,
-        version,
-        address_size,
-    };
-
-    // Parse any data specific to this type of unit.
-    let unit_type = match unit_type {
-        constants::DW_UT_compile => UnitType::Compilation,
-        constants::DW_UT_type => {
-            let type_signature = parse_type_signature(&mut rest)?;
-            let type_offset = parse_type_offset(&mut rest, format)?;
-            UnitType::Type {
-                type_signature,
-                type_offset,
-            }
-        }
-        constants::DW_UT_partial => UnitType::Partial,
-        constants::DW_UT_skeleton => {
-            let dwo_id = parse_dwo_id(&mut rest)?;
-            UnitType::Skeleton(dwo_id)
-        }
-        constants::DW_UT_split_compile => {
-            let dwo_id = parse_dwo_id(&mut rest)?;
-            UnitType::SplitCompilation(dwo_id)
-        }
-        constants::DW_UT_split_type => {
-            let type_signature = parse_type_signature(&mut rest)?;
-            let type_offset = parse_type_offset(&mut rest, format)?;
-            UnitType::SplitType {
-                type_signature,
-                type_offset,
-            }
-        }
-        _ => return Err(Error::UnsupportedUnitType),
-    };
-
-    Ok(UnitHeader::new(
-        encoding,
-        unit_length,
-        unit_type,
-        abbrev_offset,
-        unit_offset,
-        rest,
-    ))
-}
-
-/// Parse a dwo_id from a header
-fn parse_dwo_id<R: Reader>(input: &mut R) -> Result<DwoId> {
-    Ok(DwoId(input.read_u64()?))
-}
-
-/// A Debugging Information Entry (DIE).
-///
-/// DIEs have a set of attributes and optionally have children DIEs as well.
-#[derive(Clone, Debug)]
-pub struct DebuggingInformationEntry<'abbrev, 'unit, R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    offset: UnitOffset<Offset>,
-    attrs_slice: R,
-    attrs_len: Cell<Option<Offset>>,
-    abbrev: &'abbrev Abbreviation,
-    unit: &'unit UnitHeader<R, Offset>,
-}
-
-impl<'abbrev, 'unit, R, Offset> DebuggingInformationEntry<'abbrev, 'unit, R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Construct a new `DebuggingInformationEntry`.
-    pub fn new(
-        offset: UnitOffset<Offset>,
-        attrs_slice: R,
-        abbrev: &'abbrev Abbreviation,
-        unit: &'unit UnitHeader<R, Offset>,
-    ) -> Self {
-        DebuggingInformationEntry {
-            offset,
-            attrs_slice,
-            attrs_len: Cell::new(None),
-            abbrev,
-            unit,
-        }
-    }
-
-    /// Get this entry's code.
-    pub fn code(&self) -> u64 {
-        self.abbrev.code()
-    }
-
-    /// Get this entry's offset.
-    pub fn offset(&self) -> UnitOffset<Offset> {
-        self.offset
-    }
-
-    /// Get this entry's `DW_TAG_whatever` tag.
-    ///
-    /// ```
-    /// # use gimli::{DebugAbbrev, DebugInfo, LittleEndian};
-    /// # let info_buf = [
-    /// #     // Comilation unit header
-    /// #
-    /// #     // 32-bit unit length = 12
-    /// #     0x0c, 0x00, 0x00, 0x00,
-    /// #     // Version 4
-    /// #     0x04, 0x00,
-    /// #     // debug_abbrev_offset
-    /// #     0x00, 0x00, 0x00, 0x00,
-    /// #     // Address size
-    /// #     0x04,
-    /// #
-    /// #     // DIEs
-    /// #
-    /// #     // Abbreviation code
-    /// #     0x01,
-    /// #     // Attribute of form DW_FORM_string = "foo\0"
-    /// #     0x66, 0x6f, 0x6f, 0x00,
-    /// # ];
-    /// # let debug_info = DebugInfo::new(&info_buf, LittleEndian);
-    /// # let abbrev_buf = [
-    /// #     // Code
-    /// #     0x01,
-    /// #     // DW_TAG_subprogram
-    /// #     0x2e,
-    /// #     // DW_CHILDREN_no
-    /// #     0x00,
-    /// #     // Begin attributes
-    /// #       // Attribute name = DW_AT_name
-    /// #       0x03,
-    /// #       // Attribute form = DW_FORM_string
-    /// #       0x08,
-    /// #     // End attributes
-    /// #     0x00,
-    /// #     0x00,
-    /// #     // Null terminator
-    /// #     0x00
-    /// # ];
-    /// # let debug_abbrev = DebugAbbrev::new(&abbrev_buf, LittleEndian);
-    /// # let unit = debug_info.units().next().unwrap().unwrap();
-    /// # let abbrevs = unit.abbreviations(&debug_abbrev).unwrap();
-    /// # let mut cursor = unit.entries(&abbrevs);
-    /// # let (_, entry) = cursor.next_dfs().unwrap().unwrap();
-    /// # let mut get_some_entry = || entry;
-    /// let entry = get_some_entry();
-    ///
-    /// match entry.tag() {
-    ///     gimli::DW_TAG_subprogram =>
-    ///         println!("this entry contains debug info about a function"),
-    ///     gimli::DW_TAG_inlined_subroutine =>
-    ///         println!("this entry contains debug info about a particular instance of inlining"),
-    ///     gimli::DW_TAG_variable =>
-    ///         println!("this entry contains debug info about a local variable"),
-    ///     gimli::DW_TAG_formal_parameter =>
-    ///         println!("this entry contains debug info about a function parameter"),
-    ///     otherwise =>
-    ///         println!("this entry is some other kind of data: {:?}", otherwise),
-    /// };
-    /// ```
-    pub fn tag(&self) -> constants::DwTag {
-        self.abbrev.tag()
-    }
-
-    /// Return true if this entry's type can have children, false otherwise.
-    pub fn has_children(&self) -> bool {
-        self.abbrev.has_children()
-    }
-
-    /// Iterate over this entry's set of attributes.
-    ///
-    /// ```
-    /// use gimli::{DebugAbbrev, DebugInfo, LittleEndian};
-    ///
-    /// // Read the `.debug_info` section.
-    ///
-    /// # let info_buf = [
-    /// #     // Comilation unit header
-    /// #
-    /// #     // 32-bit unit length = 12
-    /// #     0x0c, 0x00, 0x00, 0x00,
-    /// #     // Version 4
-    /// #     0x04, 0x00,
-    /// #     // debug_abbrev_offset
-    /// #     0x00, 0x00, 0x00, 0x00,
-    /// #     // Address size
-    /// #     0x04,
-    /// #
-    /// #     // DIEs
-    /// #
-    /// #     // Abbreviation code
-    /// #     0x01,
-    /// #     // Attribute of form DW_FORM_string = "foo\0"
-    /// #     0x66, 0x6f, 0x6f, 0x00,
-    /// # ];
-    /// # let read_debug_info_section_somehow = || &info_buf;
-    /// let debug_info = DebugInfo::new(read_debug_info_section_somehow(), LittleEndian);
-    ///
-    /// // Get the data about the first compilation unit out of the `.debug_info`.
-    ///
-    /// let unit = debug_info.units().next()
-    ///     .expect("Should have at least one compilation unit")
-    ///     .expect("and it should parse ok");
-    ///
-    /// // Read the `.debug_abbrev` section and parse the
-    /// // abbreviations for our compilation unit.
-    ///
-    /// # let abbrev_buf = [
-    /// #     // Code
-    /// #     0x01,
-    /// #     // DW_TAG_subprogram
-    /// #     0x2e,
-    /// #     // DW_CHILDREN_no
-    /// #     0x00,
-    /// #     // Begin attributes
-    /// #       // Attribute name = DW_AT_name
-    /// #       0x03,
-    /// #       // Attribute form = DW_FORM_string
-    /// #       0x08,
-    /// #     // End attributes
-    /// #     0x00,
-    /// #     0x00,
-    /// #     // Null terminator
-    /// #     0x00
-    /// # ];
-    /// # let read_debug_abbrev_section_somehow = || &abbrev_buf;
-    /// let debug_abbrev = DebugAbbrev::new(read_debug_abbrev_section_somehow(), LittleEndian);
-    /// let abbrevs = unit.abbreviations(&debug_abbrev).unwrap();
-    ///
-    /// // Get the first entry from that compilation unit.
-    ///
-    /// let mut cursor = unit.entries(&abbrevs);
-    /// let (_, entry) = cursor.next_dfs()
-    ///     .expect("Should parse next entry")
-    ///     .expect("Should have at least one entry");
-    ///
-    /// // Finally, print the first entry's attributes.
-    ///
-    /// let mut attrs = entry.attrs();
-    /// while let Some(attr) = attrs.next().unwrap() {
-    ///     println!("Attribute name = {:?}", attr.name());
-    ///     println!("Attribute value = {:?}", attr.value());
-    /// }
-    /// ```
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn attrs<'me>(&'me self) -> AttrsIter<'abbrev, 'me, 'unit, R> {
-        AttrsIter {
-            input: self.attrs_slice.clone(),
-            attributes: self.abbrev.attributes(),
-            entry: self,
-        }
-    }
-
-    /// Find the first attribute in this entry which has the given name,
-    /// and return it. Returns `Ok(None)` if no attribute is found.
-    pub fn attr(&self, name: constants::DwAt) -> Result<Option<Attribute<R>>> {
-        let mut attrs = self.attrs();
-        while let Some(attr) = attrs.next()? {
-            if attr.name() == name {
-                return Ok(Some(attr));
-            }
-        }
-        Ok(None)
-    }
-
-    /// Find the first attribute in this entry which has the given name,
-    /// and return its raw value. Returns `Ok(None)` if no attribute is found.
-    pub fn attr_value_raw(&self, name: constants::DwAt) -> Result<Option<AttributeValue<R>>> {
-        self.attr(name)
-            .map(|attr| attr.map(|attr| attr.raw_value()))
-    }
-
-    /// Find the first attribute in this entry which has the given name,
-    /// and return its normalized value.  Returns `Ok(None)` if no
-    /// attribute is found.
-    pub fn attr_value(&self, name: constants::DwAt) -> Result<Option<AttributeValue<R>>> {
-        self.attr(name).map(|attr| attr.map(|attr| attr.value()))
-    }
-
-    /// Return the input buffer after the last attribute.
-    #[inline(always)]
-    fn after_attrs(&self) -> Result<R> {
-        if let Some(attrs_len) = self.attrs_len.get() {
-            let mut input = self.attrs_slice.clone();
-            input.skip(attrs_len)?;
-            Ok(input)
-        } else {
-            let mut attrs = self.attrs();
-            while attrs.next()?.is_some() {}
-            Ok(attrs.input)
-        }
-    }
-
-    /// Use the `DW_AT_sibling` attribute to find the input buffer for the
-    /// next sibling. Returns `None` if the attribute is missing or invalid.
-    fn sibling(&self) -> Option<R> {
-        let attr = self.attr_value(constants::DW_AT_sibling);
-        if let Ok(Some(AttributeValue::UnitRef(offset))) = attr {
-            if offset.0 > self.offset.0 {
-                if let Ok(input) = self.unit.range_from(offset..) {
-                    return Some(input);
-                }
-            }
-        }
-        None
-    }
-
-    /// Parse an entry. Returns `Ok(None)` for null entries.
-    #[inline(always)]
-    fn parse(
-        input: &mut R,
-        unit: &'unit UnitHeader<R>,
-        abbreviations: &'abbrev Abbreviations,
-    ) -> Result<Option<Self>> {
-        let offset = unit.header_size() + input.offset_from(&unit.entries_buf);
-        let code = input.read_uleb128()?;
-        if code == 0 {
-            return Ok(None);
-        };
-        let abbrev = abbreviations.get(code).ok_or(Error::UnknownAbbreviation)?;
-        Ok(Some(DebuggingInformationEntry {
-            offset: UnitOffset(offset),
-            attrs_slice: input.clone(),
-            attrs_len: Cell::new(None),
-            abbrev,
-            unit,
-        }))
-    }
-}
-
-/// The value of an attribute in a `DebuggingInformationEntry`.
-//
-// Set the discriminant size so that all variants use the same alignment
-// for their data.  This gives better code generation in `parse_attribute`.
-#[repr(u64)]
-#[derive(Clone, Copy, Debug, Eq, PartialEq)]
-pub enum AttributeValue<R, Offset = <R as Reader>::Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// "Refers to some location in the address space of the described program."
-    Addr(u64),
-
-    /// A slice of an arbitrary number of bytes.
-    Block(R),
-
-    /// A one byte constant data value. How to interpret the byte depends on context.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data1(u8),
-
-    /// A two byte constant data value. How to interpret the bytes depends on context.
-    ///
-    /// These bytes have been converted from `R::Endian`. This may need to be reversed
-    /// if this was not required.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data2(u16),
-
-    /// A four byte constant data value. How to interpret the bytes depends on context.
-    ///
-    /// These bytes have been converted from `R::Endian`. This may need to be reversed
-    /// if this was not required.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data4(u32),
-
-    /// An eight byte constant data value. How to interpret the bytes depends on context.
-    ///
-    /// These bytes have been converted from `R::Endian`. This may need to be reversed
-    /// if this was not required.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data8(u64),
-
-    /// A signed integer constant.
-    Sdata(i64),
-
-    /// An unsigned integer constant.
-    Udata(u64),
-
-    /// "The information bytes contain a DWARF expression (see Section 2.5) or
-    /// location description (see Section 2.6)."
-    Exprloc(Expression<R>),
-
-    /// A boolean that indicates presence or absence of the attribute.
-    Flag(bool),
-
-    /// An offset into another section. Which section this is an offset into
-    /// depends on context.
-    SecOffset(Offset),
-
-    /// An offset to a set of addresses in the `.debug_addr` section.
-    DebugAddrBase(DebugAddrBase<Offset>),
-
-    /// An index into a set of addresses in the `.debug_addr` section.
-    DebugAddrIndex(DebugAddrIndex<Offset>),
-
-    /// An offset into the current compilation unit.
-    UnitRef(UnitOffset<Offset>),
-
-    /// An offset into the current `.debug_info` section, but possibly a
-    /// different compilation unit from the current one.
-    DebugInfoRef(DebugInfoOffset<Offset>),
-
-    /// An offset into the `.debug_info` section of the supplementary object file.
-    DebugInfoRefSup(DebugInfoOffset<Offset>),
-
-    /// An offset into the `.debug_line` section.
-    DebugLineRef(DebugLineOffset<Offset>),
-
-    /// An offset into either the `.debug_loc` section or the `.debug_loclists` section.
-    LocationListsRef(LocationListsOffset<Offset>),
-
-    /// An offset to a set of offsets in the `.debug_loclists` section.
-    DebugLocListsBase(DebugLocListsBase<Offset>),
-
-    /// An index into a set of offsets in the `.debug_loclists` section.
-    DebugLocListsIndex(DebugLocListsIndex<Offset>),
-
-    /// An offset into the `.debug_macinfo` section.
-    DebugMacinfoRef(DebugMacinfoOffset<Offset>),
-
-    /// An offset into the `.debug_macro` section.
-    DebugMacroRef(DebugMacroOffset<Offset>),
-
-    /// An offset into the `.debug_ranges` section.
-    RangeListsRef(RawRangeListsOffset<Offset>),
-
-    /// An offset to a set of offsets in the `.debug_rnglists` section.
-    DebugRngListsBase(DebugRngListsBase<Offset>),
-
-    /// An index into a set of offsets in the `.debug_rnglists` section.
-    DebugRngListsIndex(DebugRngListsIndex<Offset>),
-
-    /// A type signature.
-    DebugTypesRef(DebugTypeSignature),
-
-    /// An offset into the `.debug_str` section.
-    DebugStrRef(DebugStrOffset<Offset>),
-
-    /// An offset into the `.debug_str` section of the supplementary object file.
-    DebugStrRefSup(DebugStrOffset<Offset>),
-
-    /// An offset to a set of entries in the `.debug_str_offsets` section.
-    DebugStrOffsetsBase(DebugStrOffsetsBase<Offset>),
-
-    /// An index into a set of entries in the `.debug_str_offsets` section.
-    DebugStrOffsetsIndex(DebugStrOffsetsIndex<Offset>),
-
-    /// An offset into the `.debug_line_str` section.
-    DebugLineStrRef(DebugLineStrOffset<Offset>),
-
-    /// A slice of bytes representing a string. Does not include a final null byte.
-    /// Not guaranteed to be UTF-8 or anything like that.
-    String(R),
-
-    /// The value of a `DW_AT_encoding` attribute.
-    Encoding(constants::DwAte),
-
-    /// The value of a `DW_AT_decimal_sign` attribute.
-    DecimalSign(constants::DwDs),
-
-    /// The value of a `DW_AT_endianity` attribute.
-    Endianity(constants::DwEnd),
-
-    /// The value of a `DW_AT_accessibility` attribute.
-    Accessibility(constants::DwAccess),
-
-    /// The value of a `DW_AT_visibility` attribute.
-    Visibility(constants::DwVis),
-
-    /// The value of a `DW_AT_virtuality` attribute.
-    Virtuality(constants::DwVirtuality),
-
-    /// The value of a `DW_AT_language` attribute.
-    Language(constants::DwLang),
-
-    /// The value of a `DW_AT_address_class` attribute.
-    AddressClass(constants::DwAddr),
-
-    /// The value of a `DW_AT_identifier_case` attribute.
-    IdentifierCase(constants::DwId),
-
-    /// The value of a `DW_AT_calling_convention` attribute.
-    CallingConvention(constants::DwCc),
-
-    /// The value of a `DW_AT_inline` attribute.
-    Inline(constants::DwInl),
-
-    /// The value of a `DW_AT_ordering` attribute.
-    Ordering(constants::DwOrd),
-
-    /// An index into the filename entries from the line number information
-    /// table for the compilation unit containing this value.
-    FileIndex(u64),
-
-    /// An implementation-defined identifier uniquely identifying a compilation
-    /// unit.
-    DwoId(DwoId),
-}
-
-/// An attribute in a `DebuggingInformationEntry`, consisting of a name and
-/// associated value.
-#[derive(Copy, Clone, Debug, Eq, PartialEq)]
-pub struct Attribute<R: Reader> {
-    name: constants::DwAt,
-    value: AttributeValue<R>,
-}
-
-impl<R: Reader> Attribute<R> {
-    /// Get this attribute's name.
-    pub fn name(&self) -> constants::DwAt {
-        self.name
-    }
-
-    /// Get this attribute's raw value.
-    pub fn raw_value(&self) -> AttributeValue<R> {
-        self.value.clone()
-    }
-
-    /// Get this attribute's normalized value.
-    ///
-    /// Attribute values can potentially be encoded in multiple equivalent forms,
-    /// and may have special meaning depending on the attribute name.  This method
-    /// converts the attribute value to a normalized form based on the attribute
-    /// name.
-    ///
-    /// See "Table 7.5: Attribute encodings" and "Table 7.6: Attribute form encodings".
-    pub fn value(&self) -> AttributeValue<R> {
-        // Table 7.5 shows the possible attribute classes for each name.
-        // Table 7.6 shows the possible attribute classes for each form.
-        // For each attribute name, we need to match on the form, and
-        // convert it to one of the classes that is allowed for both
-        // the name and the form.
-        //
-        // The individual class conversions rarely vary for each name,
-        // so for each class conversion we define a macro that matches
-        // on the allowed forms for that class.
-        //
-        // For some classes, we don't need to do any conversion, so their
-        // macro is empty.  In the future we may want to fill them in to
-        // provide strict checking of the forms for each class.  For now,
-        // they simply provide a way to document the allowed classes for
-        // each name.
-
-        // DW_FORM_addr
-        // DW_FORM_addrx
-        // DW_FORM_addrx1
-        // DW_FORM_addrx2
-        // DW_FORM_addrx3
-        // DW_FORM_addrx4
-        macro_rules! address {
-            () => {};
-        }
-        // DW_FORM_sec_offset
-        macro_rules! addrptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugAddrBase(DebugAddrBase(offset));
-                }
-            };
-        }
-        // DW_FORM_block
-        // DW_FORM_block1
-        // DW_FORM_block2
-        // DW_FORM_block4
-        macro_rules! block {
-            () => {};
-        }
-        // DW_FORM_sdata
-        // DW_FORM_udata
-        // DW_FORM_data1
-        // DW_FORM_data2
-        // DW_FORM_data4
-        // DW_FORM_data8
-        // DW_FORM_data16
-        // DW_FORM_implicit_const
-        macro_rules! constant {
-            ($value:ident, $variant:ident) => {
-                if let Some(value) = self.$value() {
-                    return AttributeValue::$variant(value);
-                }
-            };
-            ($value:ident, $variant:ident, $constant:ident) => {
-                if let Some(value) = self.$value() {
-                    return AttributeValue::$variant(constants::$constant(value));
-                }
-            };
-        }
-        // DW_FORM_exprloc
-        macro_rules! exprloc {
-            () => {
-                if let Some(value) = self.exprloc_value() {
-                    return AttributeValue::Exprloc(value);
-                }
-            };
-        }
-        // DW_FORM_flag
-        // DW_FORM_flag_present
-        macro_rules! flag {
-            () => {};
-        }
-        // DW_FORM_sec_offset
-        macro_rules! lineptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugLineRef(DebugLineOffset(offset));
-                }
-            };
-        }
-        // This also covers `loclist` in DWARF version 5.
-        // DW_FORM_sec_offset
-        // DW_FORM_loclistx
-        macro_rules! loclistptr {
-            () => {
-                // DebugLocListsIndex is also an allowed form in DWARF version 5.
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::LocationListsRef(LocationListsOffset(offset));
-                }
-            };
-        }
-        // DW_FORM_sec_offset
-        macro_rules! loclistsptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugLocListsBase(DebugLocListsBase(offset));
-                }
-            };
-        }
-        // DWARF version <= 4.
-        // DW_FORM_sec_offset
-        macro_rules! macinfoptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugMacinfoRef(DebugMacinfoOffset(offset));
-                }
-            };
-        }
-        // DWARF version >= 5.
-        // DW_FORM_sec_offset
-        macro_rules! macroptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugMacroRef(DebugMacroOffset(offset));
-                }
-            };
-        }
-        // DW_FORM_ref_addr
-        // DW_FORM_ref1
-        // DW_FORM_ref2
-        // DW_FORM_ref4
-        // DW_FORM_ref8
-        // DW_FORM_ref_udata
-        // DW_FORM_ref_sig8
-        // DW_FORM_ref_sup4
-        // DW_FORM_ref_sup8
-        macro_rules! reference {
-            () => {};
-        }
-        // This also covers `rnglist` in DWARF version 5.
-        // DW_FORM_sec_offset
-        // DW_FORM_rnglistx
-        macro_rules! rangelistptr {
-            () => {
-                // DebugRngListsIndex is also an allowed form in DWARF version 5.
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::RangeListsRef(RawRangeListsOffset(offset));
-                }
-            };
-        }
-        // DW_FORM_sec_offset
-        macro_rules! rnglistsptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugRngListsBase(DebugRngListsBase(offset));
-                }
-            };
-        }
-        // DW_FORM_string
-        // DW_FORM_strp
-        // DW_FORM_strx
-        // DW_FORM_strx1
-        // DW_FORM_strx2
-        // DW_FORM_strx3
-        // DW_FORM_strx4
-        // DW_FORM_strp_sup
-        // DW_FORM_line_strp
-        macro_rules! string {
-            () => {};
-        }
-        // DW_FORM_sec_offset
-        macro_rules! stroffsetsptr {
-            () => {
-                if let Some(offset) = self.offset_value() {
-                    return AttributeValue::DebugStrOffsetsBase(DebugStrOffsetsBase(offset));
-                }
-            };
-        }
-        // This isn't a separate form but it's useful to distinguish it from a generic udata.
-        macro_rules! dwoid {
-            () => {
-                if let Some(value) = self.udata_value() {
-                    return AttributeValue::DwoId(DwoId(value));
-                }
-            };
-        }
-
-        // Perform the allowed class conversions for each attribute name.
-        match self.name {
-            constants::DW_AT_sibling => {
-                reference!();
-            }
-            constants::DW_AT_location => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_name => {
-                string!();
-            }
-            constants::DW_AT_ordering => {
-                constant!(u8_value, Ordering, DwOrd);
-            }
-            constants::DW_AT_byte_size
-            | constants::DW_AT_bit_offset
-            | constants::DW_AT_bit_size => {
-                constant!(udata_value, Udata);
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_stmt_list => {
-                lineptr!();
-            }
-            constants::DW_AT_low_pc => {
-                address!();
-            }
-            constants::DW_AT_high_pc => {
-                address!();
-                constant!(udata_value, Udata);
-            }
-            constants::DW_AT_language => {
-                constant!(u16_value, Language, DwLang);
-            }
-            constants::DW_AT_discr => {
-                reference!();
-            }
-            constants::DW_AT_discr_value => {
-                // constant: depends on type of DW_TAG_variant_part,
-                // so caller must normalize.
-            }
-            constants::DW_AT_visibility => {
-                constant!(u8_value, Visibility, DwVis);
-            }
-            constants::DW_AT_import => {
-                reference!();
-            }
-            constants::DW_AT_string_length => {
-                exprloc!();
-                loclistptr!();
-                reference!();
-            }
-            constants::DW_AT_common_reference => {
-                reference!();
-            }
-            constants::DW_AT_comp_dir => {
-                string!();
-            }
-            constants::DW_AT_const_value => {
-                // TODO: constant: sign depends on DW_AT_type.
-                block!();
-                string!();
-            }
-            constants::DW_AT_containing_type => {
-                reference!();
-            }
-            constants::DW_AT_default_value => {
-                // TODO: constant: sign depends on DW_AT_type.
-                reference!();
-                flag!();
-            }
-            constants::DW_AT_inline => {
-                constant!(u8_value, Inline, DwInl);
-            }
-            constants::DW_AT_is_optional => {
-                flag!();
-            }
-            constants::DW_AT_lower_bound => {
-                // TODO: constant: sign depends on DW_AT_type.
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_producer => {
-                string!();
-            }
-            constants::DW_AT_prototyped => {
-                flag!();
-            }
-            constants::DW_AT_return_addr => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_start_scope => {
-                // TODO: constant
-                rangelistptr!();
-            }
-            constants::DW_AT_bit_stride => {
-                constant!(udata_value, Udata);
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_upper_bound => {
-                // TODO: constant: sign depends on DW_AT_type.
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_abstract_origin => {
-                reference!();
-            }
-            constants::DW_AT_accessibility => {
-                constant!(u8_value, Accessibility, DwAccess);
-            }
-            constants::DW_AT_address_class => {
-                constant!(udata_value, AddressClass, DwAddr);
-            }
-            constants::DW_AT_artificial => {
-                flag!();
-            }
-            constants::DW_AT_base_types => {
-                reference!();
-            }
-            constants::DW_AT_calling_convention => {
-                constant!(u8_value, CallingConvention, DwCc);
-            }
-            constants::DW_AT_count => {
-                // TODO: constant
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_data_member_location => {
-                // Constants must be handled before loclistptr so that DW_FORM_data4/8
-                // are correctly interpreted for DWARF version 4+.
-                constant!(udata_value, Udata);
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_decl_column => {
-                constant!(udata_value, Udata);
-            }
-            constants::DW_AT_decl_file => {
-                constant!(udata_value, FileIndex);
-            }
-            constants::DW_AT_decl_line => {
-                constant!(udata_value, Udata);
-            }
-            constants::DW_AT_declaration => {
-                flag!();
-            }
-            constants::DW_AT_discr_list => {
-                block!();
-            }
-            constants::DW_AT_encoding => {
-                constant!(u8_value, Encoding, DwAte);
-            }
-            constants::DW_AT_external => {
-                flag!();
-            }
-            constants::DW_AT_frame_base => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_friend => {
-                reference!();
-            }
-            constants::DW_AT_identifier_case => {
-                constant!(u8_value, IdentifierCase, DwId);
-            }
-            constants::DW_AT_macro_info => {
-                macinfoptr!();
-            }
-            constants::DW_AT_namelist_item => {
-                reference!();
-            }
-            constants::DW_AT_priority => {
-                reference!();
-            }
-            constants::DW_AT_segment => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_specification => {
-                reference!();
-            }
-            constants::DW_AT_static_link => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_type => {
-                reference!();
-            }
-            constants::DW_AT_use_location => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_variable_parameter => {
-                flag!();
-            }
-            constants::DW_AT_virtuality => {
-                constant!(u8_value, Virtuality, DwVirtuality);
-            }
-            constants::DW_AT_vtable_elem_location => {
-                exprloc!();
-                loclistptr!();
-            }
-            constants::DW_AT_allocated => {
-                // TODO: constant
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_associated => {
-                // TODO: constant
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_data_location => {
-                exprloc!();
-            }
-            constants::DW_AT_byte_stride => {
-                constant!(udata_value, Udata);
-                exprloc!();
-                reference!();
-            }
-            constants::DW_AT_entry_pc => {
-                // TODO: constant
-                address!();
-            }
-            constants::DW_AT_use_UTF8 => {
-                flag!();
-            }
-            constants::DW_AT_extension => {
-                reference!();
-            }
-            constants::DW_AT_ranges => {
-                rangelistptr!();
-            }
-            constants::DW_AT_trampoline => {
-                address!();
-                flag!();
-                reference!();
-                string!();
-            }
-            constants::DW_AT_call_column => {
-                constant!(udata_value, Udata);
-            }
-            constants::DW_AT_call_file => {
-                constant!(udata_value, FileIndex);
-            }
-            constants::DW_AT_call_line => {
-                constant!(udata_value, Udata);
-            }
-            constants::DW_AT_description => {
-                string!();
-            }
-            constants::DW_AT_binary_scale => {
-                // TODO: constant
-            }
-            constants::DW_AT_decimal_scale => {
-                // TODO: constant
-            }
-            constants::DW_AT_small => {
-                reference!();
-            }
-            constants::DW_AT_decimal_sign => {
-                constant!(u8_value, DecimalSign, DwDs);
-            }
-            constants::DW_AT_digit_count => {
-                // TODO: constant
-            }
-            constants::DW_AT_picture_string => {
-                string!();
-            }
-            constants::DW_AT_mutable => {
-                flag!();
-            }
-            constants::DW_AT_threads_scaled => {
-                flag!();
-            }
-            constants::DW_AT_explicit => {
-                flag!();
-            }
-            constants::DW_AT_object_pointer => {
-                reference!();
-            }
-            constants::DW_AT_endianity => {
-                constant!(u8_value, Endianity, DwEnd);
-            }
-            constants::DW_AT_elemental => {
-                flag!();
-            }
-            constants::DW_AT_pure => {
-                flag!();
-            }
-            constants::DW_AT_recursive => {
-                flag!();
-            }
-            constants::DW_AT_signature => {
-                reference!();
-            }
-            constants::DW_AT_main_subprogram => {
-                flag!();
-            }
-            constants::DW_AT_data_bit_offset => {
-                // TODO: constant
-            }
-            constants::DW_AT_const_expr => {
-                flag!();
-            }
-            constants::DW_AT_enum_class => {
-                flag!();
-            }
-            constants::DW_AT_linkage_name => {
-                string!();
-            }
-            constants::DW_AT_string_length_bit_size => {
-                // TODO: constant
-            }
-            constants::DW_AT_string_length_byte_size => {
-                // TODO: constant
-            }
-            constants::DW_AT_rank => {
-                // TODO: constant
-                exprloc!();
-            }
-            constants::DW_AT_str_offsets_base => {
-                stroffsetsptr!();
-            }
-            constants::DW_AT_addr_base | constants::DW_AT_GNU_addr_base => {
-                addrptr!();
-            }
-            constants::DW_AT_rnglists_base | constants::DW_AT_GNU_ranges_base => {
-                rnglistsptr!();
-            }
-            constants::DW_AT_dwo_name => {
-                string!();
-            }
-            constants::DW_AT_reference => {
-                flag!();
-            }
-            constants::DW_AT_rvalue_reference => {
-                flag!();
-            }
-            constants::DW_AT_macros => {
-                macroptr!();
-            }
-            constants::DW_AT_call_all_calls => {
-                flag!();
-            }
-            constants::DW_AT_call_all_source_calls => {
-                flag!();
-            }
-            constants::DW_AT_call_all_tail_calls => {
-                flag!();
-            }
-            constants::DW_AT_call_return_pc => {
-                address!();
-            }
-            constants::DW_AT_call_value => {
-                exprloc!();
-            }
-            constants::DW_AT_call_origin => {
-                exprloc!();
-            }
-            constants::DW_AT_call_parameter => {
-                reference!();
-            }
-            constants::DW_AT_call_pc => {
-                address!();
-            }
-            constants::DW_AT_call_tail_call => {
-                flag!();
-            }
-            constants::DW_AT_call_target => {
-                exprloc!();
-            }
-            constants::DW_AT_call_target_clobbered => {
-                exprloc!();
-            }
-            constants::DW_AT_call_data_location => {
-                exprloc!();
-            }
-            constants::DW_AT_call_data_value => {
-                exprloc!();
-            }
-            constants::DW_AT_noreturn => {
-                flag!();
-            }
-            constants::DW_AT_alignment => {
-                // TODO: constant
-            }
-            constants::DW_AT_export_symbols => {
-                flag!();
-            }
-            constants::DW_AT_deleted => {
-                flag!();
-            }
-            constants::DW_AT_defaulted => {
-                // TODO: constant
-            }
-            constants::DW_AT_loclists_base => {
-                loclistsptr!();
-            }
-            constants::DW_AT_GNU_dwo_id => {
-                dwoid!();
-            }
-            _ => {}
-        }
-        self.value.clone()
-    }
-
-    /// Try to convert this attribute's value to a u8.
-    #[inline]
-    pub fn u8_value(&self) -> Option<u8> {
-        self.value.u8_value()
-    }
-
-    /// Try to convert this attribute's value to a u16.
-    #[inline]
-    pub fn u16_value(&self) -> Option<u16> {
-        self.value.u16_value()
-    }
-
-    /// Try to convert this attribute's value to an unsigned integer.
-    #[inline]
-    pub fn udata_value(&self) -> Option<u64> {
-        self.value.udata_value()
-    }
-
-    /// Try to convert this attribute's value to a signed integer.
-    #[inline]
-    pub fn sdata_value(&self) -> Option<i64> {
-        self.value.sdata_value()
-    }
-
-    /// Try to convert this attribute's value to an offset.
-    #[inline]
-    pub fn offset_value(&self) -> Option<R::Offset> {
-        self.value.offset_value()
-    }
-
-    /// Try to convert this attribute's value to an expression or location buffer.
-    ///
-    /// Expressions and locations may be `DW_FORM_block*` or `DW_FORM_exprloc`.
-    /// The standard doesn't mention `DW_FORM_block*` as a possible form, but
-    /// it is encountered in practice.
-    #[inline]
-    pub fn exprloc_value(&self) -> Option<Expression<R>> {
-        self.value.exprloc_value()
-    }
-
-    /// Try to return this attribute's value as a string slice.
-    ///
-    /// If this attribute's value is either an inline `DW_FORM_string` string,
-    /// or a `DW_FORM_strp` reference to an offset into the `.debug_str`
-    /// section, return the attribute's string value as `Some`. Other attribute
-    /// value forms are returned as `None`.
-    ///
-    /// Warning: this function does not handle all possible string forms.
-    /// Use `Dwarf::attr_string` instead.
-    #[inline]
-    pub fn string_value(&self, debug_str: &DebugStr<R>) -> Option<R> {
-        self.value.string_value(debug_str)
-    }
-
-    /// Try to return this attribute's value as a string slice.
-    ///
-    /// If this attribute's value is either an inline `DW_FORM_string` string,
-    /// or a `DW_FORM_strp` reference to an offset into the `.debug_str`
-    /// section, or a `DW_FORM_strp_sup` reference to an offset into a supplementary
-    /// object file, return the attribute's string value as `Some`. Other attribute
-    /// value forms are returned as `None`.
-    ///
-    /// Warning: this function does not handle all possible string forms.
-    /// Use `Dwarf::attr_string` instead.
-    #[inline]
-    pub fn string_value_sup(
-        &self,
-        debug_str: &DebugStr<R>,
-        debug_str_sup: Option<&DebugStr<R>>,
-    ) -> Option<R> {
-        self.value.string_value_sup(debug_str, debug_str_sup)
-    }
-}
-
-impl<R, Offset> AttributeValue<R, Offset>
-where
-    R: Reader<Offset = Offset>,
-    Offset: ReaderOffset,
-{
-    /// Try to convert this attribute's value to a u8.
-    pub fn u8_value(&self) -> Option<u8> {
-        if let Some(value) = self.udata_value() {
-            if value <= u64::from(u8::MAX) {
-                return Some(value as u8);
-            }
-        }
-        None
-    }
-
-    /// Try to convert this attribute's value to a u16.
-    pub fn u16_value(&self) -> Option<u16> {
-        if let Some(value) = self.udata_value() {
-            if value <= u64::from(u16::MAX) {
-                return Some(value as u16);
-            }
-        }
-        None
-    }
-
-    /// Try to convert this attribute's value to an unsigned integer.
-    pub fn udata_value(&self) -> Option<u64> {
-        Some(match *self {
-            AttributeValue::Data1(data) => u64::from(data),
-            AttributeValue::Data2(data) => u64::from(data),
-            AttributeValue::Data4(data) => u64::from(data),
-            AttributeValue::Data8(data) => data,
-            AttributeValue::Udata(data) => data,
-            AttributeValue::Sdata(data) => {
-                if data < 0 {
-                    // Maybe we should emit a warning here
-                    return None;
-                }
-                data as u64
-            }
-            _ => return None,
-        })
-    }
-
-    /// Try to convert this attribute's value to a signed integer.
-    pub fn sdata_value(&self) -> Option<i64> {
-        Some(match *self {
-            AttributeValue::Data1(data) => i64::from(data as i8),
-            AttributeValue::Data2(data) => i64::from(data as i16),
-            AttributeValue::Data4(data) => i64::from(data as i32),
-            AttributeValue::Data8(data) => data as i64,
-            AttributeValue::Sdata(data) => data,
-            AttributeValue::Udata(data) => {
-                if data > i64::max_value() as u64 {
-                    // Maybe we should emit a warning here
-                    return None;
-                }
-                data as i64
-            }
-            _ => return None,
-        })
-    }
-
-    /// Try to convert this attribute's value to an offset.
-    pub fn offset_value(&self) -> Option<R::Offset> {
-        // While offsets will be DW_FORM_data4/8 in DWARF version 2/3,
-        // these have already been converted to `SecOffset.
-        if let AttributeValue::SecOffset(offset) = *self {
-            Some(offset)
-        } else {
-            None
-        }
-    }
-
-    /// Try to convert this attribute's value to an expression or location buffer.
-    ///
-    /// Expressions and locations may be `DW_FORM_block*` or `DW_FORM_exprloc`.
-    /// The standard doesn't mention `DW_FORM_block*` as a possible form, but
-    /// it is encountered in practice.
-    pub fn exprloc_value(&self) -> Option<Expression<R>> {
-        Some(match *self {
-            AttributeValue::Block(ref data) => Expression(data.clone()),
-            AttributeValue::Exprloc(ref data) => data.clone(),
-            _ => return None,
-        })
-    }
-
-    /// Try to return this attribute's value as a string slice.
-    ///
-    /// If this attribute's value is either an inline `DW_FORM_string` string,
-    /// or a `DW_FORM_strp` reference to an offset into the `.debug_str`
-    /// section, return the attribute's string value as `Some`. Other attribute
-    /// value forms are returned as `None`.
-    ///
-    /// Warning: this function does not handle all possible string forms.
-    /// Use `Dwarf::attr_string` instead.
-    pub fn string_value(&self, debug_str: &DebugStr<R>) -> Option<R> {
-        match *self {
-            AttributeValue::String(ref string) => Some(string.clone()),
-            AttributeValue::DebugStrRef(offset) => debug_str.get_str(offset).ok(),
-            _ => None,
-        }
-    }
-
-    /// Try to return this attribute's value as a string slice.
-    ///
-    /// If this attribute's value is either an inline `DW_FORM_string` string,
-    /// or a `DW_FORM_strp` reference to an offset into the `.debug_str`
-    /// section, or a `DW_FORM_strp_sup` reference to an offset into a supplementary
-    /// object file, return the attribute's string value as `Some`. Other attribute
-    /// value forms are returned as `None`.
-    ///
-    /// Warning: this function does not handle all possible string forms.
-    /// Use `Dwarf::attr_string` instead.
-    pub fn string_value_sup(
-        &self,
-        debug_str: &DebugStr<R>,
-        debug_str_sup: Option<&DebugStr<R>>,
-    ) -> Option<R> {
-        match *self {
-            AttributeValue::String(ref string) => Some(string.clone()),
-            AttributeValue::DebugStrRef(offset) => debug_str.get_str(offset).ok(),
-            AttributeValue::DebugStrRefSup(offset) => {
-                debug_str_sup.and_then(|s| s.get_str(offset).ok())
-            }
-            _ => None,
-        }
-    }
-}
-
-fn length_u8_value<R: Reader>(input: &mut R) -> Result<R> {
-    let len = input.read_u8().map(R::Offset::from_u8)?;
-    input.split(len)
-}
-
-fn length_u16_value<R: Reader>(input: &mut R) -> Result<R> {
-    let len = input.read_u16().map(R::Offset::from_u16)?;
-    input.split(len)
-}
-
-fn length_u32_value<R: Reader>(input: &mut R) -> Result<R> {
-    let len = input.read_u32().map(R::Offset::from_u32)?;
-    input.split(len)
-}
-
-fn length_uleb128_value<R: Reader>(input: &mut R) -> Result<R> {
-    let len = input.read_uleb128().and_then(R::Offset::from_u64)?;
-    input.split(len)
-}
-
-// Return true if the given `name` can be a section offset in DWARF version 2/3.
-// This is required to correctly handle relocations.
-fn allow_section_offset(name: constants::DwAt, version: u16) -> bool {
-    match name {
-        constants::DW_AT_location
-        | constants::DW_AT_stmt_list
-        | constants::DW_AT_string_length
-        | constants::DW_AT_return_addr
-        | constants::DW_AT_start_scope
-        | constants::DW_AT_frame_base
-        | constants::DW_AT_macro_info
-        | constants::DW_AT_macros
-        | constants::DW_AT_segment
-        | constants::DW_AT_static_link
-        | constants::DW_AT_use_location
-        | constants::DW_AT_vtable_elem_location
-        | constants::DW_AT_ranges => true,
-        constants::DW_AT_data_member_location => version == 2 || version == 3,
-        _ => false,
-    }
-}
-
-pub(crate) fn parse_attribute<R: Reader>(
-    input: &mut R,
-    encoding: Encoding,
-    spec: AttributeSpecification,
-) -> Result<Attribute<R>> {
-    let mut form = spec.form();
-    loop {
-        let value = match form {
-            constants::DW_FORM_indirect => {
-                let dynamic_form = input.read_uleb128_u16()?;
-                form = constants::DwForm(dynamic_form);
-                continue;
-            }
-            constants::DW_FORM_addr => {
-                let addr = input.read_address(encoding.address_size)?;
-                AttributeValue::Addr(addr)
-            }
-            constants::DW_FORM_block1 => {
-                let block = length_u8_value(input)?;
-                AttributeValue::Block(block)
-            }
-            constants::DW_FORM_block2 => {
-                let block = length_u16_value(input)?;
-                AttributeValue::Block(block)
-            }
-            constants::DW_FORM_block4 => {
-                let block = length_u32_value(input)?;
-                AttributeValue::Block(block)
-            }
-            constants::DW_FORM_block => {
-                let block = length_uleb128_value(input)?;
-                AttributeValue::Block(block)
-            }
-            constants::DW_FORM_data1 => {
-                let data = input.read_u8()?;
-                AttributeValue::Data1(data)
-            }
-            constants::DW_FORM_data2 => {
-                let data = input.read_u16()?;
-                AttributeValue::Data2(data)
-            }
-            constants::DW_FORM_data4 => {
-                // DWARF version 2/3 may use DW_FORM_data4/8 for section offsets.
-                // Ensure we handle relocations here.
-                if encoding.format == Format::Dwarf32
-                    && allow_section_offset(spec.name(), encoding.version)
-                {
-                    let offset = input.read_offset(Format::Dwarf32)?;
-                    AttributeValue::SecOffset(offset)
-                } else {
-                    let data = input.read_u32()?;
-                    AttributeValue::Data4(data)
-                }
-            }
-            constants::DW_FORM_data8 => {
-                // DWARF version 2/3 may use DW_FORM_data4/8 for section offsets.
-                // Ensure we handle relocations here.
-                if encoding.format == Format::Dwarf64
-                    && allow_section_offset(spec.name(), encoding.version)
-                {
-                    let offset = input.read_offset(Format::Dwarf64)?;
-                    AttributeValue::SecOffset(offset)
-                } else {
-                    let data = input.read_u64()?;
-                    AttributeValue::Data8(data)
-                }
-            }
-            constants::DW_FORM_data16 => {
-                let block = input.split(R::Offset::from_u8(16))?;
-                AttributeValue::Block(block)
-            }
-            constants::DW_FORM_udata => {
-                let data = input.read_uleb128()?;
-                AttributeValue::Udata(data)
-            }
-            constants::DW_FORM_sdata => {
-                let data = input.read_sleb128()?;
-                AttributeValue::Sdata(data)
-            }
-            constants::DW_FORM_exprloc => {
-                let block = length_uleb128_value(input)?;
-                AttributeValue::Exprloc(Expression(block))
-            }
-            constants::DW_FORM_flag => {
-                let present = input.read_u8()?;
-                AttributeValue::Flag(present != 0)
-            }
-            constants::DW_FORM_flag_present => {
-                // FlagPresent is this weird compile time always true thing that
-                // isn't actually present in the serialized DIEs, only in the abbreviation.
-                AttributeValue::Flag(true)
-            }
-            constants::DW_FORM_sec_offset => {
-                let offset = input.read_offset(encoding.format)?;
-                AttributeValue::SecOffset(offset)
-            }
-            constants::DW_FORM_ref1 => {
-                let reference = input.read_u8().map(R::Offset::from_u8)?;
-                AttributeValue::UnitRef(UnitOffset(reference))
-            }
-            constants::DW_FORM_ref2 => {
-                let reference = input.read_u16().map(R::Offset::from_u16)?;
-                AttributeValue::UnitRef(UnitOffset(reference))
-            }
-            constants::DW_FORM_ref4 => {
-                let reference = input.read_u32().map(R::Offset::from_u32)?;
-                AttributeValue::UnitRef(UnitOffset(reference))
-            }
-            constants::DW_FORM_ref8 => {
-                let reference = input.read_u64().and_then(R::Offset::from_u64)?;
-                AttributeValue::UnitRef(UnitOffset(reference))
-            }
-            constants::DW_FORM_ref_udata => {
-                let reference = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                AttributeValue::UnitRef(UnitOffset(reference))
-            }
-            constants::DW_FORM_ref_addr => {
-                // This is an offset, but DWARF version 2 specifies that DW_FORM_ref_addr
-                // has the same size as an address on the target system.  This was changed
-                // in DWARF version 3.
-                let offset = if encoding.version == 2 {
-                    input.read_sized_offset(encoding.address_size)?
-                } else {
-                    input.read_offset(encoding.format)?
-                };
-                AttributeValue::DebugInfoRef(DebugInfoOffset(offset))
-            }
-            constants::DW_FORM_ref_sig8 => {
-                let signature = input.read_u64()?;
-                AttributeValue::DebugTypesRef(DebugTypeSignature(signature))
-            }
-            constants::DW_FORM_ref_sup4 => {
-                let offset = input.read_u32().map(R::Offset::from_u32)?;
-                AttributeValue::DebugInfoRefSup(DebugInfoOffset(offset))
-            }
-            constants::DW_FORM_ref_sup8 => {
-                let offset = input.read_u64().and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugInfoRefSup(DebugInfoOffset(offset))
-            }
-            constants::DW_FORM_GNU_ref_alt => {
-                let offset = input.read_offset(encoding.format)?;
-                AttributeValue::DebugInfoRefSup(DebugInfoOffset(offset))
-            }
-            constants::DW_FORM_string => {
-                let string = input.read_null_terminated_slice()?;
-                AttributeValue::String(string)
-            }
-            constants::DW_FORM_strp => {
-                let offset = input.read_offset(encoding.format)?;
-                AttributeValue::DebugStrRef(DebugStrOffset(offset))
-            }
-            constants::DW_FORM_strp_sup | constants::DW_FORM_GNU_strp_alt => {
-                let offset = input.read_offset(encoding.format)?;
-                AttributeValue::DebugStrRefSup(DebugStrOffset(offset))
-            }
-            constants::DW_FORM_line_strp => {
-                let offset = input.read_offset(encoding.format)?;
-                AttributeValue::DebugLineStrRef(DebugLineStrOffset(offset))
-            }
-            constants::DW_FORM_implicit_const => {
-                let data = spec
-                    .implicit_const_value()
-                    .ok_or(Error::InvalidImplicitConst)?;
-                AttributeValue::Sdata(data)
-            }
-            constants::DW_FORM_strx | constants::DW_FORM_GNU_str_index => {
-                let index = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-            }
-            constants::DW_FORM_strx1 => {
-                let index = input.read_u8().map(R::Offset::from_u8)?;
-                AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-            }
-            constants::DW_FORM_strx2 => {
-                let index = input.read_u16().map(R::Offset::from_u16)?;
-                AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-            }
-            constants::DW_FORM_strx3 => {
-                let index = input.read_uint(3).and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-            }
-            constants::DW_FORM_strx4 => {
-                let index = input.read_u32().map(R::Offset::from_u32)?;
-                AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(index))
-            }
-            constants::DW_FORM_addrx | constants::DW_FORM_GNU_addr_index => {
-                let index = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugAddrIndex(DebugAddrIndex(index))
-            }
-            constants::DW_FORM_addrx1 => {
-                let index = input.read_u8().map(R::Offset::from_u8)?;
-                AttributeValue::DebugAddrIndex(DebugAddrIndex(index))
-            }
-            constants::DW_FORM_addrx2 => {
-                let index = input.read_u16().map(R::Offset::from_u16)?;
-                AttributeValue::DebugAddrIndex(DebugAddrIndex(index))
-            }
-            constants::DW_FORM_addrx3 => {
-                let index = input.read_uint(3).and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugAddrIndex(DebugAddrIndex(index))
-            }
-            constants::DW_FORM_addrx4 => {
-                let index = input.read_u32().map(R::Offset::from_u32)?;
-                AttributeValue::DebugAddrIndex(DebugAddrIndex(index))
-            }
-            constants::DW_FORM_loclistx => {
-                let index = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugLocListsIndex(DebugLocListsIndex(index))
-            }
-            constants::DW_FORM_rnglistx => {
-                let index = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                AttributeValue::DebugRngListsIndex(DebugRngListsIndex(index))
-            }
-            _ => {
-                return Err(Error::UnknownForm);
-            }
-        };
-        let attr = Attribute {
-            name: spec.name(),
-            value,
-        };
-        return Ok(attr);
-    }
-}
-
-pub(crate) fn skip_attributes<R: Reader>(
-    input: &mut R,
-    encoding: Encoding,
-    specs: &[AttributeSpecification],
-) -> Result<()> {
-    let mut skip_bytes = R::Offset::from_u8(0);
-    for spec in specs {
-        let mut form = spec.form();
-        loop {
-            if let Some(len) = get_attribute_size(form, encoding) {
-                // We know the length of this attribute. Accumulate that length.
-                skip_bytes += R::Offset::from_u8(len);
-                break;
-            }
-
-            // We have encountered a variable-length attribute.
-            if skip_bytes != R::Offset::from_u8(0) {
-                // Skip the accumulated skip bytes and then read the attribute normally.
-                input.skip(skip_bytes)?;
-                skip_bytes = R::Offset::from_u8(0);
-            }
-
-            match form {
-                constants::DW_FORM_indirect => {
-                    let dynamic_form = input.read_uleb128_u16()?;
-                    form = constants::DwForm(dynamic_form);
-                    continue;
-                }
-                constants::DW_FORM_block1 => {
-                    skip_bytes = input.read_u8().map(R::Offset::from_u8)?;
-                }
-                constants::DW_FORM_block2 => {
-                    skip_bytes = input.read_u16().map(R::Offset::from_u16)?;
-                }
-                constants::DW_FORM_block4 => {
-                    skip_bytes = input.read_u32().map(R::Offset::from_u32)?;
-                }
-                constants::DW_FORM_block | constants::DW_FORM_exprloc => {
-                    skip_bytes = input.read_uleb128().and_then(R::Offset::from_u64)?;
-                }
-                constants::DW_FORM_string => {
-                    let _ = input.read_null_terminated_slice()?;
-                }
-                constants::DW_FORM_udata
-                | constants::DW_FORM_sdata
-                | constants::DW_FORM_ref_udata
-                | constants::DW_FORM_strx
-                | constants::DW_FORM_GNU_str_index
-                | constants::DW_FORM_addrx
-                | constants::DW_FORM_GNU_addr_index
-                | constants::DW_FORM_loclistx
-                | constants::DW_FORM_rnglistx => {
-                    input.skip_leb128()?;
-                }
-                _ => {
-                    return Err(Error::UnknownForm);
-                }
-            };
-            break;
-        }
-    }
-    if skip_bytes != R::Offset::from_u8(0) {
-        // Skip the remaining accumulated skip bytes.
-        input.skip(skip_bytes)?;
-    }
-    Ok(())
-}
-
-/// An iterator over a particular entry's attributes.
-///
-/// See [the documentation for
-/// `DebuggingInformationEntry::attrs()`](./struct.DebuggingInformationEntry.html#method.attrs)
-/// for details.
-///
-/// Can be [used with
-/// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-#[derive(Clone, Copy, Debug)]
-pub struct AttrsIter<'abbrev, 'entry, 'unit, R: Reader> {
-    input: R,
-    attributes: &'abbrev [AttributeSpecification],
-    entry: &'entry DebuggingInformationEntry<'abbrev, 'unit, R>,
-}
-
-impl<'abbrev, 'entry, 'unit, R: Reader> AttrsIter<'abbrev, 'entry, 'unit, R> {
-    /// Advance the iterator and return the next attribute.
-    ///
-    /// Returns `None` when iteration is finished. If an error
-    /// occurs while parsing the next attribute, then this error
-    /// is returned, and all subsequent calls return `None`.
-    #[inline(always)]
-    pub fn next(&mut self) -> Result<Option<Attribute<R>>> {
-        if self.attributes.is_empty() {
-            // Now that we have parsed all of the attributes, we know where
-            // either (1) this entry's children start, if the abbreviation says
-            // this entry has children; or (2) where this entry's siblings
-            // begin.
-            if let Some(end) = self.entry.attrs_len.get() {
-                debug_assert_eq!(end, self.input.offset_from(&self.entry.attrs_slice));
-            } else {
-                self.entry
-                    .attrs_len
-                    .set(Some(self.input.offset_from(&self.entry.attrs_slice)));
-            }
-
-            return Ok(None);
-        }
-
-        let spec = self.attributes[0];
-        let rest_spec = &self.attributes[1..];
-        match parse_attribute(&mut self.input, self.entry.unit.encoding(), spec) {
-            Ok(attr) => {
-                self.attributes = rest_spec;
-                Ok(Some(attr))
-            }
-            Err(e) => {
-                self.input.empty();
-                Err(e)
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<'abbrev, 'entry, 'unit, R: Reader> fallible_iterator::FallibleIterator
-    for AttrsIter<'abbrev, 'entry, 'unit, R>
-{
-    type Item = Attribute<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        AttrsIter::next(self)
-    }
-}
-
-/// A raw reader of the data that defines the Debugging Information Entries.
-///
-/// `EntriesRaw` provides primitives to read the components of Debugging Information
-/// Entries (DIEs). A DIE consists of an abbreviation code (read with `read_abbreviation`)
-/// followed by a number of attributes (read with `read_attribute`).
-/// The user must provide the control flow to read these correctly.
-/// In particular, all attributes must always be read before reading another
-/// abbreviation code.
-///
-/// `EntriesRaw` lacks some features of `EntriesCursor`, such as the ability to skip
-/// to the next sibling DIE. However, this also allows it to optimize better, since it
-/// does not need to perform the extra bookkeeping required to support these features,
-/// and thus it is suitable for cases where performance is important.
-///
-/// ## Example Usage
-/// ```rust,no_run
-/// # fn example() -> Result<(), gimli::Error> {
-/// # let debug_info = gimli::DebugInfo::new(&[], gimli::LittleEndian);
-/// # let get_some_unit = || debug_info.units().next().unwrap().unwrap();
-/// let unit = get_some_unit();
-/// # let debug_abbrev = gimli::DebugAbbrev::new(&[], gimli::LittleEndian);
-/// # let get_abbrevs_for_unit = |_| unit.abbreviations(&debug_abbrev).unwrap();
-/// let abbrevs = get_abbrevs_for_unit(&unit);
-///
-/// let mut entries = unit.entries_raw(&abbrevs, None)?;
-/// while !entries.is_empty() {
-///     let abbrev = if let Some(abbrev) = entries.read_abbreviation()? {
-///         abbrev
-///     } else {
-///         // Null entry with no attributes.
-///         continue
-///     };
-///     match abbrev.tag() {
-///         gimli::DW_TAG_subprogram => {
-///             // Loop over attributes for DIEs we care about.
-///             for spec in abbrev.attributes() {
-///                 let attr = entries.read_attribute(*spec)?;
-///                 match attr.name() {
-///                     // Handle attributes.
-///                     _ => {}
-///                 }
-///             }
-///         }
-///         _ => {
-///             // Skip attributes for DIEs we don't care about.
-///             entries.skip_attributes(abbrev.attributes());
-///         }
-///     }
-/// }
-/// # unreachable!()
-/// # }
-/// ```
-#[derive(Clone, Debug)]
-pub struct EntriesRaw<'abbrev, 'unit, R>
-where
-    R: Reader,
-{
-    input: R,
-    unit: &'unit UnitHeader<R>,
-    abbreviations: &'abbrev Abbreviations,
-    depth: isize,
-}
-
-impl<'abbrev, 'unit, R: Reader> EntriesRaw<'abbrev, 'unit, R> {
-    /// Return true if there is no more input.
-    #[inline]
-    pub fn is_empty(&self) -> bool {
-        self.input.is_empty()
-    }
-
-    /// Return the unit offset at which the reader will read next.
-    ///
-    /// If you want the offset of the next entry, then this must be called prior to reading
-    /// the next entry.
-    pub fn next_offset(&self) -> UnitOffset<R::Offset> {
-        UnitOffset(self.unit.header_size() + self.input.offset_from(&self.unit.entries_buf))
-    }
-
-    /// Return the depth of the next entry.
-    ///
-    /// This depth is updated when `read_abbreviation` is called, and is updated
-    /// based on null entries and the `has_children` field in the abbreviation.
-    #[inline]
-    pub fn next_depth(&self) -> isize {
-        self.depth
-    }
-
-    /// Read an abbreviation code and lookup the corresponding `Abbreviation`.
-    ///
-    /// Returns `Ok(None)` for null entries.
-    #[inline]
-    pub fn read_abbreviation(&mut self) -> Result<Option<&'abbrev Abbreviation>> {
-        let code = self.input.read_uleb128()?;
-        if code == 0 {
-            self.depth -= 1;
-            return Ok(None);
-        };
-        let abbrev = self
-            .abbreviations
-            .get(code)
-            .ok_or(Error::UnknownAbbreviation)?;
-        if abbrev.has_children() {
-            self.depth += 1;
-        }
-        Ok(Some(abbrev))
-    }
-
-    /// Read an attribute.
-    #[inline]
-    pub fn read_attribute(&mut self, spec: AttributeSpecification) -> Result<Attribute<R>> {
-        parse_attribute(&mut self.input, self.unit.encoding(), spec)
-    }
-
-    /// Skip all the attributes of an abbreviation.
-    #[inline]
-    pub fn skip_attributes(&mut self, specs: &[AttributeSpecification]) -> Result<()> {
-        skip_attributes(&mut self.input, self.unit.encoding(), specs)
-    }
-}
-
-/// A cursor into the Debugging Information Entries tree for a compilation unit.
-///
-/// The `EntriesCursor` can traverse the DIE tree in DFS order using `next_dfs()`,
-/// or skip to the next sibling of the entry the cursor is currently pointing to
-/// using `next_sibling()`.
-///
-/// It is also possible to traverse the DIE tree at a lower abstraction level
-/// using `next_entry()`. This method does not skip over null entries, or provide
-/// any indication of the current tree depth. In this case, you must use `current()`
-/// to obtain the current entry, and `current().has_children()` to determine if
-/// the entry following the current entry will be a sibling or child. `current()`
-/// will return `None` if the current entry is a null entry, which signifies the
-/// end of the current tree depth.
-#[derive(Clone, Debug)]
-pub struct EntriesCursor<'abbrev, 'unit, R>
-where
-    R: Reader,
-{
-    input: R,
-    unit: &'unit UnitHeader<R>,
-    abbreviations: &'abbrev Abbreviations,
-    cached_current: Option<DebuggingInformationEntry<'abbrev, 'unit, R>>,
-    delta_depth: isize,
-}
-
-impl<'abbrev, 'unit, R: Reader> EntriesCursor<'abbrev, 'unit, R> {
-    /// Get a reference to the entry that the cursor is currently pointing to.
-    ///
-    /// If the cursor is not pointing at an entry, or if the current entry is a
-    /// null entry, then `None` is returned.
-    #[inline]
-    pub fn current(&self) -> Option<&DebuggingInformationEntry<'abbrev, 'unit, R>> {
-        self.cached_current.as_ref()
-    }
-
-    /// Move the cursor to the next DIE in the tree.
-    ///
-    /// Returns `Some` if there is a next entry, even if this entry is null.
-    /// If there is no next entry, then `None` is returned.
-    pub fn next_entry(&mut self) -> Result<Option<()>> {
-        if let Some(ref current) = self.cached_current {
-            self.input = current.after_attrs()?;
-        }
-
-        if self.input.is_empty() {
-            self.cached_current = None;
-            self.delta_depth = 0;
-            return Ok(None);
-        }
-
-        match DebuggingInformationEntry::parse(&mut self.input, self.unit, self.abbreviations) {
-            Ok(Some(entry)) => {
-                self.delta_depth = entry.has_children() as isize;
-                self.cached_current = Some(entry);
-                Ok(Some(()))
-            }
-            Ok(None) => {
-                self.delta_depth = -1;
-                self.cached_current = None;
-                Ok(Some(()))
-            }
-            Err(e) => {
-                self.input.empty();
-                self.delta_depth = 0;
-                self.cached_current = None;
-                Err(e)
-            }
-        }
-    }
-
-    /// Move the cursor to the next DIE in the tree in DFS order.
-    ///
-    /// Upon successful movement of the cursor, return the delta traversal
-    /// depth and the entry:
-    ///
-    ///   * If we moved down into the previous current entry's children, we get
-    ///     `Some((1, entry))`.
-    ///
-    ///   * If we moved to the previous current entry's sibling, we get
-    ///     `Some((0, entry))`.
-    ///
-    ///   * If the previous entry does not have any siblings and we move up to
-    ///     its parent's next sibling, then we get `Some((-1, entry))`. Note that
-    ///     if the parent doesn't have a next sibling, then it could go up to the
-    ///     parent's parent's next sibling and return `Some((-2, entry))`, etc.
-    ///
-    /// If there is no next entry, then `None` is returned.
-    ///
-    /// Here is an example that finds the first entry in a compilation unit that
-    /// does not have any children.
-    ///
-    /// ```
-    /// # use gimli::{DebugAbbrev, DebugInfo, LittleEndian};
-    /// # let info_buf = [
-    /// #     // Comilation unit header
-    /// #
-    /// #     // 32-bit unit length = 25
-    /// #     0x19, 0x00, 0x00, 0x00,
-    /// #     // Version 4
-    /// #     0x04, 0x00,
-    /// #     // debug_abbrev_offset
-    /// #     0x00, 0x00, 0x00, 0x00,
-    /// #     // Address size
-    /// #     0x04,
-    /// #
-    /// #     // DIEs
-    /// #
-    /// #     // Abbreviation code
-    /// #     0x01,
-    /// #     // Attribute of form DW_FORM_string = "foo\0"
-    /// #     0x66, 0x6f, 0x6f, 0x00,
-    /// #
-    /// #       // Children
-    /// #
-    /// #       // Abbreviation code
-    /// #       0x01,
-    /// #       // Attribute of form DW_FORM_string = "foo\0"
-    /// #       0x66, 0x6f, 0x6f, 0x00,
-    /// #
-    /// #         // Children
-    /// #
-    /// #         // Abbreviation code
-    /// #         0x01,
-    /// #         // Attribute of form DW_FORM_string = "foo\0"
-    /// #         0x66, 0x6f, 0x6f, 0x00,
-    /// #
-    /// #           // Children
-    /// #
-    /// #           // End of children
-    /// #           0x00,
-    /// #
-    /// #         // End of children
-    /// #         0x00,
-    /// #
-    /// #       // End of children
-    /// #       0x00,
-    /// # ];
-    /// # let debug_info = DebugInfo::new(&info_buf, LittleEndian);
-    /// #
-    /// # let abbrev_buf = [
-    /// #     // Code
-    /// #     0x01,
-    /// #     // DW_TAG_subprogram
-    /// #     0x2e,
-    /// #     // DW_CHILDREN_yes
-    /// #     0x01,
-    /// #     // Begin attributes
-    /// #       // Attribute name = DW_AT_name
-    /// #       0x03,
-    /// #       // Attribute form = DW_FORM_string
-    /// #       0x08,
-    /// #     // End attributes
-    /// #     0x00,
-    /// #     0x00,
-    /// #     // Null terminator
-    /// #     0x00
-    /// # ];
-    /// # let debug_abbrev = DebugAbbrev::new(&abbrev_buf, LittleEndian);
-    /// #
-    /// # let get_some_unit = || debug_info.units().next().unwrap().unwrap();
-    ///
-    /// let unit = get_some_unit();
-    /// # let get_abbrevs_for_unit = |_| unit.abbreviations(&debug_abbrev).unwrap();
-    /// let abbrevs = get_abbrevs_for_unit(&unit);
-    ///
-    /// let mut first_entry_with_no_children = None;
-    /// let mut cursor = unit.entries(&abbrevs);
-    ///
-    /// // Move the cursor to the root.
-    /// assert!(cursor.next_dfs().unwrap().is_some());
-    ///
-    /// // Traverse the DIE tree in depth-first search order.
-    /// let mut depth = 0;
-    /// while let Some((delta_depth, current)) = cursor.next_dfs().expect("Should parse next dfs") {
-    ///     // Update depth value, and break out of the loop when we
-    ///     // return to the original starting position.
-    ///     depth += delta_depth;
-    ///     if depth <= 0 {
-    ///         break;
-    ///     }
-    ///
-    ///     first_entry_with_no_children = Some(current.clone());
-    /// }
-    ///
-    /// println!("The first entry with no children is {:?}",
-    ///          first_entry_with_no_children.unwrap());
-    /// ```
-    pub fn next_dfs(
-        &mut self,
-    ) -> Result<Option<(isize, &DebuggingInformationEntry<'abbrev, 'unit, R>)>> {
-        let mut delta_depth = self.delta_depth;
-        loop {
-            // The next entry should be the one we want.
-            if self.next_entry()?.is_some() {
-                if let Some(ref entry) = self.cached_current {
-                    return Ok(Some((delta_depth, entry)));
-                }
-
-                // next_entry() read a null entry.
-                delta_depth += self.delta_depth;
-            } else {
-                return Ok(None);
-            }
-        }
-    }
-
-    /// Move the cursor to the next sibling DIE of the current one.
-    ///
-    /// Returns `Ok(Some(entry))` when the cursor has been moved to
-    /// the next sibling, `Ok(None)` when there is no next sibling.
-    ///
-    /// The depth of the cursor is never changed if this method returns `Ok`.
-    /// Once `Ok(None)` is returned, this method will continue to return
-    /// `Ok(None)` until either `next_entry` or `next_dfs` is called.
-    ///
-    /// Here is an example that iterates over all of the direct children of the
-    /// root entry:
-    ///
-    /// ```
-    /// # use gimli::{DebugAbbrev, DebugInfo, LittleEndian};
-    /// # let info_buf = [
-    /// #     // Comilation unit header
-    /// #
-    /// #     // 32-bit unit length = 25
-    /// #     0x19, 0x00, 0x00, 0x00,
-    /// #     // Version 4
-    /// #     0x04, 0x00,
-    /// #     // debug_abbrev_offset
-    /// #     0x00, 0x00, 0x00, 0x00,
-    /// #     // Address size
-    /// #     0x04,
-    /// #
-    /// #     // DIEs
-    /// #
-    /// #     // Abbreviation code
-    /// #     0x01,
-    /// #     // Attribute of form DW_FORM_string = "foo\0"
-    /// #     0x66, 0x6f, 0x6f, 0x00,
-    /// #
-    /// #       // Children
-    /// #
-    /// #       // Abbreviation code
-    /// #       0x01,
-    /// #       // Attribute of form DW_FORM_string = "foo\0"
-    /// #       0x66, 0x6f, 0x6f, 0x00,
-    /// #
-    /// #         // Children
-    /// #
-    /// #         // Abbreviation code
-    /// #         0x01,
-    /// #         // Attribute of form DW_FORM_string = "foo\0"
-    /// #         0x66, 0x6f, 0x6f, 0x00,
-    /// #
-    /// #           // Children
-    /// #
-    /// #           // End of children
-    /// #           0x00,
-    /// #
-    /// #         // End of children
-    /// #         0x00,
-    /// #
-    /// #       // End of children
-    /// #       0x00,
-    /// # ];
-    /// # let debug_info = DebugInfo::new(&info_buf, LittleEndian);
-    /// #
-    /// # let get_some_unit = || debug_info.units().next().unwrap().unwrap();
-    ///
-    /// # let abbrev_buf = [
-    /// #     // Code
-    /// #     0x01,
-    /// #     // DW_TAG_subprogram
-    /// #     0x2e,
-    /// #     // DW_CHILDREN_yes
-    /// #     0x01,
-    /// #     // Begin attributes
-    /// #       // Attribute name = DW_AT_name
-    /// #       0x03,
-    /// #       // Attribute form = DW_FORM_string
-    /// #       0x08,
-    /// #     // End attributes
-    /// #     0x00,
-    /// #     0x00,
-    /// #     // Null terminator
-    /// #     0x00
-    /// # ];
-    /// # let debug_abbrev = DebugAbbrev::new(&abbrev_buf, LittleEndian);
-    /// #
-    /// let unit = get_some_unit();
-    /// # let get_abbrevs_for_unit = |_| unit.abbreviations(&debug_abbrev).unwrap();
-    /// let abbrevs = get_abbrevs_for_unit(&unit);
-    ///
-    /// let mut cursor = unit.entries(&abbrevs);
-    ///
-    /// // Move the cursor to the root.
-    /// assert!(cursor.next_dfs().unwrap().is_some());
-    ///
-    /// // Move the cursor to the root's first child.
-    /// assert!(cursor.next_dfs().unwrap().is_some());
-    ///
-    /// // Iterate the root's children.
-    /// loop {
-    ///     {
-    ///         let current = cursor.current().expect("Should be at an entry");
-    ///         println!("{:?} is a child of the root", current);
-    ///     }
-    ///
-    ///     if cursor.next_sibling().expect("Should parse next sibling").is_none() {
-    ///         break;
-    ///     }
-    /// }
-    /// ```
-    pub fn next_sibling(
-        &mut self,
-    ) -> Result<Option<&DebuggingInformationEntry<'abbrev, 'unit, R>>> {
-        if self.current().is_none() {
-            // We're already at the null for the end of the sibling list.
-            return Ok(None);
-        }
-
-        // Loop until we find an entry at the current level.
-        let mut depth = 0;
-        loop {
-            // Use is_some() and unwrap() to keep borrow checker happy.
-            if self.current().is_some() && self.current().unwrap().has_children() {
-                if let Some(sibling_input) = self.current().unwrap().sibling() {
-                    // Fast path: this entry has a DW_AT_sibling
-                    // attribute pointing to its sibling, so jump
-                    // to it (which keeps us at the same depth).
-                    self.input = sibling_input;
-                    self.cached_current = None;
-                } else {
-                    // This entry has children, so the next entry is
-                    // down one level.
-                    depth += 1;
-                }
-            }
-
-            if self.next_entry()?.is_none() {
-                // End of input.
-                return Ok(None);
-            }
-
-            if depth == 0 {
-                // Found an entry at the current level.
-                return Ok(self.current());
-            }
-
-            if self.current().is_none() {
-                // A null entry means the end of a child list, so we're
-                // back up a level.
-                depth -= 1;
-            }
-        }
-    }
-}
-
-/// The state information for a tree view of the Debugging Information Entries.
-///
-/// The `EntriesTree` can be used to recursively iterate through the DIE
-/// tree, following the parent/child relationships. The `EntriesTree` contains
-/// shared state for all nodes in the tree, avoiding any duplicate parsing of
-/// entries during the traversal.
-///
-/// ## Example Usage
-/// ```rust,no_run
-/// # fn example() -> Result<(), gimli::Error> {
-/// # let debug_info = gimli::DebugInfo::new(&[], gimli::LittleEndian);
-/// # let get_some_unit = || debug_info.units().next().unwrap().unwrap();
-/// let unit = get_some_unit();
-/// # let debug_abbrev = gimli::DebugAbbrev::new(&[], gimli::LittleEndian);
-/// # let get_abbrevs_for_unit = |_| unit.abbreviations(&debug_abbrev).unwrap();
-/// let abbrevs = get_abbrevs_for_unit(&unit);
-///
-/// let mut tree = unit.entries_tree(&abbrevs, None)?;
-/// let root = tree.root()?;
-/// process_tree(root)?;
-/// # unreachable!()
-/// # }
-///
-/// fn process_tree<R>(mut node: gimli::EntriesTreeNode<R>) -> gimli::Result<()>
-///     where R: gimli::Reader
-/// {
-///     {
-///         // Examine the entry attributes.
-///         let mut attrs = node.entry().attrs();
-///         while let Some(attr) = attrs.next()? {
-///         }
-///     }
-///     let mut children = node.children();
-///     while let Some(child) = children.next()? {
-///         // Recursively process a child.
-///         process_tree(child);
-///     }
-///     Ok(())
-/// }
-/// ```
-#[derive(Clone, Debug)]
-pub struct EntriesTree<'abbrev, 'unit, R>
-where
-    R: Reader,
-{
-    root: R,
-    unit: &'unit UnitHeader<R>,
-    abbreviations: &'abbrev Abbreviations,
-    input: R,
-    entry: Option<DebuggingInformationEntry<'abbrev, 'unit, R>>,
-    depth: isize,
-}
-
-impl<'abbrev, 'unit, R: Reader> EntriesTree<'abbrev, 'unit, R> {
-    fn new(root: R, unit: &'unit UnitHeader<R>, abbreviations: &'abbrev Abbreviations) -> Self {
-        let input = root.clone();
-        EntriesTree {
-            root,
-            unit,
-            abbreviations,
-            input,
-            entry: None,
-            depth: 0,
-        }
-    }
-
-    /// Returns the root node of the tree.
-    pub fn root<'me>(&'me mut self) -> Result<EntriesTreeNode<'abbrev, 'unit, 'me, R>> {
-        self.input = self.root.clone();
-        self.entry =
-            DebuggingInformationEntry::parse(&mut self.input, self.unit, self.abbreviations)?;
-        if self.entry.is_none() {
-            return Err(Error::UnexpectedNull);
-        }
-        self.depth = 0;
-        Ok(EntriesTreeNode::new(self, 1))
-    }
-
-    /// Move the cursor to the next entry at the specified depth.
-    ///
-    /// Requires `depth <= self.depth + 1`.
-    ///
-    /// Returns `true` if successful.
-    fn next(&mut self, depth: isize) -> Result<bool> {
-        if self.depth < depth {
-            debug_assert_eq!(self.depth + 1, depth);
-
-            match self.entry {
-                Some(ref entry) => {
-                    if !entry.has_children() {
-                        return Ok(false);
-                    }
-                    self.depth += 1;
-                    self.input = entry.after_attrs()?;
-                }
-                None => return Ok(false),
-            }
-
-            if self.input.is_empty() {
-                self.entry = None;
-                return Ok(false);
-            }
-
-            return match DebuggingInformationEntry::parse(
-                &mut self.input,
-                self.unit,
-                self.abbreviations,
-            ) {
-                Ok(entry) => {
-                    self.entry = entry;
-                    Ok(self.entry.is_some())
-                }
-                Err(e) => {
-                    self.input.empty();
-                    self.entry = None;
-                    Err(e)
-                }
-            };
-        }
-
-        loop {
-            match self.entry {
-                Some(ref entry) => {
-                    if entry.has_children() {
-                        if let Some(sibling_input) = entry.sibling() {
-                            // Fast path: this entry has a DW_AT_sibling
-                            // attribute pointing to its sibling, so jump
-                            // to it (which keeps us at the same depth).
-                            self.input = sibling_input;
-                        } else {
-                            // This entry has children, so the next entry is
-                            // down one level.
-                            self.depth += 1;
-                            self.input = entry.after_attrs()?;
-                        }
-                    } else {
-                        // This entry has no children, so next entry is at same depth.
-                        self.input = entry.after_attrs()?;
-                    }
-                }
-                None => {
-                    // This entry is a null, so next entry is up one level.
-                    self.depth -= 1;
-                }
-            }
-
-            if self.input.is_empty() {
-                self.entry = None;
-                return Ok(false);
-            }
-
-            match DebuggingInformationEntry::parse(&mut self.input, self.unit, self.abbreviations) {
-                Ok(entry) => {
-                    self.entry = entry;
-                    if self.depth == depth {
-                        return Ok(self.entry.is_some());
-                    }
-                }
-                Err(e) => {
-                    self.input.empty();
-                    self.entry = None;
-                    return Err(e);
-                }
-            }
-        }
-    }
-}
-
-/// A node in the Debugging Information Entry tree.
-///
-/// The root node of a tree can be obtained
-/// via [`EntriesTree::root`](./struct.EntriesTree.html#method.root).
-#[derive(Debug)]
-pub struct EntriesTreeNode<'abbrev, 'unit, 'tree, R: Reader> {
-    tree: &'tree mut EntriesTree<'abbrev, 'unit, R>,
-    depth: isize,
-}
-
-impl<'abbrev, 'unit, 'tree, R: Reader> EntriesTreeNode<'abbrev, 'unit, 'tree, R> {
-    fn new(
-        tree: &'tree mut EntriesTree<'abbrev, 'unit, R>,
-        depth: isize,
-    ) -> EntriesTreeNode<'abbrev, 'unit, 'tree, R> {
-        debug_assert!(tree.entry.is_some());
-        EntriesTreeNode { tree, depth }
-    }
-
-    /// Returns the current entry in the tree.
-    pub fn entry(&self) -> &DebuggingInformationEntry<'abbrev, 'unit, R> {
-        // We never create a node without an entry.
-        self.tree.entry.as_ref().unwrap()
-    }
-
-    /// Create an iterator for the children of the current entry.
-    ///
-    /// The current entry can no longer be accessed after creating the
-    /// iterator.
-    pub fn children(self) -> EntriesTreeIter<'abbrev, 'unit, 'tree, R> {
-        EntriesTreeIter::new(self.tree, self.depth)
-    }
-}
-
-/// An iterator that allows traversal of the children of an
-/// `EntriesTreeNode`.
-///
-/// The items returned by this iterator are also `EntriesTreeNode`s,
-/// which allow recursive traversal of grandchildren, etc.
-#[derive(Debug)]
-pub struct EntriesTreeIter<'abbrev, 'unit, 'tree, R: Reader> {
-    tree: &'tree mut EntriesTree<'abbrev, 'unit, R>,
-    depth: isize,
-    empty: bool,
-}
-
-impl<'abbrev, 'unit, 'tree, R: Reader> EntriesTreeIter<'abbrev, 'unit, 'tree, R> {
-    fn new(
-        tree: &'tree mut EntriesTree<'abbrev, 'unit, R>,
-        depth: isize,
-    ) -> EntriesTreeIter<'abbrev, 'unit, 'tree, R> {
-        EntriesTreeIter {
-            tree,
-            depth,
-            empty: false,
-        }
-    }
-
-    /// Returns an `EntriesTreeNode` for the next child entry.
-    ///
-    /// Returns `None` if there are no more children.
-    pub fn next<'me>(&'me mut self) -> Result<Option<EntriesTreeNode<'abbrev, 'unit, 'me, R>>> {
-        if self.empty {
-            Ok(None)
-        } else if self.tree.next(self.depth)? {
-            Ok(Some(EntriesTreeNode::new(self.tree, self.depth + 1)))
-        } else {
-            self.empty = true;
-            Ok(None)
-        }
-    }
-}
-
-/// Parse a type unit header's unique type signature. Callers should handle
-/// unique-ness checking.
-fn parse_type_signature<R: Reader>(input: &mut R) -> Result<DebugTypeSignature> {
-    input.read_u64().map(DebugTypeSignature)
-}
-
-/// Parse a type unit header's type offset.
-fn parse_type_offset<R: Reader>(input: &mut R, format: Format) -> Result<UnitOffset<R::Offset>> {
-    input.read_offset(format).map(UnitOffset)
-}
-
-/// The `DebugTypes` struct represents the DWARF type information
-/// found in the `.debug_types` section.
-#[derive(Debug, Default, Clone, Copy)]
-pub struct DebugTypes<R> {
-    debug_types_section: R,
-}
-
-impl<'input, Endian> DebugTypes<EndianSlice<'input, Endian>>
-where
-    Endian: Endianity,
-{
-    /// Construct a new `DebugTypes` instance from the data in the `.debug_types`
-    /// section.
-    ///
-    /// It is the caller's responsibility to read the `.debug_types` section and
-    /// present it as a `&[u8]` slice. That means using some ELF loader on
-    /// Linux, a Mach-O loader on macOS, etc.
-    ///
-    /// ```
-    /// use gimli::{DebugTypes, LittleEndian};
-    ///
-    /// # let buf = [0x00, 0x01, 0x02, 0x03];
-    /// # let read_debug_types_section_somehow = || &buf;
-    /// let debug_types = DebugTypes::new(read_debug_types_section_somehow(), LittleEndian);
-    /// ```
-    pub fn new(debug_types_section: &'input [u8], endian: Endian) -> Self {
-        Self::from(EndianSlice::new(debug_types_section, endian))
-    }
-}
-
-impl<T> DebugTypes<T> {
-    /// Create a `DebugTypes` section that references the data in `self`.
-    ///
-    /// This is useful when `R` implements `Reader` but `T` does not.
-    ///
-    /// ## Example Usage
-    ///
-    /// ```rust,no_run
-    /// # let load_section = || unimplemented!();
-    /// // Read the DWARF section into a `Vec` with whatever object loader you're using.
-    /// let owned_section: gimli::DebugTypes<Vec<u8>> = load_section();
-    /// // Create a reference to the DWARF section.
-    /// let section = owned_section.borrow(|section| {
-    ///     gimli::EndianSlice::new(&section, gimli::LittleEndian)
-    /// });
-    /// ```
-    pub fn borrow<'a, F, R>(&'a self, mut borrow: F) -> DebugTypes<R>
-    where
-        F: FnMut(&'a T) -> R,
-    {
-        borrow(&self.debug_types_section).into()
-    }
-}
-
-impl<R> Section<R> for DebugTypes<R> {
-    fn id() -> SectionId {
-        SectionId::DebugTypes
-    }
-
-    fn reader(&self) -> &R {
-        &self.debug_types_section
-    }
-}
-
-impl<R> From<R> for DebugTypes<R> {
-    fn from(debug_types_section: R) -> Self {
-        DebugTypes {
-            debug_types_section,
-        }
-    }
-}
-
-impl<R: Reader> DebugTypes<R> {
-    /// Iterate the type-units in this `.debug_types` section.
-    ///
-    /// ```
-    /// use gimli::{DebugTypes, LittleEndian};
-    ///
-    /// # let buf = [];
-    /// # let read_debug_types_section_somehow = || &buf;
-    /// let debug_types = DebugTypes::new(read_debug_types_section_somehow(), LittleEndian);
-    ///
-    /// let mut iter = debug_types.units();
-    /// while let Some(unit) = iter.next().unwrap() {
-    ///     println!("unit's length is {}", unit.unit_length());
-    /// }
-    /// ```
-    ///
-    /// Can be [used with
-    /// `FallibleIterator`](./index.html#using-with-fallibleiterator).
-    pub fn units(&self) -> DebugTypesUnitHeadersIter<R> {
-        DebugTypesUnitHeadersIter {
-            input: self.debug_types_section.clone(),
-            offset: DebugTypesOffset(R::Offset::from_u8(0)),
-        }
-    }
-}
-
-/// An iterator over the type-units of this `.debug_types` section.
-///
-/// See the [documentation on
-/// `DebugTypes::units`](./struct.DebugTypes.html#method.units) for
-/// more detail.
-#[derive(Clone, Debug)]
-pub struct DebugTypesUnitHeadersIter<R: Reader> {
-    input: R,
-    offset: DebugTypesOffset<R::Offset>,
-}
-
-impl<R: Reader> DebugTypesUnitHeadersIter<R> {
-    /// Advance the iterator to the next type unit header.
-    pub fn next(&mut self) -> Result<Option<UnitHeader<R>>> {
-        if self.input.is_empty() {
-            Ok(None)
-        } else {
-            let len = self.input.len();
-            match parse_unit_header(&mut self.input, self.offset.into()) {
-                Ok(header) => {
-                    self.offset.0 += len - self.input.len();
-                    Ok(Some(header))
-                }
-                Err(e) => {
-                    self.input.empty();
-                    Err(e)
-                }
-            }
-        }
-    }
-}
-
-#[cfg(feature = "fallible-iterator")]
-impl<R: Reader> fallible_iterator::FallibleIterator for DebugTypesUnitHeadersIter<R> {
-    type Item = UnitHeader<R>;
-    type Error = Error;
-
-    fn next(&mut self) -> ::core::result::Result<Option<Self::Item>, Self::Error> {
-        DebugTypesUnitHeadersIter::next(self)
-    }
-}
-
-#[cfg(test)]
-// Tests require leb128::write.
-#[cfg(feature = "write")]
-mod tests {
-    use super::*;
-    use crate::constants;
-    use crate::constants::*;
-    use crate::endianity::{Endianity, LittleEndian};
-    use crate::leb128;
-    use crate::read::abbrev::tests::AbbrevSectionMethods;
-    use crate::read::{
-        Abbreviation, AttributeSpecification, DebugAbbrev, EndianSlice, Error, Result,
-    };
-    use crate::test_util::GimliSectionMethods;
-    use alloc::vec::Vec;
-    use core::cell::Cell;
-    use test_assembler::{Endian, Label, LabelMaker, Section};
-
-    // Mixin methods for `Section` to help define binary test data.
-
-    trait UnitSectionMethods {
-        fn unit<'input, E>(self, unit: &mut UnitHeader<EndianSlice<'input, E>>) -> Self
-        where
-            E: Endianity;
-        fn die<F>(self, code: u64, attr: F) -> Self
-        where
-            F: Fn(Section) -> Section;
-        fn die_null(self) -> Self;
-        fn attr_string(self, s: &str) -> Self;
-        fn attr_ref1(self, o: u8) -> Self;
-        fn offset(self, offset: usize, format: Format) -> Self;
-    }
-
-    impl UnitSectionMethods for Section {
-        fn unit<'input, E>(self, unit: &mut UnitHeader<EndianSlice<'input, E>>) -> Self
-        where
-            E: Endianity,
-        {
-            let size = self.size();
-            let length = Label::new();
-            let start = Label::new();
-            let end = Label::new();
-
-            let section = match unit.format() {
-                Format::Dwarf32 => self.L32(&length),
-                Format::Dwarf64 => self.L32(0xffff_ffff).L64(&length),
-            };
-
-            let section = match unit.version() {
-                2 | 3 | 4 => section
-                    .mark(&start)
-                    .L16(unit.version())
-                    .offset(unit.debug_abbrev_offset.0, unit.format())
-                    .D8(unit.address_size()),
-                5 => section
-                    .mark(&start)
-                    .L16(unit.version())
-                    .D8(unit.type_().dw_ut().0)
-                    .D8(unit.address_size())
-                    .offset(unit.debug_abbrev_offset.0, unit.format()),
-                _ => unreachable!(),
-            };
-
-            let section = match unit.type_() {
-                UnitType::Compilation | UnitType::Partial => {
-                    unit.unit_offset = DebugInfoOffset(size as usize).into();
-                    section
-                }
-                UnitType::Type {
-                    type_signature,
-                    type_offset,
-                }
-                | UnitType::SplitType {
-                    type_signature,
-                    type_offset,
-                } => {
-                    if unit.version() == 5 {
-                        unit.unit_offset = DebugInfoOffset(size as usize).into();
-                    } else {
-                        unit.unit_offset = DebugTypesOffset(size as usize).into();
-                    }
-                    section
-                        .L64(type_signature.0)
-                        .offset(type_offset.0, unit.format())
-                }
-                UnitType::Skeleton(dwo_id) | UnitType::SplitCompilation(dwo_id) => {
-                    unit.unit_offset = DebugInfoOffset(size as usize).into();
-                    section.L64(dwo_id.0)
-                }
-            };
-
-            let section = section.append_bytes(unit.entries_buf.into()).mark(&end);
-
-            unit.unit_length = (&end - &start) as usize;
-            length.set_const(unit.unit_length as u64);
-
-            section
-        }
-
-        fn die<F>(self, code: u64, attr: F) -> Self
-        where
-            F: Fn(Section) -> Section,
-        {
-            let section = self.uleb(code);
-            attr(section)
-        }
-
-        fn die_null(self) -> Self {
-            self.D8(0)
-        }
-
-        fn attr_string(self, attr: &str) -> Self {
-            self.append_bytes(attr.as_bytes()).D8(0)
-        }
-
-        fn attr_ref1(self, attr: u8) -> Self {
-            self.D8(attr)
-        }
-
-        fn offset(self, offset: usize, format: Format) -> Self {
-            match format {
-                Format::Dwarf32 => self.L32(offset as u32),
-                Format::Dwarf64 => self.L64(offset as u64),
-            }
-        }
-    }
-
-    /// Ensure that `UnitHeader<R>` is covariant wrt R.
-    #[test]
-    fn test_unit_header_variance() {
-        /// This only needs to compile.
-        fn _f<'a: 'b, 'b, E: Endianity>(
-            x: UnitHeader<EndianSlice<'a, E>>,
-        ) -> UnitHeader<EndianSlice<'b, E>> {
-            x
-        }
-    }
-
-    #[test]
-    fn test_parse_debug_abbrev_offset_32() {
-        let section = Section::with_endian(Endian::Little).L32(0x0403_0201);
-        let buf = section.get_contents().unwrap();
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_abbrev_offset(buf, Format::Dwarf32) {
-            Ok(val) => assert_eq!(val, DebugAbbrevOffset(0x0403_0201)),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_debug_abbrev_offset_32_incomplete() {
-        let buf = [0x01, 0x02];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_abbrev_offset(buf, Format::Dwarf32) {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_debug_abbrev_offset_64() {
-        let section = Section::with_endian(Endian::Little).L64(0x0807_0605_0403_0201);
-        let buf = section.get_contents().unwrap();
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_abbrev_offset(buf, Format::Dwarf64) {
-            Ok(val) => assert_eq!(val, DebugAbbrevOffset(0x0807_0605_0403_0201)),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_debug_abbrev_offset_64_incomplete() {
-        let buf = [0x01, 0x02];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_abbrev_offset(buf, Format::Dwarf64) {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_debug_info_offset_32() {
-        let section = Section::with_endian(Endian::Little).L32(0x0403_0201);
-        let buf = section.get_contents().unwrap();
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_info_offset(buf, Format::Dwarf32) {
-            Ok(val) => assert_eq!(val, DebugInfoOffset(0x0403_0201)),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_debug_info_offset_32_incomplete() {
-        let buf = [0x01, 0x02];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_info_offset(buf, Format::Dwarf32) {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_debug_info_offset_64() {
-        let section = Section::with_endian(Endian::Little).L64(0x0807_0605_0403_0201);
-        let buf = section.get_contents().unwrap();
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_info_offset(buf, Format::Dwarf64) {
-            Ok(val) => assert_eq!(val, DebugInfoOffset(0x0807_0605_0403_0201)),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_debug_info_offset_64_incomplete() {
-        let buf = [0x01, 0x02];
-        let buf = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_debug_info_offset(buf, Format::Dwarf64) {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_units() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let mut unit64 = UnitHeader {
-            encoding: Encoding {
-                format: Format::Dwarf64,
-                version: 4,
-                address_size: 8,
-            },
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0102_0304_0506_0708),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let mut unit32 = UnitHeader {
-            encoding: Encoding {
-                format: Format::Dwarf32,
-                version: 4,
-                address_size: 4,
-            },
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut unit64)
-            .unit(&mut unit32);
-        let buf = section.get_contents().unwrap();
-
-        let debug_info = DebugInfo::new(&buf, LittleEndian);
-        let mut units = debug_info.units();
-
-        assert_eq!(units.next(), Ok(Some(unit64)));
-        assert_eq!(units.next(), Ok(Some(unit32)));
-        assert_eq!(units.next(), Ok(None));
-    }
-
-    #[test]
-    fn test_unit_version_unknown_version() {
-        let buf = [0x02, 0x00, 0x00, 0x00, 0xab, 0xcd];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_unit_header(rest, DebugInfoOffset(0).into()) {
-            Err(Error::UnknownVersion(0xcdab)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-
-        let buf = [0x02, 0x00, 0x00, 0x00, 0x1, 0x0];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_unit_header(rest, DebugInfoOffset(0).into()) {
-            Err(Error::UnknownVersion(1)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_unit_version_incomplete() {
-        let buf = [0x01, 0x00, 0x00, 0x00, 0x04];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_unit_header(rest, DebugInfoOffset(0).into()) {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 4,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0102_0304_0506_0708),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_v5_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 4,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_v5_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0102_0304_0506_0708),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_v5_partial_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 4,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Partial,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_v5_partial_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Partial,
-            debug_abbrev_offset: DebugAbbrevOffset(0x0102_0304_0506_0708),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_v5_skeleton_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 4,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Skeleton(DwoId(0x0706_5040_0302_1000)),
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_v5_skeleton_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Skeleton(DwoId(0x0706_5040_0302_1000)),
-            debug_abbrev_offset: DebugAbbrevOffset(0x0102_0304_0506_0708),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_v5_split_compilation_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 4,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::SplitCompilation(DwoId(0x0706_5040_0302_1000)),
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_v5_split_compilation_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::SplitCompilation(DwoId(0x0706_5040_0302_1000)),
-            debug_abbrev_offset: DebugAbbrevOffset(0x0102_0304_0506_0708),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_type_offset_32_ok() {
-        let buf = [0x12, 0x34, 0x56, 0x78, 0x00];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_type_offset(rest, Format::Dwarf32) {
-            Ok(offset) => {
-                assert_eq!(rest.len(), 1);
-                assert_eq!(UnitOffset(0x7856_3412), offset);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_type_offset_64_ok() {
-        let buf = [0x12, 0x34, 0x56, 0x78, 0x9a, 0xbc, 0xde, 0xff, 0x00];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_type_offset(rest, Format::Dwarf64) {
-            Ok(offset) => {
-                assert_eq!(rest.len(), 1);
-                assert_eq!(UnitOffset(0xffde_bc9a_7856_3412), offset);
-            }
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        }
-    }
-
-    #[test]
-    fn test_parse_type_offset_incomplete() {
-        // Need at least 4 bytes.
-        let buf = [0xff, 0xff, 0xff];
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        match parse_type_offset(rest, Format::Dwarf32) {
-            Err(Error::UnexpectedEof(_)) => assert!(true),
-            otherwise => panic!("Unexpected result: {:?}", otherwise),
-        };
-    }
-
-    #[test]
-    fn test_parse_type_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Type {
-                type_signature: DebugTypeSignature(0xdead_beef_dead_beef),
-                type_offset: UnitOffset(0x7856_3412),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugTypesOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugTypesOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_type_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 4,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Type {
-                type_signature: DebugTypeSignature(0xdead_beef_dead_beef),
-                type_offset: UnitOffset(0x7856_3412_7856_3412),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugTypesOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugTypesOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_v5_type_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Type {
-                type_signature: DebugTypeSignature(0xdead_beef_dead_beef),
-                type_offset: UnitOffset(0x7856_3412),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_v5_type_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Type {
-                type_signature: DebugTypeSignature(0xdead_beef_dead_beef),
-                type_offset: UnitOffset(0x7856_3412_7856_3412),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    fn test_parse_v5_split_type_unit_header_32_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::SplitType {
-                type_signature: DebugTypeSignature(0xdead_beef_dead_beef),
-                type_offset: UnitOffset(0x7856_3412),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_v5_split_type_unit_header_64_ok() {
-        let expected_rest = &[1, 2, 3, 4, 5, 6, 7, 8, 9];
-        let encoding = Encoding {
-            format: Format::Dwarf64,
-            version: 5,
-            address_size: 8,
-        };
-        let mut expected_unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::SplitType {
-                type_signature: DebugTypeSignature(0xdead_beef_dead_beef),
-                type_offset: UnitOffset(0x7856_3412_7856_3412),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0x0807_0605),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(expected_rest, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little)
-            .unit(&mut expected_unit)
-            .append_bytes(expected_rest);
-        let buf = section.get_contents().unwrap();
-        let rest = &mut EndianSlice::new(&buf, LittleEndian);
-
-        assert_eq!(
-            parse_unit_header(rest, DebugInfoOffset(0).into()),
-            Ok(expected_unit)
-        );
-        assert_eq!(*rest, EndianSlice::new(expected_rest, LittleEndian));
-    }
-
-    fn section_contents<F>(f: F) -> Vec<u8>
-    where
-        F: Fn(Section) -> Section,
-    {
-        f(Section::with_endian(Endian::Little))
-            .get_contents()
-            .unwrap()
-    }
-
-    #[test]
-    fn test_attribute_value() {
-        let mut unit = test_parse_attribute_unit_default();
-        let endian = unit.entries_buf.endian();
-
-        let block_data = &[1, 2, 3, 4];
-        let buf = section_contents(|s| s.uleb(block_data.len() as u64).append_bytes(block_data));
-        let block = EndianSlice::new(&buf, endian);
-
-        let buf = section_contents(|s| s.L32(0x0102_0304));
-        let data4 = EndianSlice::new(&buf, endian);
-
-        let buf = section_contents(|s| s.L64(0x0102_0304_0506_0708));
-        let data8 = EndianSlice::new(&buf, endian);
-
-        let tests = [
-            (
-                Format::Dwarf32,
-                2,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_block,
-                block,
-                AttributeValue::Block(EndianSlice::new(block_data, endian)),
-                AttributeValue::Exprloc(Expression(EndianSlice::new(block_data, endian))),
-            ),
-            (
-                Format::Dwarf32,
-                2,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_data4,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::LocationListsRef(LocationListsOffset(0x0102_0304)),
-            ),
-            (
-                Format::Dwarf64,
-                2,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_data4,
-                data4,
-                AttributeValue::Data4(0x0102_0304),
-                AttributeValue::Udata(0x0102_0304),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_data4,
-                data4,
-                AttributeValue::Data4(0x0102_0304),
-                AttributeValue::Udata(0x0102_0304),
-            ),
-            (
-                Format::Dwarf32,
-                2,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_data8,
-                data8,
-                AttributeValue::Data8(0x0102_0304_0506_0708),
-                AttributeValue::Udata(0x0102_0304_0506_0708),
-            ),
-            #[cfg(target_pointer_width = "64")]
-            (
-                Format::Dwarf64,
-                2,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_data8,
-                data8,
-                AttributeValue::SecOffset(0x0102_0304_0506_0708),
-                AttributeValue::LocationListsRef(LocationListsOffset(0x0102_0304_0506_0708)),
-            ),
-            (
-                Format::Dwarf64,
-                4,
-                constants::DW_AT_data_member_location,
-                constants::DW_FORM_data8,
-                data8,
-                AttributeValue::Data8(0x0102_0304_0506_0708),
-                AttributeValue::Udata(0x0102_0304_0506_0708),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_location,
-                constants::DW_FORM_data4,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::LocationListsRef(LocationListsOffset(0x0102_0304)),
-            ),
-            #[cfg(target_pointer_width = "64")]
-            (
-                Format::Dwarf64,
-                4,
-                constants::DW_AT_location,
-                constants::DW_FORM_data8,
-                data8,
-                AttributeValue::SecOffset(0x0102_0304_0506_0708),
-                AttributeValue::LocationListsRef(LocationListsOffset(0x0102_0304_0506_0708)),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_str_offsets_base,
-                constants::DW_FORM_sec_offset,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::DebugStrOffsetsBase(DebugStrOffsetsBase(0x0102_0304)),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_stmt_list,
-                constants::DW_FORM_sec_offset,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::DebugLineRef(DebugLineOffset(0x0102_0304)),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_addr_base,
-                constants::DW_FORM_sec_offset,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::DebugAddrBase(DebugAddrBase(0x0102_0304)),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_rnglists_base,
-                constants::DW_FORM_sec_offset,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::DebugRngListsBase(DebugRngListsBase(0x0102_0304)),
-            ),
-            (
-                Format::Dwarf32,
-                4,
-                constants::DW_AT_loclists_base,
-                constants::DW_FORM_sec_offset,
-                data4,
-                AttributeValue::SecOffset(0x0102_0304),
-                AttributeValue::DebugLocListsBase(DebugLocListsBase(0x0102_0304)),
-            ),
-        ];
-
-        for test in tests.iter() {
-            let (format, version, name, form, mut input, expect_raw, expect_value) = *test;
-            unit.encoding.format = format;
-            unit.encoding.version = version;
-            let spec = AttributeSpecification::new(name, form, None);
-            let attribute =
-                parse_attribute(&mut input, unit.encoding(), spec).expect("Should parse attribute");
-            assert_eq!(attribute.raw_value(), expect_raw);
-            assert_eq!(attribute.value(), expect_value);
-        }
-    }
-
-    #[test]
-    fn test_attribute_udata_sdata_value() {
-        let tests: &[(
-            AttributeValue<EndianSlice<LittleEndian>>,
-            Option<u64>,
-            Option<i64>,
-        )] = &[
-            (AttributeValue::Data1(1), Some(1), Some(1)),
-            (
-                AttributeValue::Data1(core::u8::MAX),
-                Some(u64::from(std::u8::MAX)),
-                Some(-1),
-            ),
-            (AttributeValue::Data2(1), Some(1), Some(1)),
-            (
-                AttributeValue::Data2(core::u16::MAX),
-                Some(u64::from(std::u16::MAX)),
-                Some(-1),
-            ),
-            (AttributeValue::Data4(1), Some(1), Some(1)),
-            (
-                AttributeValue::Data4(core::u32::MAX),
-                Some(u64::from(std::u32::MAX)),
-                Some(-1),
-            ),
-            (AttributeValue::Data8(1), Some(1), Some(1)),
-            (
-                AttributeValue::Data8(core::u64::MAX),
-                Some(core::u64::MAX),
-                Some(-1),
-            ),
-            (AttributeValue::Sdata(1), Some(1), Some(1)),
-            (AttributeValue::Sdata(-1), None, Some(-1)),
-            (AttributeValue::Udata(1), Some(1), Some(1)),
-            (AttributeValue::Udata(1u64 << 63), Some(1u64 << 63), None),
-        ];
-        for test in tests.iter() {
-            let (value, expect_udata, expect_sdata) = *test;
-            let attribute = Attribute {
-                name: DW_AT_data_member_location,
-                value,
-            };
-            assert_eq!(attribute.udata_value(), expect_udata);
-            assert_eq!(attribute.sdata_value(), expect_sdata);
-        }
-    }
-
-    fn test_parse_attribute_unit<Endian>(
-        address_size: u8,
-        format: Format,
-        endian: Endian,
-    ) -> UnitHeader<EndianSlice<'static, Endian>>
-    where
-        Endian: Endianity,
-    {
-        let encoding = Encoding {
-            format,
-            version: 4,
-            address_size,
-        };
-        UnitHeader::new(
-            encoding,
-            7,
-            UnitType::Compilation,
-            DebugAbbrevOffset(0x0807_0605),
-            DebugInfoOffset(0).into(),
-            EndianSlice::new(&[], endian),
-        )
-    }
-
-    fn test_parse_attribute_unit_default() -> UnitHeader<EndianSlice<'static, LittleEndian>> {
-        test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian)
-    }
-
-    fn test_parse_attribute<'input, Endian>(
-        buf: &'input [u8],
-        len: usize,
-        unit: &UnitHeader<EndianSlice<'input, Endian>>,
-        form: constants::DwForm,
-        value: AttributeValue<EndianSlice<'input, Endian>>,
-    ) where
-        Endian: Endianity,
-    {
-        let spec = AttributeSpecification::new(constants::DW_AT_low_pc, form, None);
-
-        let expect = Attribute {
-            name: constants::DW_AT_low_pc,
-            value,
-        };
-
-        let rest = &mut EndianSlice::new(buf, Endian::default());
-        match parse_attribute(rest, unit.encoding(), spec) {
-            Ok(attr) => {
-                assert_eq!(attr, expect);
-                assert_eq!(*rest, EndianSlice::new(&buf[len..], Endian::default()));
-                if let Some(size) = spec.size(unit) {
-                    assert_eq!(rest.len() + size, buf.len());
-                }
-            }
-            otherwise => {
-                assert!(false, "Unexpected parse result = {:#?}", otherwise);
-            }
-        };
-    }
-
-    #[test]
-    fn test_parse_attribute_addr() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_addr;
-        let value = AttributeValue::Addr(0x0403_0201);
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_addr8() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08];
-        let unit = test_parse_attribute_unit(8, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_addr;
-        let value = AttributeValue::Addr(0x0807_0605_0403_0201);
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_block1() {
-        // Length of data (3), three bytes of data, two bytes of left over input.
-        let buf = [0x03, 0x09, 0x09, 0x09, 0x00, 0x00];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_block1;
-        let value = AttributeValue::Block(EndianSlice::new(&buf[1..4], LittleEndian));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_block2() {
-        // Two byte length of data (2), two bytes of data, two bytes of left over input.
-        let buf = [0x02, 0x00, 0x09, 0x09, 0x00, 0x00];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_block2;
-        let value = AttributeValue::Block(EndianSlice::new(&buf[2..4], LittleEndian));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_block4() {
-        // Four byte length of data (2), two bytes of data, no left over input.
-        let buf = [0x02, 0x00, 0x00, 0x00, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_block4;
-        let value = AttributeValue::Block(EndianSlice::new(&buf[4..], LittleEndian));
-        test_parse_attribute(&buf, 6, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_block() {
-        // LEB length of data (2, one byte), two bytes of data, no left over input.
-        let buf = [0x02, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_block;
-        let value = AttributeValue::Block(EndianSlice::new(&buf[1..], LittleEndian));
-        test_parse_attribute(&buf, 3, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_data1() {
-        let buf = [0x03];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_data1;
-        let value = AttributeValue::Data1(0x03);
-        test_parse_attribute(&buf, 1, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_data2() {
-        let buf = [0x02, 0x01, 0x0];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_data2;
-        let value = AttributeValue::Data2(0x0102);
-        test_parse_attribute(&buf, 2, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_data4() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_data4;
-        let value = AttributeValue::Data4(0x0403_0201);
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_data8() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_data8;
-        let value = AttributeValue::Data8(0x0807_0605_0403_0201);
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_udata() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, 4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_udata;
-        let value = AttributeValue::Udata(4097);
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_sdata() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::signed(&mut writable, -4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_sdata;
-        let value = AttributeValue::Sdata(-4097);
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_exprloc() {
-        // LEB length of data (2, one byte), two bytes of data, one byte left over input.
-        let buf = [0x02, 0x99, 0x99, 0x11];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_exprloc;
-        let value = AttributeValue::Exprloc(Expression(EndianSlice::new(&buf[1..3], LittleEndian)));
-        test_parse_attribute(&buf, 3, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_flag_true() {
-        let buf = [0x42];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_flag;
-        let value = AttributeValue::Flag(true);
-        test_parse_attribute(&buf, 1, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_flag_false() {
-        let buf = [0x00];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_flag;
-        let value = AttributeValue::Flag(false);
-        test_parse_attribute(&buf, 1, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_flag_present() {
-        let buf = [0x01, 0x02, 0x03, 0x04];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_flag_present;
-        let value = AttributeValue::Flag(true);
-        // DW_FORM_flag_present does not consume any bytes of the input stream.
-        test_parse_attribute(&buf, 0, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_sec_offset_32() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x10];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_sec_offset;
-        let value = AttributeValue::SecOffset(0x0403_0201);
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_sec_offset_64() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x10];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_sec_offset;
-        let value = AttributeValue::SecOffset(0x0807_0605_0403_0201);
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_ref1() {
-        let buf = [0x03];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref1;
-        let value = AttributeValue::UnitRef(UnitOffset(3));
-        test_parse_attribute(&buf, 1, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_ref2() {
-        let buf = [0x02, 0x01, 0x0];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref2;
-        let value = AttributeValue::UnitRef(UnitOffset(258));
-        test_parse_attribute(&buf, 2, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_ref4() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref4;
-        let value = AttributeValue::UnitRef(UnitOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_ref8() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref8;
-        let value = AttributeValue::UnitRef(UnitOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_ref_sup4() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref_sup4;
-        let value = AttributeValue::DebugInfoRefSup(DebugInfoOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_ref_sup8() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref_sup8;
-        let value = AttributeValue::DebugInfoRefSup(DebugInfoOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_refudata() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, 4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref_udata;
-        let value = AttributeValue::UnitRef(UnitOffset(4097));
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_refaddr_32() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_ref_addr;
-        let value = AttributeValue::DebugInfoRef(DebugInfoOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_refaddr_64() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_ref_addr;
-        let value = AttributeValue::DebugInfoRef(DebugInfoOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_refaddr_version2() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let mut unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        unit.encoding.version = 2;
-        let form = constants::DW_FORM_ref_addr;
-        let value = AttributeValue::DebugInfoRef(DebugInfoOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_refaddr8_version2() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let mut unit = test_parse_attribute_unit(8, Format::Dwarf32, LittleEndian);
-        unit.encoding.version = 2;
-        let form = constants::DW_FORM_ref_addr;
-        let value = AttributeValue::DebugInfoRef(DebugInfoOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_gnu_ref_alt_32() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_GNU_ref_alt;
-        let value = AttributeValue::DebugInfoRefSup(DebugInfoOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_gnu_ref_alt_64() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_GNU_ref_alt;
-        let value = AttributeValue::DebugInfoRefSup(DebugInfoOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_refsig8() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_ref_sig8;
-        let value = AttributeValue::DebugTypesRef(DebugTypeSignature(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_string() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x0, 0x99, 0x99];
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_string;
-        let value = AttributeValue::String(EndianSlice::new(&buf[..5], LittleEndian));
-        test_parse_attribute(&buf, 6, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strp_32() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_strp;
-        let value = AttributeValue::DebugStrRef(DebugStrOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_strp_64() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_strp;
-        let value = AttributeValue::DebugStrRef(DebugStrOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strp_sup_32() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_strp_sup;
-        let value = AttributeValue::DebugStrRefSup(DebugStrOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_strp_sup_64() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_strp_sup;
-        let value = AttributeValue::DebugStrRefSup(DebugStrOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_gnu_strp_alt_32() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf32, LittleEndian);
-        let form = constants::DW_FORM_GNU_strp_alt;
-        let value = AttributeValue::DebugStrRefSup(DebugStrOffset(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    #[cfg(target_pointer_width = "64")]
-    fn test_parse_attribute_gnu_strp_alt_64() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_GNU_strp_alt;
-        let value = AttributeValue::DebugStrRefSup(DebugStrOffset(0x0807_0605_0403_0201));
-        test_parse_attribute(&buf, 8, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strx() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, 4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_strx;
-        let value = AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(4097));
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strx1() {
-        let buf = [0x01, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_strx1;
-        let value = AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(0x01));
-        test_parse_attribute(&buf, 1, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strx2() {
-        let buf = [0x01, 0x02, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_strx2;
-        let value = AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(0x0201));
-        test_parse_attribute(&buf, 2, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strx3() {
-        let buf = [0x01, 0x02, 0x03, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_strx3;
-        let value = AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(0x03_0201));
-        test_parse_attribute(&buf, 3, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_strx4() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_strx4;
-        let value = AttributeValue::DebugStrOffsetsIndex(DebugStrOffsetsIndex(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_addrx() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, 4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_addrx;
-        let value = AttributeValue::DebugAddrIndex(DebugAddrIndex(4097));
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_addrx1() {
-        let buf = [0x01, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_addrx1;
-        let value = AttributeValue::DebugAddrIndex(DebugAddrIndex(0x01));
-        test_parse_attribute(&buf, 1, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_addrx2() {
-        let buf = [0x01, 0x02, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_addrx2;
-        let value = AttributeValue::DebugAddrIndex(DebugAddrIndex(0x0201));
-        test_parse_attribute(&buf, 2, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_addrx3() {
-        let buf = [0x01, 0x02, 0x03, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_addrx3;
-        let value = AttributeValue::DebugAddrIndex(DebugAddrIndex(0x03_0201));
-        test_parse_attribute(&buf, 3, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_addrx4() {
-        let buf = [0x01, 0x02, 0x03, 0x04, 0x99, 0x99];
-        let unit = test_parse_attribute_unit(4, Format::Dwarf64, LittleEndian);
-        let form = constants::DW_FORM_addrx4;
-        let value = AttributeValue::DebugAddrIndex(DebugAddrIndex(0x0403_0201));
-        test_parse_attribute(&buf, 4, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_loclistx() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, 4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_loclistx;
-        let value = AttributeValue::DebugLocListsIndex(DebugLocListsIndex(4097));
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_rnglistx() {
-        let mut buf = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, 4097).expect("should write ok")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_rnglistx;
-        let value = AttributeValue::DebugRngListsIndex(DebugRngListsIndex(4097));
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_indirect() {
-        let mut buf = [0; 100];
-
-        let bytes_written = {
-            let mut writable = &mut buf[..];
-            leb128::write::unsigned(&mut writable, constants::DW_FORM_udata.0.into())
-                .expect("should write udata")
-                + leb128::write::unsigned(&mut writable, 9_999_999).expect("should write value")
-        };
-
-        let unit = test_parse_attribute_unit_default();
-        let form = constants::DW_FORM_indirect;
-        let value = AttributeValue::Udata(9_999_999);
-        test_parse_attribute(&buf, bytes_written, &unit, form, value);
-    }
-
-    #[test]
-    fn test_parse_attribute_indirect_implicit_const() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut buf = [0; 100];
-        let mut writable = &mut buf[..];
-        leb128::write::unsigned(&mut writable, constants::DW_FORM_implicit_const.0.into())
-            .expect("should write implicit_const");
-
-        let input = &mut EndianSlice::new(&buf, LittleEndian);
-        let spec =
-            AttributeSpecification::new(constants::DW_AT_low_pc, constants::DW_FORM_indirect, None);
-        assert_eq!(
-            parse_attribute(input, encoding, spec),
-            Err(Error::InvalidImplicitConst)
-        );
-    }
-
-    #[test]
-    fn test_attrs_iter() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let unit = UnitHeader::new(
-            encoding,
-            7,
-            UnitType::Compilation,
-            DebugAbbrevOffset(0x0807_0605),
-            DebugInfoOffset(0).into(),
-            EndianSlice::new(&[], LittleEndian),
-        );
-
-        let abbrev = Abbreviation::new(
-            42,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_yes,
-            vec![
-                AttributeSpecification::new(constants::DW_AT_name, constants::DW_FORM_string, None),
-                AttributeSpecification::new(constants::DW_AT_low_pc, constants::DW_FORM_addr, None),
-                AttributeSpecification::new(
-                    constants::DW_AT_high_pc,
-                    constants::DW_FORM_addr,
-                    None,
-                ),
-            ]
-            .into(),
-        );
-
-        // "foo", 42, 1337, 4 dangling bytes of 0xaa where children would be
-        let buf = [
-            0x66, 0x6f, 0x6f, 0x00, 0x2a, 0x00, 0x00, 0x00, 0x39, 0x05, 0x00, 0x00, 0xaa, 0xaa,
-            0xaa, 0xaa,
-        ];
-
-        let entry = DebuggingInformationEntry {
-            offset: UnitOffset(0),
-            attrs_slice: EndianSlice::new(&buf, LittleEndian),
-            attrs_len: Cell::new(None),
-            abbrev: &abbrev,
-            unit: &unit,
-        };
-
-        let mut attrs = AttrsIter {
-            input: EndianSlice::new(&buf, LittleEndian),
-            attributes: abbrev.attributes(),
-            entry: &entry,
-        };
-
-        match attrs.next() {
-            Ok(Some(attr)) => {
-                assert_eq!(
-                    attr,
-                    Attribute {
-                        name: constants::DW_AT_name,
-                        value: AttributeValue::String(EndianSlice::new(b"foo", LittleEndian)),
-                    }
-                );
-            }
-            otherwise => {
-                assert!(false, "Unexpected parse result = {:#?}", otherwise);
-            }
-        }
-
-        assert!(entry.attrs_len.get().is_none());
-
-        match attrs.next() {
-            Ok(Some(attr)) => {
-                assert_eq!(
-                    attr,
-                    Attribute {
-                        name: constants::DW_AT_low_pc,
-                        value: AttributeValue::Addr(0x2a),
-                    }
-                );
-            }
-            otherwise => {
-                assert!(false, "Unexpected parse result = {:#?}", otherwise);
-            }
-        }
-
-        assert!(entry.attrs_len.get().is_none());
-
-        match attrs.next() {
-            Ok(Some(attr)) => {
-                assert_eq!(
-                    attr,
-                    Attribute {
-                        name: constants::DW_AT_high_pc,
-                        value: AttributeValue::Addr(0x539),
-                    }
-                );
-            }
-            otherwise => {
-                assert!(false, "Unexpected parse result = {:#?}", otherwise);
-            }
-        }
-
-        assert!(entry.attrs_len.get().is_none());
-
-        assert!(attrs.next().expect("should parse next").is_none());
-        assert!(entry.attrs_len.get().is_some());
-        assert_eq!(
-            entry.attrs_len.get().expect("should have entry.attrs_len"),
-            buf.len() - 4
-        )
-    }
-
-    #[test]
-    fn test_attrs_iter_incomplete() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let unit = UnitHeader::new(
-            encoding,
-            7,
-            UnitType::Compilation,
-            DebugAbbrevOffset(0x0807_0605),
-            DebugInfoOffset(0).into(),
-            EndianSlice::new(&[], LittleEndian),
-        );
-
-        let abbrev = Abbreviation::new(
-            42,
-            constants::DW_TAG_subprogram,
-            constants::DW_CHILDREN_yes,
-            vec![
-                AttributeSpecification::new(constants::DW_AT_name, constants::DW_FORM_string, None),
-                AttributeSpecification::new(constants::DW_AT_low_pc, constants::DW_FORM_addr, None),
-                AttributeSpecification::new(
-                    constants::DW_AT_high_pc,
-                    constants::DW_FORM_addr,
-                    None,
-                ),
-            ]
-            .into(),
-        );
-
-        // "foo"
-        let buf = [0x66, 0x6f, 0x6f, 0x00];
-
-        let entry = DebuggingInformationEntry {
-            offset: UnitOffset(0),
-            attrs_slice: EndianSlice::new(&buf, LittleEndian),
-            attrs_len: Cell::new(None),
-            abbrev: &abbrev,
-            unit: &unit,
-        };
-
-        let mut attrs = AttrsIter {
-            input: EndianSlice::new(&buf, LittleEndian),
-            attributes: abbrev.attributes(),
-            entry: &entry,
-        };
-
-        match attrs.next() {
-            Ok(Some(attr)) => {
-                assert_eq!(
-                    attr,
-                    Attribute {
-                        name: constants::DW_AT_name,
-                        value: AttributeValue::String(EndianSlice::new(b"foo", LittleEndian)),
-                    }
-                );
-            }
-            otherwise => {
-                assert!(false, "Unexpected parse result = {:#?}", otherwise);
-            }
-        }
-
-        assert!(entry.attrs_len.get().is_none());
-
-        // Return error for incomplete attribute.
-        assert!(attrs.next().is_err());
-        assert!(entry.attrs_len.get().is_none());
-
-        // Return error for all subsequent calls.
-        assert!(attrs.next().is_err());
-        assert!(attrs.next().is_err());
-        assert!(attrs.next().is_err());
-        assert!(attrs.next().is_err());
-        assert!(entry.attrs_len.get().is_none());
-    }
-
-    fn assert_entry_name<Endian>(entry: &DebuggingInformationEntry<EndianSlice<Endian>>, name: &str)
-    where
-        Endian: Endianity,
-    {
-        let value = entry
-            .attr_value(constants::DW_AT_name)
-            .expect("Should have parsed the name attribute")
-            .expect("Should have found the name attribute");
-
-        assert_eq!(
-            value,
-            AttributeValue::String(EndianSlice::new(name.as_bytes(), Endian::default()))
-        );
-    }
-
-    fn assert_current_name<Endian>(cursor: &EntriesCursor<EndianSlice<Endian>>, name: &str)
-    where
-        Endian: Endianity,
-    {
-        let entry = cursor.current().expect("Should have an entry result");
-        assert_entry_name(entry, name);
-    }
-
-    fn assert_next_entry<Endian>(cursor: &mut EntriesCursor<EndianSlice<Endian>>, name: &str)
-    where
-        Endian: Endianity,
-    {
-        cursor
-            .next_entry()
-            .expect("Should parse next entry")
-            .expect("Should have an entry");
-        assert_current_name(cursor, name);
-    }
-
-    fn assert_next_entry_null<Endian>(cursor: &mut EntriesCursor<EndianSlice<Endian>>)
-    where
-        Endian: Endianity,
-    {
-        cursor
-            .next_entry()
-            .expect("Should parse next entry")
-            .expect("Should have an entry");
-        assert!(cursor.current().is_none());
-    }
-
-    fn assert_next_dfs<Endian>(
-        cursor: &mut EntriesCursor<EndianSlice<Endian>>,
-        name: &str,
-        depth: isize,
-    ) where
-        Endian: Endianity,
-    {
-        {
-            let (val, entry) = cursor
-                .next_dfs()
-                .expect("Should parse next dfs")
-                .expect("Should not be done with traversal");
-            assert_eq!(val, depth);
-            assert_entry_name(entry, name);
-        }
-        assert_current_name(cursor, name);
-    }
-
-    fn assert_next_sibling<Endian>(cursor: &mut EntriesCursor<EndianSlice<Endian>>, name: &str)
-    where
-        Endian: Endianity,
-    {
-        {
-            let entry = cursor
-                .next_sibling()
-                .expect("Should parse next sibling")
-                .expect("Should not be done with traversal");
-            assert_entry_name(entry, name);
-        }
-        assert_current_name(cursor, name);
-    }
-
-    fn assert_valid_sibling_ptr<Endian>(cursor: &EntriesCursor<EndianSlice<Endian>>)
-    where
-        Endian: Endianity,
-    {
-        let sibling_ptr = cursor
-            .current()
-            .expect("Should have current entry")
-            .attr_value(constants::DW_AT_sibling);
-        match sibling_ptr {
-            Ok(Some(AttributeValue::UnitRef(offset))) => {
-                cursor
-                    .unit
-                    .range_from(offset..)
-                    .expect("Sibling offset should be valid");
-            }
-            _ => panic!("Invalid sibling pointer {:?}", sibling_ptr),
-        }
-    }
-
-    fn entries_cursor_tests_abbrev_buf() -> Vec<u8> {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .abbrev(1, DW_TAG_subprogram, DW_CHILDREN_yes)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev_null();
-        section.get_contents().unwrap()
-    }
-
-    fn entries_cursor_tests_debug_info_buf() -> Vec<u8> {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .die(1, |s| s.attr_string("001"))
-                .die(1, |s| s.attr_string("002"))
-                    .die(1, |s| s.attr_string("003"))
-                        .die_null()
-                    .die_null()
-                .die(1, |s| s.attr_string("004"))
-                    .die(1, |s| s.attr_string("005"))
-                        .die_null()
-                    .die(1, |s| s.attr_string("006"))
-                        .die_null()
-                    .die_null()
-                .die(1, |s| s.attr_string("007"))
-                    .die(1, |s| s.attr_string("008"))
-                        .die(1, |s| s.attr_string("009"))
-                            .die_null()
-                        .die_null()
-                    .die_null()
-                .die(1, |s| s.attr_string("010"))
-                    .die_null()
-                .die_null();
-        let entries_buf = section.get_contents().unwrap();
-
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(&entries_buf, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little).unit(&mut unit);
-        section.get_contents().unwrap()
-    }
-
-    #[test]
-    fn test_cursor_next_entry_incomplete() {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .die(1, |s| s.attr_string("001"))
-                .die(1, |s| s.attr_string("002"))
-                    .die(1, |s| s);
-        let entries_buf = section.get_contents().unwrap();
-
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(&entries_buf, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little).unit(&mut unit);
-        let info_buf = &section.get_contents().unwrap();
-        let debug_info = DebugInfo::new(info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs_buf = &entries_cursor_tests_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(abbrevs_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-
-        assert_next_entry(&mut cursor, "001");
-        assert_next_entry(&mut cursor, "002");
-
-        {
-            // Entry code is present, but none of the attributes.
-            cursor
-                .next_entry()
-                .expect("Should parse next entry")
-                .expect("Should have an entry");
-            let entry = cursor.current().expect("Should have an entry result");
-            assert!(entry.attrs().next().is_err());
-        }
-
-        assert!(cursor.next_entry().is_err());
-        assert!(cursor.next_entry().is_err());
-    }
-
-    #[test]
-    fn test_cursor_next_entry() {
-        let info_buf = &entries_cursor_tests_debug_info_buf();
-        let debug_info = DebugInfo::new(info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs_buf = &entries_cursor_tests_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(abbrevs_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-
-        assert_next_entry(&mut cursor, "001");
-        assert_next_entry(&mut cursor, "002");
-        assert_next_entry(&mut cursor, "003");
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry(&mut cursor, "004");
-        assert_next_entry(&mut cursor, "005");
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry(&mut cursor, "006");
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry(&mut cursor, "007");
-        assert_next_entry(&mut cursor, "008");
-        assert_next_entry(&mut cursor, "009");
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry(&mut cursor, "010");
-        assert_next_entry_null(&mut cursor);
-        assert_next_entry_null(&mut cursor);
-
-        assert!(cursor
-            .next_entry()
-            .expect("Should parse next entry")
-            .is_none());
-        assert!(cursor.current().is_none());
-    }
-
-    #[test]
-    fn test_cursor_next_dfs() {
-        let info_buf = &entries_cursor_tests_debug_info_buf();
-        let debug_info = DebugInfo::new(info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs_buf = &entries_cursor_tests_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(abbrevs_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-
-        assert_next_dfs(&mut cursor, "001", 0);
-        assert_next_dfs(&mut cursor, "002", 1);
-        assert_next_dfs(&mut cursor, "003", 1);
-        assert_next_dfs(&mut cursor, "004", -1);
-        assert_next_dfs(&mut cursor, "005", 1);
-        assert_next_dfs(&mut cursor, "006", 0);
-        assert_next_dfs(&mut cursor, "007", -1);
-        assert_next_dfs(&mut cursor, "008", 1);
-        assert_next_dfs(&mut cursor, "009", 1);
-        assert_next_dfs(&mut cursor, "010", -2);
-
-        assert!(cursor.next_dfs().expect("Should parse next dfs").is_none());
-        assert!(cursor.current().is_none());
-    }
-
-    #[test]
-    fn test_cursor_next_sibling_no_sibling_ptr() {
-        let info_buf = &entries_cursor_tests_debug_info_buf();
-        let debug_info = DebugInfo::new(info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs_buf = &entries_cursor_tests_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(abbrevs_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-
-        assert_next_dfs(&mut cursor, "001", 0);
-
-        // Down to the first child of the root entry.
-
-        assert_next_dfs(&mut cursor, "002", 1);
-
-        // Now iterate all children of the root via `next_sibling`.
-
-        assert_next_sibling(&mut cursor, "004");
-        assert_next_sibling(&mut cursor, "007");
-        assert_next_sibling(&mut cursor, "010");
-
-        // There should be no more siblings.
-
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-        assert!(cursor.current().is_none());
-    }
-
-    #[test]
-    fn test_cursor_next_sibling_continuation() {
-        let info_buf = &entries_cursor_tests_debug_info_buf();
-        let debug_info = DebugInfo::new(info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs_buf = &entries_cursor_tests_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(abbrevs_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-
-        assert_next_dfs(&mut cursor, "001", 0);
-
-        // Down to the first child of the root entry.
-
-        assert_next_dfs(&mut cursor, "002", 1);
-
-        // Get the next sibling, then iterate its children
-
-        assert_next_sibling(&mut cursor, "004");
-        assert_next_dfs(&mut cursor, "005", 1);
-        assert_next_sibling(&mut cursor, "006");
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-
-        // And we should be able to continue with the children of the root entry.
-
-        assert_next_dfs(&mut cursor, "007", -1);
-        assert_next_sibling(&mut cursor, "010");
-
-        // There should be no more siblings.
-
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-        assert!(cursor.current().is_none());
-    }
-
-    fn entries_cursor_sibling_abbrev_buf() -> Vec<u8> {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .abbrev(1, DW_TAG_subprogram, DW_CHILDREN_yes)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr(DW_AT_sibling, DW_FORM_ref1)
-                .abbrev_attr_null()
-            .abbrev(2, DW_TAG_subprogram, DW_CHILDREN_yes)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr_null()
-                .abbrev_null();
-        section.get_contents().unwrap()
-    }
-
-    fn entries_cursor_sibling_entries_buf(header_size: usize) -> Vec<u8> {
-        let start = Label::new();
-        let sibling004_ref = Label::new();
-        let sibling004 = Label::new();
-        let sibling009_ref = Label::new();
-        let sibling009 = Label::new();
-
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .mark(&start)
-            .die(2, |s| s.attr_string("001"))
-                // Valid sibling attribute.
-                .die(1, |s| s.attr_string("002").D8(&sibling004_ref))
-                    // Invalid code to ensure the sibling attribute was used.
-                    .die(10, |s| s.attr_string("003"))
-                        .die_null()
-                    .die_null()
-                .mark(&sibling004)
-                // Invalid sibling attribute.
-                .die(1, |s| s.attr_string("004").attr_ref1(255))
-                    .die(2, |s| s.attr_string("005"))
-                        .die_null()
-                    .die_null()
-                // Sibling attribute in child only.
-                .die(2, |s| s.attr_string("006"))
-                    // Valid sibling attribute.
-                    .die(1, |s| s.attr_string("007").D8(&sibling009_ref))
-                        // Invalid code to ensure the sibling attribute was used.
-                        .die(10, |s| s.attr_string("008"))
-                            .die_null()
-                        .die_null()
-                    .mark(&sibling009)
-                    .die(2, |s| s.attr_string("009"))
-                        .die_null()
-                    .die_null()
-                // No sibling attribute.
-                .die(2, |s| s.attr_string("010"))
-                    .die(2, |s| s.attr_string("011"))
-                        .die_null()
-                    .die_null()
-                .die_null();
-
-        let offset = header_size as u64 + (&sibling004 - &start) as u64;
-        sibling004_ref.set_const(offset);
-
-        let offset = header_size as u64 + (&sibling009 - &start) as u64;
-        sibling009_ref.set_const(offset);
-
-        section.get_contents().unwrap()
-    }
-
-    fn test_cursor_next_sibling_with_ptr(cursor: &mut EntriesCursor<EndianSlice<LittleEndian>>) {
-        assert_next_dfs(cursor, "001", 0);
-
-        // Down to the first child of the root.
-
-        assert_next_dfs(cursor, "002", 1);
-
-        // Now iterate all children of the root via `next_sibling`.
-
-        assert_valid_sibling_ptr(&cursor);
-        assert_next_sibling(cursor, "004");
-        assert_next_sibling(cursor, "006");
-        assert_next_sibling(cursor, "010");
-
-        // There should be no more siblings.
-
-        assert!(cursor
-            .next_sibling()
-            .expect("Should parse next sibling")
-            .is_none());
-        assert!(cursor.current().is_none());
-    }
-
-    #[test]
-    fn test_debug_info_next_sibling_with_ptr() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(&[], LittleEndian),
-        };
-        let header_size = unit.size_of_header();
-        let entries_buf = entries_cursor_sibling_entries_buf(header_size);
-        unit.entries_buf = EndianSlice::new(&entries_buf, LittleEndian);
-        let section = Section::with_endian(Endian::Little).unit(&mut unit);
-        let info_buf = section.get_contents().unwrap();
-        let debug_info = DebugInfo::new(&info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrev_buf = entries_cursor_sibling_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(&abbrev_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-        test_cursor_next_sibling_with_ptr(&mut cursor);
-    }
-
-    #[test]
-    fn test_debug_types_next_sibling_with_ptr() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Type {
-                type_signature: DebugTypeSignature(0),
-                type_offset: UnitOffset(0),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugTypesOffset(0).into(),
-            entries_buf: EndianSlice::new(&[], LittleEndian),
-        };
-        let header_size = unit.size_of_header();
-        let entries_buf = entries_cursor_sibling_entries_buf(header_size);
-        unit.entries_buf = EndianSlice::new(&entries_buf, LittleEndian);
-        let section = Section::with_endian(Endian::Little).unit(&mut unit);
-        let info_buf = section.get_contents().unwrap();
-        let debug_types = DebugTypes::new(&info_buf, LittleEndian);
-
-        let unit = debug_types
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrev_buf = entries_cursor_sibling_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(&abbrev_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit.entries(&abbrevs);
-        test_cursor_next_sibling_with_ptr(&mut cursor);
-    }
-
-    #[test]
-    fn test_entries_at_offset() {
-        let info_buf = &entries_cursor_tests_debug_info_buf();
-        let debug_info = DebugInfo::new(info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs_buf = &entries_cursor_tests_abbrev_buf();
-        let debug_abbrev = DebugAbbrev::new(abbrevs_buf, LittleEndian);
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut cursor = unit
-            .entries_at_offset(&abbrevs, UnitOffset(unit.header_size()))
-            .unwrap();
-        assert_next_entry(&mut cursor, "001");
-
-        let cursor = unit.entries_at_offset(&abbrevs, UnitOffset(0));
-        match cursor {
-            Err(Error::OffsetOutOfBounds) => {}
-            otherwise => {
-                assert!(false, "Unexpected parse result = {:#?}", otherwise);
-            }
-        }
-    }
-
-    fn entries_tree_tests_debug_abbrevs_buf() -> Vec<u8> {
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .abbrev(1, DW_TAG_subprogram, DW_CHILDREN_yes)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev(2, DW_TAG_subprogram, DW_CHILDREN_no)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev_null()
-            .get_contents()
-            .unwrap();
-        section
-    }
-
-    fn entries_tree_tests_debug_info_buf(header_size: usize) -> (Vec<u8>, UnitOffset) {
-        let start = Label::new();
-        let entry2 = Label::new();
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .mark(&start)
-            .die(1, |s| s.attr_string("root"))
-                .die(1, |s| s.attr_string("1"))
-                    .die(1, |s| s.attr_string("1a"))
-                        .die_null()
-                    .die(2, |s| s.attr_string("1b"))
-                    .die_null()
-                .mark(&entry2)
-                .die(1, |s| s.attr_string("2"))
-                    .die(1, |s| s.attr_string("2a"))
-                        .die(1, |s| s.attr_string("2a1"))
-                            .die_null()
-                        .die_null()
-                    .die(1, |s| s.attr_string("2b"))
-                        .die(2, |s| s.attr_string("2b1"))
-                        .die_null()
-                    .die_null()
-                .die(1, |s| s.attr_string("3"))
-                    .die(1, |s| s.attr_string("3a"))
-                        .die(2, |s| s.attr_string("3a1"))
-                        .die(2, |s| s.attr_string("3a2"))
-                        .die_null()
-                    .die(2, |s| s.attr_string("3b"))
-                    .die_null()
-                .die(2, |s| s.attr_string("final"))
-                .die_null()
-            .get_contents()
-            .unwrap();
-        let entry2 = UnitOffset(header_size + (&entry2 - &start) as usize);
-        (section, entry2)
-    }
-
-    #[test]
-    fn test_entries_tree() {
-        fn assert_entry<'input, 'abbrev, 'unit, 'tree, Endian>(
-            node: Result<
-                Option<EntriesTreeNode<'abbrev, 'unit, 'tree, EndianSlice<'input, Endian>>>,
-            >,
-            name: &str,
-        ) -> EntriesTreeIter<'abbrev, 'unit, 'tree, EndianSlice<'input, Endian>>
-        where
-            Endian: Endianity,
-        {
-            let node = node
-                .expect("Should parse entry")
-                .expect("Should have entry");
-            assert_entry_name(node.entry(), name);
-            node.children()
-        }
-
-        fn assert_null<E: Endianity>(node: Result<Option<EntriesTreeNode<EndianSlice<E>>>>) {
-            match node {
-                Ok(None) => {}
-                otherwise => {
-                    assert!(false, "Unexpected parse result = {:#?}", otherwise);
-                }
-            }
-        }
-
-        let abbrevs_buf = entries_tree_tests_debug_abbrevs_buf();
-        let debug_abbrev = DebugAbbrev::new(&abbrevs_buf, LittleEndian);
-
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(&[], LittleEndian),
-        };
-        let header_size = unit.size_of_header();
-        let (entries_buf, entry2) = entries_tree_tests_debug_info_buf(header_size);
-        unit.entries_buf = EndianSlice::new(&entries_buf, LittleEndian);
-        let info_buf = Section::with_endian(Endian::Little)
-            .unit(&mut unit)
-            .get_contents()
-            .unwrap();
-        let debug_info = DebugInfo::new(&info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("Should parse unit")
-            .expect("and it should be some");
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-        let mut tree = unit
-            .entries_tree(&abbrevs, None)
-            .expect("Should have entries tree");
-
-        // Test we can restart iteration of the tree.
-        {
-            let mut iter = assert_entry(tree.root().map(Some), "root");
-            assert_entry(iter.next(), "1");
-        }
-        {
-            let mut iter = assert_entry(tree.root().map(Some), "root");
-            assert_entry(iter.next(), "1");
-        }
-
-        let mut iter = assert_entry(tree.root().map(Some), "root");
-        {
-            // Test iteration with children.
-            let mut iter = assert_entry(iter.next(), "1");
-            {
-                // Test iteration with children flag, but no children.
-                let mut iter = assert_entry(iter.next(), "1a");
-                assert_null(iter.next());
-                assert_null(iter.next());
-            }
-            {
-                // Test iteration without children flag.
-                let mut iter = assert_entry(iter.next(), "1b");
-                assert_null(iter.next());
-                assert_null(iter.next());
-            }
-            assert_null(iter.next());
-            assert_null(iter.next());
-        }
-        {
-            // Test skipping over children.
-            let mut iter = assert_entry(iter.next(), "2");
-            assert_entry(iter.next(), "2a");
-            assert_entry(iter.next(), "2b");
-            assert_null(iter.next());
-        }
-        {
-            // Test skipping after partial iteration.
-            let mut iter = assert_entry(iter.next(), "3");
-            {
-                let mut iter = assert_entry(iter.next(), "3a");
-                assert_entry(iter.next(), "3a1");
-                // Parent iter should be able to skip over "3a2".
-            }
-            assert_entry(iter.next(), "3b");
-            assert_null(iter.next());
-        }
-        assert_entry(iter.next(), "final");
-        assert_null(iter.next());
-
-        // Test starting at an offset.
-        let mut tree = unit
-            .entries_tree(&abbrevs, Some(entry2))
-            .expect("Should have entries tree");
-        let mut iter = assert_entry(tree.root().map(Some), "2");
-        assert_entry(iter.next(), "2a");
-        assert_entry(iter.next(), "2b");
-        assert_null(iter.next());
-    }
-
-    #[test]
-    fn test_entries_raw() {
-        fn assert_abbrev<'input, 'abbrev, 'unit, Endian>(
-            entries: &mut EntriesRaw<'abbrev, 'unit, EndianSlice<'input, Endian>>,
-            tag: DwTag,
-        ) -> &'abbrev Abbreviation
-        where
-            Endian: Endianity,
-        {
-            let abbrev = entries
-                .read_abbreviation()
-                .expect("Should parse abbrev")
-                .expect("Should have abbrev");
-            assert_eq!(abbrev.tag(), tag);
-            abbrev
-        }
-
-        fn assert_null<'input, 'abbrev, 'unit, Endian>(
-            entries: &mut EntriesRaw<'abbrev, 'unit, EndianSlice<'input, Endian>>,
-        ) where
-            Endian: Endianity,
-        {
-            match entries.read_abbreviation() {
-                Ok(None) => {}
-                otherwise => {
-                    assert!(false, "Unexpected parse result = {:#?}", otherwise);
-                }
-            }
-        }
-
-        fn assert_attr<'input, 'abbrev, 'unit, Endian>(
-            entries: &mut EntriesRaw<'abbrev, 'unit, EndianSlice<'input, Endian>>,
-            spec: Option<AttributeSpecification>,
-            name: DwAt,
-            value: &str,
-        ) where
-            Endian: Endianity,
-        {
-            let spec = spec.expect("Should have attribute specification");
-            let attr = entries
-                .read_attribute(spec)
-                .expect("Should parse attribute");
-            assert_eq!(attr.name(), name);
-            assert_eq!(
-                attr.value(),
-                AttributeValue::String(EndianSlice::new(value.as_bytes(), Endian::default()))
-            );
-        }
-
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .abbrev(1, DW_TAG_subprogram, DW_CHILDREN_yes)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr(DW_AT_linkage_name, DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev(2, DW_TAG_variable, DW_CHILDREN_no)
-                .abbrev_attr(DW_AT_name, DW_FORM_string)
-                .abbrev_attr_null()
-            .abbrev_null();
-        let abbrevs_buf = section.get_contents().unwrap();
-        let debug_abbrev = DebugAbbrev::new(&abbrevs_buf, LittleEndian);
-
-        #[rustfmt::skip]
-        let section = Section::with_endian(Endian::Little)
-            .die(1, |s| s.attr_string("f1").attr_string("l1"))
-                .die(2, |s| s.attr_string("v1"))
-                .die(2, |s| s.attr_string("v2"))
-                .die(1, |s| s.attr_string("f2").attr_string("l2"))
-                    .die_null()
-                .die_null();
-        let entries_buf = section.get_contents().unwrap();
-
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(&entries_buf, LittleEndian),
-        };
-        let section = Section::with_endian(Endian::Little).unit(&mut unit);
-        let info_buf = section.get_contents().unwrap();
-        let debug_info = DebugInfo::new(&info_buf, LittleEndian);
-
-        let unit = debug_info
-            .units()
-            .next()
-            .expect("should have a unit result")
-            .expect("and it should be ok");
-
-        let abbrevs = unit
-            .abbreviations(&debug_abbrev)
-            .expect("Should parse abbreviations");
-
-        let mut entries = unit
-            .entries_raw(&abbrevs, None)
-            .expect("Should have entries");
-
-        assert_eq!(entries.next_depth(), 0);
-        let abbrev = assert_abbrev(&mut entries, DW_TAG_subprogram);
-        let mut attrs = abbrev.attributes().iter().copied();
-        assert_attr(&mut entries, attrs.next(), DW_AT_name, "f1");
-        assert_attr(&mut entries, attrs.next(), DW_AT_linkage_name, "l1");
-        assert!(attrs.next().is_none());
-
-        assert_eq!(entries.next_depth(), 1);
-        let abbrev = assert_abbrev(&mut entries, DW_TAG_variable);
-        let mut attrs = abbrev.attributes().iter().copied();
-        assert_attr(&mut entries, attrs.next(), DW_AT_name, "v1");
-        assert!(attrs.next().is_none());
-
-        assert_eq!(entries.next_depth(), 1);
-        let abbrev = assert_abbrev(&mut entries, DW_TAG_variable);
-        let mut attrs = abbrev.attributes().iter().copied();
-        assert_attr(&mut entries, attrs.next(), DW_AT_name, "v2");
-        assert!(attrs.next().is_none());
-
-        assert_eq!(entries.next_depth(), 1);
-        let abbrev = assert_abbrev(&mut entries, DW_TAG_subprogram);
-        let mut attrs = abbrev.attributes().iter().copied();
-        assert_attr(&mut entries, attrs.next(), DW_AT_name, "f2");
-        assert_attr(&mut entries, attrs.next(), DW_AT_linkage_name, "l2");
-        assert!(attrs.next().is_none());
-
-        assert_eq!(entries.next_depth(), 2);
-        assert_null(&mut entries);
-
-        assert_eq!(entries.next_depth(), 1);
-        assert_null(&mut entries);
-
-        assert_eq!(entries.next_depth(), 0);
-        assert!(entries.is_empty());
-    }
-
-    #[test]
-    fn test_debug_info_offset() {
-        let padding = &[0; 10];
-        let entries = &[0; 20];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(entries, LittleEndian),
-        };
-        Section::with_endian(Endian::Little)
-            .append_bytes(padding)
-            .unit(&mut unit);
-        let offset = padding.len();
-        let header_length = unit.size_of_header();
-        let length = unit.length_including_self();
-        assert_eq!(DebugInfoOffset(0).to_unit_offset(&unit), None);
-        assert_eq!(DebugInfoOffset(offset - 1).to_unit_offset(&unit), None);
-        assert_eq!(DebugInfoOffset(offset).to_unit_offset(&unit), None);
-        assert_eq!(
-            DebugInfoOffset(offset + header_length - 1).to_unit_offset(&unit),
-            None
-        );
-        assert_eq!(
-            DebugInfoOffset(offset + header_length).to_unit_offset(&unit),
-            Some(UnitOffset(header_length))
-        );
-        assert_eq!(
-            DebugInfoOffset(offset + length - 1).to_unit_offset(&unit),
-            Some(UnitOffset(length - 1))
-        );
-        assert_eq!(DebugInfoOffset(offset + length).to_unit_offset(&unit), None);
-        assert_eq!(
-            UnitOffset(header_length).to_debug_info_offset(&unit),
-            Some(DebugInfoOffset(offset + header_length))
-        );
-        assert_eq!(
-            UnitOffset(length - 1).to_debug_info_offset(&unit),
-            Some(DebugInfoOffset(offset + length - 1))
-        );
-    }
-
-    #[test]
-    fn test_debug_types_offset() {
-        let padding = &[0; 10];
-        let entries = &[0; 20];
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Type {
-                type_signature: DebugTypeSignature(0),
-                type_offset: UnitOffset(0),
-            },
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugTypesOffset(0).into(),
-            entries_buf: EndianSlice::new(entries, LittleEndian),
-        };
-        Section::with_endian(Endian::Little)
-            .append_bytes(padding)
-            .unit(&mut unit);
-        let offset = padding.len();
-        let header_length = unit.size_of_header();
-        let length = unit.length_including_self();
-        assert_eq!(DebugTypesOffset(0).to_unit_offset(&unit), None);
-        assert_eq!(DebugTypesOffset(offset - 1).to_unit_offset(&unit), None);
-        assert_eq!(DebugTypesOffset(offset).to_unit_offset(&unit), None);
-        assert_eq!(
-            DebugTypesOffset(offset + header_length - 1).to_unit_offset(&unit),
-            None
-        );
-        assert_eq!(
-            DebugTypesOffset(offset + header_length).to_unit_offset(&unit),
-            Some(UnitOffset(header_length))
-        );
-        assert_eq!(
-            DebugTypesOffset(offset + length - 1).to_unit_offset(&unit),
-            Some(UnitOffset(length - 1))
-        );
-        assert_eq!(
-            DebugTypesOffset(offset + length).to_unit_offset(&unit),
-            None
-        );
-        assert_eq!(
-            UnitOffset(header_length).to_debug_types_offset(&unit),
-            Some(DebugTypesOffset(offset + header_length))
-        );
-        assert_eq!(
-            UnitOffset(length - 1).to_debug_types_offset(&unit),
-            Some(DebugTypesOffset(offset + length - 1))
-        );
-    }
-
-    #[test]
-    fn test_length_including_self() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let mut unit = UnitHeader {
-            encoding,
-            unit_length: 0,
-            unit_type: UnitType::Compilation,
-            debug_abbrev_offset: DebugAbbrevOffset(0),
-            unit_offset: DebugInfoOffset(0).into(),
-            entries_buf: EndianSlice::new(&[], LittleEndian),
-        };
-        unit.encoding.format = Format::Dwarf32;
-        assert_eq!(unit.length_including_self(), 4);
-        unit.encoding.format = Format::Dwarf64;
-        assert_eq!(unit.length_including_self(), 12);
-        unit.unit_length = 10;
-        assert_eq!(unit.length_including_self(), 22);
-    }
-
-    #[test]
-    fn test_parse_type_unit_abbrevs() {
-        let types_buf = [
-            // Type unit header
-            0x25, 0x00, 0x00, 0x00, // 32-bit unit length = 37
-            0x04, 0x00, // Version 4
-            0x00, 0x00, 0x00, 0x00, // debug_abbrev_offset
-            0x04, // Address size
-            0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, // Type signature
-            0x01, 0x02, 0x03, 0x04, // Type offset
-            // DIEs
-            // Abbreviation code
-            0x01, // Attribute of form DW_FORM_string = "foo\0"
-            0x66, 0x6f, 0x6f, 0x00, // Children
-            // Abbreviation code
-            0x01, // Attribute of form DW_FORM_string = "foo\0"
-            0x66, 0x6f, 0x6f, 0x00, // Children
-            // Abbreviation code
-            0x01, // Attribute of form DW_FORM_string = "foo\0"
-            0x66, 0x6f, 0x6f, 0x00, // Children
-            0x00, // End of children
-            0x00, // End of children
-            0x00, // End of children
-        ];
-        let debug_types = DebugTypes::new(&types_buf, LittleEndian);
-
-        let abbrev_buf = [
-            // Code
-            0x01, // DW_TAG_subprogram
-            0x2e, // DW_CHILDREN_yes
-            0x01, // Begin attributes
-            0x03, // Attribute name = DW_AT_name
-            0x08, // Attribute form = DW_FORM_string
-            0x00, 0x00, // End attributes
-            0x00, // Null terminator
-        ];
-
-        let get_some_type_unit = || debug_types.units().next().unwrap().unwrap();
-
-        let unit = get_some_type_unit();
-
-        let read_debug_abbrev_section_somehow = || &abbrev_buf;
-        let debug_abbrev = DebugAbbrev::new(read_debug_abbrev_section_somehow(), LittleEndian);
-        let _abbrevs_for_unit = unit.abbreviations(&debug_abbrev).unwrap();
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/util.rs b/vendor/gimli-0.27.3/src/read/util.rs
deleted file mode 100644
index 747418bab..000000000
--- a/vendor/gimli-0.27.3/src/read/util.rs
+++ /dev/null
@@ -1,251 +0,0 @@
-#[cfg(feature = "read")]
-use alloc::boxed::Box;
-#[cfg(feature = "read")]
-use alloc::vec::Vec;
-use core::fmt;
-use core::mem::MaybeUninit;
-use core::ops;
-use core::ptr;
-use core::slice;
-
-mod sealed {
-    /// # Safety
-    /// Implementer must not modify the content in storage.
-    pub unsafe trait Sealed {
-        type Storage;
-
-        fn new_storage() -> Self::Storage;
-
-        fn grow(_storage: &mut Self::Storage, _additional: usize) -> Result<(), CapacityFull> {
-            Err(CapacityFull)
-        }
-    }
-
-    #[derive(Clone, Copy, Debug)]
-    pub struct CapacityFull;
-}
-
-use sealed::*;
-
-/// Marker trait for types that can be used as backing storage when a growable array type is needed.
-///
-/// This trait is sealed and cannot be implemented for types outside this crate.
-pub trait ArrayLike: Sealed {
-    /// Type of the elements being stored.
-    type Item;
-
-    #[doc(hidden)]
-    fn as_slice(storage: &Self::Storage) -> &[MaybeUninit<Self::Item>];
-
-    #[doc(hidden)]
-    fn as_mut_slice(storage: &mut Self::Storage) -> &mut [MaybeUninit<Self::Item>];
-}
-
-// Use macro since const generics can't be used due to MSRV.
-macro_rules! impl_array {
-    () => {};
-    ($n:literal $($rest:tt)*) => {
-        // SAFETY: does not modify the content in storage.
-        unsafe impl<T> Sealed for [T; $n] {
-            type Storage = [MaybeUninit<T>; $n];
-
-            fn new_storage() -> Self::Storage {
-                // SAFETY: An uninitialized `[MaybeUninit<_>; _]` is valid.
-                unsafe { MaybeUninit::uninit().assume_init() }
-            }
-        }
-
-        impl<T> ArrayLike for [T; $n] {
-            type Item = T;
-
-            fn as_slice(storage: &Self::Storage) -> &[MaybeUninit<T>] {
-                storage
-            }
-
-            fn as_mut_slice(storage: &mut Self::Storage) -> &mut [MaybeUninit<T>] {
-                storage
-            }
-        }
-
-        impl_array!($($rest)*);
-    }
-}
-
-impl_array!(0 1 2 3 4 8 16 32 64 128 192);
-
-#[cfg(feature = "read")]
-unsafe impl<T> Sealed for Vec<T> {
-    type Storage = Box<[MaybeUninit<T>]>;
-
-    fn new_storage() -> Self::Storage {
-        Box::new([])
-    }
-
-    fn grow(storage: &mut Self::Storage, additional: usize) -> Result<(), CapacityFull> {
-        let mut vec: Vec<_> = core::mem::replace(storage, Box::new([])).into();
-        vec.reserve(additional);
-        // SAFETY: This is a `Vec` of `MaybeUninit`.
-        unsafe { vec.set_len(vec.capacity()) };
-        *storage = vec.into_boxed_slice();
-        Ok(())
-    }
-}
-
-#[cfg(feature = "read")]
-impl<T> ArrayLike for Vec<T> {
-    type Item = T;
-
-    fn as_slice(storage: &Self::Storage) -> &[MaybeUninit<T>] {
-        storage
-    }
-
-    fn as_mut_slice(storage: &mut Self::Storage) -> &mut [MaybeUninit<T>] {
-        storage
-    }
-}
-
-pub(crate) struct ArrayVec<A: ArrayLike> {
-    storage: A::Storage,
-    len: usize,
-}
-
-impl<A: ArrayLike> ArrayVec<A> {
-    pub fn new() -> Self {
-        Self {
-            storage: A::new_storage(),
-            len: 0,
-        }
-    }
-
-    pub fn clear(&mut self) {
-        let ptr: *mut [A::Item] = &mut **self;
-        // Set length first so the type invariant is upheld even if `drop_in_place` panicks.
-        self.len = 0;
-        // SAFETY: `ptr` contains valid elements only and we "forget" them by setting the length.
-        unsafe { ptr::drop_in_place(ptr) };
-    }
-
-    pub fn try_push(&mut self, value: A::Item) -> Result<(), CapacityFull> {
-        let mut storage = A::as_mut_slice(&mut self.storage);
-        if self.len >= storage.len() {
-            A::grow(&mut self.storage, 1)?;
-            storage = A::as_mut_slice(&mut self.storage);
-        }
-
-        storage[self.len] = MaybeUninit::new(value);
-        self.len += 1;
-        Ok(())
-    }
-
-    pub fn try_insert(&mut self, index: usize, element: A::Item) -> Result<(), CapacityFull> {
-        assert!(index <= self.len);
-
-        let mut storage = A::as_mut_slice(&mut self.storage);
-        if self.len >= storage.len() {
-            A::grow(&mut self.storage, 1)?;
-            storage = A::as_mut_slice(&mut self.storage);
-        }
-
-        // SAFETY: storage[index] is filled later.
-        unsafe {
-            let p = storage.as_mut_ptr().add(index);
-            core::ptr::copy(p as *const _, p.add(1), self.len - index);
-        }
-        storage[index] = MaybeUninit::new(element);
-        self.len += 1;
-        Ok(())
-    }
-
-    pub fn pop(&mut self) -> Option<A::Item> {
-        if self.len == 0 {
-            None
-        } else {
-            self.len -= 1;
-            // SAFETY: this element is valid and we "forget" it by setting the length.
-            Some(unsafe { A::as_slice(&self.storage)[self.len].as_ptr().read() })
-        }
-    }
-
-    pub fn swap_remove(&mut self, index: usize) -> A::Item {
-        assert!(self.len > 0);
-        A::as_mut_slice(&mut self.storage).swap(index, self.len - 1);
-        self.pop().unwrap()
-    }
-}
-
-#[cfg(feature = "read")]
-impl<T> ArrayVec<Vec<T>> {
-    pub fn into_vec(mut self) -> Vec<T> {
-        let len = core::mem::replace(&mut self.len, 0);
-        let storage = core::mem::replace(&mut self.storage, Box::new([]));
-        let slice = Box::leak(storage);
-        debug_assert!(len <= slice.len());
-        // SAFETY: valid elements.
-        unsafe { Vec::from_raw_parts(slice.as_mut_ptr() as *mut T, len, slice.len()) }
-    }
-}
-
-impl<A: ArrayLike> Drop for ArrayVec<A> {
-    fn drop(&mut self) {
-        self.clear();
-    }
-}
-
-impl<A: ArrayLike> Default for ArrayVec<A> {
-    fn default() -> Self {
-        Self::new()
-    }
-}
-
-impl<A: ArrayLike> ops::Deref for ArrayVec<A> {
-    type Target = [A::Item];
-
-    fn deref(&self) -> &[A::Item] {
-        let slice = &A::as_slice(&self.storage);
-        debug_assert!(self.len <= slice.len());
-        // SAFETY: valid elements.
-        unsafe { slice::from_raw_parts(slice.as_ptr() as _, self.len) }
-    }
-}
-
-impl<A: ArrayLike> ops::DerefMut for ArrayVec<A> {
-    fn deref_mut(&mut self) -> &mut [A::Item] {
-        let slice = &mut A::as_mut_slice(&mut self.storage);
-        debug_assert!(self.len <= slice.len());
-        // SAFETY: valid elements.
-        unsafe { slice::from_raw_parts_mut(slice.as_mut_ptr() as _, self.len) }
-    }
-}
-
-impl<A: ArrayLike> Clone for ArrayVec<A>
-where
-    A::Item: Clone,
-{
-    fn clone(&self) -> Self {
-        let mut new = Self::default();
-        for value in &**self {
-            new.try_push(value.clone()).unwrap();
-        }
-        new
-    }
-}
-
-impl<A: ArrayLike> PartialEq for ArrayVec<A>
-where
-    A::Item: PartialEq,
-{
-    fn eq(&self, other: &Self) -> bool {
-        **self == **other
-    }
-}
-
-impl<A: ArrayLike> Eq for ArrayVec<A> where A::Item: Eq {}
-
-impl<A: ArrayLike> fmt::Debug for ArrayVec<A>
-where
-    A::Item: fmt::Debug,
-{
-    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
-        fmt::Debug::fmt(&**self, f)
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/read/value.rs b/vendor/gimli-0.27.3/src/read/value.rs
deleted file mode 100644
index 77b08eda5..000000000
--- a/vendor/gimli-0.27.3/src/read/value.rs
+++ /dev/null
@@ -1,1621 +0,0 @@
-//! Definitions for values used in DWARF expressions.
-
-use crate::constants;
-#[cfg(feature = "read")]
-use crate::read::{AttributeValue, DebuggingInformationEntry};
-use crate::read::{Error, Reader, Result};
-
-/// Convert a u64 to an i64, with sign extension if required.
-///
-/// This is primarily used when needing to treat `Value::Generic`
-/// as a signed value.
-#[inline]
-fn sign_extend(value: u64, mask: u64) -> i64 {
-    let value = (value & mask) as i64;
-    let sign = ((mask >> 1) + 1) as i64;
-    (value ^ sign).wrapping_sub(sign)
-}
-
-#[inline]
-fn mask_bit_size(addr_mask: u64) -> u32 {
-    64 - addr_mask.leading_zeros()
-}
-
-/// The type of an entry on the DWARF stack.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum ValueType {
-    /// The generic type, which is address-sized and of unspecified sign,
-    /// as specified in the DWARF 5 standard, section 2.5.1.
-    /// This type is also used to represent address base types.
-    Generic,
-    /// Signed 8-bit integer type.
-    I8,
-    /// Unsigned 8-bit integer type.
-    U8,
-    /// Signed 16-bit integer type.
-    I16,
-    /// Unsigned 16-bit integer type.
-    U16,
-    /// Signed 32-bit integer type.
-    I32,
-    /// Unsigned 32-bit integer type.
-    U32,
-    /// Signed 64-bit integer type.
-    I64,
-    /// Unsigned 64-bit integer type.
-    U64,
-    /// 32-bit floating point type.
-    F32,
-    /// 64-bit floating point type.
-    F64,
-}
-
-/// The value of an entry on the DWARF stack.
-#[derive(Debug, Clone, Copy, PartialEq)]
-pub enum Value {
-    /// A generic value, which is address-sized and of unspecified sign.
-    Generic(u64),
-    /// A signed 8-bit integer value.
-    I8(i8),
-    /// An unsigned 8-bit integer value.
-    U8(u8),
-    /// A signed 16-bit integer value.
-    I16(i16),
-    /// An unsigned 16-bit integer value.
-    U16(u16),
-    /// A signed 32-bit integer value.
-    I32(i32),
-    /// An unsigned 32-bit integer value.
-    U32(u32),
-    /// A signed 64-bit integer value.
-    I64(i64),
-    /// An unsigned 64-bit integer value.
-    U64(u64),
-    /// A 32-bit floating point value.
-    F32(f32),
-    /// A 64-bit floating point value.
-    F64(f64),
-}
-
-impl ValueType {
-    /// The size in bits of a value for this type.
-    pub fn bit_size(self, addr_mask: u64) -> u32 {
-        match self {
-            ValueType::Generic => mask_bit_size(addr_mask),
-            ValueType::I8 | ValueType::U8 => 8,
-            ValueType::I16 | ValueType::U16 => 16,
-            ValueType::I32 | ValueType::U32 | ValueType::F32 => 32,
-            ValueType::I64 | ValueType::U64 | ValueType::F64 => 64,
-        }
-    }
-
-    /// Construct a `ValueType` from the attributes of a base type DIE.
-    pub fn from_encoding(encoding: constants::DwAte, byte_size: u64) -> Option<ValueType> {
-        Some(match (encoding, byte_size) {
-            (constants::DW_ATE_signed, 1) => ValueType::I8,
-            (constants::DW_ATE_signed, 2) => ValueType::I16,
-            (constants::DW_ATE_signed, 4) => ValueType::I32,
-            (constants::DW_ATE_signed, 8) => ValueType::I64,
-            (constants::DW_ATE_unsigned, 1) => ValueType::U8,
-            (constants::DW_ATE_unsigned, 2) => ValueType::U16,
-            (constants::DW_ATE_unsigned, 4) => ValueType::U32,
-            (constants::DW_ATE_unsigned, 8) => ValueType::U64,
-            (constants::DW_ATE_float, 4) => ValueType::F32,
-            (constants::DW_ATE_float, 8) => ValueType::F64,
-            _ => return None,
-        })
-    }
-
-    /// Construct a `ValueType` from a base type DIE.
-    #[cfg(feature = "read")]
-    pub fn from_entry<R: Reader>(
-        entry: &DebuggingInformationEntry<R>,
-    ) -> Result<Option<ValueType>> {
-        if entry.tag() != constants::DW_TAG_base_type {
-            return Ok(None);
-        }
-        let mut encoding = None;
-        let mut byte_size = None;
-        let mut endianity = constants::DW_END_default;
-        let mut attrs = entry.attrs();
-        while let Some(attr) = attrs.next()? {
-            match attr.name() {
-                constants::DW_AT_byte_size => byte_size = attr.udata_value(),
-                constants::DW_AT_encoding => {
-                    if let AttributeValue::Encoding(x) = attr.value() {
-                        encoding = Some(x);
-                    }
-                }
-                constants::DW_AT_endianity => {
-                    if let AttributeValue::Endianity(x) = attr.value() {
-                        endianity = x;
-                    }
-                }
-                _ => {}
-            }
-        }
-
-        if endianity != constants::DW_END_default {
-            // TODO: we could check if it matches the reader endianity,
-            // but normally it would use DW_END_default in that case.
-            return Ok(None);
-        }
-
-        if let (Some(encoding), Some(byte_size)) = (encoding, byte_size) {
-            Ok(ValueType::from_encoding(encoding, byte_size))
-        } else {
-            Ok(None)
-        }
-    }
-}
-
-impl Value {
-    /// Return the `ValueType` corresponding to this `Value`.
-    pub fn value_type(&self) -> ValueType {
-        match *self {
-            Value::Generic(_) => ValueType::Generic,
-            Value::I8(_) => ValueType::I8,
-            Value::U8(_) => ValueType::U8,
-            Value::I16(_) => ValueType::I16,
-            Value::U16(_) => ValueType::U16,
-            Value::I32(_) => ValueType::I32,
-            Value::U32(_) => ValueType::U32,
-            Value::I64(_) => ValueType::I64,
-            Value::U64(_) => ValueType::U64,
-            Value::F32(_) => ValueType::F32,
-            Value::F64(_) => ValueType::F64,
-        }
-    }
-
-    /// Read a `Value` with the given `value_type` from a `Reader`.
-    pub fn parse<R: Reader>(value_type: ValueType, mut bytes: R) -> Result<Value> {
-        let value = match value_type {
-            ValueType::I8 => Value::I8(bytes.read_i8()?),
-            ValueType::U8 => Value::U8(bytes.read_u8()?),
-            ValueType::I16 => Value::I16(bytes.read_i16()?),
-            ValueType::U16 => Value::U16(bytes.read_u16()?),
-            ValueType::I32 => Value::I32(bytes.read_i32()?),
-            ValueType::U32 => Value::U32(bytes.read_u32()?),
-            ValueType::I64 => Value::I64(bytes.read_i64()?),
-            ValueType::U64 => Value::U64(bytes.read_u64()?),
-            ValueType::F32 => Value::F32(bytes.read_f32()?),
-            ValueType::F64 => Value::F64(bytes.read_f64()?),
-            _ => return Err(Error::UnsupportedTypeOperation),
-        };
-        Ok(value)
-    }
-
-    /// Convert a `Value` to a `u64`.
-    ///
-    /// The `ValueType` of `self` must be integral.
-    /// Values are sign extended if the source value is signed.
-    pub fn to_u64(self, addr_mask: u64) -> Result<u64> {
-        let value = match self {
-            Value::Generic(value) => value & addr_mask,
-            Value::I8(value) => value as u64,
-            Value::U8(value) => u64::from(value),
-            Value::I16(value) => value as u64,
-            Value::U16(value) => u64::from(value),
-            Value::I32(value) => value as u64,
-            Value::U32(value) => u64::from(value),
-            Value::I64(value) => value as u64,
-            Value::U64(value) => value as u64,
-            _ => return Err(Error::IntegralTypeRequired),
-        };
-        Ok(value)
-    }
-
-    /// Create a `Value` with the given `value_type` from a `u64` value.
-    ///
-    /// The `value_type` may be integral or floating point.
-    /// The result is truncated if the `u64` value does
-    /// not fit the bounds of the `value_type`.
-    pub fn from_u64(value_type: ValueType, value: u64) -> Result<Value> {
-        let value = match value_type {
-            ValueType::Generic => Value::Generic(value),
-            ValueType::I8 => Value::I8(value as i8),
-            ValueType::U8 => Value::U8(value as u8),
-            ValueType::I16 => Value::I16(value as i16),
-            ValueType::U16 => Value::U16(value as u16),
-            ValueType::I32 => Value::I32(value as i32),
-            ValueType::U32 => Value::U32(value as u32),
-            ValueType::I64 => Value::I64(value as i64),
-            ValueType::U64 => Value::U64(value),
-            ValueType::F32 => Value::F32(value as f32),
-            ValueType::F64 => Value::F64(value as f64),
-        };
-        Ok(value)
-    }
-
-    /// Create a `Value` with the given `value_type` from a `f32` value.
-    ///
-    /// The `value_type` may be integral or floating point.
-    /// The result is not defined if the `f32` value does
-    /// not fit the bounds of the `value_type`.
-    fn from_f32(value_type: ValueType, value: f32) -> Result<Value> {
-        let value = match value_type {
-            ValueType::Generic => Value::Generic(value as u64),
-            ValueType::I8 => Value::I8(value as i8),
-            ValueType::U8 => Value::U8(value as u8),
-            ValueType::I16 => Value::I16(value as i16),
-            ValueType::U16 => Value::U16(value as u16),
-            ValueType::I32 => Value::I32(value as i32),
-            ValueType::U32 => Value::U32(value as u32),
-            ValueType::I64 => Value::I64(value as i64),
-            ValueType::U64 => Value::U64(value as u64),
-            ValueType::F32 => Value::F32(value),
-            ValueType::F64 => Value::F64(f64::from(value)),
-        };
-        Ok(value)
-    }
-
-    /// Create a `Value` with the given `value_type` from a `f64` value.
-    ///
-    /// The `value_type` may be integral or floating point.
-    /// The result is not defined if the `f64` value does
-    /// not fit the bounds of the `value_type`.
-    fn from_f64(value_type: ValueType, value: f64) -> Result<Value> {
-        let value = match value_type {
-            ValueType::Generic => Value::Generic(value as u64),
-            ValueType::I8 => Value::I8(value as i8),
-            ValueType::U8 => Value::U8(value as u8),
-            ValueType::I16 => Value::I16(value as i16),
-            ValueType::U16 => Value::U16(value as u16),
-            ValueType::I32 => Value::I32(value as i32),
-            ValueType::U32 => Value::U32(value as u32),
-            ValueType::I64 => Value::I64(value as i64),
-            ValueType::U64 => Value::U64(value as u64),
-            ValueType::F32 => Value::F32(value as f32),
-            ValueType::F64 => Value::F64(value),
-        };
-        Ok(value)
-    }
-
-    /// Convert a `Value` to the given `value_type`.
-    ///
-    /// When converting between integral types, the result is truncated
-    /// if the source value does not fit the bounds of the `value_type`.
-    /// When converting from floating point types, the result is not defined
-    /// if the source value does not fit the bounds of the `value_type`.
-    ///
-    /// This corresponds to the DWARF `DW_OP_convert` operation.
-    pub fn convert(self, value_type: ValueType, addr_mask: u64) -> Result<Value> {
-        match self {
-            Value::F32(value) => Value::from_f32(value_type, value),
-            Value::F64(value) => Value::from_f64(value_type, value),
-            _ => Value::from_u64(value_type, self.to_u64(addr_mask)?),
-        }
-    }
-
-    /// Reinterpret the bits in a `Value` as the given `value_type`.
-    ///
-    /// The source and result value types must have equal sizes.
-    ///
-    /// This corresponds to the DWARF `DW_OP_reinterpret` operation.
-    pub fn reinterpret(self, value_type: ValueType, addr_mask: u64) -> Result<Value> {
-        if self.value_type().bit_size(addr_mask) != value_type.bit_size(addr_mask) {
-            return Err(Error::TypeMismatch);
-        }
-        let bits = match self {
-            Value::Generic(value) => value,
-            Value::I8(value) => value as u64,
-            Value::U8(value) => u64::from(value),
-            Value::I16(value) => value as u64,
-            Value::U16(value) => u64::from(value),
-            Value::I32(value) => value as u64,
-            Value::U32(value) => u64::from(value),
-            Value::I64(value) => value as u64,
-            Value::U64(value) => value,
-            Value::F32(value) => u64::from(f32::to_bits(value)),
-            Value::F64(value) => f64::to_bits(value),
-        };
-        let value = match value_type {
-            ValueType::Generic => Value::Generic(bits),
-            ValueType::I8 => Value::I8(bits as i8),
-            ValueType::U8 => Value::U8(bits as u8),
-            ValueType::I16 => Value::I16(bits as i16),
-            ValueType::U16 => Value::U16(bits as u16),
-            ValueType::I32 => Value::I32(bits as i32),
-            ValueType::U32 => Value::U32(bits as u32),
-            ValueType::I64 => Value::I64(bits as i64),
-            ValueType::U64 => Value::U64(bits),
-            ValueType::F32 => Value::F32(f32::from_bits(bits as u32)),
-            ValueType::F64 => Value::F64(f64::from_bits(bits)),
-        };
-        Ok(value)
-    }
-
-    /// Perform an absolute value operation.
-    ///
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_abs` operation.
-    pub fn abs(self, addr_mask: u64) -> Result<Value> {
-        // wrapping_abs() can be used because DWARF specifies that the result is undefined
-        // for negative minimal values.
-        let value = match self {
-            Value::Generic(value) => {
-                Value::Generic(sign_extend(value, addr_mask).wrapping_abs() as u64)
-            }
-            Value::I8(value) => Value::I8(value.wrapping_abs()),
-            Value::I16(value) => Value::I16(value.wrapping_abs()),
-            Value::I32(value) => Value::I32(value.wrapping_abs()),
-            Value::I64(value) => Value::I64(value.wrapping_abs()),
-            // f32/f64::abs() is not available in libcore
-            Value::F32(value) => Value::F32(if value < 0. { -value } else { value }),
-            Value::F64(value) => Value::F64(if value < 0. { -value } else { value }),
-            Value::U8(_) | Value::U16(_) | Value::U32(_) | Value::U64(_) => self,
-        };
-        Ok(value)
-    }
-
-    /// Perform a negation operation.
-    ///
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_neg` operation.
-    pub fn neg(self, addr_mask: u64) -> Result<Value> {
-        // wrapping_neg() can be used because DWARF specifies that the result is undefined
-        // for negative minimal values.
-        let value = match self {
-            Value::Generic(value) => {
-                Value::Generic(sign_extend(value, addr_mask).wrapping_neg() as u64)
-            }
-            Value::I8(value) => Value::I8(value.wrapping_neg()),
-            Value::I16(value) => Value::I16(value.wrapping_neg()),
-            Value::I32(value) => Value::I32(value.wrapping_neg()),
-            Value::I64(value) => Value::I64(value.wrapping_neg()),
-            Value::F32(value) => Value::F32(-value),
-            Value::F64(value) => Value::F64(-value),
-            // It's unclear if these should implicitly convert to a signed value.
-            // For now, we don't support them.
-            Value::U8(_) | Value::U16(_) | Value::U32(_) | Value::U64(_) => {
-                return Err(Error::UnsupportedTypeOperation);
-            }
-        };
-        Ok(value)
-    }
-
-    /// Perform an addition operation.
-    ///
-    /// This operation requires matching types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_plus` operation.
-    pub fn add(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                Value::Generic(v1.wrapping_add(v2) & addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => Value::I8(v1.wrapping_add(v2)),
-            (Value::U8(v1), Value::U8(v2)) => Value::U8(v1.wrapping_add(v2)),
-            (Value::I16(v1), Value::I16(v2)) => Value::I16(v1.wrapping_add(v2)),
-            (Value::U16(v1), Value::U16(v2)) => Value::U16(v1.wrapping_add(v2)),
-            (Value::I32(v1), Value::I32(v2)) => Value::I32(v1.wrapping_add(v2)),
-            (Value::U32(v1), Value::U32(v2)) => Value::U32(v1.wrapping_add(v2)),
-            (Value::I64(v1), Value::I64(v2)) => Value::I64(v1.wrapping_add(v2)),
-            (Value::U64(v1), Value::U64(v2)) => Value::U64(v1.wrapping_add(v2)),
-            (Value::F32(v1), Value::F32(v2)) => Value::F32(v1 + v2),
-            (Value::F64(v1), Value::F64(v2)) => Value::F64(v1 + v2),
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(value)
-    }
-
-    /// Perform a subtraction operation.
-    ///
-    /// This operation requires matching types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_minus` operation.
-    pub fn sub(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                Value::Generic(v1.wrapping_sub(v2) & addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => Value::I8(v1.wrapping_sub(v2)),
-            (Value::U8(v1), Value::U8(v2)) => Value::U8(v1.wrapping_sub(v2)),
-            (Value::I16(v1), Value::I16(v2)) => Value::I16(v1.wrapping_sub(v2)),
-            (Value::U16(v1), Value::U16(v2)) => Value::U16(v1.wrapping_sub(v2)),
-            (Value::I32(v1), Value::I32(v2)) => Value::I32(v1.wrapping_sub(v2)),
-            (Value::U32(v1), Value::U32(v2)) => Value::U32(v1.wrapping_sub(v2)),
-            (Value::I64(v1), Value::I64(v2)) => Value::I64(v1.wrapping_sub(v2)),
-            (Value::U64(v1), Value::U64(v2)) => Value::U64(v1.wrapping_sub(v2)),
-            (Value::F32(v1), Value::F32(v2)) => Value::F32(v1 - v2),
-            (Value::F64(v1), Value::F64(v2)) => Value::F64(v1 - v2),
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(value)
-    }
-
-    /// Perform a multiplication operation.
-    ///
-    /// This operation requires matching types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_mul` operation.
-    pub fn mul(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                Value::Generic(v1.wrapping_mul(v2) & addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => Value::I8(v1.wrapping_mul(v2)),
-            (Value::U8(v1), Value::U8(v2)) => Value::U8(v1.wrapping_mul(v2)),
-            (Value::I16(v1), Value::I16(v2)) => Value::I16(v1.wrapping_mul(v2)),
-            (Value::U16(v1), Value::U16(v2)) => Value::U16(v1.wrapping_mul(v2)),
-            (Value::I32(v1), Value::I32(v2)) => Value::I32(v1.wrapping_mul(v2)),
-            (Value::U32(v1), Value::U32(v2)) => Value::U32(v1.wrapping_mul(v2)),
-            (Value::I64(v1), Value::I64(v2)) => Value::I64(v1.wrapping_mul(v2)),
-            (Value::U64(v1), Value::U64(v2)) => Value::U64(v1.wrapping_mul(v2)),
-            (Value::F32(v1), Value::F32(v2)) => Value::F32(v1 * v2),
-            (Value::F64(v1), Value::F64(v2)) => Value::F64(v1 * v2),
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(value)
-    }
-
-    /// Perform a division operation.
-    ///
-    /// This operation requires matching types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_div` operation.
-    pub fn div(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        match rhs {
-            Value::Generic(v2) if sign_extend(v2, addr_mask) == 0 => {
-                return Err(Error::DivisionByZero);
-            }
-            Value::I8(0)
-            | Value::U8(0)
-            | Value::I16(0)
-            | Value::U16(0)
-            | Value::I32(0)
-            | Value::U32(0)
-            | Value::I64(0)
-            | Value::U64(0) => {
-                return Err(Error::DivisionByZero);
-            }
-            _ => {}
-        }
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                // Signed division
-                Value::Generic(
-                    sign_extend(v1, addr_mask).wrapping_div(sign_extend(v2, addr_mask)) as u64,
-                )
-            }
-            (Value::I8(v1), Value::I8(v2)) => Value::I8(v1.wrapping_div(v2)),
-            (Value::U8(v1), Value::U8(v2)) => Value::U8(v1.wrapping_div(v2)),
-            (Value::I16(v1), Value::I16(v2)) => Value::I16(v1.wrapping_div(v2)),
-            (Value::U16(v1), Value::U16(v2)) => Value::U16(v1.wrapping_div(v2)),
-            (Value::I32(v1), Value::I32(v2)) => Value::I32(v1.wrapping_div(v2)),
-            (Value::U32(v1), Value::U32(v2)) => Value::U32(v1.wrapping_div(v2)),
-            (Value::I64(v1), Value::I64(v2)) => Value::I64(v1.wrapping_div(v2)),
-            (Value::U64(v1), Value::U64(v2)) => Value::U64(v1.wrapping_div(v2)),
-            (Value::F32(v1), Value::F32(v2)) => Value::F32(v1 / v2),
-            (Value::F64(v1), Value::F64(v2)) => Value::F64(v1 / v2),
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(value)
-    }
-
-    /// Perform a remainder operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as an unsigned value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_mod` operation.
-    pub fn rem(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        match rhs {
-            Value::Generic(rhs) if (rhs & addr_mask) == 0 => {
-                return Err(Error::DivisionByZero);
-            }
-            Value::I8(0)
-            | Value::U8(0)
-            | Value::I16(0)
-            | Value::U16(0)
-            | Value::I32(0)
-            | Value::U32(0)
-            | Value::I64(0)
-            | Value::U64(0) => {
-                return Err(Error::DivisionByZero);
-            }
-            _ => {}
-        }
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                // Unsigned modulus
-                Value::Generic((v1 & addr_mask).wrapping_rem(v2 & addr_mask))
-            }
-            (Value::I8(v1), Value::I8(v2)) => Value::I8(v1.wrapping_rem(v2)),
-            (Value::U8(v1), Value::U8(v2)) => Value::U8(v1.wrapping_rem(v2)),
-            (Value::I16(v1), Value::I16(v2)) => Value::I16(v1.wrapping_rem(v2)),
-            (Value::U16(v1), Value::U16(v2)) => Value::U16(v1.wrapping_rem(v2)),
-            (Value::I32(v1), Value::I32(v2)) => Value::I32(v1.wrapping_rem(v2)),
-            (Value::U32(v1), Value::U32(v2)) => Value::U32(v1.wrapping_rem(v2)),
-            (Value::I64(v1), Value::I64(v2)) => Value::I64(v1.wrapping_rem(v2)),
-            (Value::U64(v1), Value::U64(v2)) => Value::U64(v1.wrapping_rem(v2)),
-            (Value::F32(_), Value::F32(_)) => return Err(Error::IntegralTypeRequired),
-            (Value::F64(_), Value::F64(_)) => return Err(Error::IntegralTypeRequired),
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(value)
-    }
-
-    /// Perform a bitwise not operation.
-    ///
-    /// This operation requires matching integral types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_not` operation.
-    pub fn not(self, addr_mask: u64) -> Result<Value> {
-        let value_type = self.value_type();
-        let v = self.to_u64(addr_mask)?;
-        Value::from_u64(value_type, !v)
-    }
-
-    /// Perform a bitwise and operation.
-    ///
-    /// This operation requires matching integral types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_and` operation.
-    pub fn and(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value_type = self.value_type();
-        if value_type != rhs.value_type() {
-            return Err(Error::TypeMismatch);
-        }
-        let v1 = self.to_u64(addr_mask)?;
-        let v2 = rhs.to_u64(addr_mask)?;
-        Value::from_u64(value_type, v1 & v2)
-    }
-
-    /// Perform a bitwise or operation.
-    ///
-    /// This operation requires matching integral types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_or` operation.
-    pub fn or(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value_type = self.value_type();
-        if value_type != rhs.value_type() {
-            return Err(Error::TypeMismatch);
-        }
-        let v1 = self.to_u64(addr_mask)?;
-        let v2 = rhs.to_u64(addr_mask)?;
-        Value::from_u64(value_type, v1 | v2)
-    }
-
-    /// Perform a bitwise exclusive-or operation.
-    ///
-    /// This operation requires matching integral types.
-    ///
-    /// This corresponds to the DWARF `DW_OP_xor` operation.
-    pub fn xor(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value_type = self.value_type();
-        if value_type != rhs.value_type() {
-            return Err(Error::TypeMismatch);
-        }
-        let v1 = self.to_u64(addr_mask)?;
-        let v2 = rhs.to_u64(addr_mask)?;
-        Value::from_u64(value_type, v1 ^ v2)
-    }
-
-    /// Convert value to bit length suitable for a shift operation.
-    ///
-    /// If the value is negative then an error is returned.
-    fn shift_length(self) -> Result<u64> {
-        let value = match self {
-            Value::Generic(value) => value,
-            Value::I8(value) if value >= 0 => value as u64,
-            Value::U8(value) => u64::from(value),
-            Value::I16(value) if value >= 0 => value as u64,
-            Value::U16(value) => u64::from(value),
-            Value::I32(value) if value >= 0 => value as u64,
-            Value::U32(value) => u64::from(value),
-            Value::I64(value) if value >= 0 => value as u64,
-            Value::U64(value) => value,
-            _ => return Err(Error::InvalidShiftExpression),
-        };
-        Ok(value)
-    }
-
-    /// Perform a shift left operation.
-    ///
-    /// This operation requires integral types.
-    /// If the shift length exceeds the type size, then 0 is returned.
-    /// If the shift length is negative then an error is returned.
-    ///
-    /// This corresponds to the DWARF `DW_OP_shl` operation.
-    pub fn shl(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let v2 = rhs.shift_length()?;
-        let value = match self {
-            Value::Generic(v1) => Value::Generic(if v2 >= u64::from(mask_bit_size(addr_mask)) {
-                0
-            } else {
-                (v1 & addr_mask) << v2
-            }),
-            Value::I8(v1) => Value::I8(if v2 >= 8 { 0 } else { v1 << v2 }),
-            Value::U8(v1) => Value::U8(if v2 >= 8 { 0 } else { v1 << v2 }),
-            Value::I16(v1) => Value::I16(if v2 >= 16 { 0 } else { v1 << v2 }),
-            Value::U16(v1) => Value::U16(if v2 >= 16 { 0 } else { v1 << v2 }),
-            Value::I32(v1) => Value::I32(if v2 >= 32 { 0 } else { v1 << v2 }),
-            Value::U32(v1) => Value::U32(if v2 >= 32 { 0 } else { v1 << v2 }),
-            Value::I64(v1) => Value::I64(if v2 >= 64 { 0 } else { v1 << v2 }),
-            Value::U64(v1) => Value::U64(if v2 >= 64 { 0 } else { v1 << v2 }),
-            _ => return Err(Error::IntegralTypeRequired),
-        };
-        Ok(value)
-    }
-
-    /// Perform a logical shift right operation.
-    ///
-    /// This operation requires an unsigned integral type for the value.
-    /// If the value type is `Generic`, then it is interpreted as an unsigned value.
-    ///
-    /// This operation requires an integral type for the shift length.
-    /// If the shift length exceeds the type size, then 0 is returned.
-    /// If the shift length is negative then an error is returned.
-    ///
-    /// This corresponds to the DWARF `DW_OP_shr` operation.
-    pub fn shr(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let v2 = rhs.shift_length()?;
-        let value = match self {
-            Value::Generic(v1) => Value::Generic(if v2 >= u64::from(mask_bit_size(addr_mask)) {
-                0
-            } else {
-                (v1 & addr_mask) >> v2
-            }),
-            Value::U8(v1) => Value::U8(if v2 >= 8 { 0 } else { v1 >> v2 }),
-            Value::U16(v1) => Value::U16(if v2 >= 16 { 0 } else { v1 >> v2 }),
-            Value::U32(v1) => Value::U32(if v2 >= 32 { 0 } else { v1 >> v2 }),
-            Value::U64(v1) => Value::U64(if v2 >= 64 { 0 } else { v1 >> v2 }),
-            // It's unclear if signed values should implicitly convert to an unsigned value.
-            // For now, we don't support them.
-            Value::I8(_) | Value::I16(_) | Value::I32(_) | Value::I64(_) => {
-                return Err(Error::UnsupportedTypeOperation);
-            }
-            _ => return Err(Error::IntegralTypeRequired),
-        };
-        Ok(value)
-    }
-
-    /// Perform an arithmetic shift right operation.
-    ///
-    /// This operation requires a signed integral type for the value.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This operation requires an integral type for the shift length.
-    /// If the shift length exceeds the type size, then 0 is returned for positive values,
-    /// and -1 is returned for negative values.
-    /// If the shift length is negative then an error is returned.
-    ///
-    /// This corresponds to the DWARF `DW_OP_shra` operation.
-    pub fn shra(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let v2 = rhs.shift_length()?;
-        let value = match self {
-            Value::Generic(v1) => {
-                let v1 = sign_extend(v1, addr_mask);
-                let value = if v2 >= u64::from(mask_bit_size(addr_mask)) {
-                    if v1 < 0 {
-                        !0
-                    } else {
-                        0
-                    }
-                } else {
-                    (v1 >> v2) as u64
-                };
-                Value::Generic(value)
-            }
-            Value::I8(v1) => Value::I8(if v2 >= 8 {
-                if v1 < 0 {
-                    !0
-                } else {
-                    0
-                }
-            } else {
-                v1 >> v2
-            }),
-            Value::I16(v1) => Value::I16(if v2 >= 16 {
-                if v1 < 0 {
-                    !0
-                } else {
-                    0
-                }
-            } else {
-                v1 >> v2
-            }),
-            Value::I32(v1) => Value::I32(if v2 >= 32 {
-                if v1 < 0 {
-                    !0
-                } else {
-                    0
-                }
-            } else {
-                v1 >> v2
-            }),
-            Value::I64(v1) => Value::I64(if v2 >= 64 {
-                if v1 < 0 {
-                    !0
-                } else {
-                    0
-                }
-            } else {
-                v1 >> v2
-            }),
-            // It's unclear if unsigned values should implicitly convert to a signed value.
-            // For now, we don't support them.
-            Value::U8(_) | Value::U16(_) | Value::U32(_) | Value::U64(_) => {
-                return Err(Error::UnsupportedTypeOperation);
-            }
-            _ => return Err(Error::IntegralTypeRequired),
-        };
-        Ok(value)
-    }
-
-    /// Perform the `==` relational operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_eq` operation.
-    pub fn eq(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                sign_extend(v1, addr_mask) == sign_extend(v2, addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => v1 == v2,
-            (Value::U8(v1), Value::U8(v2)) => v1 == v2,
-            (Value::I16(v1), Value::I16(v2)) => v1 == v2,
-            (Value::U16(v1), Value::U16(v2)) => v1 == v2,
-            (Value::I32(v1), Value::I32(v2)) => v1 == v2,
-            (Value::U32(v1), Value::U32(v2)) => v1 == v2,
-            (Value::I64(v1), Value::I64(v2)) => v1 == v2,
-            (Value::U64(v1), Value::U64(v2)) => v1 == v2,
-            (Value::F32(v1), Value::F32(v2)) => v1 == v2,
-            (Value::F64(v1), Value::F64(v2)) => v1 == v2,
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(Value::Generic(value as u64))
-    }
-
-    /// Perform the `>=` relational operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_ge` operation.
-    pub fn ge(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                sign_extend(v1, addr_mask) >= sign_extend(v2, addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => v1 >= v2,
-            (Value::U8(v1), Value::U8(v2)) => v1 >= v2,
-            (Value::I16(v1), Value::I16(v2)) => v1 >= v2,
-            (Value::U16(v1), Value::U16(v2)) => v1 >= v2,
-            (Value::I32(v1), Value::I32(v2)) => v1 >= v2,
-            (Value::U32(v1), Value::U32(v2)) => v1 >= v2,
-            (Value::I64(v1), Value::I64(v2)) => v1 >= v2,
-            (Value::U64(v1), Value::U64(v2)) => v1 >= v2,
-            (Value::F32(v1), Value::F32(v2)) => v1 >= v2,
-            (Value::F64(v1), Value::F64(v2)) => v1 >= v2,
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(Value::Generic(value as u64))
-    }
-
-    /// Perform the `>` relational operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_gt` operation.
-    pub fn gt(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                sign_extend(v1, addr_mask) > sign_extend(v2, addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => v1 > v2,
-            (Value::U8(v1), Value::U8(v2)) => v1 > v2,
-            (Value::I16(v1), Value::I16(v2)) => v1 > v2,
-            (Value::U16(v1), Value::U16(v2)) => v1 > v2,
-            (Value::I32(v1), Value::I32(v2)) => v1 > v2,
-            (Value::U32(v1), Value::U32(v2)) => v1 > v2,
-            (Value::I64(v1), Value::I64(v2)) => v1 > v2,
-            (Value::U64(v1), Value::U64(v2)) => v1 > v2,
-            (Value::F32(v1), Value::F32(v2)) => v1 > v2,
-            (Value::F64(v1), Value::F64(v2)) => v1 > v2,
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(Value::Generic(value as u64))
-    }
-
-    /// Perform the `<= relational operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_le` operation.
-    pub fn le(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                sign_extend(v1, addr_mask) <= sign_extend(v2, addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => v1 <= v2,
-            (Value::U8(v1), Value::U8(v2)) => v1 <= v2,
-            (Value::I16(v1), Value::I16(v2)) => v1 <= v2,
-            (Value::U16(v1), Value::U16(v2)) => v1 <= v2,
-            (Value::I32(v1), Value::I32(v2)) => v1 <= v2,
-            (Value::U32(v1), Value::U32(v2)) => v1 <= v2,
-            (Value::I64(v1), Value::I64(v2)) => v1 <= v2,
-            (Value::U64(v1), Value::U64(v2)) => v1 <= v2,
-            (Value::F32(v1), Value::F32(v2)) => v1 <= v2,
-            (Value::F64(v1), Value::F64(v2)) => v1 <= v2,
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(Value::Generic(value as u64))
-    }
-
-    /// Perform the `< relational operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_lt` operation.
-    pub fn lt(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                sign_extend(v1, addr_mask) < sign_extend(v2, addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => v1 < v2,
-            (Value::U8(v1), Value::U8(v2)) => v1 < v2,
-            (Value::I16(v1), Value::I16(v2)) => v1 < v2,
-            (Value::U16(v1), Value::U16(v2)) => v1 < v2,
-            (Value::I32(v1), Value::I32(v2)) => v1 < v2,
-            (Value::U32(v1), Value::U32(v2)) => v1 < v2,
-            (Value::I64(v1), Value::I64(v2)) => v1 < v2,
-            (Value::U64(v1), Value::U64(v2)) => v1 < v2,
-            (Value::F32(v1), Value::F32(v2)) => v1 < v2,
-            (Value::F64(v1), Value::F64(v2)) => v1 < v2,
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(Value::Generic(value as u64))
-    }
-
-    /// Perform the `!= relational operation.
-    ///
-    /// This operation requires matching integral types.
-    /// If the value type is `Generic`, then it is interpreted as a signed value.
-    ///
-    /// This corresponds to the DWARF `DW_OP_ne` operation.
-    pub fn ne(self, rhs: Value, addr_mask: u64) -> Result<Value> {
-        let value = match (self, rhs) {
-            (Value::Generic(v1), Value::Generic(v2)) => {
-                sign_extend(v1, addr_mask) != sign_extend(v2, addr_mask)
-            }
-            (Value::I8(v1), Value::I8(v2)) => v1 != v2,
-            (Value::U8(v1), Value::U8(v2)) => v1 != v2,
-            (Value::I16(v1), Value::I16(v2)) => v1 != v2,
-            (Value::U16(v1), Value::U16(v2)) => v1 != v2,
-            (Value::I32(v1), Value::I32(v2)) => v1 != v2,
-            (Value::U32(v1), Value::U32(v2)) => v1 != v2,
-            (Value::I64(v1), Value::I64(v2)) => v1 != v2,
-            (Value::U64(v1), Value::U64(v2)) => v1 != v2,
-            (Value::F32(v1), Value::F32(v2)) => v1 != v2,
-            (Value::F64(v1), Value::F64(v2)) => v1 != v2,
-            _ => return Err(Error::TypeMismatch),
-        };
-        Ok(Value::Generic(value as u64))
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::common::{DebugAbbrevOffset, DebugInfoOffset, Encoding, Format};
-    use crate::endianity::LittleEndian;
-    use crate::read::{
-        Abbreviation, AttributeSpecification, DebuggingInformationEntry, EndianSlice, UnitHeader,
-        UnitOffset, UnitType,
-    };
-
-    #[test]
-    #[rustfmt::skip]
-    fn valuetype_from_encoding() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 4,
-        };
-        let unit = UnitHeader::new(
-            encoding,
-            7,
-            UnitType::Compilation,
-            DebugAbbrevOffset(0),
-            DebugInfoOffset(0).into(),
-            EndianSlice::new(&[], LittleEndian),
-        );
-
-        let abbrev = Abbreviation::new(
-            42,
-            constants::DW_TAG_base_type,
-            constants::DW_CHILDREN_no,
-            vec![
-                AttributeSpecification::new(
-                    constants::DW_AT_byte_size,
-                    constants::DW_FORM_udata,
-                    None,
-                ),
-                AttributeSpecification::new(
-                    constants::DW_AT_encoding,
-                    constants::DW_FORM_udata,
-                    None,
-                ),
-                AttributeSpecification::new(
-                    constants::DW_AT_endianity,
-                    constants::DW_FORM_udata,
-                    None,
-                ),
-            ].into(),
-        );
-
-        for &(attrs, result) in &[
-            ([0x01, constants::DW_ATE_signed.0, constants::DW_END_default.0], ValueType::I8),
-            ([0x02, constants::DW_ATE_signed.0, constants::DW_END_default.0], ValueType::I16),
-            ([0x04, constants::DW_ATE_signed.0, constants::DW_END_default.0], ValueType::I32),
-            ([0x08, constants::DW_ATE_signed.0, constants::DW_END_default.0], ValueType::I64),
-            ([0x01, constants::DW_ATE_unsigned.0, constants::DW_END_default.0], ValueType::U8),
-            ([0x02, constants::DW_ATE_unsigned.0, constants::DW_END_default.0], ValueType::U16),
-            ([0x04, constants::DW_ATE_unsigned.0, constants::DW_END_default.0], ValueType::U32),
-            ([0x08, constants::DW_ATE_unsigned.0, constants::DW_END_default.0], ValueType::U64),
-            ([0x04, constants::DW_ATE_float.0, constants::DW_END_default.0], ValueType::F32),
-            ([0x08, constants::DW_ATE_float.0, constants::DW_END_default.0], ValueType::F64),
-        ] {
-            let entry = DebuggingInformationEntry::new(
-                UnitOffset(0),
-                EndianSlice::new(&attrs, LittleEndian),
-                &abbrev,
-                &unit,
-            );
-            assert_eq!(ValueType::from_entry(&entry), Ok(Some(result)));
-        }
-
-        for attrs in &[
-            [0x03, constants::DW_ATE_signed.0, constants::DW_END_default.0],
-            [0x02, constants::DW_ATE_signed.0, constants::DW_END_big.0],
-        ] {
-            let entry = DebuggingInformationEntry::new(
-                UnitOffset(0),
-                EndianSlice::new(attrs, LittleEndian),
-                &abbrev,
-                &unit,
-            );
-            assert_eq!(ValueType::from_entry(&entry), Ok(None));
-        }
-    }
-
-    #[test]
-    fn value_convert() {
-        let addr_mask = !0 >> 32;
-        for &(v, t, result) in &[
-            (Value::Generic(1), ValueType::I8, Ok(Value::I8(1))),
-            (Value::I8(1), ValueType::U8, Ok(Value::U8(1))),
-            (Value::U8(1), ValueType::I16, Ok(Value::I16(1))),
-            (Value::I16(1), ValueType::U16, Ok(Value::U16(1))),
-            (Value::U16(1), ValueType::I32, Ok(Value::I32(1))),
-            (Value::I32(1), ValueType::U32, Ok(Value::U32(1))),
-            (Value::U32(1), ValueType::F32, Ok(Value::F32(1.))),
-            (Value::F32(1.), ValueType::I64, Ok(Value::I64(1))),
-            (Value::I64(1), ValueType::U64, Ok(Value::U64(1))),
-            (Value::U64(1), ValueType::F64, Ok(Value::F64(1.))),
-            (Value::F64(1.), ValueType::Generic, Ok(Value::Generic(1))),
-        ] {
-            assert_eq!(v.convert(t, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_reinterpret() {
-        let addr_mask = !0 >> 32;
-        for &(v, t, result) in &[
-            // 8-bit
-            (Value::I8(-1), ValueType::U8, Ok(Value::U8(0xff))),
-            (Value::U8(0xff), ValueType::I8, Ok(Value::I8(-1))),
-            // 16-bit
-            (Value::I16(1), ValueType::U16, Ok(Value::U16(1))),
-            (Value::U16(1), ValueType::I16, Ok(Value::I16(1))),
-            // 32-bit
-            (Value::Generic(1), ValueType::I32, Ok(Value::I32(1))),
-            (Value::I32(1), ValueType::U32, Ok(Value::U32(1))),
-            (Value::U32(0x3f80_0000), ValueType::F32, Ok(Value::F32(1.0))),
-            (Value::F32(1.0), ValueType::Generic, Ok(Value::Generic(0x3f80_0000))),
-            // Type mismatches
-            (Value::Generic(1), ValueType::U8, Err(Error::TypeMismatch)),
-            (Value::U8(1), ValueType::U16, Err(Error::TypeMismatch)),
-            (Value::U16(1), ValueType::U32, Err(Error::TypeMismatch)),
-            (Value::U32(1), ValueType::U64, Err(Error::TypeMismatch)),
-            (Value::U64(1), ValueType::Generic, Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v.reinterpret(t, addr_mask), result);
-        }
-
-        let addr_mask = !0;
-        for &(v, t, result) in &[
-            // 64-bit
-            (Value::Generic(1), ValueType::I64, Ok(Value::I64(1))),
-            (Value::I64(1), ValueType::U64, Ok(Value::U64(1))),
-            (Value::U64(0x3ff0_0000_0000_0000), ValueType::F64, Ok(Value::F64(1.0))),
-            (Value::F64(1.0), ValueType::Generic, Ok(Value::Generic(0x3ff0_0000_0000_0000))),
-        ] {
-            assert_eq!(v.reinterpret(t, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_abs() {
-        let addr_mask = 0xffff_ffff;
-        for &(v, result) in &[
-            (Value::Generic(0xffff_ffff), Ok(Value::Generic(1))),
-            (Value::I8(-1), Ok(Value::I8(1))),
-            (Value::U8(1), Ok(Value::U8(1))),
-            (Value::I16(-1), Ok(Value::I16(1))),
-            (Value::U16(1), Ok(Value::U16(1))),
-            (Value::I32(-1), Ok(Value::I32(1))),
-            (Value::U32(1), Ok(Value::U32(1))),
-            (Value::I64(-1), Ok(Value::I64(1))),
-            (Value::U64(1), Ok(Value::U64(1))),
-            (Value::F32(-1.), Ok(Value::F32(1.))),
-            (Value::F64(-1.), Ok(Value::F64(1.))),
-        ] {
-            assert_eq!(v.abs(addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_neg() {
-        let addr_mask = 0xffff_ffff;
-        for &(v, result) in &[
-            (Value::Generic(0xffff_ffff), Ok(Value::Generic(1))),
-            (Value::I8(1), Ok(Value::I8(-1))),
-            (Value::U8(1), Err(Error::UnsupportedTypeOperation)),
-            (Value::I16(1), Ok(Value::I16(-1))),
-            (Value::U16(1), Err(Error::UnsupportedTypeOperation)),
-            (Value::I32(1), Ok(Value::I32(-1))),
-            (Value::U32(1), Err(Error::UnsupportedTypeOperation)),
-            (Value::I64(1), Ok(Value::I64(-1))),
-            (Value::U64(1), Err(Error::UnsupportedTypeOperation)),
-            (Value::F32(1.), Ok(Value::F32(-1.))),
-            (Value::F64(1.), Ok(Value::F64(-1.))),
-        ] {
-            assert_eq!(v.neg(addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_add() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(1), Value::Generic(2), Ok(Value::Generic(3))),
-            (Value::I8(-1), Value::I8(2), Ok(Value::I8(1))),
-            (Value::U8(1), Value::U8(2), Ok(Value::U8(3))),
-            (Value::I16(-1), Value::I16(2), Ok(Value::I16(1))),
-            (Value::U16(1), Value::U16(2), Ok(Value::U16(3))),
-            (Value::I32(-1), Value::I32(2), Ok(Value::I32(1))),
-            (Value::U32(1), Value::U32(2), Ok(Value::U32(3))),
-            (Value::I64(-1), Value::I64(2), Ok(Value::I64(1))),
-            (Value::U64(1), Value::U64(2), Ok(Value::U64(3))),
-            (Value::F32(-1.), Value::F32(2.), Ok(Value::F32(1.))),
-            (Value::F64(-1.), Value::F64(2.), Ok(Value::F64(1.))),
-            (Value::Generic(1), Value::U32(2), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.add(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_sub() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(2), Ok(Value::Generic(1))),
-            (Value::I8(-1), Value::I8(2), Ok(Value::I8(-3))),
-            (Value::U8(3), Value::U8(2), Ok(Value::U8(1))),
-            (Value::I16(-1), Value::I16(2), Ok(Value::I16(-3))),
-            (Value::U16(3), Value::U16(2), Ok(Value::U16(1))),
-            (Value::I32(-1), Value::I32(2), Ok(Value::I32(-3))),
-            (Value::U32(3), Value::U32(2), Ok(Value::U32(1))),
-            (Value::I64(-1), Value::I64(2), Ok(Value::I64(-3))),
-            (Value::U64(3), Value::U64(2), Ok(Value::U64(1))),
-            (Value::F32(-1.), Value::F32(2.), Ok(Value::F32(-3.))),
-            (Value::F64(-1.), Value::F64(2.), Ok(Value::F64(-3.))),
-            (Value::Generic(3), Value::U32(2), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.sub(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_mul() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(2), Value::Generic(3), Ok(Value::Generic(6))),
-            (Value::I8(-2), Value::I8(3), Ok(Value::I8(-6))),
-            (Value::U8(2), Value::U8(3), Ok(Value::U8(6))),
-            (Value::I16(-2), Value::I16(3), Ok(Value::I16(-6))),
-            (Value::U16(2), Value::U16(3), Ok(Value::U16(6))),
-            (Value::I32(-2), Value::I32(3), Ok(Value::I32(-6))),
-            (Value::U32(2), Value::U32(3), Ok(Value::U32(6))),
-            (Value::I64(-2), Value::I64(3), Ok(Value::I64(-6))),
-            (Value::U64(2), Value::U64(3), Ok(Value::U64(6))),
-            (Value::F32(-2.), Value::F32(3.), Ok(Value::F32(-6.))),
-            (Value::F64(-2.), Value::F64(3.), Ok(Value::F64(-6.))),
-            (Value::Generic(2), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.mul(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_div() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(6), Value::Generic(3), Ok(Value::Generic(2))),
-            (Value::I8(-6), Value::I8(3), Ok(Value::I8(-2))),
-            (Value::U8(6), Value::U8(3), Ok(Value::U8(2))),
-            (Value::I16(-6), Value::I16(3), Ok(Value::I16(-2))),
-            (Value::U16(6), Value::U16(3), Ok(Value::U16(2))),
-            (Value::I32(-6), Value::I32(3), Ok(Value::I32(-2))),
-            (Value::U32(6), Value::U32(3), Ok(Value::U32(2))),
-            (Value::I64(-6), Value::I64(3), Ok(Value::I64(-2))),
-            (Value::U64(6), Value::U64(3), Ok(Value::U64(2))),
-            (Value::F32(-6.), Value::F32(3.), Ok(Value::F32(-2.))),
-            (Value::F64(-6.), Value::F64(3.), Ok(Value::F64(-2.))),
-            (Value::Generic(6), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.div(v2, addr_mask), result);
-        }
-        for &(v1, v2, result) in &[
-            (Value::Generic(6), Value::Generic(0), Err(Error::DivisionByZero)),
-            (Value::I8(-6), Value::I8(0), Err(Error::DivisionByZero)),
-            (Value::U8(6), Value::U8(0), Err(Error::DivisionByZero)),
-            (Value::I16(-6), Value::I16(0), Err(Error::DivisionByZero)),
-            (Value::U16(6), Value::U16(0), Err(Error::DivisionByZero)),
-            (Value::I32(-6), Value::I32(0), Err(Error::DivisionByZero)),
-            (Value::U32(6), Value::U32(0), Err(Error::DivisionByZero)),
-            (Value::I64(-6), Value::I64(0), Err(Error::DivisionByZero)),
-            (Value::U64(6), Value::U64(0), Err(Error::DivisionByZero)),
-            (Value::F32(-6.), Value::F32(0.), Ok(Value::F32(-6. / 0.))),
-            (Value::F64(-6.), Value::F64(0.), Ok(Value::F64(-6. / 0.))),
-        ] {
-            assert_eq!(v1.div(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_rem() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(2), Ok(Value::Generic(1))),
-            (Value::I8(-3), Value::I8(2), Ok(Value::I8(-1))),
-            (Value::U8(3), Value::U8(2), Ok(Value::U8(1))),
-            (Value::I16(-3), Value::I16(2), Ok(Value::I16(-1))),
-            (Value::U16(3), Value::U16(2), Ok(Value::U16(1))),
-            (Value::I32(-3), Value::I32(2), Ok(Value::I32(-1))),
-            (Value::U32(3), Value::U32(2), Ok(Value::U32(1))),
-            (Value::I64(-3), Value::I64(2), Ok(Value::I64(-1))),
-            (Value::U64(3), Value::U64(2), Ok(Value::U64(1))),
-            (Value::F32(-3.), Value::F32(2.), Err(Error::IntegralTypeRequired)),
-            (Value::F64(-3.), Value::F64(2.), Err(Error::IntegralTypeRequired)),
-            (Value::Generic(3), Value::U32(2), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.rem(v2, addr_mask), result);
-        }
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(0), Err(Error::DivisionByZero)),
-            (Value::I8(-3), Value::I8(0), Err(Error::DivisionByZero)),
-            (Value::U8(3), Value::U8(0), Err(Error::DivisionByZero)),
-            (Value::I16(-3), Value::I16(0), Err(Error::DivisionByZero)),
-            (Value::U16(3), Value::U16(0), Err(Error::DivisionByZero)),
-            (Value::I32(-3), Value::I32(0), Err(Error::DivisionByZero)),
-            (Value::U32(3), Value::U32(0), Err(Error::DivisionByZero)),
-            (Value::I64(-3), Value::I64(0), Err(Error::DivisionByZero)),
-            (Value::U64(3), Value::U64(0), Err(Error::DivisionByZero)),
-        ] {
-            assert_eq!(v1.rem(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_not() {
-        let addr_mask = 0xffff_ffff;
-        for &(v, result) in &[
-            (Value::Generic(1), Ok(Value::Generic(!1))),
-            (Value::I8(1), Ok(Value::I8(!1))),
-            (Value::U8(1), Ok(Value::U8(!1))),
-            (Value::I16(1), Ok(Value::I16(!1))),
-            (Value::U16(1), Ok(Value::U16(!1))),
-            (Value::I32(1), Ok(Value::I32(!1))),
-            (Value::U32(1), Ok(Value::U32(!1))),
-            (Value::I64(1), Ok(Value::I64(!1))),
-            (Value::U64(1), Ok(Value::U64(!1))),
-            (Value::F32(1.), Err(Error::IntegralTypeRequired)),
-            (Value::F64(1.), Err(Error::IntegralTypeRequired)),
-        ] {
-            assert_eq!(v.not(addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_and() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(5), Ok(Value::Generic(1))),
-            (Value::I8(3), Value::I8(5), Ok(Value::I8(1))),
-            (Value::U8(3), Value::U8(5), Ok(Value::U8(1))),
-            (Value::I16(3), Value::I16(5), Ok(Value::I16(1))),
-            (Value::U16(3), Value::U16(5), Ok(Value::U16(1))),
-            (Value::I32(3), Value::I32(5), Ok(Value::I32(1))),
-            (Value::U32(3), Value::U32(5), Ok(Value::U32(1))),
-            (Value::I64(3), Value::I64(5), Ok(Value::I64(1))),
-            (Value::U64(3), Value::U64(5), Ok(Value::U64(1))),
-            (Value::F32(3.), Value::F32(5.), Err(Error::IntegralTypeRequired)),
-            (Value::F64(3.), Value::F64(5.), Err(Error::IntegralTypeRequired)),
-            (Value::Generic(3), Value::U32(5), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.and(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_or() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(5), Ok(Value::Generic(7))),
-            (Value::I8(3), Value::I8(5), Ok(Value::I8(7))),
-            (Value::U8(3), Value::U8(5), Ok(Value::U8(7))),
-            (Value::I16(3), Value::I16(5), Ok(Value::I16(7))),
-            (Value::U16(3), Value::U16(5), Ok(Value::U16(7))),
-            (Value::I32(3), Value::I32(5), Ok(Value::I32(7))),
-            (Value::U32(3), Value::U32(5), Ok(Value::U32(7))),
-            (Value::I64(3), Value::I64(5), Ok(Value::I64(7))),
-            (Value::U64(3), Value::U64(5), Ok(Value::U64(7))),
-            (Value::F32(3.), Value::F32(5.), Err(Error::IntegralTypeRequired)),
-            (Value::F64(3.), Value::F64(5.), Err(Error::IntegralTypeRequired)),
-            (Value::Generic(3), Value::U32(5), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.or(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_xor() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(5), Ok(Value::Generic(6))),
-            (Value::I8(3), Value::I8(5), Ok(Value::I8(6))),
-            (Value::U8(3), Value::U8(5), Ok(Value::U8(6))),
-            (Value::I16(3), Value::I16(5), Ok(Value::I16(6))),
-            (Value::U16(3), Value::U16(5), Ok(Value::U16(6))),
-            (Value::I32(3), Value::I32(5), Ok(Value::I32(6))),
-            (Value::U32(3), Value::U32(5), Ok(Value::U32(6))),
-            (Value::I64(3), Value::I64(5), Ok(Value::I64(6))),
-            (Value::U64(3), Value::U64(5), Ok(Value::U64(6))),
-            (Value::F32(3.), Value::F32(5.), Err(Error::IntegralTypeRequired)),
-            (Value::F64(3.), Value::F64(5.), Err(Error::IntegralTypeRequired)),
-            (Value::Generic(3), Value::U32(5), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.xor(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_shl() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            // One of each type
-            (Value::Generic(3), Value::Generic(5), Ok(Value::Generic(96))),
-            (Value::I8(3), Value::U8(5), Ok(Value::I8(96))),
-            (Value::U8(3), Value::I8(5), Ok(Value::U8(96))),
-            (Value::I16(3), Value::U16(5), Ok(Value::I16(96))),
-            (Value::U16(3), Value::I16(5), Ok(Value::U16(96))),
-            (Value::I32(3), Value::U32(5), Ok(Value::I32(96))),
-            (Value::U32(3), Value::I32(5), Ok(Value::U32(96))),
-            (Value::I64(3), Value::U64(5), Ok(Value::I64(96))),
-            (Value::U64(3), Value::I64(5), Ok(Value::U64(96))),
-            (Value::F32(3.), Value::U8(5), Err(Error::IntegralTypeRequired)),
-            (Value::F64(3.), Value::U8(5), Err(Error::IntegralTypeRequired)),
-            // Invalid shifts
-            (Value::U8(3), Value::I8(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(3), Value::I16(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(3), Value::I32(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(3), Value::I64(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(3), Value::F32(5.), Err(Error::InvalidShiftExpression)),
-            (Value::U8(3), Value::F64(5.), Err(Error::InvalidShiftExpression)),
-            // Large shifts
-            (Value::Generic(3), Value::Generic(32), Ok(Value::Generic(0))),
-            (Value::I8(3), Value::U8(8), Ok(Value::I8(0))),
-            (Value::U8(3), Value::I8(9), Ok(Value::U8(0))),
-            (Value::I16(3), Value::U16(17), Ok(Value::I16(0))),
-            (Value::U16(3), Value::I16(16), Ok(Value::U16(0))),
-            (Value::I32(3), Value::U32(32), Ok(Value::I32(0))),
-            (Value::U32(3), Value::I32(33), Ok(Value::U32(0))),
-            (Value::I64(3), Value::U64(65), Ok(Value::I64(0))),
-            (Value::U64(3), Value::I64(64), Ok(Value::U64(0))),
-        ] {
-            assert_eq!(v1.shl(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_shr() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            // One of each type
-            (Value::Generic(96), Value::Generic(5), Ok(Value::Generic(3))),
-            (Value::I8(96), Value::U8(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::U8(96), Value::I8(5), Ok(Value::U8(3))),
-            (Value::I16(96), Value::U16(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::U16(96), Value::I16(5), Ok(Value::U16(3))),
-            (Value::I32(96), Value::U32(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::U32(96), Value::I32(5), Ok(Value::U32(3))),
-            (Value::I64(96), Value::U64(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::U64(96), Value::I64(5), Ok(Value::U64(3))),
-            (Value::F32(96.), Value::U8(5), Err(Error::IntegralTypeRequired)),
-            (Value::F64(96.), Value::U8(5), Err(Error::IntegralTypeRequired)),
-            // Invalid shifts
-            (Value::U8(96), Value::I8(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::I16(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::I32(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::I64(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::F32(5.), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::F64(5.), Err(Error::InvalidShiftExpression)),
-            // Large shifts
-            (Value::Generic(96), Value::Generic(32), Ok(Value::Generic(0))),
-            (Value::U8(96), Value::I8(9), Ok(Value::U8(0))),
-            (Value::U16(96), Value::I16(16), Ok(Value::U16(0))),
-            (Value::U32(96), Value::I32(33), Ok(Value::U32(0))),
-            (Value::U64(96), Value::I64(64), Ok(Value::U64(0))),
-        ] {
-            assert_eq!(v1.shr(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    #[rustfmt::skip]
-    fn value_shra() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            // One of each type
-            (Value::Generic(u64::from(-96i32 as u32)), Value::Generic(5), Ok(Value::Generic(-3i64 as u64))),
-            (Value::I8(-96), Value::U8(5), Ok(Value::I8(-3))),
-            (Value::U8(96), Value::I8(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::I16(-96), Value::U16(5), Ok(Value::I16(-3))),
-            (Value::U16(96), Value::I16(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::I32(-96), Value::U32(5), Ok(Value::I32(-3))),
-            (Value::U32(96), Value::I32(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::I64(-96), Value::U64(5), Ok(Value::I64(-3))),
-            (Value::U64(96), Value::I64(5), Err(Error::UnsupportedTypeOperation)),
-            (Value::F32(96.), Value::U8(5), Err(Error::IntegralTypeRequired)),
-            (Value::F64(96.), Value::U8(5), Err(Error::IntegralTypeRequired)),
-            // Invalid shifts
-            (Value::U8(96), Value::I8(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::I16(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::I32(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::I64(-5), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::F32(5.), Err(Error::InvalidShiftExpression)),
-            (Value::U8(96), Value::F64(5.), Err(Error::InvalidShiftExpression)),
-            // Large shifts
-            (Value::Generic(96), Value::Generic(32), Ok(Value::Generic(0))),
-            (Value::I8(96), Value::U8(8), Ok(Value::I8(0))),
-            (Value::I8(-96), Value::U8(8), Ok(Value::I8(-1))),
-            (Value::I16(96), Value::U16(17), Ok(Value::I16(0))),
-            (Value::I16(-96), Value::U16(17), Ok(Value::I16(-1))),
-            (Value::I32(96), Value::U32(32), Ok(Value::I32(0))),
-            (Value::I32(-96), Value::U32(32), Ok(Value::I32(-1))),
-            (Value::I64(96), Value::U64(65), Ok(Value::I64(0))),
-            (Value::I64(-96), Value::U64(65), Ok(Value::I64(-1))),
-        ] {
-            assert_eq!(v1.shra(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    fn value_eq() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(3), Ok(Value::Generic(1))),
-            (Value::Generic(!3), Value::Generic(3), Ok(Value::Generic(0))),
-            (Value::I8(3), Value::I8(3), Ok(Value::Generic(1))),
-            (Value::I8(!3), Value::I8(3), Ok(Value::Generic(0))),
-            (Value::U8(3), Value::U8(3), Ok(Value::Generic(1))),
-            (Value::U8(!3), Value::U8(3), Ok(Value::Generic(0))),
-            (Value::I16(3), Value::I16(3), Ok(Value::Generic(1))),
-            (Value::I16(!3), Value::I16(3), Ok(Value::Generic(0))),
-            (Value::U16(3), Value::U16(3), Ok(Value::Generic(1))),
-            (Value::U16(!3), Value::U16(3), Ok(Value::Generic(0))),
-            (Value::I32(3), Value::I32(3), Ok(Value::Generic(1))),
-            (Value::I32(!3), Value::I32(3), Ok(Value::Generic(0))),
-            (Value::U32(3), Value::U32(3), Ok(Value::Generic(1))),
-            (Value::U32(!3), Value::U32(3), Ok(Value::Generic(0))),
-            (Value::I64(3), Value::I64(3), Ok(Value::Generic(1))),
-            (Value::I64(!3), Value::I64(3), Ok(Value::Generic(0))),
-            (Value::U64(3), Value::U64(3), Ok(Value::Generic(1))),
-            (Value::U64(!3), Value::U64(3), Ok(Value::Generic(0))),
-            (Value::F32(3.), Value::F32(3.), Ok(Value::Generic(1))),
-            (Value::F32(-3.), Value::F32(3.), Ok(Value::Generic(0))),
-            (Value::F64(3.), Value::F64(3.), Ok(Value::Generic(1))),
-            (Value::F64(-3.), Value::F64(3.), Ok(Value::Generic(0))),
-            (Value::Generic(3), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.eq(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    fn value_ne() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(3), Ok(Value::Generic(0))),
-            (Value::Generic(!3), Value::Generic(3), Ok(Value::Generic(1))),
-            (Value::I8(3), Value::I8(3), Ok(Value::Generic(0))),
-            (Value::I8(!3), Value::I8(3), Ok(Value::Generic(1))),
-            (Value::U8(3), Value::U8(3), Ok(Value::Generic(0))),
-            (Value::U8(!3), Value::U8(3), Ok(Value::Generic(1))),
-            (Value::I16(3), Value::I16(3), Ok(Value::Generic(0))),
-            (Value::I16(!3), Value::I16(3), Ok(Value::Generic(1))),
-            (Value::U16(3), Value::U16(3), Ok(Value::Generic(0))),
-            (Value::U16(!3), Value::U16(3), Ok(Value::Generic(1))),
-            (Value::I32(3), Value::I32(3), Ok(Value::Generic(0))),
-            (Value::I32(!3), Value::I32(3), Ok(Value::Generic(1))),
-            (Value::U32(3), Value::U32(3), Ok(Value::Generic(0))),
-            (Value::U32(!3), Value::U32(3), Ok(Value::Generic(1))),
-            (Value::I64(3), Value::I64(3), Ok(Value::Generic(0))),
-            (Value::I64(!3), Value::I64(3), Ok(Value::Generic(1))),
-            (Value::U64(3), Value::U64(3), Ok(Value::Generic(0))),
-            (Value::U64(!3), Value::U64(3), Ok(Value::Generic(1))),
-            (Value::F32(3.), Value::F32(3.), Ok(Value::Generic(0))),
-            (Value::F32(-3.), Value::F32(3.), Ok(Value::Generic(1))),
-            (Value::F64(3.), Value::F64(3.), Ok(Value::Generic(0))),
-            (Value::F64(-3.), Value::F64(3.), Ok(Value::Generic(1))),
-            (Value::Generic(3), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.ne(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    fn value_ge() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(!3), Ok(Value::Generic(1))),
-            (Value::Generic(!3), Value::Generic(3), Ok(Value::Generic(0))),
-            (Value::I8(3), Value::I8(!3), Ok(Value::Generic(1))),
-            (Value::I8(!3), Value::I8(3), Ok(Value::Generic(0))),
-            (Value::U8(3), Value::U8(!3), Ok(Value::Generic(0))),
-            (Value::U8(!3), Value::U8(3), Ok(Value::Generic(1))),
-            (Value::I16(3), Value::I16(!3), Ok(Value::Generic(1))),
-            (Value::I16(!3), Value::I16(3), Ok(Value::Generic(0))),
-            (Value::U16(3), Value::U16(!3), Ok(Value::Generic(0))),
-            (Value::U16(!3), Value::U16(3), Ok(Value::Generic(1))),
-            (Value::I32(3), Value::I32(!3), Ok(Value::Generic(1))),
-            (Value::I32(!3), Value::I32(3), Ok(Value::Generic(0))),
-            (Value::U32(3), Value::U32(!3), Ok(Value::Generic(0))),
-            (Value::U32(!3), Value::U32(3), Ok(Value::Generic(1))),
-            (Value::I64(3), Value::I64(!3), Ok(Value::Generic(1))),
-            (Value::I64(!3), Value::I64(3), Ok(Value::Generic(0))),
-            (Value::U64(3), Value::U64(!3), Ok(Value::Generic(0))),
-            (Value::U64(!3), Value::U64(3), Ok(Value::Generic(1))),
-            (Value::F32(3.), Value::F32(-3.), Ok(Value::Generic(1))),
-            (Value::F32(-3.), Value::F32(3.), Ok(Value::Generic(0))),
-            (Value::F64(3.), Value::F64(-3.), Ok(Value::Generic(1))),
-            (Value::F64(-3.), Value::F64(3.), Ok(Value::Generic(0))),
-            (Value::Generic(3), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.ge(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    fn value_gt() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(!3), Ok(Value::Generic(1))),
-            (Value::Generic(!3), Value::Generic(3), Ok(Value::Generic(0))),
-            (Value::I8(3), Value::I8(!3), Ok(Value::Generic(1))),
-            (Value::I8(!3), Value::I8(3), Ok(Value::Generic(0))),
-            (Value::U8(3), Value::U8(!3), Ok(Value::Generic(0))),
-            (Value::U8(!3), Value::U8(3), Ok(Value::Generic(1))),
-            (Value::I16(3), Value::I16(!3), Ok(Value::Generic(1))),
-            (Value::I16(!3), Value::I16(3), Ok(Value::Generic(0))),
-            (Value::U16(3), Value::U16(!3), Ok(Value::Generic(0))),
-            (Value::U16(!3), Value::U16(3), Ok(Value::Generic(1))),
-            (Value::I32(3), Value::I32(!3), Ok(Value::Generic(1))),
-            (Value::I32(!3), Value::I32(3), Ok(Value::Generic(0))),
-            (Value::U32(3), Value::U32(!3), Ok(Value::Generic(0))),
-            (Value::U32(!3), Value::U32(3), Ok(Value::Generic(1))),
-            (Value::I64(3), Value::I64(!3), Ok(Value::Generic(1))),
-            (Value::I64(!3), Value::I64(3), Ok(Value::Generic(0))),
-            (Value::U64(3), Value::U64(!3), Ok(Value::Generic(0))),
-            (Value::U64(!3), Value::U64(3), Ok(Value::Generic(1))),
-            (Value::F32(3.), Value::F32(-3.), Ok(Value::Generic(1))),
-            (Value::F32(-3.), Value::F32(3.), Ok(Value::Generic(0))),
-            (Value::F64(3.), Value::F64(-3.), Ok(Value::Generic(1))),
-            (Value::F64(-3.), Value::F64(3.), Ok(Value::Generic(0))),
-            (Value::Generic(3), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.gt(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    fn value_le() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(!3), Ok(Value::Generic(0))),
-            (Value::Generic(!3), Value::Generic(3), Ok(Value::Generic(1))),
-            (Value::I8(3), Value::I8(!3), Ok(Value::Generic(0))),
-            (Value::I8(!3), Value::I8(3), Ok(Value::Generic(1))),
-            (Value::U8(3), Value::U8(!3), Ok(Value::Generic(1))),
-            (Value::U8(!3), Value::U8(3), Ok(Value::Generic(0))),
-            (Value::I16(3), Value::I16(!3), Ok(Value::Generic(0))),
-            (Value::I16(!3), Value::I16(3), Ok(Value::Generic(1))),
-            (Value::U16(3), Value::U16(!3), Ok(Value::Generic(1))),
-            (Value::U16(!3), Value::U16(3), Ok(Value::Generic(0))),
-            (Value::I32(3), Value::I32(!3), Ok(Value::Generic(0))),
-            (Value::I32(!3), Value::I32(3), Ok(Value::Generic(1))),
-            (Value::U32(3), Value::U32(!3), Ok(Value::Generic(1))),
-            (Value::U32(!3), Value::U32(3), Ok(Value::Generic(0))),
-            (Value::I64(3), Value::I64(!3), Ok(Value::Generic(0))),
-            (Value::I64(!3), Value::I64(3), Ok(Value::Generic(1))),
-            (Value::U64(3), Value::U64(!3), Ok(Value::Generic(1))),
-            (Value::U64(!3), Value::U64(3), Ok(Value::Generic(0))),
-            (Value::F32(3.), Value::F32(-3.), Ok(Value::Generic(0))),
-            (Value::F32(-3.), Value::F32(3.), Ok(Value::Generic(1))),
-            (Value::F64(3.), Value::F64(-3.), Ok(Value::Generic(0))),
-            (Value::F64(-3.), Value::F64(3.), Ok(Value::Generic(1))),
-            (Value::Generic(3), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.le(v2, addr_mask), result);
-        }
-    }
-
-    #[test]
-    fn value_lt() {
-        let addr_mask = 0xffff_ffff;
-        for &(v1, v2, result) in &[
-            (Value::Generic(3), Value::Generic(!3), Ok(Value::Generic(0))),
-            (Value::Generic(!3), Value::Generic(3), Ok(Value::Generic(1))),
-            (Value::I8(3), Value::I8(!3), Ok(Value::Generic(0))),
-            (Value::I8(!3), Value::I8(3), Ok(Value::Generic(1))),
-            (Value::U8(3), Value::U8(!3), Ok(Value::Generic(1))),
-            (Value::U8(!3), Value::U8(3), Ok(Value::Generic(0))),
-            (Value::I16(3), Value::I16(!3), Ok(Value::Generic(0))),
-            (Value::I16(!3), Value::I16(3), Ok(Value::Generic(1))),
-            (Value::U16(3), Value::U16(!3), Ok(Value::Generic(1))),
-            (Value::U16(!3), Value::U16(3), Ok(Value::Generic(0))),
-            (Value::I32(3), Value::I32(!3), Ok(Value::Generic(0))),
-            (Value::I32(!3), Value::I32(3), Ok(Value::Generic(1))),
-            (Value::U32(3), Value::U32(!3), Ok(Value::Generic(1))),
-            (Value::U32(!3), Value::U32(3), Ok(Value::Generic(0))),
-            (Value::I64(3), Value::I64(!3), Ok(Value::Generic(0))),
-            (Value::I64(!3), Value::I64(3), Ok(Value::Generic(1))),
-            (Value::U64(3), Value::U64(!3), Ok(Value::Generic(1))),
-            (Value::U64(!3), Value::U64(3), Ok(Value::Generic(0))),
-            (Value::F32(3.), Value::F32(-3.), Ok(Value::Generic(0))),
-            (Value::F32(-3.), Value::F32(3.), Ok(Value::Generic(1))),
-            (Value::F64(3.), Value::F64(-3.), Ok(Value::Generic(0))),
-            (Value::F64(-3.), Value::F64(3.), Ok(Value::Generic(1))),
-            (Value::Generic(3), Value::U32(3), Err(Error::TypeMismatch)),
-        ] {
-            assert_eq!(v1.lt(v2, addr_mask), result);
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/test_util.rs b/vendor/gimli-0.27.3/src/test_util.rs
deleted file mode 100644
index 706aaf934..000000000
--- a/vendor/gimli-0.27.3/src/test_util.rs
+++ /dev/null
@@ -1,53 +0,0 @@
-#![allow(missing_docs)]
-
-use crate::Format;
-use test_assembler::{Label, Section};
-
-pub trait GimliSectionMethods {
-    fn sleb(self, val: i64) -> Self;
-    fn uleb(self, val: u64) -> Self;
-    fn initial_length(self, format: Format, length: &Label, start: &Label) -> Self;
-    fn word(self, size: u8, val: u64) -> Self;
-    fn word_label(self, size: u8, val: &Label) -> Self;
-}
-
-impl GimliSectionMethods for Section {
-    fn sleb(mut self, mut val: i64) -> Self {
-        while val & !0x3f != 0 && val | 0x3f != -1 {
-            self = self.D8(val as u8 | 0x80);
-            val >>= 7;
-        }
-        self.D8(val as u8 & 0x7f)
-    }
-
-    fn uleb(mut self, mut val: u64) -> Self {
-        while val & !0x7f != 0 {
-            self = self.D8(val as u8 | 0x80);
-            val >>= 7;
-        }
-        self.D8(val as u8)
-    }
-
-    fn initial_length(self, format: Format, length: &Label, start: &Label) -> Self {
-        match format {
-            Format::Dwarf32 => self.D32(length).mark(start),
-            Format::Dwarf64 => self.D32(0xffff_ffff).D64(length).mark(start),
-        }
-    }
-
-    fn word(self, size: u8, val: u64) -> Self {
-        match size {
-            4 => self.D32(val as u32),
-            8 => self.D64(val),
-            _ => panic!("unsupported word size"),
-        }
-    }
-
-    fn word_label(self, size: u8, val: &Label) -> Self {
-        match size {
-            4 => self.D32(val),
-            8 => self.D64(val),
-            _ => panic!("unsupported word size"),
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/abbrev.rs b/vendor/gimli-0.27.3/src/write/abbrev.rs
deleted file mode 100644
index 7cdfa969c..000000000
--- a/vendor/gimli-0.27.3/src/write/abbrev.rs
+++ /dev/null
@@ -1,188 +0,0 @@
-use alloc::vec::Vec;
-use indexmap::IndexSet;
-use std::ops::{Deref, DerefMut};
-
-use crate::common::{DebugAbbrevOffset, SectionId};
-use crate::constants;
-use crate::write::{Result, Section, Writer};
-
-/// A table of abbreviations that will be stored in a `.debug_abbrev` section.
-// Requirements:
-// - values are `Abbreviation`
-// - insertion returns an abbreviation code for use in writing a DIE
-// - inserting a duplicate returns the code of the existing value
-#[derive(Debug, Default)]
-pub(crate) struct AbbreviationTable {
-    abbrevs: IndexSet<Abbreviation>,
-}
-
-impl AbbreviationTable {
-    /// Add an abbreviation to the table and return its code.
-    pub fn add(&mut self, abbrev: Abbreviation) -> u64 {
-        let (code, _) = self.abbrevs.insert_full(abbrev);
-        // Code must be non-zero
-        (code + 1) as u64
-    }
-
-    /// Write the abbreviation table to the `.debug_abbrev` section.
-    pub fn write<W: Writer>(&self, w: &mut DebugAbbrev<W>) -> Result<()> {
-        for (code, abbrev) in self.abbrevs.iter().enumerate() {
-            w.write_uleb128((code + 1) as u64)?;
-            abbrev.write(w)?;
-        }
-        // Null abbreviation code
-        w.write_u8(0)
-    }
-}
-
-/// An abbreviation describes the shape of a `DebuggingInformationEntry`'s type:
-/// its tag type, whether it has children, and its set of attributes.
-#[derive(Debug, Clone, PartialEq, Eq, Hash)]
-pub(crate) struct Abbreviation {
-    tag: constants::DwTag,
-    has_children: bool,
-    attributes: Vec<AttributeSpecification>,
-}
-
-impl Abbreviation {
-    /// Construct a new `Abbreviation`.
-    #[inline]
-    pub fn new(
-        tag: constants::DwTag,
-        has_children: bool,
-        attributes: Vec<AttributeSpecification>,
-    ) -> Abbreviation {
-        Abbreviation {
-            tag,
-            has_children,
-            attributes,
-        }
-    }
-
-    /// Write the abbreviation to the `.debug_abbrev` section.
-    pub fn write<W: Writer>(&self, w: &mut DebugAbbrev<W>) -> Result<()> {
-        w.write_uleb128(self.tag.0.into())?;
-        w.write_u8(if self.has_children {
-            constants::DW_CHILDREN_yes.0
-        } else {
-            constants::DW_CHILDREN_no.0
-        })?;
-        for attr in &self.attributes {
-            attr.write(w)?;
-        }
-        // Null name and form
-        w.write_u8(0)?;
-        w.write_u8(0)
-    }
-}
-
-/// The description of an attribute in an abbreviated type.
-// TODO: support implicit const
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub(crate) struct AttributeSpecification {
-    name: constants::DwAt,
-    form: constants::DwForm,
-}
-
-impl AttributeSpecification {
-    /// Construct a new `AttributeSpecification`.
-    #[inline]
-    pub fn new(name: constants::DwAt, form: constants::DwForm) -> AttributeSpecification {
-        AttributeSpecification { name, form }
-    }
-
-    /// Write the attribute specification to the `.debug_abbrev` section.
-    #[inline]
-    pub fn write<W: Writer>(&self, w: &mut DebugAbbrev<W>) -> Result<()> {
-        w.write_uleb128(self.name.0.into())?;
-        w.write_uleb128(self.form.0.into())
-    }
-}
-
-define_section!(
-    DebugAbbrev,
-    DebugAbbrevOffset,
-    "A writable `.debug_abbrev` section."
-);
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::constants;
-    use crate::read;
-    use crate::write::EndianVec;
-    use crate::LittleEndian;
-
-    #[test]
-    fn test_abbreviation_table() {
-        let mut abbrevs = AbbreviationTable::default();
-        let abbrev1 = Abbreviation::new(
-            constants::DW_TAG_subprogram,
-            false,
-            vec![AttributeSpecification::new(
-                constants::DW_AT_name,
-                constants::DW_FORM_string,
-            )],
-        );
-        let abbrev2 = Abbreviation::new(
-            constants::DW_TAG_compile_unit,
-            true,
-            vec![
-                AttributeSpecification::new(constants::DW_AT_producer, constants::DW_FORM_strp),
-                AttributeSpecification::new(constants::DW_AT_language, constants::DW_FORM_data2),
-            ],
-        );
-        let code1 = abbrevs.add(abbrev1.clone());
-        assert_eq!(code1, 1);
-        let code2 = abbrevs.add(abbrev2.clone());
-        assert_eq!(code2, 2);
-        assert_eq!(abbrevs.add(abbrev1.clone()), code1);
-        assert_eq!(abbrevs.add(abbrev2.clone()), code2);
-
-        let mut debug_abbrev = DebugAbbrev::from(EndianVec::new(LittleEndian));
-        let debug_abbrev_offset = debug_abbrev.offset();
-        assert_eq!(debug_abbrev_offset, DebugAbbrevOffset(0));
-        abbrevs.write(&mut debug_abbrev).unwrap();
-        assert_eq!(debug_abbrev.offset(), DebugAbbrevOffset(17));
-
-        let read_debug_abbrev = read::DebugAbbrev::new(debug_abbrev.slice(), LittleEndian);
-        let read_abbrevs = read_debug_abbrev
-            .abbreviations(debug_abbrev_offset)
-            .unwrap();
-
-        let read_abbrev1 = read_abbrevs.get(code1).unwrap();
-        assert_eq!(abbrev1.tag, read_abbrev1.tag());
-        assert_eq!(abbrev1.has_children, read_abbrev1.has_children());
-        assert_eq!(abbrev1.attributes.len(), read_abbrev1.attributes().len());
-        assert_eq!(
-            abbrev1.attributes[0].name,
-            read_abbrev1.attributes()[0].name()
-        );
-        assert_eq!(
-            abbrev1.attributes[0].form,
-            read_abbrev1.attributes()[0].form()
-        );
-
-        let read_abbrev2 = read_abbrevs.get(code2).unwrap();
-        assert_eq!(abbrev2.tag, read_abbrev2.tag());
-        assert_eq!(abbrev2.has_children, read_abbrev2.has_children());
-        assert_eq!(abbrev2.attributes.len(), read_abbrev2.attributes().len());
-        assert_eq!(
-            abbrev2.attributes[0].name,
-            read_abbrev2.attributes()[0].name()
-        );
-        assert_eq!(
-            abbrev2.attributes[0].form,
-            read_abbrev2.attributes()[0].form()
-        );
-        assert_eq!(
-            abbrev2.attributes[1].name,
-            read_abbrev2.attributes()[1].name()
-        );
-        assert_eq!(
-            abbrev2.attributes[1].form,
-            read_abbrev2.attributes()[1].form()
-        );
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/cfi.rs b/vendor/gimli-0.27.3/src/write/cfi.rs
deleted file mode 100644
index 718cb69ad..000000000
--- a/vendor/gimli-0.27.3/src/write/cfi.rs
+++ /dev/null
@@ -1,1025 +0,0 @@
-use alloc::vec::Vec;
-use indexmap::IndexSet;
-use std::ops::{Deref, DerefMut};
-
-use crate::common::{DebugFrameOffset, EhFrameOffset, Encoding, Format, Register, SectionId};
-use crate::constants;
-use crate::write::{Address, BaseId, Error, Expression, Result, Section, Writer};
-
-define_section!(
-    DebugFrame,
-    DebugFrameOffset,
-    "A writable `.debug_frame` section."
-);
-
-define_section!(EhFrame, EhFrameOffset, "A writable `.eh_frame` section.");
-
-define_id!(CieId, "An identifier for a CIE in a `FrameTable`.");
-
-/// A table of frame description entries.
-#[derive(Debug, Default)]
-pub struct FrameTable {
-    /// Base id for CIEs.
-    base_id: BaseId,
-    /// The common information entries.
-    cies: IndexSet<CommonInformationEntry>,
-    /// The frame description entries.
-    fdes: Vec<(CieId, FrameDescriptionEntry)>,
-}
-
-impl FrameTable {
-    /// Add a CIE and return its id.
-    ///
-    /// If the CIE already exists, then return the id of the existing CIE.
-    pub fn add_cie(&mut self, cie: CommonInformationEntry) -> CieId {
-        let (index, _) = self.cies.insert_full(cie);
-        CieId::new(self.base_id, index)
-    }
-
-    /// The number of CIEs.
-    pub fn cie_count(&self) -> usize {
-        self.cies.len()
-    }
-
-    /// Add a FDE.
-    ///
-    /// Does not check for duplicates.
-    ///
-    /// # Panics
-    ///
-    /// Panics if the CIE id is invalid.
-    pub fn add_fde(&mut self, cie: CieId, fde: FrameDescriptionEntry) {
-        debug_assert_eq!(self.base_id, cie.base_id);
-        self.fdes.push((cie, fde));
-    }
-
-    /// The number of FDEs.
-    pub fn fde_count(&self) -> usize {
-        self.fdes.len()
-    }
-
-    /// Write the frame table entries to the given `.debug_frame` section.
-    pub fn write_debug_frame<W: Writer>(&self, w: &mut DebugFrame<W>) -> Result<()> {
-        self.write(&mut w.0, false)
-    }
-
-    /// Write the frame table entries to the given `.eh_frame` section.
-    pub fn write_eh_frame<W: Writer>(&self, w: &mut EhFrame<W>) -> Result<()> {
-        self.write(&mut w.0, true)
-    }
-
-    fn write<W: Writer>(&self, w: &mut W, eh_frame: bool) -> Result<()> {
-        let mut cie_offsets = vec![None; self.cies.len()];
-        for (cie_id, fde) in &self.fdes {
-            let cie_index = cie_id.index;
-            let cie = self.cies.get_index(cie_index).unwrap();
-            let cie_offset = match cie_offsets[cie_index] {
-                Some(offset) => offset,
-                None => {
-                    // Only write CIEs as they are referenced.
-                    let offset = cie.write(w, eh_frame)?;
-                    cie_offsets[cie_index] = Some(offset);
-                    offset
-                }
-            };
-
-            fde.write(w, eh_frame, cie_offset, cie)?;
-        }
-        // TODO: write length 0 terminator for eh_frame?
-        Ok(())
-    }
-}
-
-/// A common information entry. This contains information that is shared between FDEs.
-#[derive(Debug, Clone, PartialEq, Eq, Hash)]
-pub struct CommonInformationEntry {
-    encoding: Encoding,
-
-    /// A constant that is factored out of code offsets.
-    ///
-    /// This should be set to the minimum instruction length.
-    /// Writing a code offset that is not a multiple of this factor will generate an error.
-    code_alignment_factor: u8,
-
-    /// A constant that is factored out of data offsets.
-    ///
-    /// This should be set to the minimum data alignment for the frame.
-    /// Writing a data offset that is not a multiple of this factor will generate an error.
-    data_alignment_factor: i8,
-
-    /// The return address register. This might not correspond to an actual machine register.
-    return_address_register: Register,
-
-    /// The address of the personality function and its encoding.
-    pub personality: Option<(constants::DwEhPe, Address)>,
-
-    /// The encoding to use for the LSDA address in FDEs.
-    ///
-    /// If set then all FDEs which use this CIE must have a LSDA address.
-    pub lsda_encoding: Option<constants::DwEhPe>,
-
-    /// The encoding to use for addresses in FDEs.
-    pub fde_address_encoding: constants::DwEhPe,
-
-    /// True for signal trampolines.
-    pub signal_trampoline: bool,
-
-    /// The initial instructions upon entry to this function.
-    instructions: Vec<CallFrameInstruction>,
-}
-
-impl CommonInformationEntry {
-    /// Create a new common information entry.
-    ///
-    /// The encoding version must be a CFI version, not a DWARF version.
-    pub fn new(
-        encoding: Encoding,
-        code_alignment_factor: u8,
-        data_alignment_factor: i8,
-        return_address_register: Register,
-    ) -> Self {
-        CommonInformationEntry {
-            encoding,
-            code_alignment_factor,
-            data_alignment_factor,
-            return_address_register,
-            personality: None,
-            lsda_encoding: None,
-            fde_address_encoding: constants::DW_EH_PE_absptr,
-            signal_trampoline: false,
-            instructions: Vec::new(),
-        }
-    }
-
-    /// Add an initial instruction.
-    pub fn add_instruction(&mut self, instruction: CallFrameInstruction) {
-        self.instructions.push(instruction);
-    }
-
-    fn has_augmentation(&self) -> bool {
-        self.personality.is_some()
-            || self.lsda_encoding.is_some()
-            || self.signal_trampoline
-            || self.fde_address_encoding != constants::DW_EH_PE_absptr
-    }
-
-    /// Returns the section offset of the CIE.
-    fn write<W: Writer>(&self, w: &mut W, eh_frame: bool) -> Result<usize> {
-        let encoding = self.encoding;
-        let offset = w.len();
-
-        let length_offset = w.write_initial_length(encoding.format)?;
-        let length_base = w.len();
-
-        if eh_frame {
-            w.write_u32(0)?;
-        } else {
-            match encoding.format {
-                Format::Dwarf32 => w.write_u32(0xffff_ffff)?,
-                Format::Dwarf64 => w.write_u64(0xffff_ffff_ffff_ffff)?,
-            }
-        }
-
-        if eh_frame {
-            if encoding.version != 1 {
-                return Err(Error::UnsupportedVersion(encoding.version));
-            };
-        } else {
-            match encoding.version {
-                1 | 3 | 4 => {}
-                _ => return Err(Error::UnsupportedVersion(encoding.version)),
-            };
-        }
-        w.write_u8(encoding.version as u8)?;
-
-        let augmentation = self.has_augmentation();
-        if augmentation {
-            w.write_u8(b'z')?;
-            if self.lsda_encoding.is_some() {
-                w.write_u8(b'L')?;
-            }
-            if self.personality.is_some() {
-                w.write_u8(b'P')?;
-            }
-            if self.fde_address_encoding != constants::DW_EH_PE_absptr {
-                w.write_u8(b'R')?;
-            }
-            if self.signal_trampoline {
-                w.write_u8(b'S')?;
-            }
-        }
-        w.write_u8(0)?;
-
-        if encoding.version >= 4 {
-            w.write_u8(encoding.address_size)?;
-            // TODO: segment_selector_size
-            w.write_u8(0)?;
-        }
-
-        w.write_uleb128(self.code_alignment_factor.into())?;
-        w.write_sleb128(self.data_alignment_factor.into())?;
-
-        if !eh_frame && encoding.version == 1 {
-            let register = self.return_address_register.0 as u8;
-            if u16::from(register) != self.return_address_register.0 {
-                return Err(Error::ValueTooLarge);
-            }
-            w.write_u8(register)?;
-        } else {
-            w.write_uleb128(self.return_address_register.0.into())?;
-        }
-
-        if augmentation {
-            let augmentation_length_offset = w.len();
-            w.write_u8(0)?;
-            let augmentation_length_base = w.len();
-
-            if let Some(eh_pe) = self.lsda_encoding {
-                w.write_u8(eh_pe.0)?;
-            }
-            if let Some((eh_pe, address)) = self.personality {
-                w.write_u8(eh_pe.0)?;
-                w.write_eh_pointer(address, eh_pe, encoding.address_size)?;
-            }
-            if self.fde_address_encoding != constants::DW_EH_PE_absptr {
-                w.write_u8(self.fde_address_encoding.0)?;
-            }
-
-            let augmentation_length = (w.len() - augmentation_length_base) as u64;
-            debug_assert!(augmentation_length < 0x80);
-            w.write_udata_at(augmentation_length_offset, augmentation_length, 1)?;
-        }
-
-        for instruction in &self.instructions {
-            instruction.write(w, encoding, self)?;
-        }
-
-        write_nop(
-            w,
-            encoding.format.word_size() as usize + w.len() - length_base,
-            encoding.address_size,
-        )?;
-
-        let length = (w.len() - length_base) as u64;
-        w.write_initial_length_at(length_offset, length, encoding.format)?;
-
-        Ok(offset)
-    }
-}
-
-/// A frame description entry. There should be one FDE per function.
-#[derive(Debug, Clone, PartialEq, Eq)]
-pub struct FrameDescriptionEntry {
-    /// The initial address of the function.
-    address: Address,
-
-    /// The length in bytes of the function.
-    length: u32,
-
-    /// The address of the LSDA.
-    pub lsda: Option<Address>,
-
-    /// The instructions for this function, ordered by offset.
-    instructions: Vec<(u32, CallFrameInstruction)>,
-}
-
-impl FrameDescriptionEntry {
-    /// Create a new frame description entry for a function.
-    pub fn new(address: Address, length: u32) -> Self {
-        FrameDescriptionEntry {
-            address,
-            length,
-            lsda: None,
-            instructions: Vec::new(),
-        }
-    }
-
-    /// Add an instruction.
-    ///
-    /// Instructions must be added in increasing order of offset, or writing will fail.
-    pub fn add_instruction(&mut self, offset: u32, instruction: CallFrameInstruction) {
-        debug_assert!(self.instructions.last().map(|x| x.0).unwrap_or(0) <= offset);
-        self.instructions.push((offset, instruction));
-    }
-
-    fn write<W: Writer>(
-        &self,
-        w: &mut W,
-        eh_frame: bool,
-        cie_offset: usize,
-        cie: &CommonInformationEntry,
-    ) -> Result<()> {
-        let encoding = cie.encoding;
-        let length_offset = w.write_initial_length(encoding.format)?;
-        let length_base = w.len();
-
-        if eh_frame {
-            // .eh_frame uses a relative offset which doesn't need relocation.
-            w.write_udata((w.len() - cie_offset) as u64, 4)?;
-        } else {
-            w.write_offset(
-                cie_offset,
-                SectionId::DebugFrame,
-                encoding.format.word_size(),
-            )?;
-        }
-
-        if cie.fde_address_encoding != constants::DW_EH_PE_absptr {
-            w.write_eh_pointer(
-                self.address,
-                cie.fde_address_encoding,
-                encoding.address_size,
-            )?;
-            w.write_eh_pointer_data(
-                self.length.into(),
-                cie.fde_address_encoding.format(),
-                encoding.address_size,
-            )?;
-        } else {
-            w.write_address(self.address, encoding.address_size)?;
-            w.write_udata(self.length.into(), encoding.address_size)?;
-        }
-
-        if cie.has_augmentation() {
-            let mut augmentation_length = 0u64;
-            if self.lsda.is_some() {
-                augmentation_length += u64::from(encoding.address_size);
-            }
-            w.write_uleb128(augmentation_length)?;
-
-            debug_assert_eq!(self.lsda.is_some(), cie.lsda_encoding.is_some());
-            if let (Some(lsda), Some(lsda_encoding)) = (self.lsda, cie.lsda_encoding) {
-                w.write_eh_pointer(lsda, lsda_encoding, encoding.address_size)?;
-            }
-        }
-
-        let mut prev_offset = 0;
-        for (offset, instruction) in &self.instructions {
-            write_advance_loc(w, cie.code_alignment_factor, prev_offset, *offset)?;
-            prev_offset = *offset;
-            instruction.write(w, encoding, cie)?;
-        }
-
-        write_nop(
-            w,
-            encoding.format.word_size() as usize + w.len() - length_base,
-            encoding.address_size,
-        )?;
-
-        let length = (w.len() - length_base) as u64;
-        w.write_initial_length_at(length_offset, length, encoding.format)?;
-
-        Ok(())
-    }
-}
-
-/// An instruction in a frame description entry.
-///
-/// This may be a CFA definition, a register rule, or some other directive.
-#[derive(Debug, Clone, PartialEq, Eq, Hash)]
-pub enum CallFrameInstruction {
-    /// Define the CFA rule to use the provided register and offset.
-    Cfa(Register, i32),
-    /// Update the CFA rule to use the provided register. The offset is unchanged.
-    CfaRegister(Register),
-    /// Update the CFA rule to use the provided offset. The register is unchanged.
-    CfaOffset(i32),
-    /// Define the CFA rule to use the provided expression.
-    CfaExpression(Expression),
-
-    /// Restore the initial rule for the register.
-    Restore(Register),
-    /// The previous value of the register is not recoverable.
-    Undefined(Register),
-    /// The register has not been modified.
-    SameValue(Register),
-    /// The previous value of the register is saved at address CFA + offset.
-    Offset(Register, i32),
-    /// The previous value of the register is CFA + offset.
-    ValOffset(Register, i32),
-    /// The previous value of the register is stored in another register.
-    Register(Register, Register),
-    /// The previous value of the register is saved at address given by the expression.
-    Expression(Register, Expression),
-    /// The previous value of the register is given by the expression.
-    ValExpression(Register, Expression),
-
-    /// Push all register rules onto a stack.
-    RememberState,
-    /// Pop all register rules off the stack.
-    RestoreState,
-    /// The size of the arguments that have been pushed onto the stack.
-    ArgsSize(u32),
-}
-
-impl CallFrameInstruction {
-    fn write<W: Writer>(
-        &self,
-        w: &mut W,
-        encoding: Encoding,
-        cie: &CommonInformationEntry,
-    ) -> Result<()> {
-        match *self {
-            CallFrameInstruction::Cfa(register, offset) => {
-                if offset < 0 {
-                    let offset = factored_data_offset(offset, cie.data_alignment_factor)?;
-                    w.write_u8(constants::DW_CFA_def_cfa_sf.0)?;
-                    w.write_uleb128(register.0.into())?;
-                    w.write_sleb128(offset.into())?;
-                } else {
-                    // Unfactored offset.
-                    w.write_u8(constants::DW_CFA_def_cfa.0)?;
-                    w.write_uleb128(register.0.into())?;
-                    w.write_uleb128(offset as u64)?;
-                }
-            }
-            CallFrameInstruction::CfaRegister(register) => {
-                w.write_u8(constants::DW_CFA_def_cfa_register.0)?;
-                w.write_uleb128(register.0.into())?;
-            }
-            CallFrameInstruction::CfaOffset(offset) => {
-                if offset < 0 {
-                    let offset = factored_data_offset(offset, cie.data_alignment_factor)?;
-                    w.write_u8(constants::DW_CFA_def_cfa_offset_sf.0)?;
-                    w.write_sleb128(offset.into())?;
-                } else {
-                    // Unfactored offset.
-                    w.write_u8(constants::DW_CFA_def_cfa_offset.0)?;
-                    w.write_uleb128(offset as u64)?;
-                }
-            }
-            CallFrameInstruction::CfaExpression(ref expression) => {
-                w.write_u8(constants::DW_CFA_def_cfa_expression.0)?;
-                w.write_uleb128(expression.size(encoding, None) as u64)?;
-                expression.write(w, None, encoding, None)?;
-            }
-            CallFrameInstruction::Restore(register) => {
-                if register.0 < 0x40 {
-                    w.write_u8(constants::DW_CFA_restore.0 | register.0 as u8)?;
-                } else {
-                    w.write_u8(constants::DW_CFA_restore_extended.0)?;
-                    w.write_uleb128(register.0.into())?;
-                }
-            }
-            CallFrameInstruction::Undefined(register) => {
-                w.write_u8(constants::DW_CFA_undefined.0)?;
-                w.write_uleb128(register.0.into())?;
-            }
-            CallFrameInstruction::SameValue(register) => {
-                w.write_u8(constants::DW_CFA_same_value.0)?;
-                w.write_uleb128(register.0.into())?;
-            }
-            CallFrameInstruction::Offset(register, offset) => {
-                let offset = factored_data_offset(offset, cie.data_alignment_factor)?;
-                if offset < 0 {
-                    w.write_u8(constants::DW_CFA_offset_extended_sf.0)?;
-                    w.write_uleb128(register.0.into())?;
-                    w.write_sleb128(offset.into())?;
-                } else if register.0 < 0x40 {
-                    w.write_u8(constants::DW_CFA_offset.0 | register.0 as u8)?;
-                    w.write_uleb128(offset as u64)?;
-                } else {
-                    w.write_u8(constants::DW_CFA_offset_extended.0)?;
-                    w.write_uleb128(register.0.into())?;
-                    w.write_uleb128(offset as u64)?;
-                }
-            }
-            CallFrameInstruction::ValOffset(register, offset) => {
-                let offset = factored_data_offset(offset, cie.data_alignment_factor)?;
-                if offset < 0 {
-                    w.write_u8(constants::DW_CFA_val_offset_sf.0)?;
-                    w.write_uleb128(register.0.into())?;
-                    w.write_sleb128(offset.into())?;
-                } else {
-                    w.write_u8(constants::DW_CFA_val_offset.0)?;
-                    w.write_uleb128(register.0.into())?;
-                    w.write_uleb128(offset as u64)?;
-                }
-            }
-            CallFrameInstruction::Register(register1, register2) => {
-                w.write_u8(constants::DW_CFA_register.0)?;
-                w.write_uleb128(register1.0.into())?;
-                w.write_uleb128(register2.0.into())?;
-            }
-            CallFrameInstruction::Expression(register, ref expression) => {
-                w.write_u8(constants::DW_CFA_expression.0)?;
-                w.write_uleb128(register.0.into())?;
-                w.write_uleb128(expression.size(encoding, None) as u64)?;
-                expression.write(w, None, encoding, None)?;
-            }
-            CallFrameInstruction::ValExpression(register, ref expression) => {
-                w.write_u8(constants::DW_CFA_val_expression.0)?;
-                w.write_uleb128(register.0.into())?;
-                w.write_uleb128(expression.size(encoding, None) as u64)?;
-                expression.write(w, None, encoding, None)?;
-            }
-            CallFrameInstruction::RememberState => {
-                w.write_u8(constants::DW_CFA_remember_state.0)?;
-            }
-            CallFrameInstruction::RestoreState => {
-                w.write_u8(constants::DW_CFA_restore_state.0)?;
-            }
-            CallFrameInstruction::ArgsSize(size) => {
-                w.write_u8(constants::DW_CFA_GNU_args_size.0)?;
-                w.write_uleb128(size.into())?;
-            }
-        }
-        Ok(())
-    }
-}
-
-fn write_advance_loc<W: Writer>(
-    w: &mut W,
-    code_alignment_factor: u8,
-    prev_offset: u32,
-    offset: u32,
-) -> Result<()> {
-    if offset == prev_offset {
-        return Ok(());
-    }
-    let delta = factored_code_delta(prev_offset, offset, code_alignment_factor)?;
-    if delta < 0x40 {
-        w.write_u8(constants::DW_CFA_advance_loc.0 | delta as u8)?;
-    } else if delta < 0x100 {
-        w.write_u8(constants::DW_CFA_advance_loc1.0)?;
-        w.write_u8(delta as u8)?;
-    } else if delta < 0x10000 {
-        w.write_u8(constants::DW_CFA_advance_loc2.0)?;
-        w.write_u16(delta as u16)?;
-    } else {
-        w.write_u8(constants::DW_CFA_advance_loc4.0)?;
-        w.write_u32(delta)?;
-    }
-    Ok(())
-}
-
-fn write_nop<W: Writer>(w: &mut W, len: usize, align: u8) -> Result<()> {
-    debug_assert_eq!(align & (align - 1), 0);
-    let tail_len = (!len + 1) & (align as usize - 1);
-    for _ in 0..tail_len {
-        w.write_u8(constants::DW_CFA_nop.0)?;
-    }
-    Ok(())
-}
-
-fn factored_code_delta(prev_offset: u32, offset: u32, factor: u8) -> Result<u32> {
-    if offset < prev_offset {
-        return Err(Error::InvalidFrameCodeOffset(offset));
-    }
-    let delta = offset - prev_offset;
-    let factor = u32::from(factor);
-    let factored_delta = delta / factor;
-    if delta != factored_delta * factor {
-        return Err(Error::InvalidFrameCodeOffset(offset));
-    }
-    Ok(factored_delta)
-}
-
-fn factored_data_offset(offset: i32, factor: i8) -> Result<i32> {
-    let factor = i32::from(factor);
-    let factored_offset = offset / factor;
-    if offset != factored_offset * factor {
-        return Err(Error::InvalidFrameDataOffset(offset));
-    }
-    Ok(factored_offset)
-}
-
-#[cfg(feature = "read")]
-pub(crate) mod convert {
-    use super::*;
-    use crate::read::{self, Reader};
-    use crate::write::{ConvertError, ConvertResult};
-    use std::collections::{hash_map, HashMap};
-
-    impl FrameTable {
-        /// Create a frame table by reading the data in the given section.
-        ///
-        /// `convert_address` is a function to convert read addresses into the `Address`
-        /// type. For non-relocatable addresses, this function may simply return
-        /// `Address::Constant(address)`. For relocatable addresses, it is the caller's
-        /// responsibility to determine the symbol and addend corresponding to the address
-        /// and return `Address::Symbol { symbol, addend }`.
-        pub fn from<R, Section>(
-            frame: &Section,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<FrameTable>
-        where
-            R: Reader<Offset = usize>,
-            Section: read::UnwindSection<R>,
-            Section::Offset: read::UnwindOffset<usize>,
-        {
-            let bases = read::BaseAddresses::default().set_eh_frame(0);
-
-            let mut frame_table = FrameTable::default();
-
-            let mut cie_ids = HashMap::new();
-            let mut entries = frame.entries(&bases);
-            while let Some(entry) = entries.next()? {
-                let partial = match entry {
-                    read::CieOrFde::Cie(_) => continue,
-                    read::CieOrFde::Fde(partial) => partial,
-                };
-
-                // TODO: is it worth caching the parsed CIEs? It would be better if FDEs only
-                // stored a reference.
-                let from_fde = partial.parse(Section::cie_from_offset)?;
-                let from_cie = from_fde.cie();
-                let cie_id = match cie_ids.entry(from_cie.offset()) {
-                    hash_map::Entry::Occupied(o) => *o.get(),
-                    hash_map::Entry::Vacant(e) => {
-                        let cie =
-                            CommonInformationEntry::from(from_cie, frame, &bases, convert_address)?;
-                        let cie_id = frame_table.add_cie(cie);
-                        e.insert(cie_id);
-                        cie_id
-                    }
-                };
-                let fde = FrameDescriptionEntry::from(&from_fde, frame, &bases, convert_address)?;
-                frame_table.add_fde(cie_id, fde);
-            }
-
-            Ok(frame_table)
-        }
-    }
-
-    impl CommonInformationEntry {
-        fn from<R, Section>(
-            from_cie: &read::CommonInformationEntry<R>,
-            frame: &Section,
-            bases: &read::BaseAddresses,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<CommonInformationEntry>
-        where
-            R: Reader<Offset = usize>,
-            Section: read::UnwindSection<R>,
-            Section::Offset: read::UnwindOffset<usize>,
-        {
-            let mut cie = CommonInformationEntry::new(
-                from_cie.encoding(),
-                from_cie.code_alignment_factor() as u8,
-                from_cie.data_alignment_factor() as i8,
-                from_cie.return_address_register(),
-            );
-
-            cie.personality = match from_cie.personality_with_encoding() {
-                // We treat these the same because the encoding already determines
-                // whether it is indirect.
-                Some((eh_pe, read::Pointer::Direct(p)))
-                | Some((eh_pe, read::Pointer::Indirect(p))) => {
-                    let address = convert_address(p).ok_or(ConvertError::InvalidAddress)?;
-                    Some((eh_pe, address))
-                }
-                _ => None,
-            };
-            cie.lsda_encoding = from_cie.lsda_encoding();
-            cie.fde_address_encoding = from_cie
-                .fde_address_encoding()
-                .unwrap_or(constants::DW_EH_PE_absptr);
-            cie.signal_trampoline = from_cie.is_signal_trampoline();
-
-            let mut offset = 0;
-            let mut from_instructions = from_cie.instructions(frame, bases);
-            while let Some(from_instruction) = from_instructions.next()? {
-                if let Some(instruction) = CallFrameInstruction::from(
-                    from_instruction,
-                    from_cie,
-                    convert_address,
-                    &mut offset,
-                )? {
-                    cie.instructions.push(instruction);
-                }
-            }
-            Ok(cie)
-        }
-    }
-
-    impl FrameDescriptionEntry {
-        fn from<R, Section>(
-            from_fde: &read::FrameDescriptionEntry<R>,
-            frame: &Section,
-            bases: &read::BaseAddresses,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<FrameDescriptionEntry>
-        where
-            R: Reader<Offset = usize>,
-            Section: read::UnwindSection<R>,
-            Section::Offset: read::UnwindOffset<usize>,
-        {
-            let address =
-                convert_address(from_fde.initial_address()).ok_or(ConvertError::InvalidAddress)?;
-            let length = from_fde.len() as u32;
-            let mut fde = FrameDescriptionEntry::new(address, length);
-
-            match from_fde.lsda() {
-                // We treat these the same because the encoding already determines
-                // whether it is indirect.
-                Some(read::Pointer::Direct(p)) | Some(read::Pointer::Indirect(p)) => {
-                    let address = convert_address(p).ok_or(ConvertError::InvalidAddress)?;
-                    fde.lsda = Some(address);
-                }
-                None => {}
-            }
-
-            let from_cie = from_fde.cie();
-            let mut offset = 0;
-            let mut from_instructions = from_fde.instructions(frame, bases);
-            while let Some(from_instruction) = from_instructions.next()? {
-                if let Some(instruction) = CallFrameInstruction::from(
-                    from_instruction,
-                    from_cie,
-                    convert_address,
-                    &mut offset,
-                )? {
-                    fde.instructions.push((offset, instruction));
-                }
-            }
-
-            Ok(fde)
-        }
-    }
-
-    impl CallFrameInstruction {
-        fn from<R: Reader<Offset = usize>>(
-            from_instruction: read::CallFrameInstruction<R>,
-            from_cie: &read::CommonInformationEntry<R>,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-            offset: &mut u32,
-        ) -> ConvertResult<Option<CallFrameInstruction>> {
-            let convert_expression =
-                |x| Expression::from(x, from_cie.encoding(), None, None, None, convert_address);
-            // TODO: validate integer type conversions
-            Ok(Some(match from_instruction {
-                read::CallFrameInstruction::SetLoc { .. } => {
-                    return Err(ConvertError::UnsupportedCfiInstruction);
-                }
-                read::CallFrameInstruction::AdvanceLoc { delta } => {
-                    *offset += delta * from_cie.code_alignment_factor() as u32;
-                    return Ok(None);
-                }
-                read::CallFrameInstruction::DefCfa { register, offset } => {
-                    CallFrameInstruction::Cfa(register, offset as i32)
-                }
-                read::CallFrameInstruction::DefCfaSf {
-                    register,
-                    factored_offset,
-                } => {
-                    let offset = factored_offset * from_cie.data_alignment_factor();
-                    CallFrameInstruction::Cfa(register, offset as i32)
-                }
-                read::CallFrameInstruction::DefCfaRegister { register } => {
-                    CallFrameInstruction::CfaRegister(register)
-                }
-
-                read::CallFrameInstruction::DefCfaOffset { offset } => {
-                    CallFrameInstruction::CfaOffset(offset as i32)
-                }
-                read::CallFrameInstruction::DefCfaOffsetSf { factored_offset } => {
-                    let offset = factored_offset * from_cie.data_alignment_factor();
-                    CallFrameInstruction::CfaOffset(offset as i32)
-                }
-                read::CallFrameInstruction::DefCfaExpression { expression } => {
-                    CallFrameInstruction::CfaExpression(convert_expression(expression)?)
-                }
-                read::CallFrameInstruction::Undefined { register } => {
-                    CallFrameInstruction::Undefined(register)
-                }
-                read::CallFrameInstruction::SameValue { register } => {
-                    CallFrameInstruction::SameValue(register)
-                }
-                read::CallFrameInstruction::Offset {
-                    register,
-                    factored_offset,
-                } => {
-                    let offset = factored_offset as i64 * from_cie.data_alignment_factor();
-                    CallFrameInstruction::Offset(register, offset as i32)
-                }
-                read::CallFrameInstruction::OffsetExtendedSf {
-                    register,
-                    factored_offset,
-                } => {
-                    let offset = factored_offset * from_cie.data_alignment_factor();
-                    CallFrameInstruction::Offset(register, offset as i32)
-                }
-                read::CallFrameInstruction::ValOffset {
-                    register,
-                    factored_offset,
-                } => {
-                    let offset = factored_offset as i64 * from_cie.data_alignment_factor();
-                    CallFrameInstruction::ValOffset(register, offset as i32)
-                }
-                read::CallFrameInstruction::ValOffsetSf {
-                    register,
-                    factored_offset,
-                } => {
-                    let offset = factored_offset * from_cie.data_alignment_factor();
-                    CallFrameInstruction::ValOffset(register, offset as i32)
-                }
-                read::CallFrameInstruction::Register {
-                    dest_register,
-                    src_register,
-                } => CallFrameInstruction::Register(dest_register, src_register),
-                read::CallFrameInstruction::Expression {
-                    register,
-                    expression,
-                } => CallFrameInstruction::Expression(register, convert_expression(expression)?),
-                read::CallFrameInstruction::ValExpression {
-                    register,
-                    expression,
-                } => CallFrameInstruction::ValExpression(register, convert_expression(expression)?),
-                read::CallFrameInstruction::Restore { register } => {
-                    CallFrameInstruction::Restore(register)
-                }
-                read::CallFrameInstruction::RememberState => CallFrameInstruction::RememberState,
-                read::CallFrameInstruction::RestoreState => CallFrameInstruction::RestoreState,
-                read::CallFrameInstruction::ArgsSize { size } => {
-                    CallFrameInstruction::ArgsSize(size as u32)
-                }
-                read::CallFrameInstruction::Nop => return Ok(None),
-            }))
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::arch::X86_64;
-    use crate::read;
-    use crate::write::EndianVec;
-    use crate::LittleEndian;
-
-    #[test]
-    fn test_frame_table() {
-        for &version in &[1, 3, 4] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let mut frames = FrameTable::default();
-
-                    let cie1 = CommonInformationEntry::new(encoding, 1, 8, X86_64::RA);
-                    let cie1_id = frames.add_cie(cie1.clone());
-                    assert_eq!(cie1_id, frames.add_cie(cie1.clone()));
-
-                    let mut cie2 = CommonInformationEntry::new(encoding, 1, 8, X86_64::RA);
-                    cie2.lsda_encoding = Some(constants::DW_EH_PE_absptr);
-                    cie2.personality =
-                        Some((constants::DW_EH_PE_absptr, Address::Constant(0x1234)));
-                    cie2.signal_trampoline = true;
-                    let cie2_id = frames.add_cie(cie2.clone());
-                    assert_ne!(cie1_id, cie2_id);
-                    assert_eq!(cie2_id, frames.add_cie(cie2.clone()));
-
-                    let fde1 = FrameDescriptionEntry::new(Address::Constant(0x1000), 0x10);
-                    frames.add_fde(cie1_id, fde1.clone());
-
-                    let fde2 = FrameDescriptionEntry::new(Address::Constant(0x2000), 0x20);
-                    frames.add_fde(cie1_id, fde2.clone());
-
-                    let mut fde3 = FrameDescriptionEntry::new(Address::Constant(0x3000), 0x30);
-                    fde3.lsda = Some(Address::Constant(0x3300));
-                    frames.add_fde(cie2_id, fde3.clone());
-
-                    let mut fde4 = FrameDescriptionEntry::new(Address::Constant(0x4000), 0x40);
-                    fde4.lsda = Some(Address::Constant(0x4400));
-                    frames.add_fde(cie2_id, fde4.clone());
-
-                    let mut cie3 = CommonInformationEntry::new(encoding, 1, 8, X86_64::RA);
-                    cie3.fde_address_encoding = constants::DW_EH_PE_pcrel;
-                    cie3.lsda_encoding = Some(constants::DW_EH_PE_pcrel);
-                    cie3.personality = Some((constants::DW_EH_PE_pcrel, Address::Constant(0x1235)));
-                    cie3.signal_trampoline = true;
-                    let cie3_id = frames.add_cie(cie3.clone());
-                    assert_ne!(cie2_id, cie3_id);
-                    assert_eq!(cie3_id, frames.add_cie(cie3.clone()));
-
-                    let mut fde5 = FrameDescriptionEntry::new(Address::Constant(0x5000), 0x50);
-                    fde5.lsda = Some(Address::Constant(0x5500));
-                    frames.add_fde(cie3_id, fde5.clone());
-
-                    // Test writing `.debug_frame`.
-                    let mut debug_frame = DebugFrame::from(EndianVec::new(LittleEndian));
-                    frames.write_debug_frame(&mut debug_frame).unwrap();
-
-                    let mut read_debug_frame =
-                        read::DebugFrame::new(debug_frame.slice(), LittleEndian);
-                    read_debug_frame.set_address_size(address_size);
-                    let convert_frames = FrameTable::from(&read_debug_frame, &|address| {
-                        Some(Address::Constant(address))
-                    })
-                    .unwrap();
-                    assert_eq!(frames.cies, convert_frames.cies);
-                    assert_eq!(frames.fdes.len(), convert_frames.fdes.len());
-                    for (a, b) in frames.fdes.iter().zip(convert_frames.fdes.iter()) {
-                        assert_eq!(a.1, b.1);
-                    }
-
-                    if version == 1 {
-                        // Test writing `.eh_frame`.
-                        let mut eh_frame = EhFrame::from(EndianVec::new(LittleEndian));
-                        frames.write_eh_frame(&mut eh_frame).unwrap();
-
-                        let mut read_eh_frame = read::EhFrame::new(eh_frame.slice(), LittleEndian);
-                        read_eh_frame.set_address_size(address_size);
-                        let convert_frames = FrameTable::from(&read_eh_frame, &|address| {
-                            Some(Address::Constant(address))
-                        })
-                        .unwrap();
-                        assert_eq!(frames.cies, convert_frames.cies);
-                        assert_eq!(frames.fdes.len(), convert_frames.fdes.len());
-                        for (a, b) in frames.fdes.iter().zip(convert_frames.fdes.iter()) {
-                            assert_eq!(a.1, b.1);
-                        }
-                    }
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_frame_instruction() {
-        let mut expression = Expression::new();
-        expression.op_constu(0);
-
-        let cie_instructions = [
-            CallFrameInstruction::Cfa(X86_64::RSP, 8),
-            CallFrameInstruction::Offset(X86_64::RA, -8),
-        ];
-
-        let fde_instructions = [
-            (0, CallFrameInstruction::Cfa(X86_64::RSP, 0)),
-            (0, CallFrameInstruction::Cfa(X86_64::RSP, -8)),
-            (2, CallFrameInstruction::CfaRegister(X86_64::RBP)),
-            (4, CallFrameInstruction::CfaOffset(8)),
-            (4, CallFrameInstruction::CfaOffset(0)),
-            (4, CallFrameInstruction::CfaOffset(-8)),
-            (6, CallFrameInstruction::CfaExpression(expression.clone())),
-            (8, CallFrameInstruction::Restore(Register(1))),
-            (8, CallFrameInstruction::Restore(Register(101))),
-            (10, CallFrameInstruction::Undefined(Register(2))),
-            (12, CallFrameInstruction::SameValue(Register(3))),
-            (14, CallFrameInstruction::Offset(Register(4), 16)),
-            (14, CallFrameInstruction::Offset(Register(104), 16)),
-            (16, CallFrameInstruction::ValOffset(Register(5), -24)),
-            (16, CallFrameInstruction::ValOffset(Register(5), 24)),
-            (18, CallFrameInstruction::Register(Register(6), Register(7))),
-            (
-                20,
-                CallFrameInstruction::Expression(Register(8), expression.clone()),
-            ),
-            (
-                22,
-                CallFrameInstruction::ValExpression(Register(9), expression.clone()),
-            ),
-            (24 + 0x80, CallFrameInstruction::RememberState),
-            (26 + 0x280, CallFrameInstruction::RestoreState),
-            (28 + 0x20280, CallFrameInstruction::ArgsSize(23)),
-        ];
-
-        for &version in &[1, 3, 4] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let mut frames = FrameTable::default();
-
-                    let mut cie = CommonInformationEntry::new(encoding, 2, 8, X86_64::RA);
-                    for i in &cie_instructions {
-                        cie.add_instruction(i.clone());
-                    }
-                    let cie_id = frames.add_cie(cie);
-
-                    let mut fde = FrameDescriptionEntry::new(Address::Constant(0x1000), 0x10);
-                    for (o, i) in &fde_instructions {
-                        fde.add_instruction(*o, i.clone());
-                    }
-                    frames.add_fde(cie_id, fde);
-
-                    let mut debug_frame = DebugFrame::from(EndianVec::new(LittleEndian));
-                    frames.write_debug_frame(&mut debug_frame).unwrap();
-
-                    let mut read_debug_frame =
-                        read::DebugFrame::new(debug_frame.slice(), LittleEndian);
-                    read_debug_frame.set_address_size(address_size);
-                    let frames = FrameTable::from(&read_debug_frame, &|address| {
-                        Some(Address::Constant(address))
-                    })
-                    .unwrap();
-
-                    assert_eq!(
-                        &frames.cies.get_index(0).unwrap().instructions,
-                        &cie_instructions
-                    );
-                    assert_eq!(&frames.fdes[0].1.instructions, &fde_instructions);
-                }
-            }
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/dwarf.rs b/vendor/gimli-0.27.3/src/write/dwarf.rs
deleted file mode 100644
index ea507126a..000000000
--- a/vendor/gimli-0.27.3/src/write/dwarf.rs
+++ /dev/null
@@ -1,138 +0,0 @@
-use alloc::vec::Vec;
-
-use crate::common::Encoding;
-use crate::write::{
-    AbbreviationTable, LineProgram, LineStringTable, Result, Sections, StringTable, Unit,
-    UnitTable, Writer,
-};
-
-/// Writable DWARF information for more than one unit.
-#[derive(Debug, Default)]
-pub struct Dwarf {
-    /// A table of units. These are primarily stored in the `.debug_info` section,
-    /// but they also contain information that is stored in other sections.
-    pub units: UnitTable,
-
-    /// Extra line number programs that are not associated with a unit.
-    ///
-    /// These should only be used when generating DWARF5 line-only debug
-    /// information.
-    pub line_programs: Vec<LineProgram>,
-
-    /// A table of strings that will be stored in the `.debug_line_str` section.
-    pub line_strings: LineStringTable,
-
-    /// A table of strings that will be stored in the `.debug_str` section.
-    pub strings: StringTable,
-}
-
-impl Dwarf {
-    /// Create a new `Dwarf` instance.
-    #[inline]
-    pub fn new() -> Self {
-        Self::default()
-    }
-
-    /// Write the DWARF information to the given sections.
-    pub fn write<W: Writer>(&mut self, sections: &mut Sections<W>) -> Result<()> {
-        let line_strings = self.line_strings.write(&mut sections.debug_line_str)?;
-        let strings = self.strings.write(&mut sections.debug_str)?;
-        self.units.write(sections, &line_strings, &strings)?;
-        for line_program in &self.line_programs {
-            line_program.write(
-                &mut sections.debug_line,
-                line_program.encoding(),
-                &line_strings,
-                &strings,
-            )?;
-        }
-        Ok(())
-    }
-}
-
-/// Writable DWARF information for a single unit.
-#[derive(Debug)]
-pub struct DwarfUnit {
-    /// A unit. This is primarily stored in the `.debug_info` section,
-    /// but also contains information that is stored in other sections.
-    pub unit: Unit,
-
-    /// A table of strings that will be stored in the `.debug_line_str` section.
-    pub line_strings: LineStringTable,
-
-    /// A table of strings that will be stored in the `.debug_str` section.
-    pub strings: StringTable,
-}
-
-impl DwarfUnit {
-    /// Create a new `DwarfUnit`.
-    ///
-    /// Note: you should set `self.unit.line_program` after creation.
-    /// This cannot be done earlier because it may need to reference
-    /// `self.line_strings`.
-    pub fn new(encoding: Encoding) -> Self {
-        let unit = Unit::new(encoding, LineProgram::none());
-        DwarfUnit {
-            unit,
-            line_strings: LineStringTable::default(),
-            strings: StringTable::default(),
-        }
-    }
-
-    /// Write the DWARf information to the given sections.
-    pub fn write<W: Writer>(&mut self, sections: &mut Sections<W>) -> Result<()> {
-        let line_strings = self.line_strings.write(&mut sections.debug_line_str)?;
-        let strings = self.strings.write(&mut sections.debug_str)?;
-
-        let abbrev_offset = sections.debug_abbrev.offset();
-        let mut abbrevs = AbbreviationTable::default();
-
-        self.unit.write(
-            sections,
-            abbrev_offset,
-            &mut abbrevs,
-            &line_strings,
-            &strings,
-        )?;
-        // None should exist because we didn't give out any UnitId.
-        assert!(sections.debug_info_refs.is_empty());
-        assert!(sections.debug_loc_refs.is_empty());
-        assert!(sections.debug_loclists_refs.is_empty());
-
-        abbrevs.write(&mut sections.debug_abbrev)?;
-        Ok(())
-    }
-}
-
-#[cfg(feature = "read")]
-pub(crate) mod convert {
-    use super::*;
-    use crate::read::{self, Reader};
-    use crate::write::{Address, ConvertResult};
-
-    impl Dwarf {
-        /// Create a `write::Dwarf` by converting a `read::Dwarf`.
-        ///
-        /// `convert_address` is a function to convert read addresses into the `Address`
-        /// type. For non-relocatable addresses, this function may simply return
-        /// `Address::Constant(address)`. For relocatable addresses, it is the caller's
-        /// responsibility to determine the symbol and addend corresponding to the address
-        /// and return `Address::Symbol { symbol, addend }`.
-        pub fn from<R: Reader<Offset = usize>>(
-            dwarf: &read::Dwarf<R>,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<Dwarf> {
-            let mut line_strings = LineStringTable::default();
-            let mut strings = StringTable::default();
-            let units = UnitTable::from(dwarf, &mut line_strings, &mut strings, convert_address)?;
-            // TODO: convert the line programs that were not referenced by a unit.
-            let line_programs = Vec::new();
-            Ok(Dwarf {
-                units,
-                line_programs,
-                line_strings,
-                strings,
-            })
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/endian_vec.rs b/vendor/gimli-0.27.3/src/write/endian_vec.rs
deleted file mode 100644
index 7b040606a..000000000
--- a/vendor/gimli-0.27.3/src/write/endian_vec.rs
+++ /dev/null
@@ -1,117 +0,0 @@
-use alloc::vec::Vec;
-use std::mem;
-
-use crate::endianity::Endianity;
-use crate::write::{Error, Result, Writer};
-
-/// A `Vec<u8>` with endianity metadata.
-///
-/// This implements the `Writer` trait, which is used for all writing of DWARF sections.
-#[derive(Debug, Clone)]
-pub struct EndianVec<Endian>
-where
-    Endian: Endianity,
-{
-    vec: Vec<u8>,
-    endian: Endian,
-}
-
-impl<Endian> EndianVec<Endian>
-where
-    Endian: Endianity,
-{
-    /// Construct an empty `EndianVec` with the given endianity.
-    pub fn new(endian: Endian) -> EndianVec<Endian> {
-        EndianVec {
-            vec: Vec::new(),
-            endian,
-        }
-    }
-
-    /// Return a reference to the raw slice.
-    pub fn slice(&self) -> &[u8] {
-        &self.vec
-    }
-
-    /// Convert into a `Vec<u8>`.
-    pub fn into_vec(self) -> Vec<u8> {
-        self.vec
-    }
-
-    /// Take any written data out of the `EndianVec`, leaving an empty `Vec` in its place.
-    pub fn take(&mut self) -> Vec<u8> {
-        let mut vec = Vec::new();
-        mem::swap(&mut self.vec, &mut vec);
-        vec
-    }
-}
-
-impl<Endian> Writer for EndianVec<Endian>
-where
-    Endian: Endianity,
-{
-    type Endian = Endian;
-
-    #[inline]
-    fn endian(&self) -> Self::Endian {
-        self.endian
-    }
-
-    #[inline]
-    fn len(&self) -> usize {
-        self.vec.len()
-    }
-
-    fn write(&mut self, bytes: &[u8]) -> Result<()> {
-        self.vec.extend(bytes);
-        Ok(())
-    }
-
-    fn write_at(&mut self, offset: usize, bytes: &[u8]) -> Result<()> {
-        if offset > self.vec.len() {
-            return Err(Error::OffsetOutOfBounds);
-        }
-        let to = &mut self.vec[offset..];
-        if bytes.len() > to.len() {
-            return Err(Error::LengthOutOfBounds);
-        }
-        let to = &mut to[..bytes.len()];
-        to.copy_from_slice(bytes);
-        Ok(())
-    }
-}
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::LittleEndian;
-
-    #[test]
-    fn test_endian_vec() {
-        let mut w = EndianVec::new(LittleEndian);
-        assert_eq!(w.endian(), LittleEndian);
-        assert_eq!(w.len(), 0);
-
-        w.write(&[1, 2]).unwrap();
-        assert_eq!(w.slice(), &[1, 2]);
-        assert_eq!(w.len(), 2);
-
-        w.write(&[3, 4, 5]).unwrap();
-        assert_eq!(w.slice(), &[1, 2, 3, 4, 5]);
-        assert_eq!(w.len(), 5);
-
-        w.write_at(0, &[6, 7]).unwrap();
-        assert_eq!(w.slice(), &[6, 7, 3, 4, 5]);
-        assert_eq!(w.len(), 5);
-
-        w.write_at(3, &[8, 9]).unwrap();
-        assert_eq!(w.slice(), &[6, 7, 3, 8, 9]);
-        assert_eq!(w.len(), 5);
-
-        assert_eq!(w.write_at(4, &[6, 7]), Err(Error::LengthOutOfBounds));
-        assert_eq!(w.write_at(5, &[6, 7]), Err(Error::LengthOutOfBounds));
-        assert_eq!(w.write_at(6, &[6, 7]), Err(Error::OffsetOutOfBounds));
-
-        assert_eq!(w.into_vec(), vec![6, 7, 3, 8, 9]);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/line.rs b/vendor/gimli-0.27.3/src/write/line.rs
deleted file mode 100644
index c88b735bc..000000000
--- a/vendor/gimli-0.27.3/src/write/line.rs
+++ /dev/null
@@ -1,1957 +0,0 @@
-use alloc::vec::Vec;
-use indexmap::{IndexMap, IndexSet};
-use std::ops::{Deref, DerefMut};
-
-use crate::common::{DebugLineOffset, Encoding, Format, LineEncoding, SectionId};
-use crate::constants;
-use crate::leb128;
-use crate::write::{
-    Address, DebugLineStrOffsets, DebugStrOffsets, Error, LineStringId, LineStringTable, Result,
-    Section, StringId, Writer,
-};
-
-/// The number assigned to the first special opcode.
-//
-// We output all instructions for all DWARF versions, since readers
-// should be able to ignore instructions they don't support.
-const OPCODE_BASE: u8 = 13;
-
-/// A line number program.
-#[derive(Debug, Clone)]
-pub struct LineProgram {
-    /// True if this line program was created with `LineProgram::none()`.
-    none: bool,
-    encoding: Encoding,
-    line_encoding: LineEncoding,
-
-    /// A list of source directory path names.
-    ///
-    /// If a path is relative, then the directory is located relative to the working
-    /// directory of the compilation unit.
-    ///
-    /// The first entry is for the working directory of the compilation unit.
-    directories: IndexSet<LineString>,
-
-    /// A list of source file entries.
-    ///
-    /// Each entry has a path name and a directory.
-    ///
-    /// If a path is a relative, then the file is located relative to the
-    /// directory. Otherwise the directory is meaningless.
-    ///
-    /// Does not include comp_file, even for version >= 5.
-    files: IndexMap<(LineString, DirectoryId), FileInfo>,
-
-    /// The primary source file of the compilation unit.
-    /// This is required for version >= 5, but we never reference it elsewhere
-    /// because DWARF defines DW_AT_decl_file=0 to mean not specified.
-    comp_file: (LineString, FileInfo),
-
-    /// True if the file entries may have valid timestamps.
-    ///
-    /// Entries may still have a timestamp of 0 even if this is set.
-    /// For version <= 4, this is ignored.
-    /// For version 5, this controls whether to emit `DW_LNCT_timestamp`.
-    pub file_has_timestamp: bool,
-
-    /// True if the file entries may have valid sizes.
-    ///
-    /// Entries may still have a size of 0 even if this is set.
-    /// For version <= 4, this is ignored.
-    /// For version 5, this controls whether to emit `DW_LNCT_size`.
-    pub file_has_size: bool,
-
-    /// True if the file entries have valid MD5 checksums.
-    ///
-    /// For version <= 4, this is ignored.
-    /// For version 5, this controls whether to emit `DW_LNCT_MD5`.
-    pub file_has_md5: bool,
-
-    prev_row: LineRow,
-    row: LineRow,
-    // TODO: this probably should be either rows or sequences instead
-    instructions: Vec<LineInstruction>,
-    in_sequence: bool,
-}
-
-impl LineProgram {
-    /// Create a new `LineProgram`.
-    ///
-    /// `comp_dir` defines the working directory of the compilation unit,
-    /// and must be the same as the `DW_AT_comp_dir` attribute
-    /// of the compilation unit DIE.
-    ///
-    /// `comp_file` and `comp_file_info` define the primary source file
-    /// of the compilation unit and must be the same as the `DW_AT_name`
-    /// attribute of the compilation unit DIE.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `line_encoding.line_base` > 0.
-    ///
-    /// Panics if `line_encoding.line_base` + `line_encoding.line_range` <= 0.
-    ///
-    /// Panics if `comp_dir` is empty or contains a null byte.
-    ///
-    /// Panics if `comp_file` is empty or contains a null byte.
-    pub fn new(
-        encoding: Encoding,
-        line_encoding: LineEncoding,
-        comp_dir: LineString,
-        comp_file: LineString,
-        comp_file_info: Option<FileInfo>,
-    ) -> LineProgram {
-        // We require a special opcode for a line advance of 0.
-        // See the debug_asserts in generate_row().
-        assert!(line_encoding.line_base <= 0);
-        assert!(line_encoding.line_base + line_encoding.line_range as i8 > 0);
-        let mut program = LineProgram {
-            none: false,
-            encoding,
-            line_encoding,
-            directories: IndexSet::new(),
-            files: IndexMap::new(),
-            comp_file: (comp_file, comp_file_info.unwrap_or_default()),
-            prev_row: LineRow::initial_state(line_encoding),
-            row: LineRow::initial_state(line_encoding),
-            instructions: Vec::new(),
-            in_sequence: false,
-            file_has_timestamp: false,
-            file_has_size: false,
-            file_has_md5: false,
-        };
-        // For all DWARF versions, directory index 0 is comp_dir.
-        // For version <= 4, the entry is implicit. We still add
-        // it here so that we use it, but we don't emit it.
-        program.add_directory(comp_dir);
-        program
-    }
-
-    /// Create a new `LineProgram` with no fields set.
-    ///
-    /// This can be used when the `LineProgram` will not be used.
-    ///
-    /// You should not attempt to add files or line instructions to
-    /// this line program, or write it to the `.debug_line` section.
-    pub fn none() -> Self {
-        let line_encoding = LineEncoding::default();
-        LineProgram {
-            none: true,
-            encoding: Encoding {
-                format: Format::Dwarf32,
-                version: 2,
-                address_size: 0,
-            },
-            line_encoding,
-            directories: IndexSet::new(),
-            files: IndexMap::new(),
-            comp_file: (LineString::String(Vec::new()), FileInfo::default()),
-            prev_row: LineRow::initial_state(line_encoding),
-            row: LineRow::initial_state(line_encoding),
-            instructions: Vec::new(),
-            in_sequence: false,
-            file_has_timestamp: false,
-            file_has_size: false,
-            file_has_md5: false,
-        }
-    }
-
-    /// Return true if this line program was created with `LineProgram::none()`.
-    #[inline]
-    pub fn is_none(&self) -> bool {
-        self.none
-    }
-
-    /// Return the encoding parameters for this line program.
-    #[inline]
-    pub fn encoding(&self) -> Encoding {
-        self.encoding
-    }
-
-    /// Return the DWARF version for this line program.
-    #[inline]
-    pub fn version(&self) -> u16 {
-        self.encoding.version
-    }
-
-    /// Return the address size in bytes for this line program.
-    #[inline]
-    pub fn address_size(&self) -> u8 {
-        self.encoding.address_size
-    }
-
-    /// Return the DWARF format for this line program.
-    #[inline]
-    pub fn format(&self) -> Format {
-        self.encoding.format
-    }
-
-    /// Return the id for the working directory of the compilation unit.
-    #[inline]
-    pub fn default_directory(&self) -> DirectoryId {
-        DirectoryId(0)
-    }
-
-    /// Add a directory entry and return its id.
-    ///
-    /// If the directory already exists, then return the id of the existing entry.
-    ///
-    /// If the path is relative, then the directory is located relative to the working
-    /// directory of the compilation unit.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `directory` is empty or contains a null byte.
-    pub fn add_directory(&mut self, directory: LineString) -> DirectoryId {
-        if let LineString::String(ref val) = directory {
-            // For DWARF version <= 4, directories must not be empty.
-            // The first directory isn't emitted so skip the check for it.
-            if self.encoding.version <= 4 && !self.directories.is_empty() {
-                assert!(!val.is_empty());
-            }
-            assert!(!val.contains(&0));
-        }
-        let (index, _) = self.directories.insert_full(directory);
-        DirectoryId(index)
-    }
-
-    /// Get a reference to a directory entry.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    pub fn get_directory(&self, id: DirectoryId) -> &LineString {
-        self.directories.get_index(id.0).unwrap()
-    }
-
-    /// Add a file entry and return its id.
-    ///
-    /// If the file already exists, then return the id of the existing entry.
-    ///
-    /// If the file path is relative, then the file is located relative
-    /// to the directory. Otherwise the directory is meaningless, but it
-    /// is still used as a key for file entries.
-    ///
-    /// If `info` is `None`, then new entries are assigned
-    /// default information, and existing entries are unmodified.
-    ///
-    /// If `info` is not `None`, then it is always assigned to the
-    /// entry, even if the entry already exists.
-    ///
-    /// # Panics
-    ///
-    /// Panics if 'file' is empty or contains a null byte.
-    pub fn add_file(
-        &mut self,
-        file: LineString,
-        directory: DirectoryId,
-        info: Option<FileInfo>,
-    ) -> FileId {
-        if let LineString::String(ref val) = file {
-            assert!(!val.is_empty());
-            assert!(!val.contains(&0));
-        }
-
-        let key = (file, directory);
-        let index = if let Some(info) = info {
-            let (index, _) = self.files.insert_full(key, info);
-            index
-        } else {
-            let entry = self.files.entry(key);
-            let index = entry.index();
-            entry.or_default();
-            index
-        };
-        FileId::new(index)
-    }
-
-    /// Get a reference to a file entry.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    pub fn get_file(&self, id: FileId) -> (&LineString, DirectoryId) {
-        match id.index() {
-            None => (&self.comp_file.0, DirectoryId(0)),
-            Some(index) => self
-                .files
-                .get_index(index)
-                .map(|entry| (&(entry.0).0, (entry.0).1))
-                .unwrap(),
-        }
-    }
-
-    /// Get a reference to the info for a file entry.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    pub fn get_file_info(&self, id: FileId) -> &FileInfo {
-        match id.index() {
-            None => &self.comp_file.1,
-            Some(index) => self.files.get_index(index).map(|entry| entry.1).unwrap(),
-        }
-    }
-
-    /// Get a mutable reference to the info for a file entry.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    pub fn get_file_info_mut(&mut self, id: FileId) -> &mut FileInfo {
-        match id.index() {
-            None => &mut self.comp_file.1,
-            Some(index) => self
-                .files
-                .get_index_mut(index)
-                .map(|entry| entry.1)
-                .unwrap(),
-        }
-    }
-
-    /// Begin a new sequence and set its base address.
-    ///
-    /// # Panics
-    ///
-    /// Panics if a sequence has already begun.
-    pub fn begin_sequence(&mut self, address: Option<Address>) {
-        assert!(!self.in_sequence);
-        self.in_sequence = true;
-        if let Some(address) = address {
-            self.instructions.push(LineInstruction::SetAddress(address));
-        }
-    }
-
-    /// End the sequence, and reset the row to its default values.
-    ///
-    /// Only the `address_offset` and op_index` fields of the current row are used.
-    ///
-    /// # Panics
-    ///
-    /// Panics if a sequence has not begun.
-    pub fn end_sequence(&mut self, address_offset: u64) {
-        assert!(self.in_sequence);
-        self.in_sequence = false;
-        self.row.address_offset = address_offset;
-        let op_advance = self.op_advance();
-        if op_advance != 0 {
-            self.instructions
-                .push(LineInstruction::AdvancePc(op_advance));
-        }
-        self.instructions.push(LineInstruction::EndSequence);
-        self.prev_row = LineRow::initial_state(self.line_encoding);
-        self.row = LineRow::initial_state(self.line_encoding);
-    }
-
-    /// Return true if a sequence has begun.
-    #[inline]
-    pub fn in_sequence(&self) -> bool {
-        self.in_sequence
-    }
-
-    /// Returns a reference to the data for the current row.
-    #[inline]
-    pub fn row(&mut self) -> &mut LineRow {
-        &mut self.row
-    }
-
-    /// Generates the line number information instructions for the current row.
-    ///
-    /// After the instructions are generated, it sets `discriminator` to 0, and sets
-    /// `basic_block`, `prologue_end`, and `epilogue_begin` to false.
-    ///
-    /// # Panics
-    ///
-    /// Panics if a sequence has not begun.
-    /// Panics if the address_offset decreases.
-    pub fn generate_row(&mut self) {
-        assert!(self.in_sequence);
-
-        // Output fields that are reset on every row.
-        if self.row.discriminator != 0 {
-            self.instructions
-                .push(LineInstruction::SetDiscriminator(self.row.discriminator));
-            self.row.discriminator = 0;
-        }
-        if self.row.basic_block {
-            self.instructions.push(LineInstruction::SetBasicBlock);
-            self.row.basic_block = false;
-        }
-        if self.row.prologue_end {
-            self.instructions.push(LineInstruction::SetPrologueEnd);
-            self.row.prologue_end = false;
-        }
-        if self.row.epilogue_begin {
-            self.instructions.push(LineInstruction::SetEpilogueBegin);
-            self.row.epilogue_begin = false;
-        }
-
-        // Output fields that are not reset on every row.
-        if self.row.is_statement != self.prev_row.is_statement {
-            self.instructions.push(LineInstruction::NegateStatement);
-        }
-        if self.row.file != self.prev_row.file {
-            self.instructions
-                .push(LineInstruction::SetFile(self.row.file));
-        }
-        if self.row.column != self.prev_row.column {
-            self.instructions
-                .push(LineInstruction::SetColumn(self.row.column));
-        }
-        if self.row.isa != self.prev_row.isa {
-            self.instructions
-                .push(LineInstruction::SetIsa(self.row.isa));
-        }
-
-        // Advance the line, address, and operation index.
-        let line_base = i64::from(self.line_encoding.line_base) as u64;
-        let line_range = u64::from(self.line_encoding.line_range);
-        let line_advance = self.row.line as i64 - self.prev_row.line as i64;
-        let op_advance = self.op_advance();
-
-        // Default to special advances of 0.
-        let special_base = u64::from(OPCODE_BASE);
-        // TODO: handle lack of special opcodes for 0 line advance
-        debug_assert!(self.line_encoding.line_base <= 0);
-        debug_assert!(self.line_encoding.line_base + self.line_encoding.line_range as i8 >= 0);
-        let special_default = special_base.wrapping_sub(line_base);
-        let mut special = special_default;
-        let mut use_special = false;
-
-        if line_advance != 0 {
-            let special_line = (line_advance as u64).wrapping_sub(line_base);
-            if special_line < line_range {
-                special = special_base + special_line;
-                use_special = true;
-            } else {
-                self.instructions
-                    .push(LineInstruction::AdvanceLine(line_advance));
-            }
-        }
-
-        if op_advance != 0 {
-            // Using ConstAddPc can save a byte.
-            let (special_op_advance, const_add_pc) = if special + op_advance * line_range <= 255 {
-                (op_advance, false)
-            } else {
-                let op_range = (255 - special_base) / line_range;
-                (op_advance - op_range, true)
-            };
-
-            let special_op = special_op_advance * line_range;
-            if special + special_op <= 255 {
-                special += special_op;
-                use_special = true;
-                if const_add_pc {
-                    self.instructions.push(LineInstruction::ConstAddPc);
-                }
-            } else {
-                self.instructions
-                    .push(LineInstruction::AdvancePc(op_advance));
-            }
-        }
-
-        if use_special && special != special_default {
-            debug_assert!(special >= special_base);
-            debug_assert!(special <= 255);
-            self.instructions
-                .push(LineInstruction::Special(special as u8));
-        } else {
-            self.instructions.push(LineInstruction::Copy);
-        }
-
-        self.prev_row = self.row;
-    }
-
-    fn op_advance(&self) -> u64 {
-        debug_assert!(self.row.address_offset >= self.prev_row.address_offset);
-        let mut address_advance = self.row.address_offset - self.prev_row.address_offset;
-        if self.line_encoding.minimum_instruction_length != 1 {
-            debug_assert_eq!(
-                self.row.address_offset % u64::from(self.line_encoding.minimum_instruction_length),
-                0
-            );
-            address_advance /= u64::from(self.line_encoding.minimum_instruction_length);
-        }
-        address_advance * u64::from(self.line_encoding.maximum_operations_per_instruction)
-            + self.row.op_index
-            - self.prev_row.op_index
-    }
-
-    /// Returns true if the line number program has no instructions.
-    ///
-    /// Does not check the file or directory entries.
-    #[inline]
-    pub fn is_empty(&self) -> bool {
-        self.instructions.is_empty()
-    }
-
-    /// Write the line number program to the given section.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `self.is_none()`.
-    pub fn write<W: Writer>(
-        &self,
-        w: &mut DebugLine<W>,
-        encoding: Encoding,
-        debug_line_str_offsets: &DebugLineStrOffsets,
-        debug_str_offsets: &DebugStrOffsets,
-    ) -> Result<DebugLineOffset> {
-        assert!(!self.is_none());
-
-        if encoding.version < self.version()
-            || encoding.format != self.format()
-            || encoding.address_size != self.address_size()
-        {
-            return Err(Error::IncompatibleLineProgramEncoding);
-        }
-
-        let offset = w.offset();
-
-        let length_offset = w.write_initial_length(self.format())?;
-        let length_base = w.len();
-
-        if self.version() < 2 || self.version() > 5 {
-            return Err(Error::UnsupportedVersion(self.version()));
-        }
-        w.write_u16(self.version())?;
-
-        if self.version() >= 5 {
-            w.write_u8(self.address_size())?;
-            // Segment selector size.
-            w.write_u8(0)?;
-        }
-
-        let header_length_offset = w.len();
-        w.write_udata(0, self.format().word_size())?;
-        let header_length_base = w.len();
-
-        w.write_u8(self.line_encoding.minimum_instruction_length)?;
-        if self.version() >= 4 {
-            w.write_u8(self.line_encoding.maximum_operations_per_instruction)?;
-        } else if self.line_encoding.maximum_operations_per_instruction != 1 {
-            return Err(Error::NeedVersion(4));
-        };
-        w.write_u8(if self.line_encoding.default_is_stmt {
-            1
-        } else {
-            0
-        })?;
-        w.write_u8(self.line_encoding.line_base as u8)?;
-        w.write_u8(self.line_encoding.line_range)?;
-        w.write_u8(OPCODE_BASE)?;
-        w.write(&[0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, 1])?;
-
-        if self.version() <= 4 {
-            // The first directory is stored as DW_AT_comp_dir.
-            for dir in self.directories.iter().skip(1) {
-                dir.write(
-                    w,
-                    constants::DW_FORM_string,
-                    self.encoding,
-                    debug_line_str_offsets,
-                    debug_str_offsets,
-                )?;
-            }
-            w.write_u8(0)?;
-
-            for ((file, dir), info) in self.files.iter() {
-                file.write(
-                    w,
-                    constants::DW_FORM_string,
-                    self.encoding,
-                    debug_line_str_offsets,
-                    debug_str_offsets,
-                )?;
-                w.write_uleb128(dir.0 as u64)?;
-                w.write_uleb128(info.timestamp)?;
-                w.write_uleb128(info.size)?;
-            }
-            w.write_u8(0)?;
-        } else {
-            // Directory entry formats (only ever 1).
-            w.write_u8(1)?;
-            w.write_uleb128(u64::from(constants::DW_LNCT_path.0))?;
-            let dir_form = self.directories.get_index(0).unwrap().form();
-            w.write_uleb128(dir_form.0.into())?;
-
-            // Directory entries.
-            w.write_uleb128(self.directories.len() as u64)?;
-            for dir in self.directories.iter() {
-                dir.write(
-                    w,
-                    dir_form,
-                    self.encoding,
-                    debug_line_str_offsets,
-                    debug_str_offsets,
-                )?;
-            }
-
-            // File name entry formats.
-            let count = 2
-                + if self.file_has_timestamp { 1 } else { 0 }
-                + if self.file_has_size { 1 } else { 0 }
-                + if self.file_has_md5 { 1 } else { 0 };
-            w.write_u8(count)?;
-            w.write_uleb128(u64::from(constants::DW_LNCT_path.0))?;
-            let file_form = self.comp_file.0.form();
-            w.write_uleb128(file_form.0.into())?;
-            w.write_uleb128(u64::from(constants::DW_LNCT_directory_index.0))?;
-            w.write_uleb128(constants::DW_FORM_udata.0.into())?;
-            if self.file_has_timestamp {
-                w.write_uleb128(u64::from(constants::DW_LNCT_timestamp.0))?;
-                w.write_uleb128(constants::DW_FORM_udata.0.into())?;
-            }
-            if self.file_has_size {
-                w.write_uleb128(u64::from(constants::DW_LNCT_size.0))?;
-                w.write_uleb128(constants::DW_FORM_udata.0.into())?;
-            }
-            if self.file_has_md5 {
-                w.write_uleb128(u64::from(constants::DW_LNCT_MD5.0))?;
-                w.write_uleb128(constants::DW_FORM_data16.0.into())?;
-            }
-
-            // File name entries.
-            w.write_uleb128(self.files.len() as u64 + 1)?;
-            let mut write_file = |file: &LineString, dir: DirectoryId, info: &FileInfo| {
-                file.write(
-                    w,
-                    file_form,
-                    self.encoding,
-                    debug_line_str_offsets,
-                    debug_str_offsets,
-                )?;
-                w.write_uleb128(dir.0 as u64)?;
-                if self.file_has_timestamp {
-                    w.write_uleb128(info.timestamp)?;
-                }
-                if self.file_has_size {
-                    w.write_uleb128(info.size)?;
-                }
-                if self.file_has_md5 {
-                    w.write(&info.md5)?;
-                }
-                Ok(())
-            };
-            write_file(&self.comp_file.0, DirectoryId(0), &self.comp_file.1)?;
-            for ((file, dir), info) in self.files.iter() {
-                write_file(file, *dir, info)?;
-            }
-        }
-
-        let header_length = (w.len() - header_length_base) as u64;
-        w.write_udata_at(
-            header_length_offset,
-            header_length,
-            self.format().word_size(),
-        )?;
-
-        for instruction in &self.instructions {
-            instruction.write(w, self.address_size())?;
-        }
-
-        let length = (w.len() - length_base) as u64;
-        w.write_initial_length_at(length_offset, length, self.format())?;
-
-        Ok(offset)
-    }
-}
-
-/// A row in the line number table that corresponds to a machine instruction.
-#[derive(Debug, Clone, Copy)]
-pub struct LineRow {
-    /// The offset of the instruction from the start address of the sequence.
-    pub address_offset: u64,
-    /// The index of an operation within a VLIW instruction.
-    ///
-    /// The index of the first operation is 0.
-    /// Set to 0 for non-VLIW instructions.
-    pub op_index: u64,
-
-    /// The source file corresponding to the instruction.
-    pub file: FileId,
-    /// The line number within the source file.
-    ///
-    /// Lines are numbered beginning at 1. Set to 0 if there is no source line.
-    pub line: u64,
-    /// The column number within the source line.
-    ///
-    /// Columns are numbered beginning at 1. Set to 0 for the "left edge" of the line.
-    pub column: u64,
-    /// An additional discriminator used to distinguish between source locations.
-    /// This value is assigned arbitrarily by the DWARF producer.
-    pub discriminator: u64,
-
-    /// Set to true if the instruction is a recommended breakpoint for a statement.
-    pub is_statement: bool,
-    /// Set to true if the instruction is the beginning of a basic block.
-    pub basic_block: bool,
-    /// Set to true if the instruction is a recommended breakpoint at the entry of a
-    /// function.
-    pub prologue_end: bool,
-    /// Set to true if the instruction is a recommended breakpoint prior to the exit of
-    /// a function.
-    pub epilogue_begin: bool,
-
-    /// The instruction set architecture of the instruction.
-    ///
-    /// Set to 0 for the default ISA. Other values are defined by the architecture ABI.
-    pub isa: u64,
-}
-
-impl LineRow {
-    /// Return the initial state as specified in the DWARF standard.
-    fn initial_state(line_encoding: LineEncoding) -> Self {
-        LineRow {
-            address_offset: 0,
-            op_index: 0,
-
-            file: FileId::initial_state(),
-            line: 1,
-            column: 0,
-            discriminator: 0,
-
-            is_statement: line_encoding.default_is_stmt,
-            basic_block: false,
-            prologue_end: false,
-            epilogue_begin: false,
-
-            isa: 0,
-        }
-    }
-}
-
-/// An instruction in a line number program.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-enum LineInstruction {
-    // Special opcodes
-    Special(u8),
-
-    // Standard opcodes
-    Copy,
-    AdvancePc(u64),
-    AdvanceLine(i64),
-    SetFile(FileId),
-    SetColumn(u64),
-    NegateStatement,
-    SetBasicBlock,
-    ConstAddPc,
-    // DW_LNS_fixed_advance_pc is not supported.
-    SetPrologueEnd,
-    SetEpilogueBegin,
-    SetIsa(u64),
-
-    // Extended opcodes
-    EndSequence,
-    // TODO: this doubles the size of this enum.
-    SetAddress(Address),
-    // DW_LNE_define_file is not supported.
-    SetDiscriminator(u64),
-}
-
-impl LineInstruction {
-    /// Write the line number instruction to the given section.
-    fn write<W: Writer>(self, w: &mut DebugLine<W>, address_size: u8) -> Result<()> {
-        use self::LineInstruction::*;
-        match self {
-            Special(val) => w.write_u8(val)?,
-            Copy => w.write_u8(constants::DW_LNS_copy.0)?,
-            AdvancePc(val) => {
-                w.write_u8(constants::DW_LNS_advance_pc.0)?;
-                w.write_uleb128(val)?;
-            }
-            AdvanceLine(val) => {
-                w.write_u8(constants::DW_LNS_advance_line.0)?;
-                w.write_sleb128(val)?;
-            }
-            SetFile(val) => {
-                w.write_u8(constants::DW_LNS_set_file.0)?;
-                w.write_uleb128(val.raw())?;
-            }
-            SetColumn(val) => {
-                w.write_u8(constants::DW_LNS_set_column.0)?;
-                w.write_uleb128(val)?;
-            }
-            NegateStatement => w.write_u8(constants::DW_LNS_negate_stmt.0)?,
-            SetBasicBlock => w.write_u8(constants::DW_LNS_set_basic_block.0)?,
-            ConstAddPc => w.write_u8(constants::DW_LNS_const_add_pc.0)?,
-            SetPrologueEnd => w.write_u8(constants::DW_LNS_set_prologue_end.0)?,
-            SetEpilogueBegin => w.write_u8(constants::DW_LNS_set_epilogue_begin.0)?,
-            SetIsa(val) => {
-                w.write_u8(constants::DW_LNS_set_isa.0)?;
-                w.write_uleb128(val)?;
-            }
-            EndSequence => {
-                w.write_u8(0)?;
-                w.write_uleb128(1)?;
-                w.write_u8(constants::DW_LNE_end_sequence.0)?;
-            }
-            SetAddress(address) => {
-                w.write_u8(0)?;
-                w.write_uleb128(1 + u64::from(address_size))?;
-                w.write_u8(constants::DW_LNE_set_address.0)?;
-                w.write_address(address, address_size)?;
-            }
-            SetDiscriminator(val) => {
-                let mut bytes = [0u8; 10];
-                // bytes is long enough so this will never fail.
-                let len = leb128::write::unsigned(&mut { &mut bytes[..] }, val).unwrap();
-                w.write_u8(0)?;
-                w.write_uleb128(1 + len as u64)?;
-                w.write_u8(constants::DW_LNE_set_discriminator.0)?;
-                w.write(&bytes[..len])?;
-            }
-        }
-        Ok(())
-    }
-}
-
-/// A string value for use in defining paths in line number programs.
-#[derive(Debug, Clone, PartialEq, Eq, Hash)]
-pub enum LineString {
-    /// A slice of bytes representing a string. Must not include null bytes.
-    /// Not guaranteed to be UTF-8 or anything like that.
-    String(Vec<u8>),
-
-    /// A reference to a string in the `.debug_str` section.
-    StringRef(StringId),
-
-    /// A reference to a string in the `.debug_line_str` section.
-    LineStringRef(LineStringId),
-}
-
-impl LineString {
-    /// Create a `LineString` using the normal form for the given encoding.
-    pub fn new<T>(val: T, encoding: Encoding, line_strings: &mut LineStringTable) -> Self
-    where
-        T: Into<Vec<u8>>,
-    {
-        let val = val.into();
-        if encoding.version <= 4 {
-            LineString::String(val)
-        } else {
-            LineString::LineStringRef(line_strings.add(val))
-        }
-    }
-
-    fn form(&self) -> constants::DwForm {
-        match *self {
-            LineString::String(..) => constants::DW_FORM_string,
-            LineString::StringRef(..) => constants::DW_FORM_strp,
-            LineString::LineStringRef(..) => constants::DW_FORM_line_strp,
-        }
-    }
-
-    fn write<W: Writer>(
-        &self,
-        w: &mut DebugLine<W>,
-        form: constants::DwForm,
-        encoding: Encoding,
-        debug_line_str_offsets: &DebugLineStrOffsets,
-        debug_str_offsets: &DebugStrOffsets,
-    ) -> Result<()> {
-        if form != self.form() {
-            return Err(Error::LineStringFormMismatch);
-        }
-
-        match *self {
-            LineString::String(ref val) => {
-                if encoding.version <= 4 {
-                    debug_assert!(!val.is_empty());
-                }
-                w.write(val)?;
-                w.write_u8(0)?;
-            }
-            LineString::StringRef(val) => {
-                if encoding.version < 5 {
-                    return Err(Error::NeedVersion(5));
-                }
-                w.write_offset(
-                    debug_str_offsets.get(val).0,
-                    SectionId::DebugStr,
-                    encoding.format.word_size(),
-                )?;
-            }
-            LineString::LineStringRef(val) => {
-                if encoding.version < 5 {
-                    return Err(Error::NeedVersion(5));
-                }
-                w.write_offset(
-                    debug_line_str_offsets.get(val).0,
-                    SectionId::DebugLineStr,
-                    encoding.format.word_size(),
-                )?;
-            }
-        }
-        Ok(())
-    }
-}
-
-/// An identifier for a directory in a `LineProgram`.
-///
-/// Defaults to the working directory of the compilation unit.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub struct DirectoryId(usize);
-
-// Force FileId access via the methods.
-mod id {
-    /// An identifier for a file in a `LineProgram`.
-    #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-    pub struct FileId(usize);
-
-    impl FileId {
-        /// Create a FileId given an index into `LineProgram::files`.
-        pub(crate) fn new(index: usize) -> Self {
-            FileId(index + 1)
-        }
-
-        /// The index of the file in `LineProgram::files`.
-        pub(super) fn index(self) -> Option<usize> {
-            if self.0 == 0 {
-                None
-            } else {
-                Some(self.0 - 1)
-            }
-        }
-
-        /// The initial state of the file register.
-        pub(super) fn initial_state() -> Self {
-            FileId(1)
-        }
-
-        /// The raw value used when writing.
-        pub(crate) fn raw(self) -> u64 {
-            self.0 as u64
-        }
-
-        /// The id for file index 0 in DWARF version 5.
-        /// Only used when converting.
-        // Used for tests only.
-        #[allow(unused)]
-        pub(super) fn zero() -> Self {
-            FileId(0)
-        }
-    }
-}
-pub use self::id::*;
-
-/// Extra information for file in a `LineProgram`.
-#[derive(Debug, Default, Clone, Copy, PartialEq, Eq)]
-pub struct FileInfo {
-    /// The implementation defined timestamp of the last modification of the file,
-    /// or 0 if not available.
-    pub timestamp: u64,
-
-    /// The size of the file in bytes, or 0 if not available.
-    pub size: u64,
-
-    /// A 16-byte MD5 digest of the file contents.
-    ///
-    /// Only used if version >= 5 and `LineProgram::file_has_md5` is `true`.
-    pub md5: [u8; 16],
-}
-
-define_section!(
-    DebugLine,
-    DebugLineOffset,
-    "A writable `.debug_line` section."
-);
-
-#[cfg(feature = "read")]
-mod convert {
-    use super::*;
-    use crate::read::{self, Reader};
-    use crate::write::{self, ConvertError, ConvertResult};
-
-    impl LineProgram {
-        /// Create a line number program by reading the data from the given program.
-        ///
-        /// Return the program and a mapping from file index to `FileId`.
-        pub fn from<R: Reader<Offset = usize>>(
-            mut from_program: read::IncompleteLineProgram<R>,
-            dwarf: &read::Dwarf<R>,
-            line_strings: &mut write::LineStringTable,
-            strings: &mut write::StringTable,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<(LineProgram, Vec<FileId>)> {
-            // Create mappings in case the source has duplicate files or directories.
-            let mut dirs = Vec::new();
-            let mut files = Vec::new();
-
-            let mut program = {
-                let from_header = from_program.header();
-                let encoding = from_header.encoding();
-
-                let comp_dir = match from_header.directory(0) {
-                    Some(comp_dir) => LineString::from(comp_dir, dwarf, line_strings, strings)?,
-                    None => LineString::new(&[][..], encoding, line_strings),
-                };
-
-                let (comp_name, comp_file_info) = match from_header.file(0) {
-                    Some(comp_file) => {
-                        if comp_file.directory_index() != 0 {
-                            return Err(ConvertError::InvalidDirectoryIndex);
-                        }
-                        (
-                            LineString::from(comp_file.path_name(), dwarf, line_strings, strings)?,
-                            Some(FileInfo {
-                                timestamp: comp_file.timestamp(),
-                                size: comp_file.size(),
-                                md5: *comp_file.md5(),
-                            }),
-                        )
-                    }
-                    None => (LineString::new(&[][..], encoding, line_strings), None),
-                };
-
-                if from_header.line_base() > 0 {
-                    return Err(ConvertError::InvalidLineBase);
-                }
-                let mut program = LineProgram::new(
-                    encoding,
-                    from_header.line_encoding(),
-                    comp_dir,
-                    comp_name,
-                    comp_file_info,
-                );
-
-                let file_skip;
-                if from_header.version() <= 4 {
-                    // The first directory is implicit.
-                    dirs.push(DirectoryId(0));
-                    // A file index of 0 is invalid for version <= 4, but putting
-                    // something there makes the indexing easier.
-                    file_skip = 0;
-                    files.push(FileId::zero());
-                } else {
-                    // We don't add the first file to `files`, but still allow
-                    // it to be referenced from converted instructions.
-                    file_skip = 1;
-                    files.push(FileId::zero());
-                }
-
-                for from_dir in from_header.include_directories() {
-                    let from_dir =
-                        LineString::from(from_dir.clone(), dwarf, line_strings, strings)?;
-                    dirs.push(program.add_directory(from_dir));
-                }
-
-                program.file_has_timestamp = from_header.file_has_timestamp();
-                program.file_has_size = from_header.file_has_size();
-                program.file_has_md5 = from_header.file_has_md5();
-                for from_file in from_header.file_names().iter().skip(file_skip) {
-                    let from_name =
-                        LineString::from(from_file.path_name(), dwarf, line_strings, strings)?;
-                    let from_dir = from_file.directory_index();
-                    if from_dir >= dirs.len() as u64 {
-                        return Err(ConvertError::InvalidDirectoryIndex);
-                    }
-                    let from_dir = dirs[from_dir as usize];
-                    let from_info = Some(FileInfo {
-                        timestamp: from_file.timestamp(),
-                        size: from_file.size(),
-                        md5: *from_file.md5(),
-                    });
-                    files.push(program.add_file(from_name, from_dir, from_info));
-                }
-
-                program
-            };
-
-            // We can't use the `from_program.rows()` because that wouldn't let
-            // us preserve address relocations.
-            let mut from_row = read::LineRow::new(from_program.header());
-            let mut instructions = from_program.header().instructions();
-            let mut address = None;
-            while let Some(instruction) = instructions.next_instruction(from_program.header())? {
-                match instruction {
-                    read::LineInstruction::SetAddress(val) => {
-                        if program.in_sequence() {
-                            return Err(ConvertError::UnsupportedLineInstruction);
-                        }
-                        match convert_address(val) {
-                            Some(val) => address = Some(val),
-                            None => return Err(ConvertError::InvalidAddress),
-                        }
-                        from_row.execute(read::LineInstruction::SetAddress(0), &mut from_program);
-                    }
-                    read::LineInstruction::DefineFile(_) => {
-                        return Err(ConvertError::UnsupportedLineInstruction);
-                    }
-                    _ => {
-                        if from_row.execute(instruction, &mut from_program) {
-                            if !program.in_sequence() {
-                                program.begin_sequence(address);
-                                address = None;
-                            }
-                            if from_row.end_sequence() {
-                                program.end_sequence(from_row.address());
-                            } else {
-                                program.row().address_offset = from_row.address();
-                                program.row().op_index = from_row.op_index();
-                                program.row().file = {
-                                    let file = from_row.file_index();
-                                    if file >= files.len() as u64 {
-                                        return Err(ConvertError::InvalidFileIndex);
-                                    }
-                                    if file == 0 && program.version() <= 4 {
-                                        return Err(ConvertError::InvalidFileIndex);
-                                    }
-                                    files[file as usize]
-                                };
-                                program.row().line = match from_row.line() {
-                                    Some(line) => line.get(),
-                                    None => 0,
-                                };
-                                program.row().column = match from_row.column() {
-                                    read::ColumnType::LeftEdge => 0,
-                                    read::ColumnType::Column(val) => val.get(),
-                                };
-                                program.row().discriminator = from_row.discriminator();
-                                program.row().is_statement = from_row.is_stmt();
-                                program.row().basic_block = from_row.basic_block();
-                                program.row().prologue_end = from_row.prologue_end();
-                                program.row().epilogue_begin = from_row.epilogue_begin();
-                                program.row().isa = from_row.isa();
-                                program.generate_row();
-                            }
-                            from_row.reset(from_program.header());
-                        }
-                    }
-                };
-            }
-            Ok((program, files))
-        }
-    }
-
-    impl LineString {
-        fn from<R: Reader<Offset = usize>>(
-            from_attr: read::AttributeValue<R>,
-            dwarf: &read::Dwarf<R>,
-            line_strings: &mut write::LineStringTable,
-            strings: &mut write::StringTable,
-        ) -> ConvertResult<LineString> {
-            Ok(match from_attr {
-                read::AttributeValue::String(r) => LineString::String(r.to_slice()?.to_vec()),
-                read::AttributeValue::DebugStrRef(offset) => {
-                    let r = dwarf.debug_str.get_str(offset)?;
-                    let id = strings.add(r.to_slice()?);
-                    LineString::StringRef(id)
-                }
-                read::AttributeValue::DebugLineStrRef(offset) => {
-                    let r = dwarf.debug_line_str.get_str(offset)?;
-                    let id = line_strings.add(r.to_slice()?);
-                    LineString::LineStringRef(id)
-                }
-                _ => return Err(ConvertError::UnsupportedLineStringForm),
-            })
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::read;
-    use crate::write::{DebugLineStr, DebugStr, EndianVec, StringTable};
-    use crate::LittleEndian;
-
-    #[test]
-    fn test_line_program_table() {
-        let dir1 = LineString::String(b"dir1".to_vec());
-        let file1 = LineString::String(b"file1".to_vec());
-        let dir2 = LineString::String(b"dir2".to_vec());
-        let file2 = LineString::String(b"file2".to_vec());
-
-        let mut programs = Vec::new();
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let mut program = LineProgram::new(
-                        encoding,
-                        LineEncoding::default(),
-                        dir1.clone(),
-                        file1.clone(),
-                        None,
-                    );
-
-                    {
-                        assert_eq!(&dir1, program.get_directory(program.default_directory()));
-                        program.file_has_timestamp = true;
-                        program.file_has_size = true;
-                        if encoding.version >= 5 {
-                            program.file_has_md5 = true;
-                        }
-
-                        let dir_id = program.add_directory(dir2.clone());
-                        assert_eq!(&dir2, program.get_directory(dir_id));
-                        assert_eq!(dir_id, program.add_directory(dir2.clone()));
-
-                        let file_info = FileInfo {
-                            timestamp: 1,
-                            size: 2,
-                            md5: if encoding.version >= 5 {
-                                [3; 16]
-                            } else {
-                                [0; 16]
-                            },
-                        };
-                        let file_id = program.add_file(file2.clone(), dir_id, Some(file_info));
-                        assert_eq!((&file2, dir_id), program.get_file(file_id));
-                        assert_eq!(file_info, *program.get_file_info(file_id));
-
-                        program.get_file_info_mut(file_id).size = 3;
-                        assert_ne!(file_info, *program.get_file_info(file_id));
-                        assert_eq!(file_id, program.add_file(file2.clone(), dir_id, None));
-                        assert_ne!(file_info, *program.get_file_info(file_id));
-                        assert_eq!(
-                            file_id,
-                            program.add_file(file2.clone(), dir_id, Some(file_info))
-                        );
-                        assert_eq!(file_info, *program.get_file_info(file_id));
-
-                        programs.push((program, file_id, encoding));
-                    }
-                }
-            }
-        }
-
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-        let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-        let mut debug_line_offsets = Vec::new();
-        for (program, _, encoding) in &programs {
-            debug_line_offsets.push(
-                program
-                    .write(
-                        &mut debug_line,
-                        *encoding,
-                        &debug_line_str_offsets,
-                        &debug_str_offsets,
-                    )
-                    .unwrap(),
-            );
-        }
-
-        let read_debug_line = read::DebugLine::new(debug_line.slice(), LittleEndian);
-
-        let convert_address = &|address| Some(Address::Constant(address));
-        for ((program, file_id, encoding), offset) in programs.iter().zip(debug_line_offsets.iter())
-        {
-            let read_program = read_debug_line
-                .program(
-                    *offset,
-                    encoding.address_size,
-                    Some(read::EndianSlice::new(b"dir1", LittleEndian)),
-                    Some(read::EndianSlice::new(b"file1", LittleEndian)),
-                )
-                .unwrap();
-
-            let dwarf = read::Dwarf::default();
-            let mut convert_line_strings = LineStringTable::default();
-            let mut convert_strings = StringTable::default();
-            let (convert_program, convert_files) = LineProgram::from(
-                read_program,
-                &dwarf,
-                &mut convert_line_strings,
-                &mut convert_strings,
-                convert_address,
-            )
-            .unwrap();
-            assert_eq!(convert_program.version(), program.version());
-            assert_eq!(convert_program.address_size(), program.address_size());
-            assert_eq!(convert_program.format(), program.format());
-
-            let convert_file_id = convert_files[file_id.raw() as usize];
-            let (file, dir) = program.get_file(*file_id);
-            let (convert_file, convert_dir) = convert_program.get_file(convert_file_id);
-            assert_eq!(file, convert_file);
-            assert_eq!(
-                program.get_directory(dir),
-                convert_program.get_directory(convert_dir)
-            );
-            assert_eq!(
-                program.get_file_info(*file_id),
-                convert_program.get_file_info(convert_file_id)
-            );
-        }
-    }
-
-    #[test]
-    fn test_line_row() {
-        let dir1 = &b"dir1"[..];
-        let file1 = &b"file1"[..];
-        let file2 = &b"file2"[..];
-        let convert_address = &|address| Some(Address::Constant(address));
-
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let line_base = -5;
-                    let line_range = 14;
-                    let neg_line_base = (-line_base) as u8;
-                    let mut program = LineProgram::new(
-                        encoding,
-                        LineEncoding {
-                            line_base,
-                            line_range,
-                            ..Default::default()
-                        },
-                        LineString::String(dir1.to_vec()),
-                        LineString::String(file1.to_vec()),
-                        None,
-                    );
-                    let dir_id = program.default_directory();
-                    program.add_file(LineString::String(file1.to_vec()), dir_id, None);
-                    let file_id =
-                        program.add_file(LineString::String(file2.to_vec()), dir_id, None);
-
-                    // Test sequences.
-                    {
-                        let mut program = program.clone();
-                        let address = Address::Constant(0x12);
-                        program.begin_sequence(Some(address));
-                        assert_eq!(
-                            program.instructions,
-                            vec![LineInstruction::SetAddress(address)]
-                        );
-                    }
-
-                    {
-                        let mut program = program.clone();
-                        program.begin_sequence(None);
-                        assert_eq!(program.instructions, Vec::new());
-                    }
-
-                    {
-                        let mut program = program.clone();
-                        program.begin_sequence(None);
-                        program.end_sequence(0x1234);
-                        assert_eq!(
-                            program.instructions,
-                            vec![
-                                LineInstruction::AdvancePc(0x1234),
-                                LineInstruction::EndSequence
-                            ]
-                        );
-                    }
-
-                    // Create a base program.
-                    program.begin_sequence(None);
-                    program.row.line = 0x1000;
-                    program.generate_row();
-                    let base_row = program.row;
-                    let base_instructions = program.instructions.clone();
-
-                    // Create test cases.
-                    let mut tests = Vec::new();
-
-                    let row = base_row;
-                    tests.push((row, vec![LineInstruction::Copy]));
-
-                    let mut row = base_row;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((row, vec![LineInstruction::Special(OPCODE_BASE)]));
-
-                    let mut row = base_row;
-                    row.line += u64::from(line_range) - 1;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![LineInstruction::Special(OPCODE_BASE + line_range - 1)],
-                    ));
-
-                    let mut row = base_row;
-                    row.line += u64::from(line_range);
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![
-                            LineInstruction::AdvanceLine(i64::from(line_range - neg_line_base)),
-                            LineInstruction::Copy,
-                        ],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = 1;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![LineInstruction::Special(OPCODE_BASE + line_range)],
-                    ));
-
-                    let op_range = (255 - OPCODE_BASE) / line_range;
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range);
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![LineInstruction::Special(
-                            OPCODE_BASE + op_range * line_range,
-                        )],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range);
-                    row.line += u64::from(255 - OPCODE_BASE - op_range * line_range);
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((row, vec![LineInstruction::Special(255)]));
-
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range);
-                    row.line += u64::from(255 - OPCODE_BASE - op_range * line_range) + 1;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![LineInstruction::ConstAddPc, LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range);
-                    row.line += u64::from(255 - OPCODE_BASE - op_range * line_range) + 2;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![
-                            LineInstruction::ConstAddPc,
-                            LineInstruction::Special(OPCODE_BASE + 6),
-                        ],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range) * 2;
-                    row.line += u64::from(255 - OPCODE_BASE - op_range * line_range);
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![LineInstruction::ConstAddPc, LineInstruction::Special(255)],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range) * 2;
-                    row.line += u64::from(255 - OPCODE_BASE - op_range * line_range) + 1;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![
-                            LineInstruction::AdvancePc(row.address_offset),
-                            LineInstruction::Copy,
-                        ],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = u64::from(op_range) * 2;
-                    row.line += u64::from(255 - OPCODE_BASE - op_range * line_range) + 2;
-                    row.line -= u64::from(neg_line_base);
-                    tests.push((
-                        row,
-                        vec![
-                            LineInstruction::AdvancePc(row.address_offset),
-                            LineInstruction::Special(OPCODE_BASE + 6),
-                        ],
-                    ));
-
-                    let mut row = base_row;
-                    row.address_offset = 0x1234;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::AdvancePc(0x1234), LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.line += 0x1234;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::AdvanceLine(0x1234), LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.file = file_id;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::SetFile(file_id), LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.column = 0x1234;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::SetColumn(0x1234), LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.discriminator = 0x1234;
-                    tests.push((
-                        row,
-                        vec![
-                            LineInstruction::SetDiscriminator(0x1234),
-                            LineInstruction::Copy,
-                        ],
-                    ));
-
-                    let mut row = base_row;
-                    row.is_statement = !row.is_statement;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::NegateStatement, LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.basic_block = true;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::SetBasicBlock, LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.prologue_end = true;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::SetPrologueEnd, LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.epilogue_begin = true;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::SetEpilogueBegin, LineInstruction::Copy],
-                    ));
-
-                    let mut row = base_row;
-                    row.isa = 0x1234;
-                    tests.push((
-                        row,
-                        vec![LineInstruction::SetIsa(0x1234), LineInstruction::Copy],
-                    ));
-
-                    for test in tests {
-                        // Test generate_row().
-                        let mut program = program.clone();
-                        program.row = test.0;
-                        program.generate_row();
-                        assert_eq!(
-                            &program.instructions[base_instructions.len()..],
-                            &test.1[..]
-                        );
-
-                        // Test LineProgram::from().
-                        let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-                        let debug_line_offset = program
-                            .write(
-                                &mut debug_line,
-                                encoding,
-                                &debug_line_str_offsets,
-                                &debug_str_offsets,
-                            )
-                            .unwrap();
-
-                        let read_debug_line =
-                            read::DebugLine::new(debug_line.slice(), LittleEndian);
-                        let read_program = read_debug_line
-                            .program(
-                                debug_line_offset,
-                                address_size,
-                                Some(read::EndianSlice::new(dir1, LittleEndian)),
-                                Some(read::EndianSlice::new(file1, LittleEndian)),
-                            )
-                            .unwrap();
-
-                        let dwarf = read::Dwarf::default();
-                        let mut convert_line_strings = LineStringTable::default();
-                        let mut convert_strings = StringTable::default();
-                        let (convert_program, _convert_files) = LineProgram::from(
-                            read_program,
-                            &dwarf,
-                            &mut convert_line_strings,
-                            &mut convert_strings,
-                            convert_address,
-                        )
-                        .unwrap();
-                        assert_eq!(
-                            &convert_program.instructions[base_instructions.len()..],
-                            &test.1[..]
-                        );
-                    }
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_line_instruction() {
-        let dir1 = &b"dir1"[..];
-        let file1 = &b"file1"[..];
-
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let mut program = LineProgram::new(
-                        encoding,
-                        LineEncoding::default(),
-                        LineString::String(dir1.to_vec()),
-                        LineString::String(file1.to_vec()),
-                        None,
-                    );
-                    let dir_id = program.default_directory();
-                    let file_id =
-                        program.add_file(LineString::String(file1.to_vec()), dir_id, None);
-
-                    for &(ref inst, ref expect_inst) in &[
-                        (
-                            LineInstruction::Special(OPCODE_BASE),
-                            read::LineInstruction::Special(OPCODE_BASE),
-                        ),
-                        (
-                            LineInstruction::Special(255),
-                            read::LineInstruction::Special(255),
-                        ),
-                        (LineInstruction::Copy, read::LineInstruction::Copy),
-                        (
-                            LineInstruction::AdvancePc(0x12),
-                            read::LineInstruction::AdvancePc(0x12),
-                        ),
-                        (
-                            LineInstruction::AdvanceLine(0x12),
-                            read::LineInstruction::AdvanceLine(0x12),
-                        ),
-                        (
-                            LineInstruction::SetFile(file_id),
-                            read::LineInstruction::SetFile(file_id.raw()),
-                        ),
-                        (
-                            LineInstruction::SetColumn(0x12),
-                            read::LineInstruction::SetColumn(0x12),
-                        ),
-                        (
-                            LineInstruction::NegateStatement,
-                            read::LineInstruction::NegateStatement,
-                        ),
-                        (
-                            LineInstruction::SetBasicBlock,
-                            read::LineInstruction::SetBasicBlock,
-                        ),
-                        (
-                            LineInstruction::ConstAddPc,
-                            read::LineInstruction::ConstAddPc,
-                        ),
-                        (
-                            LineInstruction::SetPrologueEnd,
-                            read::LineInstruction::SetPrologueEnd,
-                        ),
-                        (
-                            LineInstruction::SetEpilogueBegin,
-                            read::LineInstruction::SetEpilogueBegin,
-                        ),
-                        (
-                            LineInstruction::SetIsa(0x12),
-                            read::LineInstruction::SetIsa(0x12),
-                        ),
-                        (
-                            LineInstruction::EndSequence,
-                            read::LineInstruction::EndSequence,
-                        ),
-                        (
-                            LineInstruction::SetAddress(Address::Constant(0x12)),
-                            read::LineInstruction::SetAddress(0x12),
-                        ),
-                        (
-                            LineInstruction::SetDiscriminator(0x12),
-                            read::LineInstruction::SetDiscriminator(0x12),
-                        ),
-                    ][..]
-                    {
-                        let mut program = program.clone();
-                        program.instructions.push(*inst);
-
-                        let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-                        let debug_line_offset = program
-                            .write(
-                                &mut debug_line,
-                                encoding,
-                                &debug_line_str_offsets,
-                                &debug_str_offsets,
-                            )
-                            .unwrap();
-
-                        let read_debug_line =
-                            read::DebugLine::new(debug_line.slice(), LittleEndian);
-                        let read_program = read_debug_line
-                            .program(
-                                debug_line_offset,
-                                address_size,
-                                Some(read::EndianSlice::new(dir1, LittleEndian)),
-                                Some(read::EndianSlice::new(file1, LittleEndian)),
-                            )
-                            .unwrap();
-                        let read_header = read_program.header();
-                        let mut read_insts = read_header.instructions();
-                        assert_eq!(
-                            *expect_inst,
-                            read_insts.next_instruction(read_header).unwrap().unwrap()
-                        );
-                        assert_eq!(None, read_insts.next_instruction(read_header).unwrap());
-                    }
-                }
-            }
-        }
-    }
-
-    // Test that the address/line advance is correct. We don't test for optimality.
-    #[test]
-    fn test_advance() {
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 8,
-        };
-
-        let dir1 = &b"dir1"[..];
-        let file1 = &b"file1"[..];
-
-        let addresses = 0..50;
-        let lines = -10..25i64;
-
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-
-        for minimum_instruction_length in vec![1, 4] {
-            for maximum_operations_per_instruction in vec![1, 3] {
-                for line_base in vec![-5, 0] {
-                    for line_range in vec![10, 20] {
-                        let line_encoding = LineEncoding {
-                            minimum_instruction_length,
-                            maximum_operations_per_instruction,
-                            line_base,
-                            line_range,
-                            default_is_stmt: true,
-                        };
-                        let mut program = LineProgram::new(
-                            encoding,
-                            line_encoding,
-                            LineString::String(dir1.to_vec()),
-                            LineString::String(file1.to_vec()),
-                            None,
-                        );
-                        for address_advance in addresses.clone() {
-                            program.begin_sequence(Some(Address::Constant(0x1000)));
-                            program.row().line = 0x10000;
-                            program.generate_row();
-                            for line_advance in lines.clone() {
-                                {
-                                    let row = program.row();
-                                    row.address_offset +=
-                                        address_advance * u64::from(minimum_instruction_length);
-                                    row.line = row.line.wrapping_add(line_advance as u64);
-                                }
-                                program.generate_row();
-                            }
-                            let address_offset = program.row().address_offset
-                                + u64::from(minimum_instruction_length);
-                            program.end_sequence(address_offset);
-                        }
-
-                        let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-                        let debug_line_offset = program
-                            .write(
-                                &mut debug_line,
-                                encoding,
-                                &debug_line_str_offsets,
-                                &debug_str_offsets,
-                            )
-                            .unwrap();
-
-                        let read_debug_line =
-                            read::DebugLine::new(debug_line.slice(), LittleEndian);
-                        let read_program = read_debug_line
-                            .program(
-                                debug_line_offset,
-                                8,
-                                Some(read::EndianSlice::new(dir1, LittleEndian)),
-                                Some(read::EndianSlice::new(file1, LittleEndian)),
-                            )
-                            .unwrap();
-
-                        let mut rows = read_program.rows();
-                        for address_advance in addresses.clone() {
-                            let mut address;
-                            let mut line;
-                            {
-                                let row = rows.next_row().unwrap().unwrap().1;
-                                address = row.address();
-                                line = row.line().unwrap().get();
-                            }
-                            assert_eq!(address, 0x1000);
-                            assert_eq!(line, 0x10000);
-                            for line_advance in lines.clone() {
-                                let row = rows.next_row().unwrap().unwrap().1;
-                                assert_eq!(
-                                    row.address() - address,
-                                    address_advance * u64::from(minimum_instruction_length)
-                                );
-                                assert_eq!(
-                                    (row.line().unwrap().get() as i64) - (line as i64),
-                                    line_advance
-                                );
-                                address = row.address();
-                                line = row.line().unwrap().get();
-                            }
-                            let row = rows.next_row().unwrap().unwrap().1;
-                            assert!(row.end_sequence());
-                        }
-                    }
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_line_string() {
-        let version = 5;
-
-        let file = b"file1";
-
-        let mut strings = StringTable::default();
-        let string_id = strings.add("file2");
-        let mut debug_str = DebugStr::from(EndianVec::new(LittleEndian));
-        let debug_str_offsets = strings.write(&mut debug_str).unwrap();
-
-        let mut line_strings = LineStringTable::default();
-        let line_string_id = line_strings.add("file3");
-        let mut debug_line_str = DebugLineStr::from(EndianVec::new(LittleEndian));
-        let debug_line_str_offsets = line_strings.write(&mut debug_line_str).unwrap();
-
-        for &address_size in &[4, 8] {
-            for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                let encoding = Encoding {
-                    format,
-                    version,
-                    address_size,
-                };
-
-                for (file, expect_file) in vec![
-                    (
-                        LineString::String(file.to_vec()),
-                        read::AttributeValue::String(read::EndianSlice::new(file, LittleEndian)),
-                    ),
-                    (
-                        LineString::StringRef(string_id),
-                        read::AttributeValue::DebugStrRef(debug_str_offsets.get(string_id)),
-                    ),
-                    (
-                        LineString::LineStringRef(line_string_id),
-                        read::AttributeValue::DebugLineStrRef(
-                            debug_line_str_offsets.get(line_string_id),
-                        ),
-                    ),
-                ] {
-                    let program = LineProgram::new(
-                        encoding,
-                        LineEncoding::default(),
-                        LineString::String(b"dir".to_vec()),
-                        file,
-                        None,
-                    );
-
-                    let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-                    let debug_line_offset = program
-                        .write(
-                            &mut debug_line,
-                            encoding,
-                            &debug_line_str_offsets,
-                            &debug_str_offsets,
-                        )
-                        .unwrap();
-
-                    let read_debug_line = read::DebugLine::new(debug_line.slice(), LittleEndian);
-                    let read_program = read_debug_line
-                        .program(debug_line_offset, address_size, None, None)
-                        .unwrap();
-                    let read_header = read_program.header();
-                    assert_eq!(read_header.file(0).unwrap().path_name(), expect_file);
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_missing_comp_dir() {
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let program = LineProgram::new(
-                        encoding,
-                        LineEncoding::default(),
-                        LineString::String(Vec::new()),
-                        LineString::String(Vec::new()),
-                        None,
-                    );
-
-                    let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-                    let debug_line_offset = program
-                        .write(
-                            &mut debug_line,
-                            encoding,
-                            &debug_line_str_offsets,
-                            &debug_str_offsets,
-                        )
-                        .unwrap();
-
-                    let read_debug_line = read::DebugLine::new(debug_line.slice(), LittleEndian);
-                    let read_program = read_debug_line
-                        .program(
-                            debug_line_offset,
-                            address_size,
-                            // Testing missing comp_dir/comp_name.
-                            None,
-                            None,
-                        )
-                        .unwrap();
-
-                    let dwarf = read::Dwarf::default();
-                    let mut convert_line_strings = LineStringTable::default();
-                    let mut convert_strings = StringTable::default();
-                    let convert_address = &|address| Some(Address::Constant(address));
-                    LineProgram::from(
-                        read_program,
-                        &dwarf,
-                        &mut convert_line_strings,
-                        &mut convert_strings,
-                        convert_address,
-                    )
-                    .unwrap();
-                }
-            }
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/loc.rs b/vendor/gimli-0.27.3/src/write/loc.rs
deleted file mode 100644
index 6dfe45a6c..000000000
--- a/vendor/gimli-0.27.3/src/write/loc.rs
+++ /dev/null
@@ -1,550 +0,0 @@
-use alloc::vec::Vec;
-use indexmap::IndexSet;
-use std::ops::{Deref, DerefMut};
-
-use crate::common::{Encoding, LocationListsOffset, SectionId};
-use crate::write::{
-    Address, BaseId, DebugInfoReference, Error, Expression, Result, Section, Sections, UnitOffsets,
-    Writer,
-};
-
-define_section!(
-    DebugLoc,
-    LocationListsOffset,
-    "A writable `.debug_loc` section."
-);
-define_section!(
-    DebugLocLists,
-    LocationListsOffset,
-    "A writable `.debug_loclists` section."
-);
-
-define_offsets!(
-    LocationListOffsets: LocationListId => LocationListsOffset,
-    "The section offsets of a series of location lists within the `.debug_loc` or `.debug_loclists` sections."
-);
-
-define_id!(
-    LocationListId,
-    "An identifier for a location list in a `LocationListTable`."
-);
-
-/// A table of location lists that will be stored in a `.debug_loc` or `.debug_loclists` section.
-#[derive(Debug, Default)]
-pub struct LocationListTable {
-    base_id: BaseId,
-    locations: IndexSet<LocationList>,
-}
-
-impl LocationListTable {
-    /// Add a location list to the table.
-    pub fn add(&mut self, loc_list: LocationList) -> LocationListId {
-        let (index, _) = self.locations.insert_full(loc_list);
-        LocationListId::new(self.base_id, index)
-    }
-
-    /// Write the location list table to the appropriate section for the given DWARF version.
-    pub(crate) fn write<W: Writer>(
-        &self,
-        sections: &mut Sections<W>,
-        encoding: Encoding,
-        unit_offsets: Option<&UnitOffsets>,
-    ) -> Result<LocationListOffsets> {
-        if self.locations.is_empty() {
-            return Ok(LocationListOffsets::none());
-        }
-
-        match encoding.version {
-            2..=4 => self.write_loc(
-                &mut sections.debug_loc,
-                &mut sections.debug_loc_refs,
-                encoding,
-                unit_offsets,
-            ),
-            5 => self.write_loclists(
-                &mut sections.debug_loclists,
-                &mut sections.debug_loclists_refs,
-                encoding,
-                unit_offsets,
-            ),
-            _ => Err(Error::UnsupportedVersion(encoding.version)),
-        }
-    }
-
-    /// Write the location list table to the `.debug_loc` section.
-    fn write_loc<W: Writer>(
-        &self,
-        w: &mut DebugLoc<W>,
-        refs: &mut Vec<DebugInfoReference>,
-        encoding: Encoding,
-        unit_offsets: Option<&UnitOffsets>,
-    ) -> Result<LocationListOffsets> {
-        let address_size = encoding.address_size;
-        let mut offsets = Vec::new();
-        for loc_list in self.locations.iter() {
-            offsets.push(w.offset());
-            for loc in &loc_list.0 {
-                // Note that we must ensure none of the ranges have both begin == 0 and end == 0.
-                // We do this by ensuring that begin != end, which is a bit more restrictive
-                // than required, but still seems reasonable.
-                match *loc {
-                    Location::BaseAddress { address } => {
-                        let marker = !0 >> (64 - address_size * 8);
-                        w.write_udata(marker, address_size)?;
-                        w.write_address(address, address_size)?;
-                    }
-                    Location::OffsetPair {
-                        begin,
-                        end,
-                        ref data,
-                    } => {
-                        if begin == end {
-                            return Err(Error::InvalidRange);
-                        }
-                        w.write_udata(begin, address_size)?;
-                        w.write_udata(end, address_size)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                    Location::StartEnd {
-                        begin,
-                        end,
-                        ref data,
-                    } => {
-                        if begin == end {
-                            return Err(Error::InvalidRange);
-                        }
-                        w.write_address(begin, address_size)?;
-                        w.write_address(end, address_size)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                    Location::StartLength {
-                        begin,
-                        length,
-                        ref data,
-                    } => {
-                        let end = match begin {
-                            Address::Constant(begin) => Address::Constant(begin + length),
-                            Address::Symbol { symbol, addend } => Address::Symbol {
-                                symbol,
-                                addend: addend + length as i64,
-                            },
-                        };
-                        if begin == end {
-                            return Err(Error::InvalidRange);
-                        }
-                        w.write_address(begin, address_size)?;
-                        w.write_address(end, address_size)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                    Location::DefaultLocation { .. } => {
-                        return Err(Error::InvalidRange);
-                    }
-                }
-            }
-            w.write_udata(0, address_size)?;
-            w.write_udata(0, address_size)?;
-        }
-        Ok(LocationListOffsets {
-            base_id: self.base_id,
-            offsets,
-        })
-    }
-
-    /// Write the location list table to the `.debug_loclists` section.
-    fn write_loclists<W: Writer>(
-        &self,
-        w: &mut DebugLocLists<W>,
-        refs: &mut Vec<DebugInfoReference>,
-        encoding: Encoding,
-        unit_offsets: Option<&UnitOffsets>,
-    ) -> Result<LocationListOffsets> {
-        let mut offsets = Vec::new();
-
-        if encoding.version != 5 {
-            return Err(Error::NeedVersion(5));
-        }
-
-        let length_offset = w.write_initial_length(encoding.format)?;
-        let length_base = w.len();
-
-        w.write_u16(encoding.version)?;
-        w.write_u8(encoding.address_size)?;
-        w.write_u8(0)?; // segment_selector_size
-        w.write_u32(0)?; // offset_entry_count (when set to zero DW_FORM_rnglistx can't be used, see section 7.28)
-                         // FIXME implement DW_FORM_rnglistx writing and implement the offset entry list
-
-        for loc_list in self.locations.iter() {
-            offsets.push(w.offset());
-            for loc in &loc_list.0 {
-                match *loc {
-                    Location::BaseAddress { address } => {
-                        w.write_u8(crate::constants::DW_LLE_base_address.0)?;
-                        w.write_address(address, encoding.address_size)?;
-                    }
-                    Location::OffsetPair {
-                        begin,
-                        end,
-                        ref data,
-                    } => {
-                        w.write_u8(crate::constants::DW_LLE_offset_pair.0)?;
-                        w.write_uleb128(begin)?;
-                        w.write_uleb128(end)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                    Location::StartEnd {
-                        begin,
-                        end,
-                        ref data,
-                    } => {
-                        w.write_u8(crate::constants::DW_LLE_start_end.0)?;
-                        w.write_address(begin, encoding.address_size)?;
-                        w.write_address(end, encoding.address_size)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                    Location::StartLength {
-                        begin,
-                        length,
-                        ref data,
-                    } => {
-                        w.write_u8(crate::constants::DW_LLE_start_length.0)?;
-                        w.write_address(begin, encoding.address_size)?;
-                        w.write_uleb128(length)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                    Location::DefaultLocation { ref data } => {
-                        w.write_u8(crate::constants::DW_LLE_default_location.0)?;
-                        write_expression(&mut w.0, refs, encoding, unit_offsets, data)?;
-                    }
-                }
-            }
-
-            w.write_u8(crate::constants::DW_LLE_end_of_list.0)?;
-        }
-
-        let length = (w.len() - length_base) as u64;
-        w.write_initial_length_at(length_offset, length, encoding.format)?;
-
-        Ok(LocationListOffsets {
-            base_id: self.base_id,
-            offsets,
-        })
-    }
-}
-
-/// A locations list that will be stored in a `.debug_loc` or `.debug_loclists` section.
-#[derive(Clone, Debug, Eq, PartialEq, Hash)]
-pub struct LocationList(pub Vec<Location>);
-
-/// A single location.
-#[derive(Clone, Debug, Eq, PartialEq, Hash)]
-pub enum Location {
-    /// DW_LLE_base_address
-    BaseAddress {
-        /// Base address.
-        address: Address,
-    },
-    /// DW_LLE_offset_pair
-    OffsetPair {
-        /// Start of range relative to base address.
-        begin: u64,
-        /// End of range relative to base address.
-        end: u64,
-        /// Location description.
-        data: Expression,
-    },
-    /// DW_LLE_start_end
-    StartEnd {
-        /// Start of range.
-        begin: Address,
-        /// End of range.
-        end: Address,
-        /// Location description.
-        data: Expression,
-    },
-    /// DW_LLE_start_length
-    StartLength {
-        /// Start of range.
-        begin: Address,
-        /// Length of range.
-        length: u64,
-        /// Location description.
-        data: Expression,
-    },
-    /// DW_LLE_default_location
-    DefaultLocation {
-        /// Location description.
-        data: Expression,
-    },
-}
-
-fn write_expression<W: Writer>(
-    w: &mut W,
-    refs: &mut Vec<DebugInfoReference>,
-    encoding: Encoding,
-    unit_offsets: Option<&UnitOffsets>,
-    val: &Expression,
-) -> Result<()> {
-    let size = val.size(encoding, unit_offsets) as u64;
-    if encoding.version <= 4 {
-        w.write_udata(size, 2)?;
-    } else {
-        w.write_uleb128(size)?;
-    }
-    val.write(w, Some(refs), encoding, unit_offsets)?;
-    Ok(())
-}
-
-#[cfg(feature = "read")]
-mod convert {
-    use super::*;
-
-    use crate::read::{self, Reader};
-    use crate::write::{ConvertError, ConvertResult, ConvertUnitContext};
-
-    impl LocationList {
-        /// Create a location list by reading the data from the give location list iter.
-        pub(crate) fn from<R: Reader<Offset = usize>>(
-            mut from: read::RawLocListIter<R>,
-            context: &ConvertUnitContext<R>,
-        ) -> ConvertResult<Self> {
-            let mut have_base_address = context.base_address != Address::Constant(0);
-            let convert_address =
-                |x| (context.convert_address)(x).ok_or(ConvertError::InvalidAddress);
-            let convert_expression = |x| {
-                Expression::from(
-                    x,
-                    context.unit.encoding(),
-                    Some(context.dwarf),
-                    Some(context.unit),
-                    Some(context.entry_ids),
-                    context.convert_address,
-                )
-            };
-            let mut loc_list = Vec::new();
-            while let Some(from_loc) = from.next()? {
-                let loc = match from_loc {
-                    read::RawLocListEntry::AddressOrOffsetPair { begin, end, data } => {
-                        // These were parsed as addresses, even if they are offsets.
-                        let begin = convert_address(begin)?;
-                        let end = convert_address(end)?;
-                        let data = convert_expression(data)?;
-                        match (begin, end) {
-                            (Address::Constant(begin_offset), Address::Constant(end_offset)) => {
-                                if have_base_address {
-                                    Location::OffsetPair {
-                                        begin: begin_offset,
-                                        end: end_offset,
-                                        data,
-                                    }
-                                } else {
-                                    Location::StartEnd { begin, end, data }
-                                }
-                            }
-                            _ => {
-                                if have_base_address {
-                                    // At least one of begin/end is an address, but we also have
-                                    // a base address. Adding addresses is undefined.
-                                    return Err(ConvertError::InvalidRangeRelativeAddress);
-                                }
-                                Location::StartEnd { begin, end, data }
-                            }
-                        }
-                    }
-                    read::RawLocListEntry::BaseAddress { addr } => {
-                        have_base_address = true;
-                        let address = convert_address(addr)?;
-                        Location::BaseAddress { address }
-                    }
-                    read::RawLocListEntry::BaseAddressx { addr } => {
-                        have_base_address = true;
-                        let address = convert_address(context.dwarf.address(context.unit, addr)?)?;
-                        Location::BaseAddress { address }
-                    }
-                    read::RawLocListEntry::StartxEndx { begin, end, data } => {
-                        let begin = convert_address(context.dwarf.address(context.unit, begin)?)?;
-                        let end = convert_address(context.dwarf.address(context.unit, end)?)?;
-                        let data = convert_expression(data)?;
-                        Location::StartEnd { begin, end, data }
-                    }
-                    read::RawLocListEntry::StartxLength {
-                        begin,
-                        length,
-                        data,
-                    } => {
-                        let begin = convert_address(context.dwarf.address(context.unit, begin)?)?;
-                        let data = convert_expression(data)?;
-                        Location::StartLength {
-                            begin,
-                            length,
-                            data,
-                        }
-                    }
-                    read::RawLocListEntry::OffsetPair { begin, end, data } => {
-                        let data = convert_expression(data)?;
-                        Location::OffsetPair { begin, end, data }
-                    }
-                    read::RawLocListEntry::StartEnd { begin, end, data } => {
-                        let begin = convert_address(begin)?;
-                        let end = convert_address(end)?;
-                        let data = convert_expression(data)?;
-                        Location::StartEnd { begin, end, data }
-                    }
-                    read::RawLocListEntry::StartLength {
-                        begin,
-                        length,
-                        data,
-                    } => {
-                        let begin = convert_address(begin)?;
-                        let data = convert_expression(data)?;
-                        Location::StartLength {
-                            begin,
-                            length,
-                            data,
-                        }
-                    }
-                    read::RawLocListEntry::DefaultLocation { data } => {
-                        let data = convert_expression(data)?;
-                        Location::DefaultLocation { data }
-                    }
-                };
-                // In some cases, existing data may contain begin == end, filtering
-                // these out.
-                match loc {
-                    Location::StartLength { length, .. } if length == 0 => continue,
-                    Location::StartEnd { begin, end, .. } if begin == end => continue,
-                    Location::OffsetPair { begin, end, .. } if begin == end => continue,
-                    _ => (),
-                }
-                loc_list.push(loc);
-            }
-            Ok(LocationList(loc_list))
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::common::{
-        DebugAbbrevOffset, DebugAddrBase, DebugInfoOffset, DebugLocListsBase, DebugRngListsBase,
-        DebugStrOffsetsBase, Format,
-    };
-    use crate::read;
-    use crate::write::{
-        ConvertUnitContext, EndianVec, LineStringTable, RangeListTable, StringTable,
-    };
-    use crate::LittleEndian;
-    use std::collections::HashMap;
-    use std::sync::Arc;
-
-    #[test]
-    fn test_loc_list() {
-        let mut line_strings = LineStringTable::default();
-        let mut strings = StringTable::default();
-        let mut expression = Expression::new();
-        expression.op_constu(0);
-
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-
-                    let mut loc_list = LocationList(vec![
-                        Location::StartLength {
-                            begin: Address::Constant(6666),
-                            length: 7777,
-                            data: expression.clone(),
-                        },
-                        Location::StartEnd {
-                            begin: Address::Constant(4444),
-                            end: Address::Constant(5555),
-                            data: expression.clone(),
-                        },
-                        Location::BaseAddress {
-                            address: Address::Constant(1111),
-                        },
-                        Location::OffsetPair {
-                            begin: 2222,
-                            end: 3333,
-                            data: expression.clone(),
-                        },
-                    ]);
-                    if version >= 5 {
-                        loc_list.0.push(Location::DefaultLocation {
-                            data: expression.clone(),
-                        });
-                    }
-
-                    let mut locations = LocationListTable::default();
-                    let loc_list_id = locations.add(loc_list.clone());
-
-                    let mut sections = Sections::new(EndianVec::new(LittleEndian));
-                    let loc_list_offsets = locations.write(&mut sections, encoding, None).unwrap();
-                    assert!(sections.debug_loc_refs.is_empty());
-                    assert!(sections.debug_loclists_refs.is_empty());
-
-                    let read_debug_loc =
-                        read::DebugLoc::new(sections.debug_loc.slice(), LittleEndian);
-                    let read_debug_loclists =
-                        read::DebugLocLists::new(sections.debug_loclists.slice(), LittleEndian);
-                    let read_loc = read::LocationLists::new(read_debug_loc, read_debug_loclists);
-                    let offset = loc_list_offsets.get(loc_list_id);
-                    let read_loc_list = read_loc.raw_locations(offset, encoding).unwrap();
-
-                    let dwarf = read::Dwarf {
-                        locations: read_loc,
-                        ..Default::default()
-                    };
-                    let unit = read::Unit {
-                        header: read::UnitHeader::new(
-                            encoding,
-                            0,
-                            read::UnitType::Compilation,
-                            DebugAbbrevOffset(0),
-                            DebugInfoOffset(0).into(),
-                            read::EndianSlice::default(),
-                        ),
-                        abbreviations: Arc::new(read::Abbreviations::default()),
-                        name: None,
-                        comp_dir: None,
-                        low_pc: 0,
-                        str_offsets_base: DebugStrOffsetsBase(0),
-                        addr_base: DebugAddrBase(0),
-                        loclists_base: DebugLocListsBase(0),
-                        rnglists_base: DebugRngListsBase(0),
-                        line_program: None,
-                        dwo_id: None,
-                    };
-                    let context = ConvertUnitContext {
-                        dwarf: &dwarf,
-                        unit: &unit,
-                        line_strings: &mut line_strings,
-                        strings: &mut strings,
-                        ranges: &mut RangeListTable::default(),
-                        locations: &mut locations,
-                        convert_address: &|address| Some(Address::Constant(address)),
-                        base_address: Address::Constant(0),
-                        line_program_offset: None,
-                        line_program_files: Vec::new(),
-                        entry_ids: &HashMap::new(),
-                    };
-                    let convert_loc_list = LocationList::from(read_loc_list, &context).unwrap();
-
-                    if version <= 4 {
-                        loc_list.0[0] = Location::StartEnd {
-                            begin: Address::Constant(6666),
-                            end: Address::Constant(6666 + 7777),
-                            data: expression.clone(),
-                        };
-                    }
-                    assert_eq!(loc_list, convert_loc_list);
-                }
-            }
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/mod.rs b/vendor/gimli-0.27.3/src/write/mod.rs
deleted file mode 100644
index 47ba6319d..000000000
--- a/vendor/gimli-0.27.3/src/write/mod.rs
+++ /dev/null
@@ -1,425 +0,0 @@
-//! Write DWARF debugging information.
-//!
-//! ## API Structure
-//!
-//! This module works by building up a representation of the debugging information
-//! in memory, and then writing it all at once. It supports two major use cases:
-//!
-//! * Use the [`DwarfUnit`](./struct.DwarfUnit.html) type when writing DWARF
-//! for a single compilation unit.
-//!
-//! * Use the [`Dwarf`](./struct.Dwarf.html) type when writing DWARF for multiple
-//! compilation units.
-//!
-//! The module also supports reading in DWARF debugging information and writing it out
-//! again, possibly after modifying it. Create a [`read::Dwarf`](../read/struct.Dwarf.html)
-//! instance, and then use [`Dwarf::from`](./struct.Dwarf.html#method.from) to convert
-//! it to a writable instance.
-//!
-//! ## Example Usage
-//!
-//! Write a compilation unit containing only the top level DIE.
-//!
-//! ```rust
-//! use gimli::write::{
-//!     Address, AttributeValue, DwarfUnit, EndianVec, Error, Range, RangeList, Sections,
-//! };
-//!
-//! fn example() -> Result<(), Error> {
-//!     // Choose the encoding parameters.
-//!     let encoding = gimli::Encoding {
-//!         format: gimli::Format::Dwarf32,
-//!         version: 5,
-//!         address_size: 8,
-//!     };
-//!     // Create a container for a single compilation unit.
-//!     let mut dwarf = DwarfUnit::new(encoding);
-//!     // Set a range attribute on the root DIE.
-//!     let range_list = RangeList(vec![Range::StartLength {
-//!         begin: Address::Constant(0x100),
-//!         length: 42,
-//!     }]);
-//!     let range_list_id = dwarf.unit.ranges.add(range_list);
-//!     let root = dwarf.unit.root();
-//!     dwarf.unit.get_mut(root).set(
-//!         gimli::DW_AT_ranges,
-//!         AttributeValue::RangeListRef(range_list_id),
-//!     );
-//!     // Create a `Vec` for each DWARF section.
-//!     let mut sections = Sections::new(EndianVec::new(gimli::LittleEndian));
-//!     // Finally, write the DWARF data to the sections.
-//!     dwarf.write(&mut sections)?;
-//!     sections.for_each(|id, data| {
-//!         // Here you can add the data to the output object file.
-//!         Ok(())
-//!     })
-//! }
-//! # fn main() {
-//! #     example().unwrap();
-//! # }
-
-use std::error;
-use std::fmt;
-use std::result;
-
-use crate::constants;
-
-mod endian_vec;
-pub use self::endian_vec::*;
-
-mod writer;
-pub use self::writer::*;
-
-#[macro_use]
-mod section;
-pub use self::section::*;
-
-macro_rules! define_id {
-    ($name:ident, $docs:expr) => {
-        #[doc=$docs]
-        #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-        pub struct $name {
-            base_id: BaseId,
-            index: usize,
-        }
-
-        impl $name {
-            #[inline]
-            fn new(base_id: BaseId, index: usize) -> Self {
-                $name { base_id, index }
-            }
-        }
-    };
-}
-
-macro_rules! define_offsets {
-    ($offsets:ident: $id:ident => $offset:ident, $off_doc:expr) => {
-        #[doc=$off_doc]
-        #[derive(Debug)]
-        pub struct $offsets {
-            base_id: BaseId,
-            // We know ids start at 0.
-            offsets: Vec<$offset>,
-        }
-
-        impl $offsets {
-            /// Return an empty list of offsets.
-            #[inline]
-            pub fn none() -> Self {
-                $offsets {
-                    base_id: BaseId::default(),
-                    offsets: Vec::new(),
-                }
-            }
-
-            /// Get the offset
-            ///
-            /// # Panics
-            ///
-            /// Panics if `id` is invalid.
-            #[inline]
-            pub fn get(&self, id: $id) -> $offset {
-                debug_assert_eq!(self.base_id, id.base_id);
-                self.offsets[id.index]
-            }
-
-            /// Return the number of offsets.
-            #[inline]
-            pub fn count(&self) -> usize {
-                self.offsets.len()
-            }
-        }
-    };
-}
-
-mod abbrev;
-pub use self::abbrev::*;
-
-mod cfi;
-pub use self::cfi::*;
-
-mod dwarf;
-pub use self::dwarf::*;
-
-mod line;
-pub use self::line::*;
-
-mod loc;
-pub use self::loc::*;
-
-mod op;
-pub use self::op::*;
-
-mod range;
-pub use self::range::*;
-
-mod str;
-pub use self::str::*;
-
-mod unit;
-pub use self::unit::*;
-
-/// An error that occurred when writing.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-pub enum Error {
-    /// The given offset is out of bounds.
-    OffsetOutOfBounds,
-    /// The given length is out of bounds.
-    LengthOutOfBounds,
-    /// The attribute value is an invalid for writing.
-    InvalidAttributeValue,
-    /// The value is too large for the encoding form.
-    ValueTooLarge,
-    /// Unsupported word size.
-    UnsupportedWordSize(u8),
-    /// Unsupported DWARF version.
-    UnsupportedVersion(u16),
-    /// The unit length is too large for the requested DWARF format.
-    InitialLengthOverflow,
-    /// The address is invalid.
-    InvalidAddress,
-    /// The reference is invalid.
-    InvalidReference,
-    /// A requested feature requires a different DWARF version.
-    NeedVersion(u16),
-    /// Strings in line number program have mismatched forms.
-    LineStringFormMismatch,
-    /// The range is empty or otherwise invalid.
-    InvalidRange,
-    /// The line number program encoding is incompatible with the unit encoding.
-    IncompatibleLineProgramEncoding,
-    /// Could not encode code offset for a frame instruction.
-    InvalidFrameCodeOffset(u32),
-    /// Could not encode data offset for a frame instruction.
-    InvalidFrameDataOffset(i32),
-    /// Unsupported eh_frame pointer encoding.
-    UnsupportedPointerEncoding(constants::DwEhPe),
-    /// Unsupported reference in CFI expression.
-    UnsupportedCfiExpressionReference,
-    /// Unsupported forward reference in expression.
-    UnsupportedExpressionForwardReference,
-}
-
-impl fmt::Display for Error {
-    fn fmt(&self, f: &mut fmt::Formatter) -> result::Result<(), fmt::Error> {
-        match *self {
-            Error::OffsetOutOfBounds => write!(f, "The given offset is out of bounds."),
-            Error::LengthOutOfBounds => write!(f, "The given length is out of bounds."),
-            Error::InvalidAttributeValue => {
-                write!(f, "The attribute value is an invalid for writing.")
-            }
-            Error::ValueTooLarge => write!(f, "The value is too large for the encoding form."),
-            Error::UnsupportedWordSize(size) => write!(f, "Unsupported word size: {}", size),
-            Error::UnsupportedVersion(version) => {
-                write!(f, "Unsupported DWARF version: {}", version)
-            }
-            Error::InitialLengthOverflow => write!(
-                f,
-                "The unit length is too large for the requested DWARF format."
-            ),
-            Error::InvalidAddress => write!(f, "The address is invalid."),
-            Error::InvalidReference => write!(f, "The reference is invalid."),
-            Error::NeedVersion(version) => write!(
-                f,
-                "A requested feature requires a DWARF version {}.",
-                version
-            ),
-            Error::LineStringFormMismatch => {
-                write!(f, "Strings in line number program have mismatched forms.")
-            }
-            Error::InvalidRange => write!(f, "The range is empty or otherwise invalid."),
-            Error::IncompatibleLineProgramEncoding => write!(
-                f,
-                "The line number program encoding is incompatible with the unit encoding."
-            ),
-            Error::InvalidFrameCodeOffset(offset) => write!(
-                f,
-                "Could not encode code offset ({}) for a frame instruction.",
-                offset,
-            ),
-            Error::InvalidFrameDataOffset(offset) => write!(
-                f,
-                "Could not encode data offset ({}) for a frame instruction.",
-                offset,
-            ),
-            Error::UnsupportedPointerEncoding(eh_pe) => {
-                write!(f, "Unsupported eh_frame pointer encoding ({}).", eh_pe)
-            }
-            Error::UnsupportedCfiExpressionReference => {
-                write!(f, "Unsupported reference in CFI expression.")
-            }
-            Error::UnsupportedExpressionForwardReference => {
-                write!(f, "Unsupported forward reference in expression.")
-            }
-        }
-    }
-}
-
-impl error::Error for Error {}
-
-/// The result of a write.
-pub type Result<T> = result::Result<T, Error>;
-
-/// An address.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub enum Address {
-    /// A fixed address that does not require relocation.
-    Constant(u64),
-    /// An address that is relative to a symbol which may be relocated.
-    Symbol {
-        /// The symbol that the address is relative to.
-        ///
-        /// The meaning of this value is decided by the writer, but
-        /// will typically be an index into a symbol table.
-        symbol: usize,
-        /// The offset of the address relative to the symbol.
-        ///
-        /// This will typically be used as the addend in a relocation.
-        addend: i64,
-    },
-}
-
-/// A reference to a `.debug_info` entry.
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-pub enum Reference {
-    /// An external symbol.
-    ///
-    /// The meaning of this value is decided by the writer, but
-    /// will typically be an index into a symbol table.
-    Symbol(usize),
-    /// An entry in the same section.
-    ///
-    /// This only supports references in units that are emitted together.
-    Entry(UnitId, UnitEntryId),
-}
-
-// This type is only used in debug assertions.
-#[cfg(not(debug_assertions))]
-type BaseId = ();
-
-#[cfg(debug_assertions)]
-#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
-struct BaseId(usize);
-
-#[cfg(debug_assertions)]
-impl Default for BaseId {
-    fn default() -> Self {
-        use std::sync::atomic;
-        static BASE_ID: atomic::AtomicUsize = atomic::AtomicUsize::new(0);
-        BaseId(BASE_ID.fetch_add(1, atomic::Ordering::Relaxed))
-    }
-}
-
-#[cfg(feature = "read")]
-mod convert {
-    use super::*;
-    use crate::read;
-
-    pub(crate) use super::unit::convert::*;
-
-    /// An error that occurred when converting a read value into a write value.
-    #[derive(Debug, Clone, Copy, PartialEq, Eq)]
-    pub enum ConvertError {
-        /// An error occurred when reading.
-        Read(read::Error),
-        /// Writing of this attribute value is not implemented yet.
-        UnsupportedAttributeValue,
-        /// This attribute value is an invalid name/form combination.
-        InvalidAttributeValue,
-        /// A `.debug_info` reference does not refer to a valid entry.
-        InvalidDebugInfoOffset,
-        /// An address could not be converted.
-        InvalidAddress,
-        /// Writing this line number instruction is not implemented yet.
-        UnsupportedLineInstruction,
-        /// Writing this form of line string is not implemented yet.
-        UnsupportedLineStringForm,
-        /// A `.debug_line` file index is invalid.
-        InvalidFileIndex,
-        /// A `.debug_line` directory index is invalid.
-        InvalidDirectoryIndex,
-        /// A `.debug_line` line base is invalid.
-        InvalidLineBase,
-        /// A `.debug_line` reference is invalid.
-        InvalidLineRef,
-        /// A `.debug_info` unit entry reference is invalid.
-        InvalidUnitRef,
-        /// A `.debug_info` reference is invalid.
-        InvalidDebugInfoRef,
-        /// Invalid relative address in a range list.
-        InvalidRangeRelativeAddress,
-        /// Writing this CFI instruction is not implemented yet.
-        UnsupportedCfiInstruction,
-        /// Writing indirect pointers is not implemented yet.
-        UnsupportedIndirectAddress,
-        /// Writing this expression operation is not implemented yet.
-        UnsupportedOperation,
-        /// Operation branch target is invalid.
-        InvalidBranchTarget,
-        /// Writing this unit type is not supported yet.
-        UnsupportedUnitType,
-    }
-
-    impl fmt::Display for ConvertError {
-        fn fmt(&self, f: &mut fmt::Formatter) -> result::Result<(), fmt::Error> {
-            use self::ConvertError::*;
-            match *self {
-                Read(ref e) => e.fmt(f),
-                UnsupportedAttributeValue => {
-                    write!(f, "Writing of this attribute value is not implemented yet.")
-                }
-                InvalidAttributeValue => write!(
-                    f,
-                    "This attribute value is an invalid name/form combination."
-                ),
-                InvalidDebugInfoOffset => write!(
-                    f,
-                    "A `.debug_info` reference does not refer to a valid entry."
-                ),
-                InvalidAddress => write!(f, "An address could not be converted."),
-                UnsupportedLineInstruction => write!(
-                    f,
-                    "Writing this line number instruction is not implemented yet."
-                ),
-                UnsupportedLineStringForm => write!(
-                    f,
-                    "Writing this form of line string is not implemented yet."
-                ),
-                InvalidFileIndex => write!(f, "A `.debug_line` file index is invalid."),
-                InvalidDirectoryIndex => write!(f, "A `.debug_line` directory index is invalid."),
-                InvalidLineBase => write!(f, "A `.debug_line` line base is invalid."),
-                InvalidLineRef => write!(f, "A `.debug_line` reference is invalid."),
-                InvalidUnitRef => write!(f, "A `.debug_info` unit entry reference is invalid."),
-                InvalidDebugInfoRef => write!(f, "A `.debug_info` reference is invalid."),
-                InvalidRangeRelativeAddress => {
-                    write!(f, "Invalid relative address in a range list.")
-                }
-                UnsupportedCfiInstruction => {
-                    write!(f, "Writing this CFI instruction is not implemented yet.")
-                }
-                UnsupportedIndirectAddress => {
-                    write!(f, "Writing indirect pointers is not implemented yet.")
-                }
-                UnsupportedOperation => write!(
-                    f,
-                    "Writing this expression operation is not implemented yet."
-                ),
-                InvalidBranchTarget => write!(f, "Operation branch target is invalid."),
-                UnsupportedUnitType => write!(f, "Writing this unit type is not supported yet."),
-            }
-        }
-    }
-
-    impl error::Error for ConvertError {}
-
-    impl From<read::Error> for ConvertError {
-        fn from(e: read::Error) -> Self {
-            ConvertError::Read(e)
-        }
-    }
-
-    /// The result of a conversion.
-    pub type ConvertResult<T> = result::Result<T, ConvertError>;
-}
-#[cfg(feature = "read")]
-pub use self::convert::*;
diff --git a/vendor/gimli-0.27.3/src/write/op.rs b/vendor/gimli-0.27.3/src/write/op.rs
deleted file mode 100644
index 287083b3e..000000000
--- a/vendor/gimli-0.27.3/src/write/op.rs
+++ /dev/null
@@ -1,1618 +0,0 @@
-use alloc::boxed::Box;
-use alloc::vec::Vec;
-
-use crate::common::{Encoding, Register};
-use crate::constants::{self, DwOp};
-use crate::leb128::write::{sleb128_size, uleb128_size};
-use crate::write::{
-    Address, DebugInfoReference, Error, Reference, Result, UnitEntryId, UnitOffsets, Writer,
-};
-
-/// The bytecode for a DWARF expression or location description.
-#[derive(Debug, Default, Clone, PartialEq, Eq, Hash)]
-pub struct Expression {
-    operations: Vec<Operation>,
-}
-
-impl Expression {
-    /// Create an empty expression.
-    #[inline]
-    pub fn new() -> Self {
-        Self::default()
-    }
-
-    /// Create an expression from raw bytecode.
-    ///
-    /// This does not support operations that require references, such as `DW_OP_addr`.
-    #[inline]
-    pub fn raw(bytecode: Vec<u8>) -> Self {
-        Expression {
-            operations: vec![Operation::Raw(bytecode)],
-        }
-    }
-
-    /// Add an operation to the expression.
-    ///
-    /// This should only be used for operations that have no explicit operands.
-    pub fn op(&mut self, opcode: DwOp) {
-        self.operations.push(Operation::Simple(opcode));
-    }
-
-    /// Add a `DW_OP_addr` operation to the expression.
-    pub fn op_addr(&mut self, address: Address) {
-        self.operations.push(Operation::Address(address));
-    }
-
-    /// Add a `DW_OP_constu` operation to the expression.
-    ///
-    /// This may be emitted as a smaller equivalent operation.
-    pub fn op_constu(&mut self, value: u64) {
-        self.operations.push(Operation::UnsignedConstant(value));
-    }
-
-    /// Add a `DW_OP_consts` operation to the expression.
-    ///
-    /// This may be emitted as a smaller equivalent operation.
-    pub fn op_consts(&mut self, value: i64) {
-        self.operations.push(Operation::SignedConstant(value));
-    }
-
-    /// Add a `DW_OP_const_type` or `DW_OP_GNU_const_type` operation to the expression.
-    pub fn op_const_type(&mut self, base: UnitEntryId, value: Box<[u8]>) {
-        self.operations.push(Operation::ConstantType(base, value));
-    }
-
-    /// Add a `DW_OP_fbreg` operation to the expression.
-    pub fn op_fbreg(&mut self, offset: i64) {
-        self.operations.push(Operation::FrameOffset(offset));
-    }
-
-    /// Add a `DW_OP_bregx` operation to the expression.
-    ///
-    /// This may be emitted as a smaller equivalent operation.
-    pub fn op_breg(&mut self, register: Register, offset: i64) {
-        self.operations
-            .push(Operation::RegisterOffset(register, offset));
-    }
-
-    /// Add a `DW_OP_regval_type` or `DW_OP_GNU_regval_type` operation to the expression.
-    ///
-    /// This may be emitted as a smaller equivalent operation.
-    pub fn op_regval_type(&mut self, register: Register, base: UnitEntryId) {
-        self.operations
-            .push(Operation::RegisterType(register, base));
-    }
-
-    /// Add a `DW_OP_pick` operation to the expression.
-    ///
-    /// This may be emitted as a `DW_OP_dup` or `DW_OP_over` operation.
-    pub fn op_pick(&mut self, index: u8) {
-        self.operations.push(Operation::Pick(index));
-    }
-
-    /// Add a `DW_OP_deref` operation to the expression.
-    pub fn op_deref(&mut self) {
-        self.operations.push(Operation::Deref { space: false });
-    }
-
-    /// Add a `DW_OP_xderef` operation to the expression.
-    pub fn op_xderef(&mut self) {
-        self.operations.push(Operation::Deref { space: true });
-    }
-
-    /// Add a `DW_OP_deref_size` operation to the expression.
-    pub fn op_deref_size(&mut self, size: u8) {
-        self.operations
-            .push(Operation::DerefSize { size, space: false });
-    }
-
-    /// Add a `DW_OP_xderef_size` operation to the expression.
-    pub fn op_xderef_size(&mut self, size: u8) {
-        self.operations
-            .push(Operation::DerefSize { size, space: true });
-    }
-
-    /// Add a `DW_OP_deref_type` or `DW_OP_GNU_deref_type` operation to the expression.
-    pub fn op_deref_type(&mut self, size: u8, base: UnitEntryId) {
-        self.operations.push(Operation::DerefType {
-            size,
-            base,
-            space: false,
-        });
-    }
-
-    /// Add a `DW_OP_xderef_type` operation to the expression.
-    pub fn op_xderef_type(&mut self, size: u8, base: UnitEntryId) {
-        self.operations.push(Operation::DerefType {
-            size,
-            base,
-            space: true,
-        });
-    }
-
-    /// Add a `DW_OP_plus_uconst` operation to the expression.
-    pub fn op_plus_uconst(&mut self, value: u64) {
-        self.operations.push(Operation::PlusConstant(value));
-    }
-
-    /// Add a `DW_OP_skip` operation to the expression.
-    ///
-    /// Returns the index of the operation. The caller must call `set_target` with
-    /// this index to set the target of the branch.
-    pub fn op_skip(&mut self) -> usize {
-        let index = self.next_index();
-        self.operations.push(Operation::Skip(!0));
-        index
-    }
-
-    /// Add a `DW_OP_bra` operation to the expression.
-    ///
-    /// Returns the index of the operation. The caller must call `set_target` with
-    /// this index to set the target of the branch.
-    pub fn op_bra(&mut self) -> usize {
-        let index = self.next_index();
-        self.operations.push(Operation::Branch(!0));
-        index
-    }
-
-    /// Return the index that will be assigned to the next operation.
-    ///
-    /// This can be passed to `set_target`.
-    #[inline]
-    pub fn next_index(&self) -> usize {
-        self.operations.len()
-    }
-
-    /// Set the target of a `DW_OP_skip` or `DW_OP_bra` operation .
-    pub fn set_target(&mut self, operation: usize, new_target: usize) {
-        debug_assert!(new_target <= self.next_index());
-        debug_assert_ne!(operation, new_target);
-        match self.operations[operation] {
-            Operation::Skip(ref mut target) | Operation::Branch(ref mut target) => {
-                *target = new_target;
-            }
-            _ => unimplemented!(),
-        }
-    }
-
-    /// Add a `DW_OP_call4` operation to the expression.
-    pub fn op_call(&mut self, entry: UnitEntryId) {
-        self.operations.push(Operation::Call(entry));
-    }
-
-    /// Add a `DW_OP_call_ref` operation to the expression.
-    pub fn op_call_ref(&mut self, entry: Reference) {
-        self.operations.push(Operation::CallRef(entry));
-    }
-
-    /// Add a `DW_OP_convert` or `DW_OP_GNU_convert` operation to the expression.
-    ///
-    /// `base` is the DIE of the base type, or `None` for the generic type.
-    pub fn op_convert(&mut self, base: Option<UnitEntryId>) {
-        self.operations.push(Operation::Convert(base));
-    }
-
-    /// Add a `DW_OP_reinterpret` or `DW_OP_GNU_reinterpret` operation to the expression.
-    ///
-    /// `base` is the DIE of the base type, or `None` for the generic type.
-    pub fn op_reinterpret(&mut self, base: Option<UnitEntryId>) {
-        self.operations.push(Operation::Reinterpret(base));
-    }
-
-    /// Add a `DW_OP_entry_value` or `DW_OP_GNU_entry_value` operation to the expression.
-    pub fn op_entry_value(&mut self, expression: Expression) {
-        self.operations.push(Operation::EntryValue(expression));
-    }
-
-    /// Add a `DW_OP_regx` operation to the expression.
-    ///
-    /// This may be emitted as a smaller equivalent operation.
-    pub fn op_reg(&mut self, register: Register) {
-        self.operations.push(Operation::Register(register));
-    }
-
-    /// Add a `DW_OP_implicit_value` operation to the expression.
-    pub fn op_implicit_value(&mut self, data: Box<[u8]>) {
-        self.operations.push(Operation::ImplicitValue(data));
-    }
-
-    /// Add a `DW_OP_implicit_pointer` or `DW_OP_GNU_implicit_pointer` operation to the expression.
-    pub fn op_implicit_pointer(&mut self, entry: Reference, byte_offset: i64) {
-        self.operations
-            .push(Operation::ImplicitPointer { entry, byte_offset });
-    }
-
-    /// Add a `DW_OP_piece` operation to the expression.
-    pub fn op_piece(&mut self, size_in_bytes: u64) {
-        self.operations.push(Operation::Piece { size_in_bytes });
-    }
-
-    /// Add a `DW_OP_bit_piece` operation to the expression.
-    pub fn op_bit_piece(&mut self, size_in_bits: u64, bit_offset: u64) {
-        self.operations.push(Operation::BitPiece {
-            size_in_bits,
-            bit_offset,
-        });
-    }
-
-    /// Add a `DW_OP_GNU_parameter_ref` operation to the expression.
-    pub fn op_gnu_parameter_ref(&mut self, entry: UnitEntryId) {
-        self.operations.push(Operation::ParameterRef(entry));
-    }
-
-    /// Add a `DW_OP_WASM_location 0x0` operation to the expression.
-    pub fn op_wasm_local(&mut self, index: u32) {
-        self.operations.push(Operation::WasmLocal(index));
-    }
-
-    /// Add a `DW_OP_WASM_location 0x1` operation to the expression.
-    pub fn op_wasm_global(&mut self, index: u32) {
-        self.operations.push(Operation::WasmGlobal(index));
-    }
-
-    /// Add a `DW_OP_WASM_location 0x2` operation to the expression.
-    pub fn op_wasm_stack(&mut self, index: u32) {
-        self.operations.push(Operation::WasmStack(index));
-    }
-
-    pub(crate) fn size(&self, encoding: Encoding, unit_offsets: Option<&UnitOffsets>) -> usize {
-        let mut size = 0;
-        for operation in &self.operations {
-            size += operation.size(encoding, unit_offsets);
-        }
-        size
-    }
-
-    pub(crate) fn write<W: Writer>(
-        &self,
-        w: &mut W,
-        mut refs: Option<&mut Vec<DebugInfoReference>>,
-        encoding: Encoding,
-        unit_offsets: Option<&UnitOffsets>,
-    ) -> Result<()> {
-        // TODO: only calculate offsets if needed?
-        let mut offsets = Vec::with_capacity(self.operations.len());
-        let mut offset = w.len();
-        for operation in &self.operations {
-            offsets.push(offset);
-            offset += operation.size(encoding, unit_offsets);
-        }
-        offsets.push(offset);
-        for (operation, offset) in self.operations.iter().zip(offsets.iter().copied()) {
-            debug_assert_eq!(w.len(), offset);
-            operation.write(w, refs.as_deref_mut(), encoding, unit_offsets, &offsets)?;
-        }
-        Ok(())
-    }
-}
-
-/// A single DWARF operation.
-//
-// This type is intentionally not public so that we can change the
-// representation of expressions as needed.
-//
-// Variants are listed in the order they appear in Section 2.5.
-#[derive(Debug, Clone, PartialEq, Eq, Hash)]
-enum Operation {
-    /// Raw bytecode.
-    ///
-    /// Does not support references.
-    Raw(Vec<u8>),
-    /// An operation that has no explicit operands.
-    ///
-    /// Represents:
-    /// - `DW_OP_drop`, `DW_OP_swap`, `DW_OP_rot`
-    /// - `DW_OP_push_object_address`, `DW_OP_form_tls_address`, `DW_OP_call_frame_cfa`
-    /// - `DW_OP_abs`, `DW_OP_and`, `DW_OP_div`, `DW_OP_minus`, `DW_OP_mod`, `DW_OP_mul`,
-    ///   `DW_OP_neg`, `DW_OP_not`, `DW_OP_or`, `DW_OP_plus`, `DW_OP_shl`, `DW_OP_shr`,
-    ///   `DW_OP_shra`, `DW_OP_xor`
-    /// - `DW_OP_le`, `DW_OP_ge`, `DW_OP_eq`, `DW_OP_lt`, `DW_OP_gt`, `DW_OP_ne`
-    /// - `DW_OP_nop`
-    /// - `DW_OP_stack_value`
-    Simple(DwOp),
-    /// Relocate the address if needed, and push it on the stack.
-    ///
-    /// Represents `DW_OP_addr`.
-    Address(Address),
-    /// Push an unsigned constant value on the stack.
-    ///
-    /// Represents `DW_OP_constu`.
-    UnsignedConstant(u64),
-    /// Push a signed constant value on the stack.
-    ///
-    /// Represents `DW_OP_consts`.
-    SignedConstant(i64),
-    /* TODO: requires .debug_addr write support
-    /// Read the address at the given index in `.debug_addr, relocate the address if needed,
-    /// and push it on the stack.
-    ///
-    /// Represents `DW_OP_addrx`.
-    AddressIndex(DebugAddrIndex<Offset>),
-    /// Read the address at the given index in `.debug_addr, and push it on the stack.
-    /// Do not relocate the address.
-    ///
-    /// Represents `DW_OP_constx`.
-    ConstantIndex(DebugAddrIndex<Offset>),
-    */
-    /// Interpret the value bytes as a constant of a given type, and push it on the stack.
-    ///
-    /// Represents `DW_OP_const_type`.
-    ConstantType(UnitEntryId, Box<[u8]>),
-    /// Compute the frame base (using `DW_AT_frame_base`), add the
-    /// given offset, and then push the resulting sum on the stack.
-    ///
-    /// Represents `DW_OP_fbreg`.
-    FrameOffset(i64),
-    /// Find the contents of the given register, add the offset, and then
-    /// push the resulting sum on the stack.
-    ///
-    /// Represents `DW_OP_bregx`.
-    RegisterOffset(Register, i64),
-    /// Interpret the contents of the given register as a value of the given type,
-    /// and push it on the stack.
-    ///
-    /// Represents `DW_OP_regval_type`.
-    RegisterType(Register, UnitEntryId),
-    /// Copy the item at a stack index and push it on top of the stack.
-    ///
-    /// Represents `DW_OP_pick`, `DW_OP_dup`, and `DW_OP_over`.
-    Pick(u8),
-    /// Pop the topmost value of the stack, dereference it, and push the
-    /// resulting value.
-    ///
-    /// Represents `DW_OP_deref` and `DW_OP_xderef`.
-    Deref {
-        /// True if the dereference operation takes an address space
-        /// argument from the stack; false otherwise.
-        space: bool,
-    },
-    /// Pop the topmost value of the stack, dereference it to obtain a value
-    /// of the given size, and push the resulting value.
-    ///
-    /// Represents `DW_OP_deref_size` and `DW_OP_xderef_size`.
-    DerefSize {
-        /// True if the dereference operation takes an address space
-        /// argument from the stack; false otherwise.
-        space: bool,
-        /// The size of the data to dereference.
-        size: u8,
-    },
-    /// Pop the topmost value of the stack, dereference it to obtain a value
-    /// of the given type, and push the resulting value.
-    ///
-    /// Represents `DW_OP_deref_type` and `DW_OP_xderef_type`.
-    DerefType {
-        /// True if the dereference operation takes an address space
-        /// argument from the stack; false otherwise.
-        space: bool,
-        /// The size of the data to dereference.
-        size: u8,
-        /// The DIE of the base type, or `None` for the generic type.
-        base: UnitEntryId,
-    },
-    /// Add an unsigned constant to the topmost value on the stack.
-    ///
-    /// Represents `DW_OP_plus_uconst`.
-    PlusConstant(u64),
-    /// Unconditional branch to the target location.
-    ///
-    /// The value is the index within the expression of the operation to branch to.
-    /// This will be converted to a relative offset when writing.
-    ///
-    /// Represents `DW_OP_skip`.
-    Skip(usize),
-    /// Branch to the target location if the top of stack is nonzero.
-    ///
-    /// The value is the index within the expression of the operation to branch to.
-    /// This will be converted to a relative offset when writing.
-    ///
-    /// Represents `DW_OP_bra`.
-    Branch(usize),
-    /// Evaluate a DWARF expression as a subroutine.
-    ///
-    /// The expression comes from the `DW_AT_location` attribute of the indicated DIE.
-    ///
-    /// Represents `DW_OP_call4`.
-    Call(UnitEntryId),
-    /// Evaluate an external DWARF expression as a subroutine.
-    ///
-    /// The expression comes from the `DW_AT_location` attribute of the indicated DIE,
-    /// which may be in another compilation unit or shared object.
-    ///
-    /// Represents `DW_OP_call_ref`.
-    CallRef(Reference),
-    /// Pop the top stack entry, convert it to a different type, and push it on the stack.
-    ///
-    /// Represents `DW_OP_convert`.
-    Convert(Option<UnitEntryId>),
-    /// Pop the top stack entry, reinterpret the bits in its value as a different type,
-    /// and push it on the stack.
-    ///
-    /// Represents `DW_OP_reinterpret`.
-    Reinterpret(Option<UnitEntryId>),
-    /// Evaluate an expression at the entry to the current subprogram, and push it on the stack.
-    ///
-    /// Represents `DW_OP_entry_value`.
-    EntryValue(Expression),
-    // FIXME: EntryRegister
-    /// Indicate that this piece's location is in the given register.
-    ///
-    /// Completes the piece or expression.
-    ///
-    /// Represents `DW_OP_regx`.
-    Register(Register),
-    /// The object has no location, but has a known constant value.
-    ///
-    /// Completes the piece or expression.
-    ///
-    /// Represents `DW_OP_implicit_value`.
-    ImplicitValue(Box<[u8]>),
-    /// The object is a pointer to a value which has no actual location, such as
-    /// an implicit value or a stack value.
-    ///
-    /// Completes the piece or expression.
-    ///
-    /// Represents `DW_OP_implicit_pointer`.
-    ImplicitPointer {
-        /// The DIE of the value that this is an implicit pointer into.
-        entry: Reference,
-        /// The byte offset into the value that the implicit pointer points to.
-        byte_offset: i64,
-    },
-    /// Terminate a piece.
-    ///
-    /// Represents `DW_OP_piece`.
-    Piece {
-        /// The size of this piece in bytes.
-        size_in_bytes: u64,
-    },
-    /// Terminate a piece with a size in bits.
-    ///
-    /// Represents `DW_OP_bit_piece`.
-    BitPiece {
-        /// The size of this piece in bits.
-        size_in_bits: u64,
-        /// The bit offset of this piece.
-        bit_offset: u64,
-    },
-    /// This represents a parameter that was optimized out.
-    ///
-    /// The entry is the definition of the parameter, and is matched to
-    /// the `DW_TAG_GNU_call_site_parameter` in the caller that also
-    /// points to the same definition of the parameter.
-    ///
-    /// Represents `DW_OP_GNU_parameter_ref`.
-    ParameterRef(UnitEntryId),
-    /// The index of a local in the currently executing function.
-    ///
-    /// Represents `DW_OP_WASM_location 0x00`.
-    WasmLocal(u32),
-    /// The index of a global.
-    ///
-    /// Represents `DW_OP_WASM_location 0x01`.
-    WasmGlobal(u32),
-    /// The index of an item on the operand stack.
-    ///
-    /// Represents `DW_OP_WASM_location 0x02`.
-    WasmStack(u32),
-}
-
-impl Operation {
-    fn size(&self, encoding: Encoding, unit_offsets: Option<&UnitOffsets>) -> usize {
-        let base_size = |base| {
-            // Errors are handled during writes.
-            match unit_offsets {
-                Some(offsets) => uleb128_size(offsets.unit_offset(base)),
-                None => 0,
-            }
-        };
-        1 + match *self {
-            Operation::Raw(ref bytecode) => return bytecode.len(),
-            Operation::Simple(_) => 0,
-            Operation::Address(_) => encoding.address_size as usize,
-            Operation::UnsignedConstant(value) => {
-                if value < 32 {
-                    0
-                } else {
-                    uleb128_size(value)
-                }
-            }
-            Operation::SignedConstant(value) => sleb128_size(value),
-            Operation::ConstantType(base, ref value) => base_size(base) + 1 + value.len(),
-            Operation::FrameOffset(offset) => sleb128_size(offset),
-            Operation::RegisterOffset(register, offset) => {
-                if register.0 < 32 {
-                    sleb128_size(offset)
-                } else {
-                    uleb128_size(register.0.into()) + sleb128_size(offset)
-                }
-            }
-            Operation::RegisterType(register, base) => {
-                uleb128_size(register.0.into()) + base_size(base)
-            }
-            Operation::Pick(index) => {
-                if index > 1 {
-                    1
-                } else {
-                    0
-                }
-            }
-            Operation::Deref { .. } => 0,
-            Operation::DerefSize { .. } => 1,
-            Operation::DerefType { base, .. } => 1 + base_size(base),
-            Operation::PlusConstant(value) => uleb128_size(value),
-            Operation::Skip(_) => 2,
-            Operation::Branch(_) => 2,
-            Operation::Call(_) => 4,
-            Operation::CallRef(_) => encoding.format.word_size() as usize,
-            Operation::Convert(base) => match base {
-                Some(base) => base_size(base),
-                None => 1,
-            },
-            Operation::Reinterpret(base) => match base {
-                Some(base) => base_size(base),
-                None => 1,
-            },
-            Operation::EntryValue(ref expression) => {
-                let length = expression.size(encoding, unit_offsets);
-                uleb128_size(length as u64) + length
-            }
-            Operation::Register(register) => {
-                if register.0 < 32 {
-                    0
-                } else {
-                    uleb128_size(register.0.into())
-                }
-            }
-            Operation::ImplicitValue(ref data) => uleb128_size(data.len() as u64) + data.len(),
-            Operation::ImplicitPointer { byte_offset, .. } => {
-                encoding.format.word_size() as usize + sleb128_size(byte_offset)
-            }
-            Operation::Piece { size_in_bytes } => uleb128_size(size_in_bytes),
-            Operation::BitPiece {
-                size_in_bits,
-                bit_offset,
-            } => uleb128_size(size_in_bits) + uleb128_size(bit_offset),
-            Operation::ParameterRef(_) => 4,
-            Operation::WasmLocal(index)
-            | Operation::WasmGlobal(index)
-            | Operation::WasmStack(index) => 1 + uleb128_size(index.into()),
-        }
-    }
-
-    pub(crate) fn write<W: Writer>(
-        &self,
-        w: &mut W,
-        refs: Option<&mut Vec<DebugInfoReference>>,
-        encoding: Encoding,
-        unit_offsets: Option<&UnitOffsets>,
-        offsets: &[usize],
-    ) -> Result<()> {
-        let entry_offset = |entry| match unit_offsets {
-            Some(offsets) => {
-                let offset = offsets.unit_offset(entry);
-                if offset == 0 {
-                    Err(Error::UnsupportedExpressionForwardReference)
-                } else {
-                    Ok(offset)
-                }
-            }
-            None => Err(Error::UnsupportedCfiExpressionReference),
-        };
-        match *self {
-            Operation::Raw(ref bytecode) => w.write(bytecode)?,
-            Operation::Simple(opcode) => w.write_u8(opcode.0)?,
-            Operation::Address(address) => {
-                w.write_u8(constants::DW_OP_addr.0)?;
-                w.write_address(address, encoding.address_size)?;
-            }
-            Operation::UnsignedConstant(value) => {
-                if value < 32 {
-                    w.write_u8(constants::DW_OP_lit0.0 + value as u8)?;
-                } else {
-                    w.write_u8(constants::DW_OP_constu.0)?;
-                    w.write_uleb128(value)?;
-                }
-            }
-            Operation::SignedConstant(value) => {
-                w.write_u8(constants::DW_OP_consts.0)?;
-                w.write_sleb128(value)?;
-            }
-            Operation::ConstantType(base, ref value) => {
-                if encoding.version >= 5 {
-                    w.write_u8(constants::DW_OP_const_type.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_GNU_const_type.0)?;
-                }
-                w.write_uleb128(entry_offset(base)?)?;
-                w.write_udata(value.len() as u64, 1)?;
-                w.write(value)?;
-            }
-            Operation::FrameOffset(offset) => {
-                w.write_u8(constants::DW_OP_fbreg.0)?;
-                w.write_sleb128(offset)?;
-            }
-            Operation::RegisterOffset(register, offset) => {
-                if register.0 < 32 {
-                    w.write_u8(constants::DW_OP_breg0.0 + register.0 as u8)?;
-                } else {
-                    w.write_u8(constants::DW_OP_bregx.0)?;
-                    w.write_uleb128(register.0.into())?;
-                }
-                w.write_sleb128(offset)?;
-            }
-            Operation::RegisterType(register, base) => {
-                if encoding.version >= 5 {
-                    w.write_u8(constants::DW_OP_regval_type.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_GNU_regval_type.0)?;
-                }
-                w.write_uleb128(register.0.into())?;
-                w.write_uleb128(entry_offset(base)?)?;
-            }
-            Operation::Pick(index) => match index {
-                0 => w.write_u8(constants::DW_OP_dup.0)?,
-                1 => w.write_u8(constants::DW_OP_over.0)?,
-                _ => {
-                    w.write_u8(constants::DW_OP_pick.0)?;
-                    w.write_u8(index)?;
-                }
-            },
-            Operation::Deref { space } => {
-                if space {
-                    w.write_u8(constants::DW_OP_xderef.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_deref.0)?;
-                }
-            }
-            Operation::DerefSize { space, size } => {
-                if space {
-                    w.write_u8(constants::DW_OP_xderef_size.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_deref_size.0)?;
-                }
-                w.write_u8(size)?;
-            }
-            Operation::DerefType { space, size, base } => {
-                if space {
-                    w.write_u8(constants::DW_OP_xderef_type.0)?;
-                } else {
-                    if encoding.version >= 5 {
-                        w.write_u8(constants::DW_OP_deref_type.0)?;
-                    } else {
-                        w.write_u8(constants::DW_OP_GNU_deref_type.0)?;
-                    }
-                }
-                w.write_u8(size)?;
-                w.write_uleb128(entry_offset(base)?)?;
-            }
-            Operation::PlusConstant(value) => {
-                w.write_u8(constants::DW_OP_plus_uconst.0)?;
-                w.write_uleb128(value)?;
-            }
-            Operation::Skip(target) => {
-                w.write_u8(constants::DW_OP_skip.0)?;
-                let offset = offsets[target] as i64 - (w.len() as i64 + 2);
-                w.write_sdata(offset, 2)?;
-            }
-            Operation::Branch(target) => {
-                w.write_u8(constants::DW_OP_bra.0)?;
-                let offset = offsets[target] as i64 - (w.len() as i64 + 2);
-                w.write_sdata(offset, 2)?;
-            }
-            Operation::Call(entry) => {
-                w.write_u8(constants::DW_OP_call4.0)?;
-                // TODO: this probably won't work in practice, because we may
-                // only know the offsets of base type DIEs at this point.
-                w.write_udata(entry_offset(entry)?, 4)?;
-            }
-            Operation::CallRef(entry) => {
-                w.write_u8(constants::DW_OP_call_ref.0)?;
-                let size = encoding.format.word_size();
-                match entry {
-                    Reference::Symbol(symbol) => w.write_reference(symbol, size)?,
-                    Reference::Entry(unit, entry) => {
-                        let refs = refs.ok_or(Error::InvalidReference)?;
-                        refs.push(DebugInfoReference {
-                            offset: w.len(),
-                            unit,
-                            entry,
-                            size,
-                        });
-                        w.write_udata(0, size)?;
-                    }
-                }
-            }
-            Operation::Convert(base) => {
-                if encoding.version >= 5 {
-                    w.write_u8(constants::DW_OP_convert.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_GNU_convert.0)?;
-                }
-                match base {
-                    Some(base) => w.write_uleb128(entry_offset(base)?)?,
-                    None => w.write_u8(0)?,
-                }
-            }
-            Operation::Reinterpret(base) => {
-                if encoding.version >= 5 {
-                    w.write_u8(constants::DW_OP_reinterpret.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_GNU_reinterpret.0)?;
-                }
-                match base {
-                    Some(base) => w.write_uleb128(entry_offset(base)?)?,
-                    None => w.write_u8(0)?,
-                }
-            }
-            Operation::EntryValue(ref expression) => {
-                if encoding.version >= 5 {
-                    w.write_u8(constants::DW_OP_entry_value.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_GNU_entry_value.0)?;
-                }
-                let length = expression.size(encoding, unit_offsets);
-                w.write_uleb128(length as u64)?;
-                expression.write(w, refs, encoding, unit_offsets)?;
-            }
-            Operation::Register(register) => {
-                if register.0 < 32 {
-                    w.write_u8(constants::DW_OP_reg0.0 + register.0 as u8)?;
-                } else {
-                    w.write_u8(constants::DW_OP_regx.0)?;
-                    w.write_uleb128(register.0.into())?;
-                }
-            }
-            Operation::ImplicitValue(ref data) => {
-                w.write_u8(constants::DW_OP_implicit_value.0)?;
-                w.write_uleb128(data.len() as u64)?;
-                w.write(data)?;
-            }
-            Operation::ImplicitPointer { entry, byte_offset } => {
-                if encoding.version >= 5 {
-                    w.write_u8(constants::DW_OP_implicit_pointer.0)?;
-                } else {
-                    w.write_u8(constants::DW_OP_GNU_implicit_pointer.0)?;
-                }
-                let size = if encoding.version == 2 {
-                    encoding.address_size
-                } else {
-                    encoding.format.word_size()
-                };
-                match entry {
-                    Reference::Symbol(symbol) => {
-                        w.write_reference(symbol, size)?;
-                    }
-                    Reference::Entry(unit, entry) => {
-                        let refs = refs.ok_or(Error::InvalidReference)?;
-                        refs.push(DebugInfoReference {
-                            offset: w.len(),
-                            unit,
-                            entry,
-                            size,
-                        });
-                        w.write_udata(0, size)?;
-                    }
-                }
-                w.write_sleb128(byte_offset)?;
-            }
-            Operation::Piece { size_in_bytes } => {
-                w.write_u8(constants::DW_OP_piece.0)?;
-                w.write_uleb128(size_in_bytes)?;
-            }
-            Operation::BitPiece {
-                size_in_bits,
-                bit_offset,
-            } => {
-                w.write_u8(constants::DW_OP_bit_piece.0)?;
-                w.write_uleb128(size_in_bits)?;
-                w.write_uleb128(bit_offset)?;
-            }
-            Operation::ParameterRef(entry) => {
-                w.write_u8(constants::DW_OP_GNU_parameter_ref.0)?;
-                w.write_udata(entry_offset(entry)?, 4)?;
-            }
-            Operation::WasmLocal(index) => {
-                w.write(&[constants::DW_OP_WASM_location.0, 0])?;
-                w.write_uleb128(index.into())?;
-            }
-            Operation::WasmGlobal(index) => {
-                w.write(&[constants::DW_OP_WASM_location.0, 1])?;
-                w.write_uleb128(index.into())?;
-            }
-            Operation::WasmStack(index) => {
-                w.write(&[constants::DW_OP_WASM_location.0, 2])?;
-                w.write_uleb128(index.into())?;
-            }
-        }
-        Ok(())
-    }
-}
-
-#[cfg(feature = "read")]
-pub(crate) mod convert {
-    use super::*;
-    use crate::common::UnitSectionOffset;
-    use crate::read::{self, Reader};
-    use crate::write::{ConvertError, ConvertResult, UnitEntryId, UnitId};
-    use std::collections::HashMap;
-
-    impl Expression {
-        /// Create an expression from the input expression.
-        pub fn from<R: Reader<Offset = usize>>(
-            from_expression: read::Expression<R>,
-            encoding: Encoding,
-            dwarf: Option<&read::Dwarf<R>>,
-            unit: Option<&read::Unit<R>>,
-            entry_ids: Option<&HashMap<UnitSectionOffset, (UnitId, UnitEntryId)>>,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<Expression> {
-            let convert_unit_offset = |offset: read::UnitOffset| -> ConvertResult<_> {
-                let entry_ids = entry_ids.ok_or(ConvertError::UnsupportedOperation)?;
-                let unit = unit.ok_or(ConvertError::UnsupportedOperation)?;
-                let id = entry_ids
-                    .get(&offset.to_unit_section_offset(unit))
-                    .ok_or(ConvertError::InvalidUnitRef)?;
-                Ok(id.1)
-            };
-            let convert_debug_info_offset = |offset| -> ConvertResult<_> {
-                // TODO: support relocations
-                let entry_ids = entry_ids.ok_or(ConvertError::UnsupportedOperation)?;
-                let id = entry_ids
-                    .get(&UnitSectionOffset::DebugInfoOffset(offset))
-                    .ok_or(ConvertError::InvalidDebugInfoRef)?;
-                Ok(Reference::Entry(id.0, id.1))
-            };
-
-            // Calculate offsets for use in branch/skip operations.
-            let mut offsets = Vec::new();
-            let mut offset = 0;
-            let mut from_operations = from_expression.clone().operations(encoding);
-            while from_operations.next()?.is_some() {
-                offsets.push(offset);
-                offset = from_operations.offset_from(&from_expression);
-            }
-            offsets.push(from_expression.0.len());
-
-            let mut from_operations = from_expression.clone().operations(encoding);
-            let mut operations = Vec::new();
-            while let Some(from_operation) = from_operations.next()? {
-                let operation = match from_operation {
-                    read::Operation::Deref {
-                        base_type,
-                        size,
-                        space,
-                    } => {
-                        if base_type.0 != 0 {
-                            let base = convert_unit_offset(base_type)?;
-                            Operation::DerefType { space, size, base }
-                        } else if size != encoding.address_size {
-                            Operation::DerefSize { space, size }
-                        } else {
-                            Operation::Deref { space }
-                        }
-                    }
-                    read::Operation::Drop => Operation::Simple(constants::DW_OP_drop),
-                    read::Operation::Pick { index } => Operation::Pick(index),
-                    read::Operation::Swap => Operation::Simple(constants::DW_OP_swap),
-                    read::Operation::Rot => Operation::Simple(constants::DW_OP_rot),
-                    read::Operation::Abs => Operation::Simple(constants::DW_OP_abs),
-                    read::Operation::And => Operation::Simple(constants::DW_OP_and),
-                    read::Operation::Div => Operation::Simple(constants::DW_OP_div),
-                    read::Operation::Minus => Operation::Simple(constants::DW_OP_minus),
-                    read::Operation::Mod => Operation::Simple(constants::DW_OP_mod),
-                    read::Operation::Mul => Operation::Simple(constants::DW_OP_mul),
-                    read::Operation::Neg => Operation::Simple(constants::DW_OP_neg),
-                    read::Operation::Not => Operation::Simple(constants::DW_OP_not),
-                    read::Operation::Or => Operation::Simple(constants::DW_OP_or),
-                    read::Operation::Plus => Operation::Simple(constants::DW_OP_plus),
-                    read::Operation::PlusConstant { value } => Operation::PlusConstant(value),
-                    read::Operation::Shl => Operation::Simple(constants::DW_OP_shl),
-                    read::Operation::Shr => Operation::Simple(constants::DW_OP_shr),
-                    read::Operation::Shra => Operation::Simple(constants::DW_OP_shra),
-                    read::Operation::Xor => Operation::Simple(constants::DW_OP_xor),
-                    read::Operation::Eq => Operation::Simple(constants::DW_OP_eq),
-                    read::Operation::Ge => Operation::Simple(constants::DW_OP_ge),
-                    read::Operation::Gt => Operation::Simple(constants::DW_OP_gt),
-                    read::Operation::Le => Operation::Simple(constants::DW_OP_le),
-                    read::Operation::Lt => Operation::Simple(constants::DW_OP_lt),
-                    read::Operation::Ne => Operation::Simple(constants::DW_OP_ne),
-                    read::Operation::Bra { target } => {
-                        let offset = from_operations
-                            .offset_from(&from_expression)
-                            .wrapping_add(i64::from(target) as usize);
-                        let index = offsets
-                            .binary_search(&offset)
-                            .map_err(|_| ConvertError::InvalidBranchTarget)?;
-                        Operation::Branch(index)
-                    }
-                    read::Operation::Skip { target } => {
-                        let offset = from_operations
-                            .offset_from(&from_expression)
-                            .wrapping_add(i64::from(target) as usize);
-                        let index = offsets
-                            .binary_search(&offset)
-                            .map_err(|_| ConvertError::InvalidBranchTarget)?;
-                        Operation::Skip(index)
-                    }
-                    read::Operation::UnsignedConstant { value } => {
-                        Operation::UnsignedConstant(value)
-                    }
-                    read::Operation::SignedConstant { value } => Operation::SignedConstant(value),
-                    read::Operation::Register { register } => Operation::Register(register),
-                    read::Operation::RegisterOffset {
-                        register,
-                        offset,
-                        base_type,
-                    } => {
-                        if base_type.0 != 0 {
-                            Operation::RegisterType(register, convert_unit_offset(base_type)?)
-                        } else {
-                            Operation::RegisterOffset(register, offset)
-                        }
-                    }
-                    read::Operation::FrameOffset { offset } => Operation::FrameOffset(offset),
-                    read::Operation::Nop => Operation::Simple(constants::DW_OP_nop),
-                    read::Operation::PushObjectAddress => {
-                        Operation::Simple(constants::DW_OP_push_object_address)
-                    }
-                    read::Operation::Call { offset } => match offset {
-                        read::DieReference::UnitRef(offset) => {
-                            Operation::Call(convert_unit_offset(offset)?)
-                        }
-                        read::DieReference::DebugInfoRef(offset) => {
-                            Operation::CallRef(convert_debug_info_offset(offset)?)
-                        }
-                    },
-                    read::Operation::TLS => Operation::Simple(constants::DW_OP_form_tls_address),
-                    read::Operation::CallFrameCFA => {
-                        Operation::Simple(constants::DW_OP_call_frame_cfa)
-                    }
-                    read::Operation::Piece {
-                        size_in_bits,
-                        bit_offset: None,
-                    } => Operation::Piece {
-                        size_in_bytes: size_in_bits / 8,
-                    },
-                    read::Operation::Piece {
-                        size_in_bits,
-                        bit_offset: Some(bit_offset),
-                    } => Operation::BitPiece {
-                        size_in_bits,
-                        bit_offset,
-                    },
-                    read::Operation::ImplicitValue { data } => {
-                        Operation::ImplicitValue(data.to_slice()?.into_owned().into())
-                    }
-                    read::Operation::StackValue => Operation::Simple(constants::DW_OP_stack_value),
-                    read::Operation::ImplicitPointer { value, byte_offset } => {
-                        let entry = convert_debug_info_offset(value)?;
-                        Operation::ImplicitPointer { entry, byte_offset }
-                    }
-                    read::Operation::EntryValue { expression } => {
-                        let expression = Expression::from(
-                            read::Expression(expression),
-                            encoding,
-                            dwarf,
-                            unit,
-                            entry_ids,
-                            convert_address,
-                        )?;
-                        Operation::EntryValue(expression)
-                    }
-                    read::Operation::ParameterRef { offset } => {
-                        let entry = convert_unit_offset(offset)?;
-                        Operation::ParameterRef(entry)
-                    }
-                    read::Operation::Address { address } => {
-                        let address =
-                            convert_address(address).ok_or(ConvertError::InvalidAddress)?;
-                        Operation::Address(address)
-                    }
-                    read::Operation::AddressIndex { index } => {
-                        let dwarf = dwarf.ok_or(ConvertError::UnsupportedOperation)?;
-                        let unit = unit.ok_or(ConvertError::UnsupportedOperation)?;
-                        let val = dwarf.address(unit, index)?;
-                        let address = convert_address(val).ok_or(ConvertError::InvalidAddress)?;
-                        Operation::Address(address)
-                    }
-                    read::Operation::ConstantIndex { index } => {
-                        let dwarf = dwarf.ok_or(ConvertError::UnsupportedOperation)?;
-                        let unit = unit.ok_or(ConvertError::UnsupportedOperation)?;
-                        let val = dwarf.address(unit, index)?;
-                        Operation::UnsignedConstant(val)
-                    }
-                    read::Operation::TypedLiteral { base_type, value } => {
-                        let entry = convert_unit_offset(base_type)?;
-                        Operation::ConstantType(entry, value.to_slice()?.into_owned().into())
-                    }
-                    read::Operation::Convert { base_type } => {
-                        if base_type.0 == 0 {
-                            Operation::Convert(None)
-                        } else {
-                            let entry = convert_unit_offset(base_type)?;
-                            Operation::Convert(Some(entry))
-                        }
-                    }
-                    read::Operation::Reinterpret { base_type } => {
-                        if base_type.0 == 0 {
-                            Operation::Reinterpret(None)
-                        } else {
-                            let entry = convert_unit_offset(base_type)?;
-                            Operation::Reinterpret(Some(entry))
-                        }
-                    }
-                    read::Operation::WasmLocal { index } => Operation::WasmLocal(index),
-                    read::Operation::WasmGlobal { index } => Operation::WasmGlobal(index),
-                    read::Operation::WasmStack { index } => Operation::WasmStack(index),
-                };
-                operations.push(operation);
-            }
-            Ok(Expression { operations })
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::common::{
-        DebugAbbrevOffset, DebugAddrBase, DebugInfoOffset, DebugLocListsBase, DebugRngListsBase,
-        DebugStrOffsetsBase, Format, SectionId,
-    };
-    use crate::read;
-    use crate::write::{
-        DebugLineStrOffsets, DebugStrOffsets, EndianVec, LineProgram, Sections, Unit, UnitTable,
-    };
-    use crate::LittleEndian;
-    use std::collections::HashMap;
-    use std::sync::Arc;
-
-    #[test]
-    fn test_operation() {
-        for &version in &[3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-
-                    let mut units = UnitTable::default();
-                    let unit_id = units.add(Unit::new(encoding, LineProgram::none()));
-                    let unit = units.get_mut(unit_id);
-                    let entry_id = unit.add(unit.root(), constants::DW_TAG_base_type);
-                    let reference = Reference::Entry(unit_id, entry_id);
-
-                    let mut sections = Sections::new(EndianVec::new(LittleEndian));
-                    let debug_line_str_offsets = DebugLineStrOffsets::none();
-                    let debug_str_offsets = DebugStrOffsets::none();
-                    let debug_info_offsets = units
-                        .write(&mut sections, &debug_line_str_offsets, &debug_str_offsets)
-                        .unwrap();
-                    let unit_offsets = debug_info_offsets.unit_offsets(unit_id);
-                    let debug_info_offset = unit_offsets.debug_info_offset(entry_id);
-                    let entry_offset =
-                        read::UnitOffset(unit_offsets.unit_offset(entry_id) as usize);
-
-                    let mut reg_expression = Expression::new();
-                    reg_expression.op_reg(Register(23));
-
-                    let operations: &[(&dyn Fn(&mut Expression), Operation, read::Operation<_>)] =
-                        &[
-                            (
-                                &|x| x.op_deref(),
-                                Operation::Deref { space: false },
-                                read::Operation::Deref {
-                                    base_type: read::UnitOffset(0),
-                                    size: address_size,
-                                    space: false,
-                                },
-                            ),
-                            (
-                                &|x| x.op_xderef(),
-                                Operation::Deref { space: true },
-                                read::Operation::Deref {
-                                    base_type: read::UnitOffset(0),
-                                    size: address_size,
-                                    space: true,
-                                },
-                            ),
-                            (
-                                &|x| x.op_deref_size(2),
-                                Operation::DerefSize {
-                                    space: false,
-                                    size: 2,
-                                },
-                                read::Operation::Deref {
-                                    base_type: read::UnitOffset(0),
-                                    size: 2,
-                                    space: false,
-                                },
-                            ),
-                            (
-                                &|x| x.op_xderef_size(2),
-                                Operation::DerefSize {
-                                    space: true,
-                                    size: 2,
-                                },
-                                read::Operation::Deref {
-                                    base_type: read::UnitOffset(0),
-                                    size: 2,
-                                    space: true,
-                                },
-                            ),
-                            (
-                                &|x| x.op_deref_type(2, entry_id),
-                                Operation::DerefType {
-                                    space: false,
-                                    size: 2,
-                                    base: entry_id,
-                                },
-                                read::Operation::Deref {
-                                    base_type: entry_offset,
-                                    size: 2,
-                                    space: false,
-                                },
-                            ),
-                            (
-                                &|x| x.op_xderef_type(2, entry_id),
-                                Operation::DerefType {
-                                    space: true,
-                                    size: 2,
-                                    base: entry_id,
-                                },
-                                read::Operation::Deref {
-                                    base_type: entry_offset,
-                                    size: 2,
-                                    space: true,
-                                },
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_drop),
-                                Operation::Simple(constants::DW_OP_drop),
-                                read::Operation::Drop,
-                            ),
-                            (
-                                &|x| x.op_pick(0),
-                                Operation::Pick(0),
-                                read::Operation::Pick { index: 0 },
-                            ),
-                            (
-                                &|x| x.op_pick(1),
-                                Operation::Pick(1),
-                                read::Operation::Pick { index: 1 },
-                            ),
-                            (
-                                &|x| x.op_pick(2),
-                                Operation::Pick(2),
-                                read::Operation::Pick { index: 2 },
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_swap),
-                                Operation::Simple(constants::DW_OP_swap),
-                                read::Operation::Swap,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_rot),
-                                Operation::Simple(constants::DW_OP_rot),
-                                read::Operation::Rot,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_abs),
-                                Operation::Simple(constants::DW_OP_abs),
-                                read::Operation::Abs,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_and),
-                                Operation::Simple(constants::DW_OP_and),
-                                read::Operation::And,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_div),
-                                Operation::Simple(constants::DW_OP_div),
-                                read::Operation::Div,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_minus),
-                                Operation::Simple(constants::DW_OP_minus),
-                                read::Operation::Minus,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_mod),
-                                Operation::Simple(constants::DW_OP_mod),
-                                read::Operation::Mod,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_mul),
-                                Operation::Simple(constants::DW_OP_mul),
-                                read::Operation::Mul,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_neg),
-                                Operation::Simple(constants::DW_OP_neg),
-                                read::Operation::Neg,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_not),
-                                Operation::Simple(constants::DW_OP_not),
-                                read::Operation::Not,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_or),
-                                Operation::Simple(constants::DW_OP_or),
-                                read::Operation::Or,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_plus),
-                                Operation::Simple(constants::DW_OP_plus),
-                                read::Operation::Plus,
-                            ),
-                            (
-                                &|x| x.op_plus_uconst(23),
-                                Operation::PlusConstant(23),
-                                read::Operation::PlusConstant { value: 23 },
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_shl),
-                                Operation::Simple(constants::DW_OP_shl),
-                                read::Operation::Shl,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_shr),
-                                Operation::Simple(constants::DW_OP_shr),
-                                read::Operation::Shr,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_shra),
-                                Operation::Simple(constants::DW_OP_shra),
-                                read::Operation::Shra,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_xor),
-                                Operation::Simple(constants::DW_OP_xor),
-                                read::Operation::Xor,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_eq),
-                                Operation::Simple(constants::DW_OP_eq),
-                                read::Operation::Eq,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_ge),
-                                Operation::Simple(constants::DW_OP_ge),
-                                read::Operation::Ge,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_gt),
-                                Operation::Simple(constants::DW_OP_gt),
-                                read::Operation::Gt,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_le),
-                                Operation::Simple(constants::DW_OP_le),
-                                read::Operation::Le,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_lt),
-                                Operation::Simple(constants::DW_OP_lt),
-                                read::Operation::Lt,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_ne),
-                                Operation::Simple(constants::DW_OP_ne),
-                                read::Operation::Ne,
-                            ),
-                            (
-                                &|x| x.op_constu(23),
-                                Operation::UnsignedConstant(23),
-                                read::Operation::UnsignedConstant { value: 23 },
-                            ),
-                            (
-                                &|x| x.op_consts(-23),
-                                Operation::SignedConstant(-23),
-                                read::Operation::SignedConstant { value: -23 },
-                            ),
-                            (
-                                &|x| x.op_reg(Register(23)),
-                                Operation::Register(Register(23)),
-                                read::Operation::Register {
-                                    register: Register(23),
-                                },
-                            ),
-                            (
-                                &|x| x.op_reg(Register(123)),
-                                Operation::Register(Register(123)),
-                                read::Operation::Register {
-                                    register: Register(123),
-                                },
-                            ),
-                            (
-                                &|x| x.op_breg(Register(23), 34),
-                                Operation::RegisterOffset(Register(23), 34),
-                                read::Operation::RegisterOffset {
-                                    register: Register(23),
-                                    offset: 34,
-                                    base_type: read::UnitOffset(0),
-                                },
-                            ),
-                            (
-                                &|x| x.op_breg(Register(123), 34),
-                                Operation::RegisterOffset(Register(123), 34),
-                                read::Operation::RegisterOffset {
-                                    register: Register(123),
-                                    offset: 34,
-                                    base_type: read::UnitOffset(0),
-                                },
-                            ),
-                            (
-                                &|x| x.op_regval_type(Register(23), entry_id),
-                                Operation::RegisterType(Register(23), entry_id),
-                                read::Operation::RegisterOffset {
-                                    register: Register(23),
-                                    offset: 0,
-                                    base_type: entry_offset,
-                                },
-                            ),
-                            (
-                                &|x| x.op_fbreg(34),
-                                Operation::FrameOffset(34),
-                                read::Operation::FrameOffset { offset: 34 },
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_nop),
-                                Operation::Simple(constants::DW_OP_nop),
-                                read::Operation::Nop,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_push_object_address),
-                                Operation::Simple(constants::DW_OP_push_object_address),
-                                read::Operation::PushObjectAddress,
-                            ),
-                            (
-                                &|x| x.op_call(entry_id),
-                                Operation::Call(entry_id),
-                                read::Operation::Call {
-                                    offset: read::DieReference::UnitRef(entry_offset),
-                                },
-                            ),
-                            (
-                                &|x| x.op_call_ref(reference),
-                                Operation::CallRef(reference),
-                                read::Operation::Call {
-                                    offset: read::DieReference::DebugInfoRef(debug_info_offset),
-                                },
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_form_tls_address),
-                                Operation::Simple(constants::DW_OP_form_tls_address),
-                                read::Operation::TLS,
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_call_frame_cfa),
-                                Operation::Simple(constants::DW_OP_call_frame_cfa),
-                                read::Operation::CallFrameCFA,
-                            ),
-                            (
-                                &|x| x.op_piece(23),
-                                Operation::Piece { size_in_bytes: 23 },
-                                read::Operation::Piece {
-                                    size_in_bits: 23 * 8,
-                                    bit_offset: None,
-                                },
-                            ),
-                            (
-                                &|x| x.op_bit_piece(23, 34),
-                                Operation::BitPiece {
-                                    size_in_bits: 23,
-                                    bit_offset: 34,
-                                },
-                                read::Operation::Piece {
-                                    size_in_bits: 23,
-                                    bit_offset: Some(34),
-                                },
-                            ),
-                            (
-                                &|x| x.op_implicit_value(vec![23].into()),
-                                Operation::ImplicitValue(vec![23].into()),
-                                read::Operation::ImplicitValue {
-                                    data: read::EndianSlice::new(&[23], LittleEndian),
-                                },
-                            ),
-                            (
-                                &|x| x.op(constants::DW_OP_stack_value),
-                                Operation::Simple(constants::DW_OP_stack_value),
-                                read::Operation::StackValue,
-                            ),
-                            (
-                                &|x| x.op_implicit_pointer(reference, 23),
-                                Operation::ImplicitPointer {
-                                    entry: reference,
-                                    byte_offset: 23,
-                                },
-                                read::Operation::ImplicitPointer {
-                                    value: debug_info_offset,
-                                    byte_offset: 23,
-                                },
-                            ),
-                            (
-                                &|x| x.op_entry_value(reg_expression.clone()),
-                                Operation::EntryValue(reg_expression.clone()),
-                                read::Operation::EntryValue {
-                                    expression: read::EndianSlice::new(
-                                        &[constants::DW_OP_reg23.0],
-                                        LittleEndian,
-                                    ),
-                                },
-                            ),
-                            (
-                                &|x| x.op_gnu_parameter_ref(entry_id),
-                                Operation::ParameterRef(entry_id),
-                                read::Operation::ParameterRef {
-                                    offset: entry_offset,
-                                },
-                            ),
-                            (
-                                &|x| x.op_addr(Address::Constant(23)),
-                                Operation::Address(Address::Constant(23)),
-                                read::Operation::Address { address: 23 },
-                            ),
-                            (
-                                &|x| x.op_const_type(entry_id, vec![23].into()),
-                                Operation::ConstantType(entry_id, vec![23].into()),
-                                read::Operation::TypedLiteral {
-                                    base_type: entry_offset,
-                                    value: read::EndianSlice::new(&[23], LittleEndian),
-                                },
-                            ),
-                            (
-                                &|x| x.op_convert(None),
-                                Operation::Convert(None),
-                                read::Operation::Convert {
-                                    base_type: read::UnitOffset(0),
-                                },
-                            ),
-                            (
-                                &|x| x.op_convert(Some(entry_id)),
-                                Operation::Convert(Some(entry_id)),
-                                read::Operation::Convert {
-                                    base_type: entry_offset,
-                                },
-                            ),
-                            (
-                                &|x| x.op_reinterpret(None),
-                                Operation::Reinterpret(None),
-                                read::Operation::Reinterpret {
-                                    base_type: read::UnitOffset(0),
-                                },
-                            ),
-                            (
-                                &|x| x.op_reinterpret(Some(entry_id)),
-                                Operation::Reinterpret(Some(entry_id)),
-                                read::Operation::Reinterpret {
-                                    base_type: entry_offset,
-                                },
-                            ),
-                            (
-                                &|x| x.op_wasm_local(1000),
-                                Operation::WasmLocal(1000),
-                                read::Operation::WasmLocal { index: 1000 },
-                            ),
-                            (
-                                &|x| x.op_wasm_global(1000),
-                                Operation::WasmGlobal(1000),
-                                read::Operation::WasmGlobal { index: 1000 },
-                            ),
-                            (
-                                &|x| x.op_wasm_stack(1000),
-                                Operation::WasmStack(1000),
-                                read::Operation::WasmStack { index: 1000 },
-                            ),
-                        ];
-
-                    let mut expression = Expression::new();
-                    let start_index = expression.next_index();
-                    for (f, o, _) in operations {
-                        f(&mut expression);
-                        assert_eq!(expression.operations.last(), Some(o));
-                    }
-
-                    let bra_index = expression.op_bra();
-                    let skip_index = expression.op_skip();
-                    expression.op(constants::DW_OP_nop);
-                    let end_index = expression.next_index();
-                    expression.set_target(bra_index, start_index);
-                    expression.set_target(skip_index, end_index);
-
-                    let mut w = EndianVec::new(LittleEndian);
-                    let mut refs = Vec::new();
-                    expression
-                        .write(&mut w, Some(&mut refs), encoding, Some(&unit_offsets))
-                        .unwrap();
-                    for r in &refs {
-                        assert_eq!(r.unit, unit_id);
-                        assert_eq!(r.entry, entry_id);
-                        w.write_offset_at(
-                            r.offset,
-                            debug_info_offset.0,
-                            SectionId::DebugInfo,
-                            r.size,
-                        )
-                        .unwrap();
-                    }
-
-                    let read_expression =
-                        read::Expression(read::EndianSlice::new(w.slice(), LittleEndian));
-                    let mut read_operations = read_expression.operations(encoding);
-                    for (_, _, operation) in operations {
-                        assert_eq!(read_operations.next(), Ok(Some(*operation)));
-                    }
-
-                    // 4 = DW_OP_skip + i16 + DW_OP_nop
-                    assert_eq!(
-                        read_operations.next(),
-                        Ok(Some(read::Operation::Bra {
-                            target: -(w.len() as i16) + 4
-                        }))
-                    );
-                    // 1 = DW_OP_nop
-                    assert_eq!(
-                        read_operations.next(),
-                        Ok(Some(read::Operation::Skip { target: 1 }))
-                    );
-                    assert_eq!(read_operations.next(), Ok(Some(read::Operation::Nop)));
-                    assert_eq!(read_operations.next(), Ok(None));
-
-                    // Fake the unit.
-                    let unit = read::Unit {
-                        header: read::UnitHeader::new(
-                            encoding,
-                            0,
-                            read::UnitType::Compilation,
-                            DebugAbbrevOffset(0),
-                            DebugInfoOffset(0).into(),
-                            read::EndianSlice::new(&[], LittleEndian),
-                        ),
-                        abbreviations: Arc::new(read::Abbreviations::default()),
-                        name: None,
-                        comp_dir: None,
-                        low_pc: 0,
-                        str_offsets_base: DebugStrOffsetsBase(0),
-                        addr_base: DebugAddrBase(0),
-                        loclists_base: DebugLocListsBase(0),
-                        rnglists_base: DebugRngListsBase(0),
-                        line_program: None,
-                        dwo_id: None,
-                    };
-
-                    let mut entry_ids = HashMap::new();
-                    entry_ids.insert(debug_info_offset.into(), (unit_id, entry_id));
-                    let convert_expression = Expression::from(
-                        read_expression,
-                        encoding,
-                        None, /* dwarf */
-                        Some(&unit),
-                        Some(&entry_ids),
-                        &|address| Some(Address::Constant(address)),
-                    )
-                    .unwrap();
-                    let mut convert_operations = convert_expression.operations.iter();
-                    for (_, operation, _) in operations {
-                        assert_eq!(convert_operations.next(), Some(operation));
-                    }
-                    assert_eq!(
-                        convert_operations.next(),
-                        Some(&Operation::Branch(start_index))
-                    );
-                    assert_eq!(convert_operations.next(), Some(&Operation::Skip(end_index)));
-                    assert_eq!(
-                        convert_operations.next(),
-                        Some(&Operation::Simple(constants::DW_OP_nop))
-                    );
-                }
-            }
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/range.rs b/vendor/gimli-0.27.3/src/write/range.rs
deleted file mode 100644
index c707e1eab..000000000
--- a/vendor/gimli-0.27.3/src/write/range.rs
+++ /dev/null
@@ -1,416 +0,0 @@
-use alloc::vec::Vec;
-use indexmap::IndexSet;
-use std::ops::{Deref, DerefMut};
-
-use crate::common::{Encoding, RangeListsOffset, SectionId};
-use crate::write::{Address, BaseId, Error, Result, Section, Sections, Writer};
-
-define_section!(
-    DebugRanges,
-    RangeListsOffset,
-    "A writable `.debug_ranges` section."
-);
-define_section!(
-    DebugRngLists,
-    RangeListsOffset,
-    "A writable `.debug_rnglists` section."
-);
-
-define_offsets!(
-    RangeListOffsets: RangeListId => RangeListsOffset,
-    "The section offsets of a series of range lists within the `.debug_ranges` or `.debug_rnglists` sections."
-);
-
-define_id!(
-    RangeListId,
-    "An identifier for a range list in a `RangeListTable`."
-);
-
-/// A table of range lists that will be stored in a `.debug_ranges` or `.debug_rnglists` section.
-#[derive(Debug, Default)]
-pub struct RangeListTable {
-    base_id: BaseId,
-    ranges: IndexSet<RangeList>,
-}
-
-impl RangeListTable {
-    /// Add a range list to the table.
-    pub fn add(&mut self, range_list: RangeList) -> RangeListId {
-        let (index, _) = self.ranges.insert_full(range_list);
-        RangeListId::new(self.base_id, index)
-    }
-
-    /// Write the range list table to the appropriate section for the given DWARF version.
-    pub(crate) fn write<W: Writer>(
-        &self,
-        sections: &mut Sections<W>,
-        encoding: Encoding,
-    ) -> Result<RangeListOffsets> {
-        if self.ranges.is_empty() {
-            return Ok(RangeListOffsets::none());
-        }
-
-        match encoding.version {
-            2..=4 => self.write_ranges(&mut sections.debug_ranges, encoding.address_size),
-            5 => self.write_rnglists(&mut sections.debug_rnglists, encoding),
-            _ => Err(Error::UnsupportedVersion(encoding.version)),
-        }
-    }
-
-    /// Write the range list table to the `.debug_ranges` section.
-    fn write_ranges<W: Writer>(
-        &self,
-        w: &mut DebugRanges<W>,
-        address_size: u8,
-    ) -> Result<RangeListOffsets> {
-        let mut offsets = Vec::new();
-        for range_list in self.ranges.iter() {
-            offsets.push(w.offset());
-            for range in &range_list.0 {
-                // Note that we must ensure none of the ranges have both begin == 0 and end == 0.
-                // We do this by ensuring that begin != end, which is a bit more restrictive
-                // than required, but still seems reasonable.
-                match *range {
-                    Range::BaseAddress { address } => {
-                        let marker = !0 >> (64 - address_size * 8);
-                        w.write_udata(marker, address_size)?;
-                        w.write_address(address, address_size)?;
-                    }
-                    Range::OffsetPair { begin, end } => {
-                        if begin == end {
-                            return Err(Error::InvalidRange);
-                        }
-                        w.write_udata(begin, address_size)?;
-                        w.write_udata(end, address_size)?;
-                    }
-                    Range::StartEnd { begin, end } => {
-                        if begin == end {
-                            return Err(Error::InvalidRange);
-                        }
-                        w.write_address(begin, address_size)?;
-                        w.write_address(end, address_size)?;
-                    }
-                    Range::StartLength { begin, length } => {
-                        let end = match begin {
-                            Address::Constant(begin) => Address::Constant(begin + length),
-                            Address::Symbol { symbol, addend } => Address::Symbol {
-                                symbol,
-                                addend: addend + length as i64,
-                            },
-                        };
-                        if begin == end {
-                            return Err(Error::InvalidRange);
-                        }
-                        w.write_address(begin, address_size)?;
-                        w.write_address(end, address_size)?;
-                    }
-                }
-            }
-            w.write_udata(0, address_size)?;
-            w.write_udata(0, address_size)?;
-        }
-        Ok(RangeListOffsets {
-            base_id: self.base_id,
-            offsets,
-        })
-    }
-
-    /// Write the range list table to the `.debug_rnglists` section.
-    fn write_rnglists<W: Writer>(
-        &self,
-        w: &mut DebugRngLists<W>,
-        encoding: Encoding,
-    ) -> Result<RangeListOffsets> {
-        let mut offsets = Vec::new();
-
-        if encoding.version != 5 {
-            return Err(Error::NeedVersion(5));
-        }
-
-        let length_offset = w.write_initial_length(encoding.format)?;
-        let length_base = w.len();
-
-        w.write_u16(encoding.version)?;
-        w.write_u8(encoding.address_size)?;
-        w.write_u8(0)?; // segment_selector_size
-        w.write_u32(0)?; // offset_entry_count (when set to zero DW_FORM_rnglistx can't be used, see section 7.28)
-                         // FIXME implement DW_FORM_rnglistx writing and implement the offset entry list
-
-        for range_list in self.ranges.iter() {
-            offsets.push(w.offset());
-            for range in &range_list.0 {
-                match *range {
-                    Range::BaseAddress { address } => {
-                        w.write_u8(crate::constants::DW_RLE_base_address.0)?;
-                        w.write_address(address, encoding.address_size)?;
-                    }
-                    Range::OffsetPair { begin, end } => {
-                        w.write_u8(crate::constants::DW_RLE_offset_pair.0)?;
-                        w.write_uleb128(begin)?;
-                        w.write_uleb128(end)?;
-                    }
-                    Range::StartEnd { begin, end } => {
-                        w.write_u8(crate::constants::DW_RLE_start_end.0)?;
-                        w.write_address(begin, encoding.address_size)?;
-                        w.write_address(end, encoding.address_size)?;
-                    }
-                    Range::StartLength { begin, length } => {
-                        w.write_u8(crate::constants::DW_RLE_start_length.0)?;
-                        w.write_address(begin, encoding.address_size)?;
-                        w.write_uleb128(length)?;
-                    }
-                }
-            }
-
-            w.write_u8(crate::constants::DW_RLE_end_of_list.0)?;
-        }
-
-        let length = (w.len() - length_base) as u64;
-        w.write_initial_length_at(length_offset, length, encoding.format)?;
-
-        Ok(RangeListOffsets {
-            base_id: self.base_id,
-            offsets,
-        })
-    }
-}
-
-/// A range list that will be stored in a `.debug_ranges` or `.debug_rnglists` section.
-#[derive(Clone, Debug, Eq, PartialEq, Hash)]
-pub struct RangeList(pub Vec<Range>);
-
-/// A single range.
-#[derive(Clone, Debug, Eq, PartialEq, Hash)]
-pub enum Range {
-    /// DW_RLE_base_address
-    BaseAddress {
-        /// Base address.
-        address: Address,
-    },
-    /// DW_RLE_offset_pair
-    OffsetPair {
-        /// Start of range relative to base address.
-        begin: u64,
-        /// End of range relative to base address.
-        end: u64,
-    },
-    /// DW_RLE_start_end
-    StartEnd {
-        /// Start of range.
-        begin: Address,
-        /// End of range.
-        end: Address,
-    },
-    /// DW_RLE_start_length
-    StartLength {
-        /// Start of range.
-        begin: Address,
-        /// Length of range.
-        length: u64,
-    },
-}
-
-#[cfg(feature = "read")]
-mod convert {
-    use super::*;
-
-    use crate::read::{self, Reader};
-    use crate::write::{ConvertError, ConvertResult, ConvertUnitContext};
-
-    impl RangeList {
-        /// Create a range list by reading the data from the give range list iter.
-        pub(crate) fn from<R: Reader<Offset = usize>>(
-            mut from: read::RawRngListIter<R>,
-            context: &ConvertUnitContext<R>,
-        ) -> ConvertResult<Self> {
-            let mut have_base_address = context.base_address != Address::Constant(0);
-            let convert_address =
-                |x| (context.convert_address)(x).ok_or(ConvertError::InvalidAddress);
-            let mut ranges = Vec::new();
-            while let Some(from_range) = from.next()? {
-                let range = match from_range {
-                    read::RawRngListEntry::AddressOrOffsetPair { begin, end } => {
-                        // These were parsed as addresses, even if they are offsets.
-                        let begin = convert_address(begin)?;
-                        let end = convert_address(end)?;
-                        match (begin, end) {
-                            (Address::Constant(begin_offset), Address::Constant(end_offset)) => {
-                                if have_base_address {
-                                    Range::OffsetPair {
-                                        begin: begin_offset,
-                                        end: end_offset,
-                                    }
-                                } else {
-                                    Range::StartEnd { begin, end }
-                                }
-                            }
-                            _ => {
-                                if have_base_address {
-                                    // At least one of begin/end is an address, but we also have
-                                    // a base address. Adding addresses is undefined.
-                                    return Err(ConvertError::InvalidRangeRelativeAddress);
-                                }
-                                Range::StartEnd { begin, end }
-                            }
-                        }
-                    }
-                    read::RawRngListEntry::BaseAddress { addr } => {
-                        have_base_address = true;
-                        let address = convert_address(addr)?;
-                        Range::BaseAddress { address }
-                    }
-                    read::RawRngListEntry::BaseAddressx { addr } => {
-                        have_base_address = true;
-                        let address = convert_address(context.dwarf.address(context.unit, addr)?)?;
-                        Range::BaseAddress { address }
-                    }
-                    read::RawRngListEntry::StartxEndx { begin, end } => {
-                        let begin = convert_address(context.dwarf.address(context.unit, begin)?)?;
-                        let end = convert_address(context.dwarf.address(context.unit, end)?)?;
-                        Range::StartEnd { begin, end }
-                    }
-                    read::RawRngListEntry::StartxLength { begin, length } => {
-                        let begin = convert_address(context.dwarf.address(context.unit, begin)?)?;
-                        Range::StartLength { begin, length }
-                    }
-                    read::RawRngListEntry::OffsetPair { begin, end } => {
-                        Range::OffsetPair { begin, end }
-                    }
-                    read::RawRngListEntry::StartEnd { begin, end } => {
-                        let begin = convert_address(begin)?;
-                        let end = convert_address(end)?;
-                        Range::StartEnd { begin, end }
-                    }
-                    read::RawRngListEntry::StartLength { begin, length } => {
-                        let begin = convert_address(begin)?;
-                        Range::StartLength { begin, length }
-                    }
-                };
-                // Filtering empty ranges out.
-                match range {
-                    Range::StartLength { length, .. } if length == 0 => continue,
-                    Range::StartEnd { begin, end, .. } if begin == end => continue,
-                    Range::OffsetPair { begin, end, .. } if begin == end => continue,
-                    _ => (),
-                }
-                ranges.push(range);
-            }
-            Ok(RangeList(ranges))
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::common::{
-        DebugAbbrevOffset, DebugAddrBase, DebugInfoOffset, DebugLocListsBase, DebugRngListsBase,
-        DebugStrOffsetsBase, Format,
-    };
-    use crate::read;
-    use crate::write::{
-        ConvertUnitContext, EndianVec, LineStringTable, LocationListTable, Range, RangeListTable,
-        StringTable,
-    };
-    use crate::LittleEndian;
-    use std::collections::HashMap;
-    use std::sync::Arc;
-
-    #[test]
-    fn test_range() {
-        let mut line_strings = LineStringTable::default();
-        let mut strings = StringTable::default();
-
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-
-                    let mut range_list = RangeList(vec![
-                        Range::StartLength {
-                            begin: Address::Constant(6666),
-                            length: 7777,
-                        },
-                        Range::StartEnd {
-                            begin: Address::Constant(4444),
-                            end: Address::Constant(5555),
-                        },
-                        Range::BaseAddress {
-                            address: Address::Constant(1111),
-                        },
-                        Range::OffsetPair {
-                            begin: 2222,
-                            end: 3333,
-                        },
-                    ]);
-
-                    let mut ranges = RangeListTable::default();
-                    let range_list_id = ranges.add(range_list.clone());
-
-                    let mut sections = Sections::new(EndianVec::new(LittleEndian));
-                    let range_list_offsets = ranges.write(&mut sections, encoding).unwrap();
-
-                    let read_debug_ranges =
-                        read::DebugRanges::new(sections.debug_ranges.slice(), LittleEndian);
-                    let read_debug_rnglists =
-                        read::DebugRngLists::new(sections.debug_rnglists.slice(), LittleEndian);
-                    let read_ranges = read::RangeLists::new(read_debug_ranges, read_debug_rnglists);
-                    let offset = range_list_offsets.get(range_list_id);
-                    let read_range_list = read_ranges.raw_ranges(offset, encoding).unwrap();
-
-                    let dwarf = read::Dwarf {
-                        ranges: read_ranges,
-                        ..Default::default()
-                    };
-                    let unit = read::Unit {
-                        header: read::UnitHeader::new(
-                            encoding,
-                            0,
-                            read::UnitType::Compilation,
-                            DebugAbbrevOffset(0),
-                            DebugInfoOffset(0).into(),
-                            read::EndianSlice::default(),
-                        ),
-                        abbreviations: Arc::new(read::Abbreviations::default()),
-                        name: None,
-                        comp_dir: None,
-                        low_pc: 0,
-                        str_offsets_base: DebugStrOffsetsBase(0),
-                        addr_base: DebugAddrBase(0),
-                        loclists_base: DebugLocListsBase(0),
-                        rnglists_base: DebugRngListsBase(0),
-                        line_program: None,
-                        dwo_id: None,
-                    };
-                    let context = ConvertUnitContext {
-                        dwarf: &dwarf,
-                        unit: &unit,
-                        line_strings: &mut line_strings,
-                        strings: &mut strings,
-                        ranges: &mut ranges,
-                        locations: &mut LocationListTable::default(),
-                        convert_address: &|address| Some(Address::Constant(address)),
-                        base_address: Address::Constant(0),
-                        line_program_offset: None,
-                        line_program_files: Vec::new(),
-                        entry_ids: &HashMap::new(),
-                    };
-                    let convert_range_list = RangeList::from(read_range_list, &context).unwrap();
-
-                    if version <= 4 {
-                        range_list.0[0] = Range::StartEnd {
-                            begin: Address::Constant(6666),
-                            end: Address::Constant(6666 + 7777),
-                        };
-                    }
-                    assert_eq!(range_list, convert_range_list);
-                }
-            }
-        }
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/section.rs b/vendor/gimli-0.27.3/src/write/section.rs
deleted file mode 100644
index db5eb9a28..000000000
--- a/vendor/gimli-0.27.3/src/write/section.rs
+++ /dev/null
@@ -1,172 +0,0 @@
-use std::ops::DerefMut;
-use std::result;
-use std::vec::Vec;
-
-use crate::common::SectionId;
-use crate::write::{
-    DebugAbbrev, DebugFrame, DebugInfo, DebugInfoReference, DebugLine, DebugLineStr, DebugLoc,
-    DebugLocLists, DebugRanges, DebugRngLists, DebugStr, EhFrame, Writer,
-};
-
-macro_rules! define_section {
-    ($name:ident, $offset:ident, $docs:expr) => {
-        #[doc=$docs]
-        #[derive(Debug, Default)]
-        pub struct $name<W: Writer>(pub W);
-
-        impl<W: Writer> $name<W> {
-            /// Return the offset of the next write.
-            pub fn offset(&self) -> $offset {
-                $offset(self.len())
-            }
-        }
-
-        impl<W: Writer> From<W> for $name<W> {
-            #[inline]
-            fn from(w: W) -> Self {
-                $name(w)
-            }
-        }
-
-        impl<W: Writer> Deref for $name<W> {
-            type Target = W;
-
-            #[inline]
-            fn deref(&self) -> &W {
-                &self.0
-            }
-        }
-
-        impl<W: Writer> DerefMut for $name<W> {
-            #[inline]
-            fn deref_mut(&mut self) -> &mut W {
-                &mut self.0
-            }
-        }
-
-        impl<W: Writer> Section<W> for $name<W> {
-            #[inline]
-            fn id(&self) -> SectionId {
-                SectionId::$name
-            }
-        }
-    };
-}
-
-/// Functionality common to all writable DWARF sections.
-pub trait Section<W: Writer>: DerefMut<Target = W> {
-    /// Returns the DWARF section kind for this type.
-    fn id(&self) -> SectionId;
-
-    /// Returns the ELF section name for this type.
-    fn name(&self) -> &'static str {
-        self.id().name()
-    }
-}
-
-/// All of the writable DWARF sections.
-#[derive(Debug, Default)]
-pub struct Sections<W: Writer> {
-    /// The `.debug_abbrev` section.
-    pub debug_abbrev: DebugAbbrev<W>,
-    /// The `.debug_info` section.
-    pub debug_info: DebugInfo<W>,
-    /// The `.debug_line` section.
-    pub debug_line: DebugLine<W>,
-    /// The `.debug_line_str` section.
-    pub debug_line_str: DebugLineStr<W>,
-    /// The `.debug_ranges` section.
-    pub debug_ranges: DebugRanges<W>,
-    /// The `.debug_rnglists` section.
-    pub debug_rnglists: DebugRngLists<W>,
-    /// The `.debug_loc` section.
-    pub debug_loc: DebugLoc<W>,
-    /// The `.debug_loclists` section.
-    pub debug_loclists: DebugLocLists<W>,
-    /// The `.debug_str` section.
-    pub debug_str: DebugStr<W>,
-    /// The `.debug_frame` section.
-    pub debug_frame: DebugFrame<W>,
-    /// The `.eh_frame` section.
-    pub eh_frame: EhFrame<W>,
-    /// Unresolved references in the `.debug_info` section.
-    pub(crate) debug_info_refs: Vec<DebugInfoReference>,
-    /// Unresolved references in the `.debug_loc` section.
-    pub(crate) debug_loc_refs: Vec<DebugInfoReference>,
-    /// Unresolved references in the `.debug_loclists` section.
-    pub(crate) debug_loclists_refs: Vec<DebugInfoReference>,
-}
-
-impl<W: Writer + Clone> Sections<W> {
-    /// Create a new `Sections` using clones of the given `section`.
-    pub fn new(section: W) -> Self {
-        Sections {
-            debug_abbrev: DebugAbbrev(section.clone()),
-            debug_info: DebugInfo(section.clone()),
-            debug_line: DebugLine(section.clone()),
-            debug_line_str: DebugLineStr(section.clone()),
-            debug_ranges: DebugRanges(section.clone()),
-            debug_rnglists: DebugRngLists(section.clone()),
-            debug_loc: DebugLoc(section.clone()),
-            debug_loclists: DebugLocLists(section.clone()),
-            debug_str: DebugStr(section.clone()),
-            debug_frame: DebugFrame(section.clone()),
-            eh_frame: EhFrame(section),
-            debug_info_refs: Vec::new(),
-            debug_loc_refs: Vec::new(),
-            debug_loclists_refs: Vec::new(),
-        }
-    }
-}
-
-impl<W: Writer> Sections<W> {
-    /// For each section, call `f` once with a shared reference.
-    pub fn for_each<F, E>(&self, mut f: F) -> result::Result<(), E>
-    where
-        F: FnMut(SectionId, &W) -> result::Result<(), E>,
-    {
-        macro_rules! f {
-            ($s:expr) => {
-                f($s.id(), &$s)
-            };
-        }
-        // Ordered so that earlier sections do not reference later sections.
-        f!(self.debug_abbrev)?;
-        f!(self.debug_str)?;
-        f!(self.debug_line_str)?;
-        f!(self.debug_line)?;
-        f!(self.debug_ranges)?;
-        f!(self.debug_rnglists)?;
-        f!(self.debug_loc)?;
-        f!(self.debug_loclists)?;
-        f!(self.debug_info)?;
-        f!(self.debug_frame)?;
-        f!(self.eh_frame)?;
-        Ok(())
-    }
-
-    /// For each section, call `f` once with a mutable reference.
-    pub fn for_each_mut<F, E>(&mut self, mut f: F) -> result::Result<(), E>
-    where
-        F: FnMut(SectionId, &mut W) -> result::Result<(), E>,
-    {
-        macro_rules! f {
-            ($s:expr) => {
-                f($s.id(), &mut $s)
-            };
-        }
-        // Ordered so that earlier sections do not reference later sections.
-        f!(self.debug_abbrev)?;
-        f!(self.debug_str)?;
-        f!(self.debug_line_str)?;
-        f!(self.debug_line)?;
-        f!(self.debug_ranges)?;
-        f!(self.debug_rnglists)?;
-        f!(self.debug_loc)?;
-        f!(self.debug_loclists)?;
-        f!(self.debug_info)?;
-        f!(self.debug_frame)?;
-        f!(self.eh_frame)?;
-        Ok(())
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/str.rs b/vendor/gimli-0.27.3/src/write/str.rs
deleted file mode 100644
index 83285c035..000000000
--- a/vendor/gimli-0.27.3/src/write/str.rs
+++ /dev/null
@@ -1,172 +0,0 @@
-use alloc::vec::Vec;
-use indexmap::IndexSet;
-use std::ops::{Deref, DerefMut};
-
-use crate::common::{DebugLineStrOffset, DebugStrOffset, SectionId};
-use crate::write::{BaseId, Result, Section, Writer};
-
-// Requirements:
-// - values are `[u8]`, null bytes are not allowed
-// - insertion returns a fixed id
-// - inserting a duplicate returns the id of the existing value
-// - able to convert an id to a section offset
-// Optional?
-// - able to get an existing value given an id
-//
-// Limitations of current implementation (using IndexSet):
-// - inserting requires either an allocation for duplicates,
-//   or a double lookup for non-duplicates
-// - doesn't preserve offsets when updating an existing `.debug_str` section
-//
-// Possible changes:
-// - calculate offsets as we add values, and use that as the id.
-//   This would avoid the need for DebugStrOffsets but would make it
-//   hard to implement `get`.
-macro_rules! define_string_table {
-    ($name:ident, $id:ident, $section:ident, $offsets:ident, $docs:expr) => {
-        #[doc=$docs]
-        #[derive(Debug, Default)]
-        pub struct $name {
-            base_id: BaseId,
-            strings: IndexSet<Vec<u8>>,
-        }
-
-        impl $name {
-            /// Add a string to the string table and return its id.
-            ///
-            /// If the string already exists, then return the id of the existing string.
-            ///
-            /// # Panics
-            ///
-            /// Panics if `bytes` contains a null byte.
-            pub fn add<T>(&mut self, bytes: T) -> $id
-            where
-                T: Into<Vec<u8>>,
-            {
-                let bytes = bytes.into();
-                assert!(!bytes.contains(&0));
-                let (index, _) = self.strings.insert_full(bytes);
-                $id::new(self.base_id, index)
-            }
-
-            /// Return the number of strings in the table.
-            #[inline]
-            pub fn count(&self) -> usize {
-                self.strings.len()
-            }
-
-            /// Get a reference to a string in the table.
-            ///
-            /// # Panics
-            ///
-            /// Panics if `id` is invalid.
-            pub fn get(&self, id: $id) -> &[u8] {
-                debug_assert_eq!(self.base_id, id.base_id);
-                self.strings.get_index(id.index).map(Vec::as_slice).unwrap()
-            }
-
-            /// Write the string table to the `.debug_str` section.
-            ///
-            /// Returns the offsets at which the strings are written.
-            pub fn write<W: Writer>(&self, w: &mut $section<W>) -> Result<$offsets> {
-                let mut offsets = Vec::new();
-                for bytes in self.strings.iter() {
-                    offsets.push(w.offset());
-                    w.write(bytes)?;
-                    w.write_u8(0)?;
-                }
-
-                Ok($offsets {
-                    base_id: self.base_id,
-                    offsets,
-                })
-            }
-        }
-    };
-}
-
-define_id!(StringId, "An identifier for a string in a `StringTable`.");
-
-define_string_table!(
-    StringTable,
-    StringId,
-    DebugStr,
-    DebugStrOffsets,
-    "A table of strings that will be stored in a `.debug_str` section."
-);
-
-define_section!(DebugStr, DebugStrOffset, "A writable `.debug_str` section.");
-
-define_offsets!(
-    DebugStrOffsets: StringId => DebugStrOffset,
-    "The section offsets of all strings within a `.debug_str` section."
-);
-
-define_id!(
-    LineStringId,
-    "An identifier for a string in a `LineStringTable`."
-);
-
-define_string_table!(
-    LineStringTable,
-    LineStringId,
-    DebugLineStr,
-    DebugLineStrOffsets,
-    "A table of strings that will be stored in a `.debug_line_str` section."
-);
-
-define_section!(
-    DebugLineStr,
-    DebugLineStrOffset,
-    "A writable `.debug_line_str` section."
-);
-
-define_offsets!(
-    DebugLineStrOffsets: LineStringId => DebugLineStrOffset,
-    "The section offsets of all strings within a `.debug_line_str` section."
-);
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::read;
-    use crate::write::EndianVec;
-    use crate::LittleEndian;
-
-    #[test]
-    fn test_string_table() {
-        let mut strings = StringTable::default();
-        assert_eq!(strings.count(), 0);
-        let id1 = strings.add(&b"one"[..]);
-        let id2 = strings.add(&b"two"[..]);
-        assert_eq!(strings.add(&b"one"[..]), id1);
-        assert_eq!(strings.add(&b"two"[..]), id2);
-        assert_eq!(strings.get(id1), &b"one"[..]);
-        assert_eq!(strings.get(id2), &b"two"[..]);
-        assert_eq!(strings.count(), 2);
-
-        let mut debug_str = DebugStr::from(EndianVec::new(LittleEndian));
-        let offsets = strings.write(&mut debug_str).unwrap();
-        assert_eq!(debug_str.slice(), b"one\0two\0");
-        assert_eq!(offsets.get(id1), DebugStrOffset(0));
-        assert_eq!(offsets.get(id2), DebugStrOffset(4));
-        assert_eq!(offsets.count(), 2);
-    }
-
-    #[test]
-    fn test_string_table_read() {
-        let mut strings = StringTable::default();
-        let id1 = strings.add(&b"one"[..]);
-        let id2 = strings.add(&b"two"[..]);
-
-        let mut debug_str = DebugStr::from(EndianVec::new(LittleEndian));
-        let offsets = strings.write(&mut debug_str).unwrap();
-
-        let read_debug_str = read::DebugStr::new(debug_str.slice(), LittleEndian);
-        let str1 = read_debug_str.get_str(offsets.get(id1)).unwrap();
-        let str2 = read_debug_str.get_str(offsets.get(id2)).unwrap();
-        assert_eq!(str1.slice(), &b"one"[..]);
-        assert_eq!(str2.slice(), &b"two"[..]);
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/unit.rs b/vendor/gimli-0.27.3/src/write/unit.rs
deleted file mode 100644
index dd8ba6748..000000000
--- a/vendor/gimli-0.27.3/src/write/unit.rs
+++ /dev/null
@@ -1,3152 +0,0 @@
-use alloc::vec::Vec;
-use std::ops::{Deref, DerefMut};
-use std::{slice, usize};
-
-use crate::common::{
-    DebugAbbrevOffset, DebugInfoOffset, DebugLineOffset, DebugMacinfoOffset, DebugMacroOffset,
-    DebugStrOffset, DebugTypeSignature, Encoding, Format, SectionId,
-};
-use crate::constants;
-use crate::leb128::write::{sleb128_size, uleb128_size};
-use crate::write::{
-    Abbreviation, AbbreviationTable, Address, AttributeSpecification, BaseId, DebugLineStrOffsets,
-    DebugStrOffsets, Error, Expression, FileId, LineProgram, LineStringId, LocationListId,
-    LocationListOffsets, LocationListTable, RangeListId, RangeListOffsets, RangeListTable,
-    Reference, Result, Section, Sections, StringId, Writer,
-};
-
-define_id!(UnitId, "An identifier for a unit in a `UnitTable`.");
-
-define_id!(UnitEntryId, "An identifier for an entry in a `Unit`.");
-
-/// A table of units that will be stored in the `.debug_info` section.
-#[derive(Debug, Default)]
-pub struct UnitTable {
-    base_id: BaseId,
-    units: Vec<Unit>,
-}
-
-impl UnitTable {
-    /// Create a new unit and add it to the table.
-    ///
-    /// `address_size` must be in bytes.
-    ///
-    /// Returns the `UnitId` of the new unit.
-    #[inline]
-    pub fn add(&mut self, unit: Unit) -> UnitId {
-        let id = UnitId::new(self.base_id, self.units.len());
-        self.units.push(unit);
-        id
-    }
-
-    /// Return the number of units.
-    #[inline]
-    pub fn count(&self) -> usize {
-        self.units.len()
-    }
-
-    /// Return the id of a unit.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `index >= self.count()`.
-    #[inline]
-    pub fn id(&self, index: usize) -> UnitId {
-        assert!(index < self.count());
-        UnitId::new(self.base_id, index)
-    }
-
-    /// Get a reference to a unit.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    #[inline]
-    pub fn get(&self, id: UnitId) -> &Unit {
-        debug_assert_eq!(self.base_id, id.base_id);
-        &self.units[id.index]
-    }
-
-    /// Get a mutable reference to a unit.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    #[inline]
-    pub fn get_mut(&mut self, id: UnitId) -> &mut Unit {
-        debug_assert_eq!(self.base_id, id.base_id);
-        &mut self.units[id.index]
-    }
-
-    /// Write the units to the given sections.
-    ///
-    /// `strings` must contain the `.debug_str` offsets of the corresponding
-    /// `StringTable`.
-    pub fn write<W: Writer>(
-        &mut self,
-        sections: &mut Sections<W>,
-        line_strings: &DebugLineStrOffsets,
-        strings: &DebugStrOffsets,
-    ) -> Result<DebugInfoOffsets> {
-        let mut offsets = DebugInfoOffsets {
-            base_id: self.base_id,
-            units: Vec::new(),
-        };
-        for unit in &mut self.units {
-            // TODO: maybe share abbreviation tables
-            let abbrev_offset = sections.debug_abbrev.offset();
-            let mut abbrevs = AbbreviationTable::default();
-
-            offsets.units.push(unit.write(
-                sections,
-                abbrev_offset,
-                &mut abbrevs,
-                line_strings,
-                strings,
-            )?);
-
-            abbrevs.write(&mut sections.debug_abbrev)?;
-        }
-
-        write_section_refs(
-            &mut sections.debug_info_refs,
-            &mut sections.debug_info.0,
-            &offsets,
-        )?;
-        write_section_refs(
-            &mut sections.debug_loc_refs,
-            &mut sections.debug_loc.0,
-            &offsets,
-        )?;
-        write_section_refs(
-            &mut sections.debug_loclists_refs,
-            &mut sections.debug_loclists.0,
-            &offsets,
-        )?;
-
-        Ok(offsets)
-    }
-}
-
-fn write_section_refs<W: Writer>(
-    references: &mut Vec<DebugInfoReference>,
-    w: &mut W,
-    offsets: &DebugInfoOffsets,
-) -> Result<()> {
-    for r in references.drain(..) {
-        let entry_offset = offsets.entry(r.unit, r.entry).0;
-        debug_assert_ne!(entry_offset, 0);
-        w.write_offset_at(r.offset, entry_offset, SectionId::DebugInfo, r.size)?;
-    }
-    Ok(())
-}
-
-/// A unit's debugging information.
-#[derive(Debug)]
-pub struct Unit {
-    base_id: BaseId,
-    /// The encoding parameters for this unit.
-    encoding: Encoding,
-    /// The line number program for this unit.
-    pub line_program: LineProgram,
-    /// A table of range lists used by this unit.
-    pub ranges: RangeListTable,
-    /// A table of location lists used by this unit.
-    pub locations: LocationListTable,
-    /// All entries in this unit. The order is unrelated to the tree order.
-    // Requirements:
-    // - entries form a tree
-    // - entries can be added in any order
-    // - entries have a fixed id
-    // - able to quickly lookup an entry from its id
-    // Limitations of current implementation:
-    // - mutable iteration of children is messy due to borrow checker
-    entries: Vec<DebuggingInformationEntry>,
-    /// The index of the root entry in entries.
-    root: UnitEntryId,
-}
-
-impl Unit {
-    /// Create a new `Unit`.
-    pub fn new(encoding: Encoding, line_program: LineProgram) -> Self {
-        let base_id = BaseId::default();
-        let ranges = RangeListTable::default();
-        let locations = LocationListTable::default();
-        let mut entries = Vec::new();
-        let root = DebuggingInformationEntry::new(
-            base_id,
-            &mut entries,
-            None,
-            constants::DW_TAG_compile_unit,
-        );
-        Unit {
-            base_id,
-            encoding,
-            line_program,
-            ranges,
-            locations,
-            entries,
-            root,
-        }
-    }
-
-    /// Return the encoding parameters for this unit.
-    #[inline]
-    pub fn encoding(&self) -> Encoding {
-        self.encoding
-    }
-
-    /// Return the DWARF version for this unit.
-    #[inline]
-    pub fn version(&self) -> u16 {
-        self.encoding.version
-    }
-
-    /// Return the address size in bytes for this unit.
-    #[inline]
-    pub fn address_size(&self) -> u8 {
-        self.encoding.address_size
-    }
-
-    /// Return the DWARF format for this unit.
-    #[inline]
-    pub fn format(&self) -> Format {
-        self.encoding.format
-    }
-
-    /// Return the number of `DebuggingInformationEntry`s created for this unit.
-    ///
-    /// This includes entries that no longer have a parent.
-    #[inline]
-    pub fn count(&self) -> usize {
-        self.entries.len()
-    }
-
-    /// Return the id of the root entry.
-    #[inline]
-    pub fn root(&self) -> UnitEntryId {
-        self.root
-    }
-
-    /// Add a new `DebuggingInformationEntry` to this unit and return its id.
-    ///
-    /// The `parent` must be within the same unit.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `parent` is invalid.
-    #[inline]
-    pub fn add(&mut self, parent: UnitEntryId, tag: constants::DwTag) -> UnitEntryId {
-        debug_assert_eq!(self.base_id, parent.base_id);
-        DebuggingInformationEntry::new(self.base_id, &mut self.entries, Some(parent), tag)
-    }
-
-    /// Get a reference to an entry.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    #[inline]
-    pub fn get(&self, id: UnitEntryId) -> &DebuggingInformationEntry {
-        debug_assert_eq!(self.base_id, id.base_id);
-        &self.entries[id.index]
-    }
-
-    /// Get a mutable reference to an entry.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `id` is invalid.
-    #[inline]
-    pub fn get_mut(&mut self, id: UnitEntryId) -> &mut DebuggingInformationEntry {
-        debug_assert_eq!(self.base_id, id.base_id);
-        &mut self.entries[id.index]
-    }
-
-    /// Return true if `self.line_program` is used by a DIE.
-    fn line_program_in_use(&self) -> bool {
-        if self.line_program.is_none() {
-            return false;
-        }
-        if !self.line_program.is_empty() {
-            return true;
-        }
-
-        for entry in &self.entries {
-            for attr in &entry.attrs {
-                if let AttributeValue::FileIndex(Some(_)) = attr.value {
-                    return true;
-                }
-            }
-        }
-
-        false
-    }
-
-    /// Write the unit to the given sections.
-    pub(crate) fn write<W: Writer>(
-        &mut self,
-        sections: &mut Sections<W>,
-        abbrev_offset: DebugAbbrevOffset,
-        abbrevs: &mut AbbreviationTable,
-        line_strings: &DebugLineStrOffsets,
-        strings: &DebugStrOffsets,
-    ) -> Result<UnitOffsets> {
-        let line_program = if self.line_program_in_use() {
-            self.entries[self.root.index]
-                .set(constants::DW_AT_stmt_list, AttributeValue::LineProgramRef);
-            Some(self.line_program.write(
-                &mut sections.debug_line,
-                self.encoding,
-                line_strings,
-                strings,
-            )?)
-        } else {
-            self.entries[self.root.index].delete(constants::DW_AT_stmt_list);
-            None
-        };
-
-        // TODO: use .debug_types for type units in DWARF v4.
-        let w = &mut sections.debug_info;
-
-        let mut offsets = UnitOffsets {
-            base_id: self.base_id,
-            unit: w.offset(),
-            // Entries can be written in any order, so create the complete vec now.
-            entries: vec![EntryOffset::none(); self.entries.len()],
-        };
-
-        let length_offset = w.write_initial_length(self.format())?;
-        let length_base = w.len();
-
-        w.write_u16(self.version())?;
-        if 2 <= self.version() && self.version() <= 4 {
-            w.write_offset(
-                abbrev_offset.0,
-                SectionId::DebugAbbrev,
-                self.format().word_size(),
-            )?;
-            w.write_u8(self.address_size())?;
-        } else if self.version() == 5 {
-            w.write_u8(constants::DW_UT_compile.0)?;
-            w.write_u8(self.address_size())?;
-            w.write_offset(
-                abbrev_offset.0,
-                SectionId::DebugAbbrev,
-                self.format().word_size(),
-            )?;
-        } else {
-            return Err(Error::UnsupportedVersion(self.version()));
-        }
-
-        // Calculate all DIE offsets, so that we are able to output references to them.
-        // However, references to base types in expressions use ULEB128, so base types
-        // must be moved to the front before we can calculate offsets.
-        self.reorder_base_types();
-        let mut offset = w.len();
-        self.entries[self.root.index].calculate_offsets(
-            self,
-            &mut offset,
-            &mut offsets,
-            abbrevs,
-        )?;
-
-        let range_lists = self.ranges.write(sections, self.encoding)?;
-        // Location lists can't be written until we have DIE offsets.
-        let loc_lists = self
-            .locations
-            .write(sections, self.encoding, Some(&offsets))?;
-
-        let w = &mut sections.debug_info;
-        let mut unit_refs = Vec::new();
-        self.entries[self.root.index].write(
-            w,
-            &mut sections.debug_info_refs,
-            &mut unit_refs,
-            self,
-            &mut offsets,
-            line_program,
-            line_strings,
-            strings,
-            &range_lists,
-            &loc_lists,
-        )?;
-
-        let length = (w.len() - length_base) as u64;
-        w.write_initial_length_at(length_offset, length, self.format())?;
-
-        for (offset, entry) in unit_refs {
-            // This does not need relocation.
-            w.write_udata_at(
-                offset.0,
-                offsets.unit_offset(entry),
-                self.format().word_size(),
-            )?;
-        }
-
-        Ok(offsets)
-    }
-
-    /// Reorder base types to come first so that typed stack operations
-    /// can get their offset.
-    fn reorder_base_types(&mut self) {
-        let root = &self.entries[self.root.index];
-        let mut root_children = Vec::with_capacity(root.children.len());
-        for entry in &root.children {
-            if self.entries[entry.index].tag == constants::DW_TAG_base_type {
-                root_children.push(*entry);
-            }
-        }
-        for entry in &root.children {
-            if self.entries[entry.index].tag != constants::DW_TAG_base_type {
-                root_children.push(*entry);
-            }
-        }
-        self.entries[self.root.index].children = root_children;
-    }
-}
-
-/// A Debugging Information Entry (DIE).
-///
-/// DIEs have a set of attributes and optionally have children DIEs as well.
-///
-/// DIEs form a tree without any cycles. This is enforced by specifying the
-/// parent when creating a DIE, and disallowing changes of parent.
-#[derive(Debug)]
-pub struct DebuggingInformationEntry {
-    id: UnitEntryId,
-    parent: Option<UnitEntryId>,
-    tag: constants::DwTag,
-    /// Whether to emit `DW_AT_sibling`.
-    sibling: bool,
-    attrs: Vec<Attribute>,
-    children: Vec<UnitEntryId>,
-}
-
-impl DebuggingInformationEntry {
-    /// Create a new `DebuggingInformationEntry`.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `parent` is invalid.
-    #[allow(clippy::new_ret_no_self)]
-    fn new(
-        base_id: BaseId,
-        entries: &mut Vec<DebuggingInformationEntry>,
-        parent: Option<UnitEntryId>,
-        tag: constants::DwTag,
-    ) -> UnitEntryId {
-        let id = UnitEntryId::new(base_id, entries.len());
-        entries.push(DebuggingInformationEntry {
-            id,
-            parent,
-            tag,
-            sibling: false,
-            attrs: Vec::new(),
-            children: Vec::new(),
-        });
-        if let Some(parent) = parent {
-            debug_assert_eq!(base_id, parent.base_id);
-            assert_ne!(parent, id);
-            entries[parent.index].children.push(id);
-        }
-        id
-    }
-
-    /// Return the id of this entry.
-    #[inline]
-    pub fn id(&self) -> UnitEntryId {
-        self.id
-    }
-
-    /// Return the parent of this entry.
-    #[inline]
-    pub fn parent(&self) -> Option<UnitEntryId> {
-        self.parent
-    }
-
-    /// Return the tag of this entry.
-    #[inline]
-    pub fn tag(&self) -> constants::DwTag {
-        self.tag
-    }
-
-    /// Return `true` if a `DW_AT_sibling` attribute will be emitted.
-    #[inline]
-    pub fn sibling(&self) -> bool {
-        self.sibling
-    }
-
-    /// Set whether a `DW_AT_sibling` attribute will be emitted.
-    ///
-    /// The attribute will only be emitted if the DIE has children.
-    #[inline]
-    pub fn set_sibling(&mut self, sibling: bool) {
-        self.sibling = sibling;
-    }
-
-    /// Iterate over the attributes of this entry.
-    #[inline]
-    pub fn attrs(&self) -> slice::Iter<Attribute> {
-        self.attrs.iter()
-    }
-
-    /// Iterate over the attributes of this entry for modification.
-    #[inline]
-    pub fn attrs_mut(&mut self) -> slice::IterMut<Attribute> {
-        self.attrs.iter_mut()
-    }
-
-    /// Get an attribute.
-    pub fn get(&self, name: constants::DwAt) -> Option<&AttributeValue> {
-        self.attrs
-            .iter()
-            .find(|attr| attr.name == name)
-            .map(|attr| &attr.value)
-    }
-
-    /// Get an attribute for modification.
-    pub fn get_mut(&mut self, name: constants::DwAt) -> Option<&mut AttributeValue> {
-        self.attrs
-            .iter_mut()
-            .find(|attr| attr.name == name)
-            .map(|attr| &mut attr.value)
-    }
-
-    /// Set an attribute.
-    ///
-    /// Replaces any existing attribute with the same name.
-    ///
-    /// # Panics
-    ///
-    /// Panics if `name` is `DW_AT_sibling`. Use `set_sibling` instead.
-    pub fn set(&mut self, name: constants::DwAt, value: AttributeValue) {
-        assert_ne!(name, constants::DW_AT_sibling);
-        if let Some(attr) = self.attrs.iter_mut().find(|attr| attr.name == name) {
-            attr.value = value;
-            return;
-        }
-        self.attrs.push(Attribute { name, value });
-    }
-
-    /// Delete an attribute.
-    ///
-    /// Replaces any existing attribute with the same name.
-    pub fn delete(&mut self, name: constants::DwAt) {
-        self.attrs.retain(|x| x.name != name);
-    }
-
-    /// Iterate over the children of this entry.
-    ///
-    /// Note: use `Unit::add` to add a new child to this entry.
-    #[inline]
-    pub fn children(&self) -> slice::Iter<UnitEntryId> {
-        self.children.iter()
-    }
-
-    /// Delete a child entry and all of its children.
-    pub fn delete_child(&mut self, id: UnitEntryId) {
-        self.children.retain(|&child| child != id);
-    }
-
-    /// Return the type abbreviation for this DIE.
-    fn abbreviation(&self, encoding: Encoding) -> Result<Abbreviation> {
-        let mut attrs = Vec::new();
-
-        if self.sibling && !self.children.is_empty() {
-            let form = match encoding.format {
-                Format::Dwarf32 => constants::DW_FORM_ref4,
-                Format::Dwarf64 => constants::DW_FORM_ref8,
-            };
-            attrs.push(AttributeSpecification::new(constants::DW_AT_sibling, form));
-        }
-
-        for attr in &self.attrs {
-            attrs.push(attr.specification(encoding)?);
-        }
-
-        Ok(Abbreviation::new(
-            self.tag,
-            !self.children.is_empty(),
-            attrs,
-        ))
-    }
-
-    fn calculate_offsets(
-        &self,
-        unit: &Unit,
-        offset: &mut usize,
-        offsets: &mut UnitOffsets,
-        abbrevs: &mut AbbreviationTable,
-    ) -> Result<()> {
-        offsets.entries[self.id.index].offset = DebugInfoOffset(*offset);
-        offsets.entries[self.id.index].abbrev = abbrevs.add(self.abbreviation(unit.encoding())?);
-        *offset += self.size(unit, offsets);
-        if !self.children.is_empty() {
-            for child in &self.children {
-                unit.entries[child.index].calculate_offsets(unit, offset, offsets, abbrevs)?;
-            }
-            // Null child
-            *offset += 1;
-        }
-        Ok(())
-    }
-
-    fn size(&self, unit: &Unit, offsets: &UnitOffsets) -> usize {
-        let mut size = uleb128_size(offsets.abbrev(self.id));
-        if self.sibling && !self.children.is_empty() {
-            size += unit.format().word_size() as usize;
-        }
-        for attr in &self.attrs {
-            size += attr.value.size(unit, offsets);
-        }
-        size
-    }
-
-    /// Write the entry to the given sections.
-    fn write<W: Writer>(
-        &self,
-        w: &mut DebugInfo<W>,
-        debug_info_refs: &mut Vec<DebugInfoReference>,
-        unit_refs: &mut Vec<(DebugInfoOffset, UnitEntryId)>,
-        unit: &Unit,
-        offsets: &mut UnitOffsets,
-        line_program: Option<DebugLineOffset>,
-        line_strings: &DebugLineStrOffsets,
-        strings: &DebugStrOffsets,
-        range_lists: &RangeListOffsets,
-        loc_lists: &LocationListOffsets,
-    ) -> Result<()> {
-        debug_assert_eq!(offsets.debug_info_offset(self.id), w.offset());
-        w.write_uleb128(offsets.abbrev(self.id))?;
-
-        let sibling_offset = if self.sibling && !self.children.is_empty() {
-            let offset = w.offset();
-            w.write_udata(0, unit.format().word_size())?;
-            Some(offset)
-        } else {
-            None
-        };
-
-        for attr in &self.attrs {
-            attr.value.write(
-                w,
-                debug_info_refs,
-                unit_refs,
-                unit,
-                offsets,
-                line_program,
-                line_strings,
-                strings,
-                range_lists,
-                loc_lists,
-            )?;
-        }
-
-        if !self.children.is_empty() {
-            for child in &self.children {
-                unit.entries[child.index].write(
-                    w,
-                    debug_info_refs,
-                    unit_refs,
-                    unit,
-                    offsets,
-                    line_program,
-                    line_strings,
-                    strings,
-                    range_lists,
-                    loc_lists,
-                )?;
-            }
-            // Null child
-            w.write_u8(0)?;
-        }
-
-        if let Some(offset) = sibling_offset {
-            let next_offset = (w.offset().0 - offsets.unit.0) as u64;
-            // This does not need relocation.
-            w.write_udata_at(offset.0, next_offset, unit.format().word_size())?;
-        }
-        Ok(())
-    }
-}
-
-/// An attribute in a `DebuggingInformationEntry`, consisting of a name and
-/// associated value.
-#[derive(Debug, Clone, PartialEq, Eq)]
-pub struct Attribute {
-    name: constants::DwAt,
-    value: AttributeValue,
-}
-
-impl Attribute {
-    /// Get the name of this attribute.
-    #[inline]
-    pub fn name(&self) -> constants::DwAt {
-        self.name
-    }
-
-    /// Get the value of this attribute.
-    #[inline]
-    pub fn get(&self) -> &AttributeValue {
-        &self.value
-    }
-
-    /// Set the value of this attribute.
-    #[inline]
-    pub fn set(&mut self, value: AttributeValue) {
-        self.value = value;
-    }
-
-    /// Return the type specification for this attribute.
-    fn specification(&self, encoding: Encoding) -> Result<AttributeSpecification> {
-        Ok(AttributeSpecification::new(
-            self.name,
-            self.value.form(encoding)?,
-        ))
-    }
-}
-
-/// The value of an attribute in a `DebuggingInformationEntry`.
-#[derive(Debug, Clone, PartialEq, Eq)]
-pub enum AttributeValue {
-    /// "Refers to some location in the address space of the described program."
-    Address(Address),
-
-    /// A slice of an arbitrary number of bytes.
-    Block(Vec<u8>),
-
-    /// A one byte constant data value. How to interpret the byte depends on context.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data1(u8),
-
-    /// A two byte constant data value. How to interpret the bytes depends on context.
-    ///
-    /// This value will be converted to the target endian before writing.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data2(u16),
-
-    /// A four byte constant data value. How to interpret the bytes depends on context.
-    ///
-    /// This value will be converted to the target endian before writing.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data4(u32),
-
-    /// An eight byte constant data value. How to interpret the bytes depends on context.
-    ///
-    /// This value will be converted to the target endian before writing.
-    ///
-    /// From section 7 of the standard: "Depending on context, it may be a
-    /// signed integer, an unsigned integer, a floating-point constant, or
-    /// anything else."
-    Data8(u64),
-
-    /// A signed integer constant.
-    Sdata(i64),
-
-    /// An unsigned integer constant.
-    Udata(u64),
-
-    /// "The information bytes contain a DWARF expression (see Section 2.5) or
-    /// location description (see Section 2.6)."
-    Exprloc(Expression),
-
-    /// A boolean that indicates presence or absence of the attribute.
-    Flag(bool),
-
-    /// An attribute that is always present.
-    FlagPresent,
-
-    /// A reference to a `DebuggingInformationEntry` in this unit.
-    UnitRef(UnitEntryId),
-
-    /// A reference to a `DebuggingInformationEntry` in a potentially different unit.
-    DebugInfoRef(Reference),
-
-    /// An offset into the `.debug_info` section of the supplementary object file.
-    ///
-    /// The API does not currently assist with generating this offset.
-    /// This variant will be removed from the API once support for writing
-    /// supplementary object files is implemented.
-    DebugInfoRefSup(DebugInfoOffset),
-
-    /// A reference to a line number program.
-    LineProgramRef,
-
-    /// A reference to a location list.
-    LocationListRef(LocationListId),
-
-    /// An offset into the `.debug_macinfo` section.
-    ///
-    /// The API does not currently assist with generating this offset.
-    /// This variant will be removed from the API once support for writing
-    /// `.debug_macinfo` sections is implemented.
-    DebugMacinfoRef(DebugMacinfoOffset),
-
-    /// An offset into the `.debug_macro` section.
-    ///
-    /// The API does not currently assist with generating this offset.
-    /// This variant will be removed from the API once support for writing
-    /// `.debug_macro` sections is implemented.
-    DebugMacroRef(DebugMacroOffset),
-
-    /// A reference to a range list.
-    RangeListRef(RangeListId),
-
-    /// A type signature.
-    ///
-    /// The API does not currently assist with generating this signature.
-    /// This variant will be removed from the API once support for writing
-    /// `.debug_types` sections is implemented.
-    DebugTypesRef(DebugTypeSignature),
-
-    /// A reference to a string in the `.debug_str` section.
-    StringRef(StringId),
-
-    /// An offset into the `.debug_str` section of the supplementary object file.
-    ///
-    /// The API does not currently assist with generating this offset.
-    /// This variant will be removed from the API once support for writing
-    /// supplementary object files is implemented.
-    DebugStrRefSup(DebugStrOffset),
-
-    /// A reference to a string in the `.debug_line_str` section.
-    LineStringRef(LineStringId),
-
-    /// A slice of bytes representing a string. Must not include null bytes.
-    /// Not guaranteed to be UTF-8 or anything like that.
-    String(Vec<u8>),
-
-    /// The value of a `DW_AT_encoding` attribute.
-    Encoding(constants::DwAte),
-
-    /// The value of a `DW_AT_decimal_sign` attribute.
-    DecimalSign(constants::DwDs),
-
-    /// The value of a `DW_AT_endianity` attribute.
-    Endianity(constants::DwEnd),
-
-    /// The value of a `DW_AT_accessibility` attribute.
-    Accessibility(constants::DwAccess),
-
-    /// The value of a `DW_AT_visibility` attribute.
-    Visibility(constants::DwVis),
-
-    /// The value of a `DW_AT_virtuality` attribute.
-    Virtuality(constants::DwVirtuality),
-
-    /// The value of a `DW_AT_language` attribute.
-    Language(constants::DwLang),
-
-    /// The value of a `DW_AT_address_class` attribute.
-    AddressClass(constants::DwAddr),
-
-    /// The value of a `DW_AT_identifier_case` attribute.
-    IdentifierCase(constants::DwId),
-
-    /// The value of a `DW_AT_calling_convention` attribute.
-    CallingConvention(constants::DwCc),
-
-    /// The value of a `DW_AT_inline` attribute.
-    Inline(constants::DwInl),
-
-    /// The value of a `DW_AT_ordering` attribute.
-    Ordering(constants::DwOrd),
-
-    /// An index into the filename entries from the line number information
-    /// table for the unit containing this value.
-    FileIndex(Option<FileId>),
-}
-
-impl AttributeValue {
-    /// Return the form that will be used to encode this value.
-    pub fn form(&self, encoding: Encoding) -> Result<constants::DwForm> {
-        // TODO: missing forms:
-        // - DW_FORM_indirect
-        // - DW_FORM_implicit_const
-        // - FW_FORM_block1/block2/block4
-        // - DW_FORM_str/strx1/strx2/strx3/strx4
-        // - DW_FORM_addrx/addrx1/addrx2/addrx3/addrx4
-        // - DW_FORM_data16
-        // - DW_FORM_line_strp
-        // - DW_FORM_loclistx
-        // - DW_FORM_rnglistx
-        let form = match *self {
-            AttributeValue::Address(_) => constants::DW_FORM_addr,
-            AttributeValue::Block(_) => constants::DW_FORM_block,
-            AttributeValue::Data1(_) => constants::DW_FORM_data1,
-            AttributeValue::Data2(_) => constants::DW_FORM_data2,
-            AttributeValue::Data4(_) => constants::DW_FORM_data4,
-            AttributeValue::Data8(_) => constants::DW_FORM_data8,
-            AttributeValue::Exprloc(_) => constants::DW_FORM_exprloc,
-            AttributeValue::Flag(_) => constants::DW_FORM_flag,
-            AttributeValue::FlagPresent => constants::DW_FORM_flag_present,
-            AttributeValue::UnitRef(_) => {
-                // Using a fixed size format lets us write a placeholder before we know
-                // the value.
-                match encoding.format {
-                    Format::Dwarf32 => constants::DW_FORM_ref4,
-                    Format::Dwarf64 => constants::DW_FORM_ref8,
-                }
-            }
-            AttributeValue::DebugInfoRef(_) => constants::DW_FORM_ref_addr,
-            AttributeValue::DebugInfoRefSup(_) => {
-                // TODO: should this depend on the size of supplementary section?
-                match encoding.format {
-                    Format::Dwarf32 => constants::DW_FORM_ref_sup4,
-                    Format::Dwarf64 => constants::DW_FORM_ref_sup8,
-                }
-            }
-            AttributeValue::LineProgramRef
-            | AttributeValue::LocationListRef(_)
-            | AttributeValue::DebugMacinfoRef(_)
-            | AttributeValue::DebugMacroRef(_)
-            | AttributeValue::RangeListRef(_) => {
-                if encoding.version == 2 || encoding.version == 3 {
-                    match encoding.format {
-                        Format::Dwarf32 => constants::DW_FORM_data4,
-                        Format::Dwarf64 => constants::DW_FORM_data8,
-                    }
-                } else {
-                    constants::DW_FORM_sec_offset
-                }
-            }
-            AttributeValue::DebugTypesRef(_) => constants::DW_FORM_ref_sig8,
-            AttributeValue::StringRef(_) => constants::DW_FORM_strp,
-            AttributeValue::DebugStrRefSup(_) => constants::DW_FORM_strp_sup,
-            AttributeValue::LineStringRef(_) => constants::DW_FORM_line_strp,
-            AttributeValue::String(_) => constants::DW_FORM_string,
-            AttributeValue::Encoding(_)
-            | AttributeValue::DecimalSign(_)
-            | AttributeValue::Endianity(_)
-            | AttributeValue::Accessibility(_)
-            | AttributeValue::Visibility(_)
-            | AttributeValue::Virtuality(_)
-            | AttributeValue::Language(_)
-            | AttributeValue::AddressClass(_)
-            | AttributeValue::IdentifierCase(_)
-            | AttributeValue::CallingConvention(_)
-            | AttributeValue::Inline(_)
-            | AttributeValue::Ordering(_)
-            | AttributeValue::FileIndex(_)
-            | AttributeValue::Udata(_) => constants::DW_FORM_udata,
-            AttributeValue::Sdata(_) => constants::DW_FORM_sdata,
-        };
-        Ok(form)
-    }
-
-    fn size(&self, unit: &Unit, offsets: &UnitOffsets) -> usize {
-        macro_rules! debug_assert_form {
-            ($form:expr) => {
-                debug_assert_eq!(self.form(unit.encoding()).unwrap(), $form)
-            };
-        }
-        match *self {
-            AttributeValue::Address(_) => {
-                debug_assert_form!(constants::DW_FORM_addr);
-                unit.address_size() as usize
-            }
-            AttributeValue::Block(ref val) => {
-                debug_assert_form!(constants::DW_FORM_block);
-                uleb128_size(val.len() as u64) + val.len()
-            }
-            AttributeValue::Data1(_) => {
-                debug_assert_form!(constants::DW_FORM_data1);
-                1
-            }
-            AttributeValue::Data2(_) => {
-                debug_assert_form!(constants::DW_FORM_data2);
-                2
-            }
-            AttributeValue::Data4(_) => {
-                debug_assert_form!(constants::DW_FORM_data4);
-                4
-            }
-            AttributeValue::Data8(_) => {
-                debug_assert_form!(constants::DW_FORM_data8);
-                8
-            }
-            AttributeValue::Sdata(val) => {
-                debug_assert_form!(constants::DW_FORM_sdata);
-                sleb128_size(val)
-            }
-            AttributeValue::Udata(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val)
-            }
-            AttributeValue::Exprloc(ref val) => {
-                debug_assert_form!(constants::DW_FORM_exprloc);
-                let size = val.size(unit.encoding(), Some(offsets));
-                uleb128_size(size as u64) + size
-            }
-            AttributeValue::Flag(_) => {
-                debug_assert_form!(constants::DW_FORM_flag);
-                1
-            }
-            AttributeValue::FlagPresent => {
-                debug_assert_form!(constants::DW_FORM_flag_present);
-                0
-            }
-            AttributeValue::UnitRef(_) => {
-                match unit.format() {
-                    Format::Dwarf32 => debug_assert_form!(constants::DW_FORM_ref4),
-                    Format::Dwarf64 => debug_assert_form!(constants::DW_FORM_ref8),
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::DebugInfoRef(_) => {
-                debug_assert_form!(constants::DW_FORM_ref_addr);
-                if unit.version() == 2 {
-                    unit.address_size() as usize
-                } else {
-                    unit.format().word_size() as usize
-                }
-            }
-            AttributeValue::DebugInfoRefSup(_) => {
-                match unit.format() {
-                    Format::Dwarf32 => debug_assert_form!(constants::DW_FORM_ref_sup4),
-                    Format::Dwarf64 => debug_assert_form!(constants::DW_FORM_ref_sup8),
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::LineProgramRef => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::LocationListRef(_) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::DebugMacinfoRef(_) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::DebugMacroRef(_) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::RangeListRef(_) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                unit.format().word_size() as usize
-            }
-            AttributeValue::DebugTypesRef(_) => {
-                debug_assert_form!(constants::DW_FORM_ref_sig8);
-                8
-            }
-            AttributeValue::StringRef(_) => {
-                debug_assert_form!(constants::DW_FORM_strp);
-                unit.format().word_size() as usize
-            }
-            AttributeValue::DebugStrRefSup(_) => {
-                debug_assert_form!(constants::DW_FORM_strp_sup);
-                unit.format().word_size() as usize
-            }
-            AttributeValue::LineStringRef(_) => {
-                debug_assert_form!(constants::DW_FORM_line_strp);
-                unit.format().word_size() as usize
-            }
-            AttributeValue::String(ref val) => {
-                debug_assert_form!(constants::DW_FORM_string);
-                val.len() + 1
-            }
-            AttributeValue::Encoding(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::DecimalSign(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Endianity(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Accessibility(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Visibility(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Virtuality(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Language(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::AddressClass(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::IdentifierCase(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::CallingConvention(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Inline(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::Ordering(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.0 as u64)
-            }
-            AttributeValue::FileIndex(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                uleb128_size(val.map(FileId::raw).unwrap_or(0))
-            }
-        }
-    }
-
-    /// Write the attribute value to the given sections.
-    fn write<W: Writer>(
-        &self,
-        w: &mut DebugInfo<W>,
-        debug_info_refs: &mut Vec<DebugInfoReference>,
-        unit_refs: &mut Vec<(DebugInfoOffset, UnitEntryId)>,
-        unit: &Unit,
-        offsets: &UnitOffsets,
-        line_program: Option<DebugLineOffset>,
-        line_strings: &DebugLineStrOffsets,
-        strings: &DebugStrOffsets,
-        range_lists: &RangeListOffsets,
-        loc_lists: &LocationListOffsets,
-    ) -> Result<()> {
-        macro_rules! debug_assert_form {
-            ($form:expr) => {
-                debug_assert_eq!(self.form(unit.encoding()).unwrap(), $form)
-            };
-        }
-        match *self {
-            AttributeValue::Address(val) => {
-                debug_assert_form!(constants::DW_FORM_addr);
-                w.write_address(val, unit.address_size())?;
-            }
-            AttributeValue::Block(ref val) => {
-                debug_assert_form!(constants::DW_FORM_block);
-                w.write_uleb128(val.len() as u64)?;
-                w.write(val)?;
-            }
-            AttributeValue::Data1(val) => {
-                debug_assert_form!(constants::DW_FORM_data1);
-                w.write_u8(val)?;
-            }
-            AttributeValue::Data2(val) => {
-                debug_assert_form!(constants::DW_FORM_data2);
-                w.write_u16(val)?;
-            }
-            AttributeValue::Data4(val) => {
-                debug_assert_form!(constants::DW_FORM_data4);
-                w.write_u32(val)?;
-            }
-            AttributeValue::Data8(val) => {
-                debug_assert_form!(constants::DW_FORM_data8);
-                w.write_u64(val)?;
-            }
-            AttributeValue::Sdata(val) => {
-                debug_assert_form!(constants::DW_FORM_sdata);
-                w.write_sleb128(val)?;
-            }
-            AttributeValue::Udata(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(val)?;
-            }
-            AttributeValue::Exprloc(ref val) => {
-                debug_assert_form!(constants::DW_FORM_exprloc);
-                w.write_uleb128(val.size(unit.encoding(), Some(offsets)) as u64)?;
-                val.write(
-                    &mut w.0,
-                    Some(debug_info_refs),
-                    unit.encoding(),
-                    Some(offsets),
-                )?;
-            }
-            AttributeValue::Flag(val) => {
-                debug_assert_form!(constants::DW_FORM_flag);
-                w.write_u8(val as u8)?;
-            }
-            AttributeValue::FlagPresent => {
-                debug_assert_form!(constants::DW_FORM_flag_present);
-            }
-            AttributeValue::UnitRef(id) => {
-                match unit.format() {
-                    Format::Dwarf32 => debug_assert_form!(constants::DW_FORM_ref4),
-                    Format::Dwarf64 => debug_assert_form!(constants::DW_FORM_ref8),
-                }
-                unit_refs.push((w.offset(), id));
-                w.write_udata(0, unit.format().word_size())?;
-            }
-            AttributeValue::DebugInfoRef(reference) => {
-                debug_assert_form!(constants::DW_FORM_ref_addr);
-                let size = if unit.version() == 2 {
-                    unit.address_size()
-                } else {
-                    unit.format().word_size()
-                };
-                match reference {
-                    Reference::Symbol(symbol) => w.write_reference(symbol, size)?,
-                    Reference::Entry(unit, entry) => {
-                        debug_info_refs.push(DebugInfoReference {
-                            offset: w.len(),
-                            unit,
-                            entry,
-                            size,
-                        });
-                        w.write_udata(0, size)?;
-                    }
-                }
-            }
-            AttributeValue::DebugInfoRefSup(val) => {
-                match unit.format() {
-                    Format::Dwarf32 => debug_assert_form!(constants::DW_FORM_ref_sup4),
-                    Format::Dwarf64 => debug_assert_form!(constants::DW_FORM_ref_sup8),
-                }
-                w.write_udata(val.0 as u64, unit.format().word_size())?;
-            }
-            AttributeValue::LineProgramRef => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                match line_program {
-                    Some(line_program) => {
-                        w.write_offset(
-                            line_program.0,
-                            SectionId::DebugLine,
-                            unit.format().word_size(),
-                        )?;
-                    }
-                    None => return Err(Error::InvalidAttributeValue),
-                }
-            }
-            AttributeValue::LocationListRef(val) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                let section = if unit.version() <= 4 {
-                    SectionId::DebugLoc
-                } else {
-                    SectionId::DebugLocLists
-                };
-                w.write_offset(loc_lists.get(val).0, section, unit.format().word_size())?;
-            }
-            AttributeValue::DebugMacinfoRef(val) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                w.write_offset(val.0, SectionId::DebugMacinfo, unit.format().word_size())?;
-            }
-            AttributeValue::DebugMacroRef(val) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                w.write_offset(val.0, SectionId::DebugMacro, unit.format().word_size())?;
-            }
-            AttributeValue::RangeListRef(val) => {
-                if unit.version() >= 4 {
-                    debug_assert_form!(constants::DW_FORM_sec_offset);
-                }
-                let section = if unit.version() <= 4 {
-                    SectionId::DebugRanges
-                } else {
-                    SectionId::DebugRngLists
-                };
-                w.write_offset(range_lists.get(val).0, section, unit.format().word_size())?;
-            }
-            AttributeValue::DebugTypesRef(val) => {
-                debug_assert_form!(constants::DW_FORM_ref_sig8);
-                w.write_u64(val.0)?;
-            }
-            AttributeValue::StringRef(val) => {
-                debug_assert_form!(constants::DW_FORM_strp);
-                w.write_offset(
-                    strings.get(val).0,
-                    SectionId::DebugStr,
-                    unit.format().word_size(),
-                )?;
-            }
-            AttributeValue::DebugStrRefSup(val) => {
-                debug_assert_form!(constants::DW_FORM_strp_sup);
-                w.write_udata(val.0 as u64, unit.format().word_size())?;
-            }
-            AttributeValue::LineStringRef(val) => {
-                debug_assert_form!(constants::DW_FORM_line_strp);
-                w.write_offset(
-                    line_strings.get(val).0,
-                    SectionId::DebugLineStr,
-                    unit.format().word_size(),
-                )?;
-            }
-            AttributeValue::String(ref val) => {
-                debug_assert_form!(constants::DW_FORM_string);
-                w.write(val)?;
-                w.write_u8(0)?;
-            }
-            AttributeValue::Encoding(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::DecimalSign(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Endianity(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Accessibility(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Visibility(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Virtuality(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Language(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::AddressClass(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(val.0)?;
-            }
-            AttributeValue::IdentifierCase(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::CallingConvention(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Inline(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::Ordering(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(u64::from(val.0))?;
-            }
-            AttributeValue::FileIndex(val) => {
-                debug_assert_form!(constants::DW_FORM_udata);
-                w.write_uleb128(val.map(FileId::raw).unwrap_or(0))?;
-            }
-        }
-        Ok(())
-    }
-}
-
-define_section!(
-    DebugInfo,
-    DebugInfoOffset,
-    "A writable `.debug_info` section."
-);
-
-/// The section offsets of all elements within a `.debug_info` section.
-#[derive(Debug, Default)]
-pub struct DebugInfoOffsets {
-    base_id: BaseId,
-    units: Vec<UnitOffsets>,
-}
-
-impl DebugInfoOffsets {
-    #[cfg(test)]
-    #[cfg(feature = "read")]
-    pub(crate) fn unit_offsets(&self, unit: UnitId) -> &UnitOffsets {
-        debug_assert_eq!(self.base_id, unit.base_id);
-        &self.units[unit.index]
-    }
-
-    /// Get the `.debug_info` section offset for the given unit.
-    #[inline]
-    pub fn unit(&self, unit: UnitId) -> DebugInfoOffset {
-        debug_assert_eq!(self.base_id, unit.base_id);
-        self.units[unit.index].unit
-    }
-
-    /// Get the `.debug_info` section offset for the given entry.
-    #[inline]
-    pub fn entry(&self, unit: UnitId, entry: UnitEntryId) -> DebugInfoOffset {
-        debug_assert_eq!(self.base_id, unit.base_id);
-        self.units[unit.index].debug_info_offset(entry)
-    }
-}
-
-/// The section offsets of all elements of a unit within a `.debug_info` section.
-#[derive(Debug)]
-pub(crate) struct UnitOffsets {
-    base_id: BaseId,
-    unit: DebugInfoOffset,
-    entries: Vec<EntryOffset>,
-}
-
-impl UnitOffsets {
-    #[cfg(test)]
-    #[cfg(feature = "read")]
-    fn none() -> Self {
-        UnitOffsets {
-            base_id: BaseId::default(),
-            unit: DebugInfoOffset(0),
-            entries: Vec::new(),
-        }
-    }
-
-    /// Get the .debug_info offset for the given entry.
-    #[inline]
-    pub(crate) fn debug_info_offset(&self, entry: UnitEntryId) -> DebugInfoOffset {
-        debug_assert_eq!(self.base_id, entry.base_id);
-        let offset = self.entries[entry.index].offset;
-        debug_assert_ne!(offset.0, 0);
-        offset
-    }
-
-    /// Get the unit offset for the given entry.
-    #[inline]
-    pub(crate) fn unit_offset(&self, entry: UnitEntryId) -> u64 {
-        let offset = self.debug_info_offset(entry);
-        (offset.0 - self.unit.0) as u64
-    }
-
-    /// Get the abbreviation code for the given entry.
-    #[inline]
-    pub(crate) fn abbrev(&self, entry: UnitEntryId) -> u64 {
-        debug_assert_eq!(self.base_id, entry.base_id);
-        self.entries[entry.index].abbrev
-    }
-}
-
-#[derive(Debug, Clone, Copy)]
-pub(crate) struct EntryOffset {
-    offset: DebugInfoOffset,
-    abbrev: u64,
-}
-
-impl EntryOffset {
-    fn none() -> Self {
-        EntryOffset {
-            offset: DebugInfoOffset(0),
-            abbrev: 0,
-        }
-    }
-}
-
-/// A reference to a `.debug_info` entry that has yet to be resolved.
-#[derive(Debug, Clone, Copy)]
-pub(crate) struct DebugInfoReference {
-    /// The offset within the section of the reference.
-    pub offset: usize,
-    /// The size of the reference.
-    pub size: u8,
-    /// The unit containing the entry.
-    pub unit: UnitId,
-    /// The entry being referenced.
-    pub entry: UnitEntryId,
-}
-
-#[cfg(feature = "read")]
-pub(crate) mod convert {
-    use super::*;
-    use crate::common::{DwoId, UnitSectionOffset};
-    use crate::read::{self, Reader};
-    use crate::write::{self, ConvertError, ConvertResult, LocationList, RangeList};
-    use std::collections::HashMap;
-
-    pub(crate) struct ConvertUnit<R: Reader<Offset = usize>> {
-        from_unit: read::Unit<R>,
-        base_id: BaseId,
-        encoding: Encoding,
-        entries: Vec<DebuggingInformationEntry>,
-        entry_offsets: Vec<read::UnitOffset>,
-        root: UnitEntryId,
-    }
-
-    pub(crate) struct ConvertUnitContext<'a, R: Reader<Offset = usize>> {
-        pub dwarf: &'a read::Dwarf<R>,
-        pub unit: &'a read::Unit<R>,
-        pub line_strings: &'a mut write::LineStringTable,
-        pub strings: &'a mut write::StringTable,
-        pub ranges: &'a mut write::RangeListTable,
-        pub locations: &'a mut write::LocationListTable,
-        pub convert_address: &'a dyn Fn(u64) -> Option<Address>,
-        pub base_address: Address,
-        pub line_program_offset: Option<DebugLineOffset>,
-        pub line_program_files: Vec<FileId>,
-        pub entry_ids: &'a HashMap<UnitSectionOffset, (UnitId, UnitEntryId)>,
-    }
-
-    impl UnitTable {
-        /// Create a unit table by reading the data in the given sections.
-        ///
-        /// This also updates the given tables with the values that are referenced from
-        /// attributes in this section.
-        ///
-        /// `convert_address` is a function to convert read addresses into the `Address`
-        /// type. For non-relocatable addresses, this function may simply return
-        /// `Address::Constant(address)`. For relocatable addresses, it is the caller's
-        /// responsibility to determine the symbol and addend corresponding to the address
-        /// and return `Address::Symbol { symbol, addend }`.
-        pub fn from<R: Reader<Offset = usize>>(
-            dwarf: &read::Dwarf<R>,
-            line_strings: &mut write::LineStringTable,
-            strings: &mut write::StringTable,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<UnitTable> {
-            let base_id = BaseId::default();
-            let mut unit_entries = Vec::new();
-            let mut entry_ids = HashMap::new();
-
-            let mut from_units = dwarf.units();
-            while let Some(from_unit) = from_units.next()? {
-                let unit_id = UnitId::new(base_id, unit_entries.len());
-                unit_entries.push(Unit::convert_entries(
-                    from_unit,
-                    unit_id,
-                    &mut entry_ids,
-                    dwarf,
-                )?);
-            }
-
-            // Attributes must be converted in a separate pass so that we can handle
-            // references to other compilation units.
-            let mut units = Vec::new();
-            for unit_entries in unit_entries.drain(..) {
-                units.push(Unit::convert_attributes(
-                    unit_entries,
-                    &entry_ids,
-                    dwarf,
-                    line_strings,
-                    strings,
-                    convert_address,
-                )?);
-            }
-
-            Ok(UnitTable { base_id, units })
-        }
-    }
-
-    impl Unit {
-        /// Create a unit by reading the data in the input sections.
-        ///
-        /// Does not add entry attributes.
-        pub(crate) fn convert_entries<R: Reader<Offset = usize>>(
-            from_header: read::UnitHeader<R>,
-            unit_id: UnitId,
-            entry_ids: &mut HashMap<UnitSectionOffset, (UnitId, UnitEntryId)>,
-            dwarf: &read::Dwarf<R>,
-        ) -> ConvertResult<ConvertUnit<R>> {
-            match from_header.type_() {
-                read::UnitType::Compilation => (),
-                _ => return Err(ConvertError::UnsupportedUnitType),
-            }
-            let base_id = BaseId::default();
-
-            let from_unit = dwarf.unit(from_header)?;
-            let encoding = from_unit.encoding();
-
-            let mut entries = Vec::new();
-            let mut entry_offsets = Vec::new();
-
-            let mut from_tree = from_unit.entries_tree(None)?;
-            let from_root = from_tree.root()?;
-            let root = DebuggingInformationEntry::convert_entry(
-                from_root,
-                &from_unit,
-                base_id,
-                &mut entries,
-                &mut entry_offsets,
-                entry_ids,
-                None,
-                unit_id,
-            )?;
-
-            Ok(ConvertUnit {
-                from_unit,
-                base_id,
-                encoding,
-                entries,
-                entry_offsets,
-                root,
-            })
-        }
-
-        /// Create entry attributes by reading the data in the input sections.
-        fn convert_attributes<R: Reader<Offset = usize>>(
-            unit: ConvertUnit<R>,
-            entry_ids: &HashMap<UnitSectionOffset, (UnitId, UnitEntryId)>,
-            dwarf: &read::Dwarf<R>,
-            line_strings: &mut write::LineStringTable,
-            strings: &mut write::StringTable,
-            convert_address: &dyn Fn(u64) -> Option<Address>,
-        ) -> ConvertResult<Unit> {
-            let from_unit = unit.from_unit;
-            let base_address =
-                convert_address(from_unit.low_pc).ok_or(ConvertError::InvalidAddress)?;
-
-            let (line_program_offset, line_program, line_program_files) =
-                match from_unit.line_program {
-                    Some(ref from_program) => {
-                        let from_program = from_program.clone();
-                        let line_program_offset = from_program.header().offset();
-                        let (line_program, line_program_files) = LineProgram::from(
-                            from_program,
-                            dwarf,
-                            line_strings,
-                            strings,
-                            convert_address,
-                        )?;
-                        (Some(line_program_offset), line_program, line_program_files)
-                    }
-                    None => (None, LineProgram::none(), Vec::new()),
-                };
-
-            let mut ranges = RangeListTable::default();
-            let mut locations = LocationListTable::default();
-
-            let mut context = ConvertUnitContext {
-                entry_ids,
-                dwarf,
-                unit: &from_unit,
-                line_strings,
-                strings,
-                ranges: &mut ranges,
-                locations: &mut locations,
-                convert_address,
-                base_address,
-                line_program_offset,
-                line_program_files,
-            };
-
-            let mut entries = unit.entries;
-            for entry in &mut entries {
-                entry.convert_attributes(&mut context, &unit.entry_offsets)?;
-            }
-
-            Ok(Unit {
-                base_id: unit.base_id,
-                encoding: unit.encoding,
-                line_program,
-                ranges,
-                locations,
-                entries,
-                root: unit.root,
-            })
-        }
-    }
-
-    impl DebuggingInformationEntry {
-        /// Create an entry by reading the data in the input sections.
-        ///
-        /// Does not add the entry attributes.
-        fn convert_entry<R: Reader<Offset = usize>>(
-            from: read::EntriesTreeNode<R>,
-            from_unit: &read::Unit<R>,
-            base_id: BaseId,
-            entries: &mut Vec<DebuggingInformationEntry>,
-            entry_offsets: &mut Vec<read::UnitOffset>,
-            entry_ids: &mut HashMap<UnitSectionOffset, (UnitId, UnitEntryId)>,
-            parent: Option<UnitEntryId>,
-            unit_id: UnitId,
-        ) -> ConvertResult<UnitEntryId> {
-            let from_entry = from.entry();
-            let id = DebuggingInformationEntry::new(base_id, entries, parent, from_entry.tag());
-            let offset = from_entry.offset();
-            entry_offsets.push(offset);
-            entry_ids.insert(offset.to_unit_section_offset(from_unit), (unit_id, id));
-
-            let mut from_children = from.children();
-            while let Some(from_child) = from_children.next()? {
-                DebuggingInformationEntry::convert_entry(
-                    from_child,
-                    from_unit,
-                    base_id,
-                    entries,
-                    entry_offsets,
-                    entry_ids,
-                    Some(id),
-                    unit_id,
-                )?;
-            }
-            Ok(id)
-        }
-
-        /// Create an entry's attributes by reading the data in the input sections.
-        fn convert_attributes<R: Reader<Offset = usize>>(
-            &mut self,
-            context: &mut ConvertUnitContext<R>,
-            entry_offsets: &[read::UnitOffset],
-        ) -> ConvertResult<()> {
-            let offset = entry_offsets[self.id.index];
-            let from = context.unit.entry(offset)?;
-            let mut from_attrs = from.attrs();
-            while let Some(from_attr) = from_attrs.next()? {
-                if from_attr.name() == constants::DW_AT_sibling {
-                    // This may point to a null entry, so we have to treat it differently.
-                    self.set_sibling(true);
-                } else if let Some(attr) = Attribute::from(context, &from_attr)? {
-                    self.set(attr.name, attr.value);
-                }
-            }
-            Ok(())
-        }
-    }
-
-    impl Attribute {
-        /// Create an attribute by reading the data in the given sections.
-        pub(crate) fn from<R: Reader<Offset = usize>>(
-            context: &mut ConvertUnitContext<R>,
-            from: &read::Attribute<R>,
-        ) -> ConvertResult<Option<Attribute>> {
-            let value = AttributeValue::from(context, from.value())?;
-            Ok(value.map(|value| Attribute {
-                name: from.name(),
-                value,
-            }))
-        }
-    }
-
-    impl AttributeValue {
-        /// Create an attribute value by reading the data in the given sections.
-        pub(crate) fn from<R: Reader<Offset = usize>>(
-            context: &mut ConvertUnitContext<R>,
-            from: read::AttributeValue<R>,
-        ) -> ConvertResult<Option<AttributeValue>> {
-            let to = match from {
-                read::AttributeValue::Addr(val) => match (context.convert_address)(val) {
-                    Some(val) => AttributeValue::Address(val),
-                    None => return Err(ConvertError::InvalidAddress),
-                },
-                read::AttributeValue::Block(r) => AttributeValue::Block(r.to_slice()?.into()),
-                read::AttributeValue::Data1(val) => AttributeValue::Data1(val),
-                read::AttributeValue::Data2(val) => AttributeValue::Data2(val),
-                read::AttributeValue::Data4(val) => AttributeValue::Data4(val),
-                read::AttributeValue::Data8(val) => AttributeValue::Data8(val),
-                read::AttributeValue::Sdata(val) => AttributeValue::Sdata(val),
-                read::AttributeValue::Udata(val) => AttributeValue::Udata(val),
-                read::AttributeValue::Exprloc(expression) => {
-                    let expression = Expression::from(
-                        expression,
-                        context.unit.encoding(),
-                        Some(context.dwarf),
-                        Some(context.unit),
-                        Some(context.entry_ids),
-                        context.convert_address,
-                    )?;
-                    AttributeValue::Exprloc(expression)
-                }
-                // TODO: it would be nice to preserve the flag form.
-                read::AttributeValue::Flag(val) => AttributeValue::Flag(val),
-                read::AttributeValue::DebugAddrBase(_base) => {
-                    // We convert all address indices to addresses,
-                    // so this is unneeded.
-                    return Ok(None);
-                }
-                read::AttributeValue::DebugAddrIndex(index) => {
-                    let val = context.dwarf.address(context.unit, index)?;
-                    match (context.convert_address)(val) {
-                        Some(val) => AttributeValue::Address(val),
-                        None => return Err(ConvertError::InvalidAddress),
-                    }
-                }
-                read::AttributeValue::UnitRef(val) => {
-                    if !context.unit.header.is_valid_offset(val) {
-                        return Err(ConvertError::InvalidUnitRef);
-                    }
-                    let id = context
-                        .entry_ids
-                        .get(&val.to_unit_section_offset(context.unit))
-                        .ok_or(ConvertError::InvalidUnitRef)?;
-                    AttributeValue::UnitRef(id.1)
-                }
-                read::AttributeValue::DebugInfoRef(val) => {
-                    // TODO: support relocation of this value
-                    let id = context
-                        .entry_ids
-                        .get(&UnitSectionOffset::DebugInfoOffset(val))
-                        .ok_or(ConvertError::InvalidDebugInfoRef)?;
-                    AttributeValue::DebugInfoRef(Reference::Entry(id.0, id.1))
-                }
-                read::AttributeValue::DebugInfoRefSup(val) => AttributeValue::DebugInfoRefSup(val),
-                read::AttributeValue::DebugLineRef(val) => {
-                    // There should only be the line program in the CU DIE which we've already
-                    // converted, so check if it matches that.
-                    if Some(val) == context.line_program_offset {
-                        AttributeValue::LineProgramRef
-                    } else {
-                        return Err(ConvertError::InvalidLineRef);
-                    }
-                }
-                read::AttributeValue::DebugMacinfoRef(val) => AttributeValue::DebugMacinfoRef(val),
-                read::AttributeValue::DebugMacroRef(val) => AttributeValue::DebugMacroRef(val),
-                read::AttributeValue::LocationListsRef(val) => {
-                    let iter = context
-                        .dwarf
-                        .locations
-                        .raw_locations(val, context.unit.encoding())?;
-                    let loc_list = LocationList::from(iter, context)?;
-                    let loc_id = context.locations.add(loc_list);
-                    AttributeValue::LocationListRef(loc_id)
-                }
-                read::AttributeValue::DebugLocListsBase(_base) => {
-                    // We convert all location list indices to offsets,
-                    // so this is unneeded.
-                    return Ok(None);
-                }
-                read::AttributeValue::DebugLocListsIndex(index) => {
-                    let offset = context.dwarf.locations_offset(context.unit, index)?;
-                    let iter = context
-                        .dwarf
-                        .locations
-                        .raw_locations(offset, context.unit.encoding())?;
-                    let loc_list = LocationList::from(iter, context)?;
-                    let loc_id = context.locations.add(loc_list);
-                    AttributeValue::LocationListRef(loc_id)
-                }
-                read::AttributeValue::RangeListsRef(offset) => {
-                    let offset = context.dwarf.ranges_offset_from_raw(context.unit, offset);
-                    let iter = context.dwarf.raw_ranges(context.unit, offset)?;
-                    let range_list = RangeList::from(iter, context)?;
-                    let range_id = context.ranges.add(range_list);
-                    AttributeValue::RangeListRef(range_id)
-                }
-                read::AttributeValue::DebugRngListsBase(_base) => {
-                    // We convert all range list indices to offsets,
-                    // so this is unneeded.
-                    return Ok(None);
-                }
-                read::AttributeValue::DebugRngListsIndex(index) => {
-                    let offset = context.dwarf.ranges_offset(context.unit, index)?;
-                    let iter = context
-                        .dwarf
-                        .ranges
-                        .raw_ranges(offset, context.unit.encoding())?;
-                    let range_list = RangeList::from(iter, context)?;
-                    let range_id = context.ranges.add(range_list);
-                    AttributeValue::RangeListRef(range_id)
-                }
-                read::AttributeValue::DebugTypesRef(val) => AttributeValue::DebugTypesRef(val),
-                read::AttributeValue::DebugStrRef(offset) => {
-                    let r = context.dwarf.string(offset)?;
-                    let id = context.strings.add(r.to_slice()?);
-                    AttributeValue::StringRef(id)
-                }
-                read::AttributeValue::DebugStrRefSup(val) => AttributeValue::DebugStrRefSup(val),
-                read::AttributeValue::DebugStrOffsetsBase(_base) => {
-                    // We convert all string offsets to `.debug_str` references,
-                    // so this is unneeded.
-                    return Ok(None);
-                }
-                read::AttributeValue::DebugStrOffsetsIndex(index) => {
-                    let offset = context.dwarf.string_offset(context.unit, index)?;
-                    let r = context.dwarf.string(offset)?;
-                    let id = context.strings.add(r.to_slice()?);
-                    AttributeValue::StringRef(id)
-                }
-                read::AttributeValue::DebugLineStrRef(offset) => {
-                    let r = context.dwarf.line_string(offset)?;
-                    let id = context.line_strings.add(r.to_slice()?);
-                    AttributeValue::LineStringRef(id)
-                }
-                read::AttributeValue::String(r) => AttributeValue::String(r.to_slice()?.into()),
-                read::AttributeValue::Encoding(val) => AttributeValue::Encoding(val),
-                read::AttributeValue::DecimalSign(val) => AttributeValue::DecimalSign(val),
-                read::AttributeValue::Endianity(val) => AttributeValue::Endianity(val),
-                read::AttributeValue::Accessibility(val) => AttributeValue::Accessibility(val),
-                read::AttributeValue::Visibility(val) => AttributeValue::Visibility(val),
-                read::AttributeValue::Virtuality(val) => AttributeValue::Virtuality(val),
-                read::AttributeValue::Language(val) => AttributeValue::Language(val),
-                read::AttributeValue::AddressClass(val) => AttributeValue::AddressClass(val),
-                read::AttributeValue::IdentifierCase(val) => AttributeValue::IdentifierCase(val),
-                read::AttributeValue::CallingConvention(val) => {
-                    AttributeValue::CallingConvention(val)
-                }
-                read::AttributeValue::Inline(val) => AttributeValue::Inline(val),
-                read::AttributeValue::Ordering(val) => AttributeValue::Ordering(val),
-                read::AttributeValue::FileIndex(val) => {
-                    if val == 0 {
-                        // 0 means not specified, even for version 5.
-                        AttributeValue::FileIndex(None)
-                    } else {
-                        match context.line_program_files.get(val as usize) {
-                            Some(id) => AttributeValue::FileIndex(Some(*id)),
-                            None => return Err(ConvertError::InvalidFileIndex),
-                        }
-                    }
-                }
-                // Should always be a more specific section reference.
-                read::AttributeValue::SecOffset(_) => {
-                    return Err(ConvertError::InvalidAttributeValue);
-                }
-                read::AttributeValue::DwoId(DwoId(val)) => AttributeValue::Udata(val),
-            };
-            Ok(Some(to))
-        }
-    }
-}
-
-#[cfg(test)]
-#[cfg(feature = "read")]
-mod tests {
-    use super::*;
-    use crate::common::{
-        DebugAddrBase, DebugLocListsBase, DebugRngListsBase, DebugStrOffsetsBase, LineEncoding,
-    };
-    use crate::constants;
-    use crate::read;
-    use crate::write::{
-        DebugLine, DebugLineStr, DebugStr, DwarfUnit, EndianVec, LineString, LineStringTable,
-        Location, LocationList, LocationListTable, Range, RangeList, RangeListOffsets,
-        RangeListTable, StringTable,
-    };
-    use crate::LittleEndian;
-    use std::collections::HashMap;
-    use std::mem;
-    use std::sync::Arc;
-
-    #[test]
-    fn test_unit_table() {
-        let mut strings = StringTable::default();
-
-        let mut units = UnitTable::default();
-        let unit_id1 = units.add(Unit::new(
-            Encoding {
-                version: 4,
-                address_size: 8,
-                format: Format::Dwarf32,
-            },
-            LineProgram::none(),
-        ));
-        let unit2 = units.add(Unit::new(
-            Encoding {
-                version: 2,
-                address_size: 4,
-                format: Format::Dwarf64,
-            },
-            LineProgram::none(),
-        ));
-        let unit3 = units.add(Unit::new(
-            Encoding {
-                version: 5,
-                address_size: 4,
-                format: Format::Dwarf32,
-            },
-            LineProgram::none(),
-        ));
-        assert_eq!(units.count(), 3);
-        {
-            let unit1 = units.get_mut(unit_id1);
-            assert_eq!(unit1.version(), 4);
-            assert_eq!(unit1.address_size(), 8);
-            assert_eq!(unit1.format(), Format::Dwarf32);
-            assert_eq!(unit1.count(), 1);
-
-            let root_id = unit1.root();
-            assert_eq!(root_id, UnitEntryId::new(unit1.base_id, 0));
-            {
-                let root = unit1.get_mut(root_id);
-                assert_eq!(root.id(), root_id);
-                assert!(root.parent().is_none());
-                assert_eq!(root.tag(), constants::DW_TAG_compile_unit);
-
-                // Test get/get_mut
-                assert!(root.get(constants::DW_AT_producer).is_none());
-                assert!(root.get_mut(constants::DW_AT_producer).is_none());
-                let mut producer = AttributeValue::String(b"root"[..].into());
-                root.set(constants::DW_AT_producer, producer.clone());
-                assert_eq!(root.get(constants::DW_AT_producer), Some(&producer));
-                assert_eq!(root.get_mut(constants::DW_AT_producer), Some(&mut producer));
-
-                // Test attrs
-                let mut attrs = root.attrs();
-                let attr = attrs.next().unwrap();
-                assert_eq!(attr.name(), constants::DW_AT_producer);
-                assert_eq!(attr.get(), &producer);
-                assert!(attrs.next().is_none());
-            }
-
-            let child1 = unit1.add(root_id, constants::DW_TAG_subprogram);
-            assert_eq!(child1, UnitEntryId::new(unit1.base_id, 1));
-            {
-                let child1 = unit1.get_mut(child1);
-                assert_eq!(child1.parent(), Some(root_id));
-
-                let tmp = AttributeValue::String(b"tmp"[..].into());
-                child1.set(constants::DW_AT_name, tmp.clone());
-                assert_eq!(child1.get(constants::DW_AT_name), Some(&tmp));
-
-                // Test attrs_mut
-                let name = AttributeValue::StringRef(strings.add(&b"child1"[..]));
-                {
-                    let attr = child1.attrs_mut().next().unwrap();
-                    assert_eq!(attr.name(), constants::DW_AT_name);
-                    attr.set(name.clone());
-                }
-                assert_eq!(child1.get(constants::DW_AT_name), Some(&name));
-            }
-
-            let child2 = unit1.add(root_id, constants::DW_TAG_subprogram);
-            assert_eq!(child2, UnitEntryId::new(unit1.base_id, 2));
-            {
-                let child2 = unit1.get_mut(child2);
-                assert_eq!(child2.parent(), Some(root_id));
-
-                let tmp = AttributeValue::String(b"tmp"[..].into());
-                child2.set(constants::DW_AT_name, tmp.clone());
-                assert_eq!(child2.get(constants::DW_AT_name), Some(&tmp));
-
-                // Test replace
-                let name = AttributeValue::StringRef(strings.add(&b"child2"[..]));
-                child2.set(constants::DW_AT_name, name.clone());
-                assert_eq!(child2.get(constants::DW_AT_name), Some(&name));
-            }
-
-            {
-                let root = unit1.get(root_id);
-                assert_eq!(
-                    root.children().cloned().collect::<Vec<_>>(),
-                    vec![child1, child2]
-                );
-            }
-        }
-        {
-            let unit2 = units.get(unit2);
-            assert_eq!(unit2.version(), 2);
-            assert_eq!(unit2.address_size(), 4);
-            assert_eq!(unit2.format(), Format::Dwarf64);
-            assert_eq!(unit2.count(), 1);
-
-            let root = unit2.root();
-            assert_eq!(root, UnitEntryId::new(unit2.base_id, 0));
-            let root = unit2.get(root);
-            assert_eq!(root.id(), UnitEntryId::new(unit2.base_id, 0));
-            assert!(root.parent().is_none());
-            assert_eq!(root.tag(), constants::DW_TAG_compile_unit);
-        }
-
-        let mut sections = Sections::new(EndianVec::new(LittleEndian));
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = strings.write(&mut sections.debug_str).unwrap();
-        units
-            .write(&mut sections, &debug_line_str_offsets, &debug_str_offsets)
-            .unwrap();
-
-        println!("{:?}", sections.debug_str);
-        println!("{:?}", sections.debug_info);
-        println!("{:?}", sections.debug_abbrev);
-
-        let dwarf = read::Dwarf {
-            debug_abbrev: read::DebugAbbrev::new(sections.debug_abbrev.slice(), LittleEndian),
-            debug_info: read::DebugInfo::new(sections.debug_info.slice(), LittleEndian),
-            debug_str: read::DebugStr::new(sections.debug_str.slice(), LittleEndian),
-            ..Default::default()
-        };
-        let mut read_units = dwarf.units();
-
-        {
-            let read_unit1 = read_units.next().unwrap().unwrap();
-            let unit1 = units.get(unit_id1);
-            assert_eq!(unit1.version(), read_unit1.version());
-            assert_eq!(unit1.address_size(), read_unit1.address_size());
-            assert_eq!(unit1.format(), read_unit1.format());
-
-            let read_unit1 = dwarf.unit(read_unit1).unwrap();
-            let mut read_entries = read_unit1.entries();
-
-            let root = unit1.get(unit1.root());
-            {
-                let (depth, read_root) = read_entries.next_dfs().unwrap().unwrap();
-                assert_eq!(depth, 0);
-                assert_eq!(root.tag(), read_root.tag());
-                assert!(read_root.has_children());
-
-                let producer = match root.get(constants::DW_AT_producer).unwrap() {
-                    AttributeValue::String(ref producer) => &**producer,
-                    otherwise => panic!("unexpected {:?}", otherwise),
-                };
-                assert_eq!(producer, b"root");
-                let read_producer = read_root
-                    .attr_value(constants::DW_AT_producer)
-                    .unwrap()
-                    .unwrap();
-                assert_eq!(
-                    dwarf
-                        .attr_string(&read_unit1, read_producer)
-                        .unwrap()
-                        .slice(),
-                    producer
-                );
-            }
-
-            let mut children = root.children().cloned();
-
-            {
-                let child = children.next().unwrap();
-                assert_eq!(child, UnitEntryId::new(unit1.base_id, 1));
-                let child = unit1.get(child);
-                let (depth, read_child) = read_entries.next_dfs().unwrap().unwrap();
-                assert_eq!(depth, 1);
-                assert_eq!(child.tag(), read_child.tag());
-                assert!(!read_child.has_children());
-
-                let name = match child.get(constants::DW_AT_name).unwrap() {
-                    AttributeValue::StringRef(name) => *name,
-                    otherwise => panic!("unexpected {:?}", otherwise),
-                };
-                let name = strings.get(name);
-                assert_eq!(name, b"child1");
-                let read_name = read_child
-                    .attr_value(constants::DW_AT_name)
-                    .unwrap()
-                    .unwrap();
-                assert_eq!(
-                    dwarf.attr_string(&read_unit1, read_name).unwrap().slice(),
-                    name
-                );
-            }
-
-            {
-                let child = children.next().unwrap();
-                assert_eq!(child, UnitEntryId::new(unit1.base_id, 2));
-                let child = unit1.get(child);
-                let (depth, read_child) = read_entries.next_dfs().unwrap().unwrap();
-                assert_eq!(depth, 0);
-                assert_eq!(child.tag(), read_child.tag());
-                assert!(!read_child.has_children());
-
-                let name = match child.get(constants::DW_AT_name).unwrap() {
-                    AttributeValue::StringRef(name) => *name,
-                    otherwise => panic!("unexpected {:?}", otherwise),
-                };
-                let name = strings.get(name);
-                assert_eq!(name, b"child2");
-                let read_name = read_child
-                    .attr_value(constants::DW_AT_name)
-                    .unwrap()
-                    .unwrap();
-                assert_eq!(
-                    dwarf.attr_string(&read_unit1, read_name).unwrap().slice(),
-                    name
-                );
-            }
-
-            assert!(read_entries.next_dfs().unwrap().is_none());
-        }
-
-        {
-            let read_unit2 = read_units.next().unwrap().unwrap();
-            let unit2 = units.get(unit2);
-            assert_eq!(unit2.version(), read_unit2.version());
-            assert_eq!(unit2.address_size(), read_unit2.address_size());
-            assert_eq!(unit2.format(), read_unit2.format());
-
-            let abbrevs = dwarf.abbreviations(&read_unit2).unwrap();
-            let mut read_entries = read_unit2.entries(&abbrevs);
-
-            {
-                let root = unit2.get(unit2.root());
-                let (depth, read_root) = read_entries.next_dfs().unwrap().unwrap();
-                assert_eq!(depth, 0);
-                assert_eq!(root.tag(), read_root.tag());
-                assert!(!read_root.has_children());
-            }
-
-            assert!(read_entries.next_dfs().unwrap().is_none());
-        }
-
-        {
-            let read_unit3 = read_units.next().unwrap().unwrap();
-            let unit3 = units.get(unit3);
-            assert_eq!(unit3.version(), read_unit3.version());
-            assert_eq!(unit3.address_size(), read_unit3.address_size());
-            assert_eq!(unit3.format(), read_unit3.format());
-
-            let abbrevs = dwarf.abbreviations(&read_unit3).unwrap();
-            let mut read_entries = read_unit3.entries(&abbrevs);
-
-            {
-                let root = unit3.get(unit3.root());
-                let (depth, read_root) = read_entries.next_dfs().unwrap().unwrap();
-                assert_eq!(depth, 0);
-                assert_eq!(root.tag(), read_root.tag());
-                assert!(!read_root.has_children());
-            }
-
-            assert!(read_entries.next_dfs().unwrap().is_none());
-        }
-
-        assert!(read_units.next().unwrap().is_none());
-
-        let mut convert_line_strings = LineStringTable::default();
-        let mut convert_strings = StringTable::default();
-        let convert_units = UnitTable::from(
-            &dwarf,
-            &mut convert_line_strings,
-            &mut convert_strings,
-            &|address| Some(Address::Constant(address)),
-        )
-        .unwrap();
-        assert_eq!(convert_units.count(), units.count());
-
-        for i in 0..convert_units.count() {
-            let unit_id = units.id(i);
-            let unit = units.get(unit_id);
-            let convert_unit_id = convert_units.id(i);
-            let convert_unit = convert_units.get(convert_unit_id);
-            assert_eq!(convert_unit.version(), unit.version());
-            assert_eq!(convert_unit.address_size(), unit.address_size());
-            assert_eq!(convert_unit.format(), unit.format());
-            assert_eq!(convert_unit.count(), unit.count());
-
-            let root = unit.get(unit.root());
-            let convert_root = convert_unit.get(convert_unit.root());
-            assert_eq!(convert_root.tag(), root.tag());
-            for (convert_attr, attr) in convert_root.attrs().zip(root.attrs()) {
-                assert_eq!(convert_attr, attr);
-            }
-        }
-    }
-
-    #[test]
-    fn test_attribute_value() {
-        // Create a string table and a string with a non-zero id/offset.
-        let mut strings = StringTable::default();
-        strings.add("string one");
-        let string_id = strings.add("string two");
-        let mut debug_str = DebugStr::from(EndianVec::new(LittleEndian));
-        let debug_str_offsets = strings.write(&mut debug_str).unwrap();
-        let read_debug_str = read::DebugStr::new(debug_str.slice(), LittleEndian);
-
-        let mut line_strings = LineStringTable::default();
-        line_strings.add("line string one");
-        let line_string_id = line_strings.add("line string two");
-        let mut debug_line_str = DebugLineStr::from(EndianVec::new(LittleEndian));
-        let debug_line_str_offsets = line_strings.write(&mut debug_line_str).unwrap();
-        let read_debug_line_str =
-            read::DebugLineStr::from(read::EndianSlice::new(debug_line_str.slice(), LittleEndian));
-
-        let data = vec![1, 2, 3, 4];
-        let read_data = read::EndianSlice::new(&[1, 2, 3, 4], LittleEndian);
-
-        let mut expression = Expression::new();
-        expression.op_constu(57);
-        let read_expression = read::Expression(read::EndianSlice::new(
-            &[constants::DW_OP_constu.0, 57],
-            LittleEndian,
-        ));
-
-        let mut ranges = RangeListTable::default();
-        let range_id = ranges.add(RangeList(vec![Range::StartEnd {
-            begin: Address::Constant(0x1234),
-            end: Address::Constant(0x2345),
-        }]));
-
-        let mut locations = LocationListTable::default();
-        let loc_id = locations.add(LocationList(vec![Location::StartEnd {
-            begin: Address::Constant(0x1234),
-            end: Address::Constant(0x2345),
-            data: expression.clone(),
-        }]));
-
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-
-                    let mut sections = Sections::new(EndianVec::new(LittleEndian));
-                    let range_list_offsets = ranges.write(&mut sections, encoding).unwrap();
-                    let loc_list_offsets = locations.write(&mut sections, encoding, None).unwrap();
-
-                    let read_debug_ranges =
-                        read::DebugRanges::new(sections.debug_ranges.slice(), LittleEndian);
-                    let read_debug_rnglists =
-                        read::DebugRngLists::new(sections.debug_rnglists.slice(), LittleEndian);
-
-                    let read_debug_loc =
-                        read::DebugLoc::new(sections.debug_loc.slice(), LittleEndian);
-                    let read_debug_loclists =
-                        read::DebugLocLists::new(sections.debug_loclists.slice(), LittleEndian);
-
-                    let mut units = UnitTable::default();
-                    let unit = units.add(Unit::new(encoding, LineProgram::none()));
-                    let unit = units.get(unit);
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-                    let from_unit = read::UnitHeader::new(
-                        encoding,
-                        0,
-                        read::UnitType::Compilation,
-                        DebugAbbrevOffset(0),
-                        DebugInfoOffset(0).into(),
-                        read::EndianSlice::new(&[], LittleEndian),
-                    );
-
-                    for &(ref name, ref value, ref expect_value) in &[
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Address(Address::Constant(0x1234)),
-                            read::AttributeValue::Addr(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Block(data.clone()),
-                            read::AttributeValue::Block(read_data),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Data1(0x12),
-                            read::AttributeValue::Data1(0x12),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Data2(0x1234),
-                            read::AttributeValue::Data2(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Data4(0x1234),
-                            read::AttributeValue::Data4(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Data8(0x1234),
-                            read::AttributeValue::Data8(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Sdata(0x1234),
-                            read::AttributeValue::Sdata(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Udata(0x1234),
-                            read::AttributeValue::Udata(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Exprloc(expression.clone()),
-                            read::AttributeValue::Exprloc(read_expression),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::Flag(false),
-                            read::AttributeValue::Flag(false),
-                        ),
-                        /*
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::FlagPresent,
-                            read::AttributeValue::Flag(true),
-                        ),
-                        */
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::DebugInfoRefSup(DebugInfoOffset(0x1234)),
-                            read::AttributeValue::DebugInfoRefSup(DebugInfoOffset(0x1234)),
-                        ),
-                        (
-                            constants::DW_AT_location,
-                            AttributeValue::LocationListRef(loc_id),
-                            read::AttributeValue::SecOffset(loc_list_offsets.get(loc_id).0),
-                        ),
-                        (
-                            constants::DW_AT_macro_info,
-                            AttributeValue::DebugMacinfoRef(DebugMacinfoOffset(0x1234)),
-                            read::AttributeValue::SecOffset(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_macros,
-                            AttributeValue::DebugMacroRef(DebugMacroOffset(0x1234)),
-                            read::AttributeValue::SecOffset(0x1234),
-                        ),
-                        (
-                            constants::DW_AT_ranges,
-                            AttributeValue::RangeListRef(range_id),
-                            read::AttributeValue::SecOffset(range_list_offsets.get(range_id).0),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::DebugTypesRef(DebugTypeSignature(0x1234)),
-                            read::AttributeValue::DebugTypesRef(DebugTypeSignature(0x1234)),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::StringRef(string_id),
-                            read::AttributeValue::DebugStrRef(debug_str_offsets.get(string_id)),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::DebugStrRefSup(DebugStrOffset(0x1234)),
-                            read::AttributeValue::DebugStrRefSup(DebugStrOffset(0x1234)),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::LineStringRef(line_string_id),
-                            read::AttributeValue::DebugLineStrRef(
-                                debug_line_str_offsets.get(line_string_id),
-                            ),
-                        ),
-                        (
-                            constants::DW_AT_name,
-                            AttributeValue::String(data.clone()),
-                            read::AttributeValue::String(read_data),
-                        ),
-                        (
-                            constants::DW_AT_encoding,
-                            AttributeValue::Encoding(constants::DwAte(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_decimal_sign,
-                            AttributeValue::DecimalSign(constants::DwDs(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_endianity,
-                            AttributeValue::Endianity(constants::DwEnd(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_accessibility,
-                            AttributeValue::Accessibility(constants::DwAccess(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_visibility,
-                            AttributeValue::Visibility(constants::DwVis(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_virtuality,
-                            AttributeValue::Virtuality(constants::DwVirtuality(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_language,
-                            AttributeValue::Language(constants::DwLang(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_address_class,
-                            AttributeValue::AddressClass(constants::DwAddr(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_identifier_case,
-                            AttributeValue::IdentifierCase(constants::DwId(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_calling_convention,
-                            AttributeValue::CallingConvention(constants::DwCc(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_ordering,
-                            AttributeValue::Ordering(constants::DwOrd(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                        (
-                            constants::DW_AT_inline,
-                            AttributeValue::Inline(constants::DwInl(0x12)),
-                            read::AttributeValue::Udata(0x12),
-                        ),
-                    ][..]
-                    {
-                        let form = value.form(encoding).unwrap();
-                        let attr = Attribute {
-                            name: *name,
-                            value: value.clone(),
-                        };
-
-                        let offsets = UnitOffsets::none();
-                        let line_program_offset = None;
-                        let mut debug_info_refs = Vec::new();
-                        let mut unit_refs = Vec::new();
-                        let mut debug_info = DebugInfo::from(EndianVec::new(LittleEndian));
-                        attr.value
-                            .write(
-                                &mut debug_info,
-                                &mut debug_info_refs,
-                                &mut unit_refs,
-                                &unit,
-                                &offsets,
-                                line_program_offset,
-                                &debug_line_str_offsets,
-                                &debug_str_offsets,
-                                &range_list_offsets,
-                                &loc_list_offsets,
-                            )
-                            .unwrap();
-
-                        let spec = read::AttributeSpecification::new(*name, form, None);
-                        let mut r = read::EndianSlice::new(debug_info.slice(), LittleEndian);
-                        let read_attr = read::parse_attribute(&mut r, encoding, spec).unwrap();
-                        let read_value = &read_attr.raw_value();
-                        // read::AttributeValue is invariant in the lifetime of R.
-                        // The lifetimes here are all okay, so transmute it.
-                        let read_value = unsafe {
-                            mem::transmute::<
-                                &read::AttributeValue<read::EndianSlice<LittleEndian>>,
-                                &read::AttributeValue<read::EndianSlice<LittleEndian>>,
-                            >(read_value)
-                        };
-                        assert_eq!(read_value, expect_value);
-
-                        let dwarf = read::Dwarf {
-                            debug_str: read_debug_str.clone(),
-                            debug_line_str: read_debug_line_str.clone(),
-                            ranges: read::RangeLists::new(read_debug_ranges, read_debug_rnglists),
-                            locations: read::LocationLists::new(
-                                read_debug_loc,
-                                read_debug_loclists,
-                            ),
-                            ..Default::default()
-                        };
-
-                        let unit = read::Unit {
-                            header: from_unit,
-                            abbreviations: Arc::new(read::Abbreviations::default()),
-                            name: None,
-                            comp_dir: None,
-                            low_pc: 0,
-                            str_offsets_base: DebugStrOffsetsBase(0),
-                            addr_base: DebugAddrBase(0),
-                            loclists_base: DebugLocListsBase(0),
-                            rnglists_base: DebugRngListsBase(0),
-                            line_program: None,
-                            dwo_id: None,
-                        };
-
-                        let mut context = convert::ConvertUnitContext {
-                            dwarf: &dwarf,
-                            unit: &unit,
-                            line_strings: &mut line_strings,
-                            strings: &mut strings,
-                            ranges: &mut ranges,
-                            locations: &mut locations,
-                            convert_address: &|address| Some(Address::Constant(address)),
-                            base_address: Address::Constant(0),
-                            line_program_offset: None,
-                            line_program_files: Vec::new(),
-                            entry_ids: &HashMap::new(),
-                        };
-
-                        let convert_attr =
-                            Attribute::from(&mut context, &read_attr).unwrap().unwrap();
-                        assert_eq!(convert_attr, attr);
-                    }
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_unit_ref() {
-        let mut units = UnitTable::default();
-        let unit_id1 = units.add(Unit::new(
-            Encoding {
-                version: 4,
-                address_size: 8,
-                format: Format::Dwarf32,
-            },
-            LineProgram::none(),
-        ));
-        assert_eq!(unit_id1, units.id(0));
-        let unit_id2 = units.add(Unit::new(
-            Encoding {
-                version: 2,
-                address_size: 4,
-                format: Format::Dwarf64,
-            },
-            LineProgram::none(),
-        ));
-        assert_eq!(unit_id2, units.id(1));
-        let unit1_child1 = UnitEntryId::new(units.get(unit_id1).base_id, 1);
-        let unit1_child2 = UnitEntryId::new(units.get(unit_id1).base_id, 2);
-        let unit2_child1 = UnitEntryId::new(units.get(unit_id2).base_id, 1);
-        let unit2_child2 = UnitEntryId::new(units.get(unit_id2).base_id, 2);
-        {
-            let unit1 = units.get_mut(unit_id1);
-            let root = unit1.root();
-            let child_id1 = unit1.add(root, constants::DW_TAG_subprogram);
-            assert_eq!(child_id1, unit1_child1);
-            let child_id2 = unit1.add(root, constants::DW_TAG_subprogram);
-            assert_eq!(child_id2, unit1_child2);
-            {
-                let child1 = unit1.get_mut(child_id1);
-                child1.set(constants::DW_AT_type, AttributeValue::UnitRef(child_id2));
-            }
-            {
-                let child2 = unit1.get_mut(child_id2);
-                child2.set(
-                    constants::DW_AT_type,
-                    AttributeValue::DebugInfoRef(Reference::Entry(unit_id2, unit2_child1)),
-                );
-            }
-        }
-        {
-            let unit2 = units.get_mut(unit_id2);
-            let root = unit2.root();
-            let child_id1 = unit2.add(root, constants::DW_TAG_subprogram);
-            assert_eq!(child_id1, unit2_child1);
-            let child_id2 = unit2.add(root, constants::DW_TAG_subprogram);
-            assert_eq!(child_id2, unit2_child2);
-            {
-                let child1 = unit2.get_mut(child_id1);
-                child1.set(constants::DW_AT_type, AttributeValue::UnitRef(child_id2));
-            }
-            {
-                let child2 = unit2.get_mut(child_id2);
-                child2.set(
-                    constants::DW_AT_type,
-                    AttributeValue::DebugInfoRef(Reference::Entry(unit_id1, unit1_child1)),
-                );
-            }
-        }
-
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-        let mut sections = Sections::new(EndianVec::new(LittleEndian));
-        let debug_info_offsets = units
-            .write(&mut sections, &debug_line_str_offsets, &debug_str_offsets)
-            .unwrap();
-
-        println!("{:?}", sections.debug_info);
-        println!("{:?}", sections.debug_abbrev);
-
-        let dwarf = read::Dwarf {
-            debug_abbrev: read::DebugAbbrev::new(sections.debug_abbrev.slice(), LittleEndian),
-            debug_info: read::DebugInfo::new(sections.debug_info.slice(), LittleEndian),
-            ..Default::default()
-        };
-
-        let mut read_units = dwarf.units();
-        {
-            let read_unit1 = read_units.next().unwrap().unwrap();
-            assert_eq!(
-                read_unit1.offset(),
-                debug_info_offsets.unit(unit_id1).into()
-            );
-
-            let abbrevs = dwarf.abbreviations(&read_unit1).unwrap();
-            let mut read_entries = read_unit1.entries(&abbrevs);
-            {
-                let (_, _read_root) = read_entries.next_dfs().unwrap().unwrap();
-            }
-            {
-                let (_, read_child1) = read_entries.next_dfs().unwrap().unwrap();
-                let offset = debug_info_offsets
-                    .entry(unit_id1, unit1_child2)
-                    .to_unit_offset(&read_unit1)
-                    .unwrap();
-                assert_eq!(
-                    read_child1.attr_value(constants::DW_AT_type).unwrap(),
-                    Some(read::AttributeValue::UnitRef(offset))
-                );
-            }
-            {
-                let (_, read_child2) = read_entries.next_dfs().unwrap().unwrap();
-                let offset = debug_info_offsets.entry(unit_id2, unit2_child1);
-                assert_eq!(
-                    read_child2.attr_value(constants::DW_AT_type).unwrap(),
-                    Some(read::AttributeValue::DebugInfoRef(offset))
-                );
-            }
-        }
-        {
-            let read_unit2 = read_units.next().unwrap().unwrap();
-            assert_eq!(
-                read_unit2.offset(),
-                debug_info_offsets.unit(unit_id2).into()
-            );
-
-            let abbrevs = dwarf.abbreviations(&read_unit2).unwrap();
-            let mut read_entries = read_unit2.entries(&abbrevs);
-            {
-                let (_, _read_root) = read_entries.next_dfs().unwrap().unwrap();
-            }
-            {
-                let (_, read_child1) = read_entries.next_dfs().unwrap().unwrap();
-                let offset = debug_info_offsets
-                    .entry(unit_id2, unit2_child2)
-                    .to_unit_offset(&read_unit2)
-                    .unwrap();
-                assert_eq!(
-                    read_child1.attr_value(constants::DW_AT_type).unwrap(),
-                    Some(read::AttributeValue::UnitRef(offset))
-                );
-            }
-            {
-                let (_, read_child2) = read_entries.next_dfs().unwrap().unwrap();
-                let offset = debug_info_offsets.entry(unit_id1, unit1_child1);
-                assert_eq!(
-                    read_child2.attr_value(constants::DW_AT_type).unwrap(),
-                    Some(read::AttributeValue::DebugInfoRef(offset))
-                );
-            }
-        }
-
-        let mut convert_line_strings = LineStringTable::default();
-        let mut convert_strings = StringTable::default();
-        let convert_units = UnitTable::from(
-            &dwarf,
-            &mut convert_line_strings,
-            &mut convert_strings,
-            &|address| Some(Address::Constant(address)),
-        )
-        .unwrap();
-        assert_eq!(convert_units.count(), units.count());
-
-        for i in 0..convert_units.count() {
-            let unit = units.get(units.id(i));
-            let convert_unit = convert_units.get(convert_units.id(i));
-            assert_eq!(convert_unit.version(), unit.version());
-            assert_eq!(convert_unit.address_size(), unit.address_size());
-            assert_eq!(convert_unit.format(), unit.format());
-            assert_eq!(convert_unit.count(), unit.count());
-
-            let root = unit.get(unit.root());
-            let convert_root = convert_unit.get(convert_unit.root());
-            assert_eq!(convert_root.tag(), root.tag());
-            for (convert_attr, attr) in convert_root.attrs().zip(root.attrs()) {
-                assert_eq!(convert_attr, attr);
-            }
-
-            let child1 = unit.get(UnitEntryId::new(unit.base_id, 1));
-            let convert_child1 = convert_unit.get(UnitEntryId::new(convert_unit.base_id, 1));
-            assert_eq!(convert_child1.tag(), child1.tag());
-            for (convert_attr, attr) in convert_child1.attrs().zip(child1.attrs()) {
-                assert_eq!(convert_attr.name, attr.name);
-                match (convert_attr.value.clone(), attr.value.clone()) {
-                    (
-                        AttributeValue::DebugInfoRef(Reference::Entry(convert_unit, convert_entry)),
-                        AttributeValue::DebugInfoRef(Reference::Entry(unit, entry)),
-                    ) => {
-                        assert_eq!(convert_unit.index, unit.index);
-                        assert_eq!(convert_entry.index, entry.index);
-                    }
-                    (AttributeValue::UnitRef(convert_id), AttributeValue::UnitRef(id)) => {
-                        assert_eq!(convert_id.index, id.index);
-                    }
-                    (convert_value, value) => assert_eq!(convert_value, value),
-                }
-            }
-
-            let child2 = unit.get(UnitEntryId::new(unit.base_id, 2));
-            let convert_child2 = convert_unit.get(UnitEntryId::new(convert_unit.base_id, 2));
-            assert_eq!(convert_child2.tag(), child2.tag());
-            for (convert_attr, attr) in convert_child2.attrs().zip(child2.attrs()) {
-                assert_eq!(convert_attr.name, attr.name);
-                match (convert_attr.value.clone(), attr.value.clone()) {
-                    (
-                        AttributeValue::DebugInfoRef(Reference::Entry(convert_unit, convert_entry)),
-                        AttributeValue::DebugInfoRef(Reference::Entry(unit, entry)),
-                    ) => {
-                        assert_eq!(convert_unit.index, unit.index);
-                        assert_eq!(convert_entry.index, entry.index);
-                    }
-                    (AttributeValue::UnitRef(convert_id), AttributeValue::UnitRef(id)) => {
-                        assert_eq!(convert_id.index, id.index);
-                    }
-                    (convert_value, value) => assert_eq!(convert_value, value),
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_sibling() {
-        fn add_child(
-            unit: &mut Unit,
-            parent: UnitEntryId,
-            tag: constants::DwTag,
-            name: &str,
-        ) -> UnitEntryId {
-            let id = unit.add(parent, tag);
-            let child = unit.get_mut(id);
-            child.set(constants::DW_AT_name, AttributeValue::String(name.into()));
-            child.set_sibling(true);
-            id
-        }
-
-        fn add_children(units: &mut UnitTable, unit_id: UnitId) {
-            let unit = units.get_mut(unit_id);
-            let root = unit.root();
-            let child1 = add_child(unit, root, constants::DW_TAG_subprogram, "child1");
-            add_child(unit, child1, constants::DW_TAG_variable, "grandchild1");
-            add_child(unit, root, constants::DW_TAG_subprogram, "child2");
-            add_child(unit, root, constants::DW_TAG_subprogram, "child3");
-        }
-
-        fn next_child<R: read::Reader<Offset = usize>>(
-            entries: &mut read::EntriesCursor<R>,
-        ) -> (read::UnitOffset, Option<read::UnitOffset>) {
-            let (_, entry) = entries.next_dfs().unwrap().unwrap();
-            let offset = entry.offset();
-            let sibling =
-                entry
-                    .attr_value(constants::DW_AT_sibling)
-                    .unwrap()
-                    .map(|attr| match attr {
-                        read::AttributeValue::UnitRef(offset) => offset,
-                        _ => panic!("bad sibling value"),
-                    });
-            (offset, sibling)
-        }
-
-        fn check_sibling<R: read::Reader<Offset = usize>>(
-            unit: &read::UnitHeader<R>,
-            debug_abbrev: &read::DebugAbbrev<R>,
-        ) {
-            let abbrevs = unit.abbreviations(debug_abbrev).unwrap();
-            let mut entries = unit.entries(&abbrevs);
-            // root
-            entries.next_dfs().unwrap().unwrap();
-            // child1
-            let (_, sibling1) = next_child(&mut entries);
-            // grandchild1
-            entries.next_dfs().unwrap().unwrap();
-            // child2
-            let (offset2, sibling2) = next_child(&mut entries);
-            // child3
-            let (_, _) = next_child(&mut entries);
-            assert_eq!(sibling1, Some(offset2));
-            assert_eq!(sibling2, None);
-        }
-
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 8,
-        };
-        let mut units = UnitTable::default();
-        let unit_id1 = units.add(Unit::new(encoding, LineProgram::none()));
-        add_children(&mut units, unit_id1);
-        let unit_id2 = units.add(Unit::new(encoding, LineProgram::none()));
-        add_children(&mut units, unit_id2);
-
-        let debug_line_str_offsets = DebugLineStrOffsets::none();
-        let debug_str_offsets = DebugStrOffsets::none();
-        let mut sections = Sections::new(EndianVec::new(LittleEndian));
-        units
-            .write(&mut sections, &debug_line_str_offsets, &debug_str_offsets)
-            .unwrap();
-
-        println!("{:?}", sections.debug_info);
-        println!("{:?}", sections.debug_abbrev);
-
-        let read_debug_info = read::DebugInfo::new(sections.debug_info.slice(), LittleEndian);
-        let read_debug_abbrev = read::DebugAbbrev::new(sections.debug_abbrev.slice(), LittleEndian);
-        let mut read_units = read_debug_info.units();
-        check_sibling(&read_units.next().unwrap().unwrap(), &read_debug_abbrev);
-        check_sibling(&read_units.next().unwrap().unwrap(), &read_debug_abbrev);
-    }
-
-    #[test]
-    fn test_line_ref() {
-        for &version in &[2, 3, 4, 5] {
-            for &address_size in &[4, 8] {
-                for &format in &[Format::Dwarf32, Format::Dwarf64] {
-                    let encoding = Encoding {
-                        format,
-                        version,
-                        address_size,
-                    };
-
-                    // The line program we'll be referencing.
-                    let mut line_program = LineProgram::new(
-                        encoding,
-                        LineEncoding::default(),
-                        LineString::String(b"comp_dir".to_vec()),
-                        LineString::String(b"comp_name".to_vec()),
-                        None,
-                    );
-                    let dir = line_program.default_directory();
-                    let file1 =
-                        line_program.add_file(LineString::String(b"file1".to_vec()), dir, None);
-                    let file2 =
-                        line_program.add_file(LineString::String(b"file2".to_vec()), dir, None);
-
-                    // Write, read, and convert the line program, so that we have the info
-                    // required to convert the attributes.
-                    let line_strings = DebugLineStrOffsets::none();
-                    let strings = DebugStrOffsets::none();
-                    let mut debug_line = DebugLine::from(EndianVec::new(LittleEndian));
-                    let line_program_offset = line_program
-                        .write(&mut debug_line, encoding, &line_strings, &strings)
-                        .unwrap();
-                    let read_debug_line = read::DebugLine::new(debug_line.slice(), LittleEndian);
-                    let read_line_program = read_debug_line
-                        .program(
-                            line_program_offset,
-                            address_size,
-                            Some(read::EndianSlice::new(b"comp_dir", LittleEndian)),
-                            Some(read::EndianSlice::new(b"comp_name", LittleEndian)),
-                        )
-                        .unwrap();
-                    let dwarf = read::Dwarf::default();
-                    let mut convert_line_strings = LineStringTable::default();
-                    let mut convert_strings = StringTable::default();
-                    let (_, line_program_files) = LineProgram::from(
-                        read_line_program,
-                        &dwarf,
-                        &mut convert_line_strings,
-                        &mut convert_strings,
-                        &|address| Some(Address::Constant(address)),
-                    )
-                    .unwrap();
-
-                    // Fake the unit.
-                    let mut units = UnitTable::default();
-                    let unit = units.add(Unit::new(encoding, LineProgram::none()));
-                    let unit = units.get(unit);
-                    let from_unit = read::UnitHeader::new(
-                        encoding,
-                        0,
-                        read::UnitType::Compilation,
-                        DebugAbbrevOffset(0),
-                        DebugInfoOffset(0).into(),
-                        read::EndianSlice::new(&[], LittleEndian),
-                    );
-
-                    for &(ref name, ref value, ref expect_value) in &[
-                        (
-                            constants::DW_AT_stmt_list,
-                            AttributeValue::LineProgramRef,
-                            read::AttributeValue::SecOffset(line_program_offset.0),
-                        ),
-                        (
-                            constants::DW_AT_decl_file,
-                            AttributeValue::FileIndex(Some(file1)),
-                            read::AttributeValue::Udata(file1.raw()),
-                        ),
-                        (
-                            constants::DW_AT_decl_file,
-                            AttributeValue::FileIndex(Some(file2)),
-                            read::AttributeValue::Udata(file2.raw()),
-                        ),
-                    ][..]
-                    {
-                        let mut ranges = RangeListTable::default();
-                        let mut locations = LocationListTable::default();
-                        let mut strings = StringTable::default();
-                        let mut line_strings = LineStringTable::default();
-
-                        let form = value.form(encoding).unwrap();
-                        let attr = Attribute {
-                            name: *name,
-                            value: value.clone(),
-                        };
-
-                        let mut debug_info_refs = Vec::new();
-                        let mut unit_refs = Vec::new();
-                        let mut debug_info = DebugInfo::from(EndianVec::new(LittleEndian));
-                        let offsets = UnitOffsets::none();
-                        let debug_line_str_offsets = DebugLineStrOffsets::none();
-                        let debug_str_offsets = DebugStrOffsets::none();
-                        let range_list_offsets = RangeListOffsets::none();
-                        let loc_list_offsets = LocationListOffsets::none();
-                        attr.value
-                            .write(
-                                &mut debug_info,
-                                &mut debug_info_refs,
-                                &mut unit_refs,
-                                &unit,
-                                &offsets,
-                                Some(line_program_offset),
-                                &debug_line_str_offsets,
-                                &debug_str_offsets,
-                                &range_list_offsets,
-                                &loc_list_offsets,
-                            )
-                            .unwrap();
-
-                        let spec = read::AttributeSpecification::new(*name, form, None);
-                        let mut r = read::EndianSlice::new(debug_info.slice(), LittleEndian);
-                        let read_attr = read::parse_attribute(&mut r, encoding, spec).unwrap();
-                        let read_value = &read_attr.raw_value();
-                        // read::AttributeValue is invariant in the lifetime of R.
-                        // The lifetimes here are all okay, so transmute it.
-                        let read_value = unsafe {
-                            mem::transmute::<
-                                &read::AttributeValue<read::EndianSlice<LittleEndian>>,
-                                &read::AttributeValue<read::EndianSlice<LittleEndian>>,
-                            >(read_value)
-                        };
-                        assert_eq!(read_value, expect_value);
-
-                        let unit = read::Unit {
-                            header: from_unit,
-                            abbreviations: Arc::new(read::Abbreviations::default()),
-                            name: None,
-                            comp_dir: None,
-                            low_pc: 0,
-                            str_offsets_base: DebugStrOffsetsBase(0),
-                            addr_base: DebugAddrBase(0),
-                            loclists_base: DebugLocListsBase(0),
-                            rnglists_base: DebugRngListsBase(0),
-                            line_program: None,
-                            dwo_id: None,
-                        };
-
-                        let mut context = convert::ConvertUnitContext {
-                            dwarf: &dwarf,
-                            unit: &unit,
-                            line_strings: &mut line_strings,
-                            strings: &mut strings,
-                            ranges: &mut ranges,
-                            locations: &mut locations,
-                            convert_address: &|address| Some(Address::Constant(address)),
-                            base_address: Address::Constant(0),
-                            line_program_offset: Some(line_program_offset),
-                            line_program_files: line_program_files.clone(),
-                            entry_ids: &HashMap::new(),
-                        };
-
-                        let convert_attr =
-                            Attribute::from(&mut context, &read_attr).unwrap().unwrap();
-                        assert_eq!(convert_attr, attr);
-                    }
-                }
-            }
-        }
-    }
-
-    #[test]
-    fn test_line_program_used() {
-        for used in vec![false, true] {
-            let encoding = Encoding {
-                format: Format::Dwarf32,
-                version: 5,
-                address_size: 8,
-            };
-
-            let line_program = LineProgram::new(
-                encoding,
-                LineEncoding::default(),
-                LineString::String(b"comp_dir".to_vec()),
-                LineString::String(b"comp_name".to_vec()),
-                None,
-            );
-
-            let mut unit = Unit::new(encoding, line_program);
-            let file_id = if used { Some(FileId::new(0)) } else { None };
-            let root = unit.root();
-            unit.get_mut(root).set(
-                constants::DW_AT_decl_file,
-                AttributeValue::FileIndex(file_id),
-            );
-
-            let mut units = UnitTable::default();
-            units.add(unit);
-
-            let debug_line_str_offsets = DebugLineStrOffsets::none();
-            let debug_str_offsets = DebugStrOffsets::none();
-            let mut sections = Sections::new(EndianVec::new(LittleEndian));
-            units
-                .write(&mut sections, &debug_line_str_offsets, &debug_str_offsets)
-                .unwrap();
-            assert_eq!(!used, sections.debug_line.slice().is_empty());
-        }
-    }
-
-    #[test]
-    fn test_delete_child() {
-        fn set_name(unit: &mut Unit, id: UnitEntryId, name: &str) {
-            let entry = unit.get_mut(id);
-            entry.set(constants::DW_AT_name, AttributeValue::String(name.into()));
-        }
-        fn check_name<R: read::Reader>(
-            entry: &read::DebuggingInformationEntry<R>,
-            debug_str: &read::DebugStr<R>,
-            name: &str,
-        ) {
-            let name_attr = entry.attr(constants::DW_AT_name).unwrap().unwrap();
-            let entry_name = name_attr.string_value(debug_str).unwrap();
-            let entry_name_str = entry_name.to_string().unwrap();
-            assert_eq!(entry_name_str, name);
-        }
-        let encoding = Encoding {
-            format: Format::Dwarf32,
-            version: 4,
-            address_size: 8,
-        };
-        let mut dwarf = DwarfUnit::new(encoding);
-        let root = dwarf.unit.root();
-
-        // Add and delete entries in the root unit
-        let child1 = dwarf.unit.add(root, constants::DW_TAG_subprogram);
-        set_name(&mut dwarf.unit, child1, "child1");
-        let grandchild1 = dwarf.unit.add(child1, constants::DW_TAG_variable);
-        set_name(&mut dwarf.unit, grandchild1, "grandchild1");
-        let child2 = dwarf.unit.add(root, constants::DW_TAG_subprogram);
-        set_name(&mut dwarf.unit, child2, "child2");
-        // This deletes both `child1` and its child `grandchild1`
-        dwarf.unit.get_mut(root).delete_child(child1);
-        let child3 = dwarf.unit.add(root, constants::DW_TAG_subprogram);
-        set_name(&mut dwarf.unit, child3, "child3");
-        let child4 = dwarf.unit.add(root, constants::DW_TAG_subprogram);
-        set_name(&mut dwarf.unit, child4, "child4");
-        let grandchild4 = dwarf.unit.add(child4, constants::DW_TAG_variable);
-        set_name(&mut dwarf.unit, grandchild4, "grandchild4");
-        dwarf.unit.get_mut(child4).delete_child(grandchild4);
-
-        let mut sections = Sections::new(EndianVec::new(LittleEndian));
-
-        // Write DWARF data which should only include `child2`, `child3` and `child4`
-        dwarf.write(&mut sections).unwrap();
-
-        let read_debug_info = read::DebugInfo::new(sections.debug_info.slice(), LittleEndian);
-        let read_debug_abbrev = read::DebugAbbrev::new(sections.debug_abbrev.slice(), LittleEndian);
-        let read_debug_str = read::DebugStr::new(sections.debug_str.slice(), LittleEndian);
-        let read_unit = read_debug_info.units().next().unwrap().unwrap();
-        let abbrevs = read_unit.abbreviations(&read_debug_abbrev).unwrap();
-        let mut entries = read_unit.entries(&abbrevs);
-        // root
-        entries.next_dfs().unwrap().unwrap();
-        // child2
-        let (_, read_child2) = entries.next_dfs().unwrap().unwrap();
-        check_name(read_child2, &read_debug_str, "child2");
-        // child3
-        let (_, read_child3) = entries.next_dfs().unwrap().unwrap();
-        check_name(read_child3, &read_debug_str, "child3");
-        // child4
-        let (_, read_child4) = entries.next_dfs().unwrap().unwrap();
-        check_name(read_child4, &read_debug_str, "child4");
-        // There should be no more entries
-        assert!(entries.next_dfs().unwrap().is_none());
-    }
-}
diff --git a/vendor/gimli-0.27.3/src/write/writer.rs b/vendor/gimli-0.27.3/src/write/writer.rs
deleted file mode 100644
index 1ce3641fc..000000000
--- a/vendor/gimli-0.27.3/src/write/writer.rs
+++ /dev/null
@@ -1,494 +0,0 @@
-use crate::common::{Format, SectionId};
-use crate::constants;
-use crate::endianity::Endianity;
-use crate::leb128;
-use crate::write::{Address, Error, Result};
-
-/// A trait for writing the data to a DWARF section.
-///
-/// All write operations append to the section unless otherwise specified.
-#[allow(clippy::len_without_is_empty)]
-pub trait Writer {
-    /// The endianity of bytes that are written.
-    type Endian: Endianity;
-
-    /// Return the endianity of bytes that are written.
-    fn endian(&self) -> Self::Endian;
-
-    /// Return the current section length.
-    ///
-    /// This may be used as an offset for future `write_at` calls.
-    fn len(&self) -> usize;
-
-    /// Write a slice.
-    fn write(&mut self, bytes: &[u8]) -> Result<()>;
-
-    /// Write a slice at a given offset.
-    ///
-    /// The write must not extend past the current section length.
-    fn write_at(&mut self, offset: usize, bytes: &[u8]) -> Result<()>;
-
-    /// Write an address.
-    ///
-    /// If the writer supports relocations, then it must provide its own implementation
-    /// of this method.
-    // TODO: use write_reference instead?
-    fn write_address(&mut self, address: Address, size: u8) -> Result<()> {
-        match address {
-            Address::Constant(val) => self.write_udata(val, size),
-            Address::Symbol { .. } => Err(Error::InvalidAddress),
-        }
-    }
-
-    /// Write an address with a `.eh_frame` pointer encoding.
-    ///
-    /// The given size is only used for `DW_EH_PE_absptr` formats.
-    ///
-    /// If the writer supports relocations, then it must provide its own implementation
-    /// of this method.
-    fn write_eh_pointer(
-        &mut self,
-        address: Address,
-        eh_pe: constants::DwEhPe,
-        size: u8,
-    ) -> Result<()> {
-        match address {
-            Address::Constant(val) => {
-                // Indirect doesn't matter here.
-                let val = match eh_pe.application() {
-                    constants::DW_EH_PE_absptr => val,
-                    constants::DW_EH_PE_pcrel => {
-                        // TODO: better handling of sign
-                        let offset = self.len() as u64;
-                        val.wrapping_sub(offset)
-                    }
-                    _ => {
-                        return Err(Error::UnsupportedPointerEncoding(eh_pe));
-                    }
-                };
-                self.write_eh_pointer_data(val, eh_pe.format(), size)
-            }
-            Address::Symbol { .. } => Err(Error::InvalidAddress),
-        }
-    }
-
-    /// Write a value with a `.eh_frame` pointer format.
-    ///
-    /// The given size is only used for `DW_EH_PE_absptr` formats.
-    ///
-    /// This must not be used directly for values that may require relocation.
-    fn write_eh_pointer_data(
-        &mut self,
-        val: u64,
-        format: constants::DwEhPe,
-        size: u8,
-    ) -> Result<()> {
-        match format {
-            constants::DW_EH_PE_absptr => self.write_udata(val, size),
-            constants::DW_EH_PE_uleb128 => self.write_uleb128(val),
-            constants::DW_EH_PE_udata2 => self.write_udata(val, 2),
-            constants::DW_EH_PE_udata4 => self.write_udata(val, 4),
-            constants::DW_EH_PE_udata8 => self.write_udata(val, 8),
-            constants::DW_EH_PE_sleb128 => self.write_sleb128(val as i64),
-            constants::DW_EH_PE_sdata2 => self.write_sdata(val as i64, 2),
-            constants::DW_EH_PE_sdata4 => self.write_sdata(val as i64, 4),
-            constants::DW_EH_PE_sdata8 => self.write_sdata(val as i64, 8),
-            _ => Err(Error::UnsupportedPointerEncoding(format)),
-        }
-    }
-
-    /// Write an offset that is relative to the start of the given section.
-    ///
-    /// If the writer supports relocations, then it must provide its own implementation
-    /// of this method.
-    fn write_offset(&mut self, val: usize, _section: SectionId, size: u8) -> Result<()> {
-        self.write_udata(val as u64, size)
-    }
-
-    /// Write an offset that is relative to the start of the given section.
-    ///
-    /// If the writer supports relocations, then it must provide its own implementation
-    /// of this method.
-    fn write_offset_at(
-        &mut self,
-        offset: usize,
-        val: usize,
-        _section: SectionId,
-        size: u8,
-    ) -> Result<()> {
-        self.write_udata_at(offset, val as u64, size)
-    }
-
-    /// Write a reference to a symbol.
-    ///
-    /// If the writer supports symbols, then it must provide its own implementation
-    /// of this method.
-    fn write_reference(&mut self, _symbol: usize, _size: u8) -> Result<()> {
-        Err(Error::InvalidReference)
-    }
-
-    /// Write a u8.
-    fn write_u8(&mut self, val: u8) -> Result<()> {
-        let bytes = [val];
-        self.write(&bytes)
-    }
-
-    /// Write a u16.
-    fn write_u16(&mut self, val: u16) -> Result<()> {
-        let mut bytes = [0; 2];
-        self.endian().write_u16(&mut bytes, val);
-        self.write(&bytes)
-    }
-
-    /// Write a u32.
-    fn write_u32(&mut self, val: u32) -> Result<()> {
-        let mut bytes = [0; 4];
-        self.endian().write_u32(&mut bytes, val);
-        self.write(&bytes)
-    }
-
-    /// Write a u64.
-    fn write_u64(&mut self, val: u64) -> Result<()> {
-        let mut bytes = [0; 8];
-        self.endian().write_u64(&mut bytes, val);
-        self.write(&bytes)
-    }
-
-    /// Write a u8 at the given offset.
-    fn write_u8_at(&mut self, offset: usize, val: u8) -> Result<()> {
-        let bytes = [val];
-        self.write_at(offset, &bytes)
-    }
-
-    /// Write a u16 at the given offset.
-    fn write_u16_at(&mut self, offset: usize, val: u16) -> Result<()> {
-        let mut bytes = [0; 2];
-        self.endian().write_u16(&mut bytes, val);
-        self.write_at(offset, &bytes)
-    }
-
-    /// Write a u32 at the given offset.
-    fn write_u32_at(&mut self, offset: usize, val: u32) -> Result<()> {
-        let mut bytes = [0; 4];
-        self.endian().write_u32(&mut bytes, val);
-        self.write_at(offset, &bytes)
-    }
-
-    /// Write a u64 at the given offset.
-    fn write_u64_at(&mut self, offset: usize, val: u64) -> Result<()> {
-        let mut bytes = [0; 8];
-        self.endian().write_u64(&mut bytes, val);
-        self.write_at(offset, &bytes)
-    }
-
-    /// Write unsigned data of the given size.
-    ///
-    /// Returns an error if the value is too large for the size.
-    /// This must not be used directly for values that may require relocation.
-    fn write_udata(&mut self, val: u64, size: u8) -> Result<()> {
-        match size {
-            1 => {
-                let write_val = val as u8;
-                if val != u64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u8(write_val)
-            }
-            2 => {
-                let write_val = val as u16;
-                if val != u64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u16(write_val)
-            }
-            4 => {
-                let write_val = val as u32;
-                if val != u64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u32(write_val)
-            }
-            8 => self.write_u64(val),
-            otherwise => Err(Error::UnsupportedWordSize(otherwise)),
-        }
-    }
-
-    /// Write signed data of the given size.
-    ///
-    /// Returns an error if the value is too large for the size.
-    /// This must not be used directly for values that may require relocation.
-    fn write_sdata(&mut self, val: i64, size: u8) -> Result<()> {
-        match size {
-            1 => {
-                let write_val = val as i8;
-                if val != i64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u8(write_val as u8)
-            }
-            2 => {
-                let write_val = val as i16;
-                if val != i64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u16(write_val as u16)
-            }
-            4 => {
-                let write_val = val as i32;
-                if val != i64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u32(write_val as u32)
-            }
-            8 => self.write_u64(val as u64),
-            otherwise => Err(Error::UnsupportedWordSize(otherwise)),
-        }
-    }
-
-    /// Write a word of the given size at the given offset.
-    ///
-    /// Returns an error if the value is too large for the size.
-    /// This must not be used directly for values that may require relocation.
-    fn write_udata_at(&mut self, offset: usize, val: u64, size: u8) -> Result<()> {
-        match size {
-            1 => {
-                let write_val = val as u8;
-                if val != u64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u8_at(offset, write_val)
-            }
-            2 => {
-                let write_val = val as u16;
-                if val != u64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u16_at(offset, write_val)
-            }
-            4 => {
-                let write_val = val as u32;
-                if val != u64::from(write_val) {
-                    return Err(Error::ValueTooLarge);
-                }
-                self.write_u32_at(offset, write_val)
-            }
-            8 => self.write_u64_at(offset, val),
-            otherwise => Err(Error::UnsupportedWordSize(otherwise)),
-        }
-    }
-
-    /// Write an unsigned LEB128 encoded integer.
-    fn write_uleb128(&mut self, val: u64) -> Result<()> {
-        let mut bytes = [0u8; 10];
-        // bytes is long enough so this will never fail.
-        let len = leb128::write::unsigned(&mut { &mut bytes[..] }, val).unwrap();
-        self.write(&bytes[..len])
-    }
-
-    /// Read an unsigned LEB128 encoded integer.
-    fn write_sleb128(&mut self, val: i64) -> Result<()> {
-        let mut bytes = [0u8; 10];
-        // bytes is long enough so this will never fail.
-        let len = leb128::write::signed(&mut { &mut bytes[..] }, val).unwrap();
-        self.write(&bytes[..len])
-    }
-
-    /// Write an initial length according to the given DWARF format.
-    ///
-    /// This will only write a length of zero, since the length isn't
-    /// known yet, and a subsequent call to `write_initial_length_at`
-    /// will write the actual length.
-    fn write_initial_length(&mut self, format: Format) -> Result<InitialLengthOffset> {
-        if format == Format::Dwarf64 {
-            self.write_u32(0xffff_ffff)?;
-        }
-        let offset = InitialLengthOffset(self.len());
-        self.write_udata(0, format.word_size())?;
-        Ok(offset)
-    }
-
-    /// Write an initial length at the given offset according to the given DWARF format.
-    ///
-    /// `write_initial_length` must have previously returned the offset.
-    fn write_initial_length_at(
-        &mut self,
-        offset: InitialLengthOffset,
-        length: u64,
-        format: Format,
-    ) -> Result<()> {
-        self.write_udata_at(offset.0, length, format.word_size())
-    }
-}
-
-/// The offset at which an initial length should be written.
-#[derive(Debug, Clone, Copy)]
-pub struct InitialLengthOffset(usize);
-
-#[cfg(test)]
-mod tests {
-    use super::*;
-    use crate::write;
-    use crate::{BigEndian, LittleEndian};
-    use std::{i64, u64};
-
-    #[test]
-    fn test_writer() {
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_address(Address::Constant(0x1122_3344), 4).unwrap();
-        assert_eq!(w.slice(), &[0x44, 0x33, 0x22, 0x11]);
-        assert_eq!(
-            w.write_address(
-                Address::Symbol {
-                    symbol: 0,
-                    addend: 0
-                },
-                4
-            ),
-            Err(Error::InvalidAddress)
-        );
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_offset(0x1122_3344, SectionId::DebugInfo, 4)
-            .unwrap();
-        assert_eq!(w.slice(), &[0x44, 0x33, 0x22, 0x11]);
-        w.write_offset_at(1, 0x5566, SectionId::DebugInfo, 2)
-            .unwrap();
-        assert_eq!(w.slice(), &[0x44, 0x66, 0x55, 0x11]);
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_u8(0x11).unwrap();
-        w.write_u16(0x2233).unwrap();
-        w.write_u32(0x4455_6677).unwrap();
-        w.write_u64(0x8081_8283_8485_8687).unwrap();
-        #[rustfmt::skip]
-        assert_eq!(w.slice(), &[
-            0x11,
-            0x33, 0x22,
-            0x77, 0x66, 0x55, 0x44,
-            0x87, 0x86, 0x85, 0x84, 0x83, 0x82, 0x81, 0x80,
-        ]);
-        w.write_u8_at(14, 0x11).unwrap();
-        w.write_u16_at(12, 0x2233).unwrap();
-        w.write_u32_at(8, 0x4455_6677).unwrap();
-        w.write_u64_at(0, 0x8081_8283_8485_8687).unwrap();
-        #[rustfmt::skip]
-        assert_eq!(w.slice(), &[
-            0x87, 0x86, 0x85, 0x84, 0x83, 0x82, 0x81, 0x80,
-            0x77, 0x66, 0x55, 0x44,
-            0x33, 0x22,
-            0x11,
-        ]);
-
-        let mut w = write::EndianVec::new(BigEndian);
-        w.write_u8(0x11).unwrap();
-        w.write_u16(0x2233).unwrap();
-        w.write_u32(0x4455_6677).unwrap();
-        w.write_u64(0x8081_8283_8485_8687).unwrap();
-        #[rustfmt::skip]
-        assert_eq!(w.slice(), &[
-            0x11,
-            0x22, 0x33,
-            0x44, 0x55, 0x66, 0x77,
-            0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87,
-        ]);
-        w.write_u8_at(14, 0x11).unwrap();
-        w.write_u16_at(12, 0x2233).unwrap();
-        w.write_u32_at(8, 0x4455_6677).unwrap();
-        w.write_u64_at(0, 0x8081_8283_8485_8687).unwrap();
-        #[rustfmt::skip]
-        assert_eq!(w.slice(), &[
-            0x80, 0x81, 0x82, 0x83, 0x84, 0x85, 0x86, 0x87,
-            0x44, 0x55, 0x66, 0x77,
-            0x22, 0x33,
-            0x11,
-        ]);
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_udata(0x11, 1).unwrap();
-        w.write_udata(0x2233, 2).unwrap();
-        w.write_udata(0x4455_6677, 4).unwrap();
-        w.write_udata(0x8081_8283_8485_8687, 8).unwrap();
-        #[rustfmt::skip]
-        assert_eq!(w.slice(), &[
-            0x11,
-            0x33, 0x22,
-            0x77, 0x66, 0x55, 0x44,
-            0x87, 0x86, 0x85, 0x84, 0x83, 0x82, 0x81, 0x80,
-        ]);
-        assert_eq!(w.write_udata(0x100, 1), Err(Error::ValueTooLarge));
-        assert_eq!(w.write_udata(0x1_0000, 2), Err(Error::ValueTooLarge));
-        assert_eq!(w.write_udata(0x1_0000_0000, 4), Err(Error::ValueTooLarge));
-        assert_eq!(w.write_udata(0x00, 3), Err(Error::UnsupportedWordSize(3)));
-        w.write_udata_at(14, 0x11, 1).unwrap();
-        w.write_udata_at(12, 0x2233, 2).unwrap();
-        w.write_udata_at(8, 0x4455_6677, 4).unwrap();
-        w.write_udata_at(0, 0x8081_8283_8485_8687, 8).unwrap();
-        #[rustfmt::skip]
-        assert_eq!(w.slice(), &[
-            0x87, 0x86, 0x85, 0x84, 0x83, 0x82, 0x81, 0x80,
-            0x77, 0x66, 0x55, 0x44,
-            0x33, 0x22,
-            0x11,
-        ]);
-        assert_eq!(w.write_udata_at(0, 0x100, 1), Err(Error::ValueTooLarge));
-        assert_eq!(w.write_udata_at(0, 0x1_0000, 2), Err(Error::ValueTooLarge));
-        assert_eq!(
-            w.write_udata_at(0, 0x1_0000_0000, 4),
-            Err(Error::ValueTooLarge)
-        );
-        assert_eq!(
-            w.write_udata_at(0, 0x00, 3),
-            Err(Error::UnsupportedWordSize(3))
-        );
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_uleb128(0).unwrap();
-        assert_eq!(w.slice(), &[0]);
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_uleb128(u64::MAX).unwrap();
-        assert_eq!(
-            w.slice(),
-            &[0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 1]
-        );
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_sleb128(0).unwrap();
-        assert_eq!(w.slice(), &[0]);
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_sleb128(i64::MAX).unwrap();
-        assert_eq!(
-            w.slice(),
-            &[0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0]
-        );
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        w.write_sleb128(i64::MIN).unwrap();
-        assert_eq!(
-            w.slice(),
-            &[0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x80, 0x7f]
-        );
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        let offset = w.write_initial_length(Format::Dwarf32).unwrap();
-        assert_eq!(w.slice(), &[0, 0, 0, 0]);
-        w.write_initial_length_at(offset, 0x1122_3344, Format::Dwarf32)
-            .unwrap();
-        assert_eq!(w.slice(), &[0x44, 0x33, 0x22, 0x11]);
-        assert_eq!(
-            w.write_initial_length_at(offset, 0x1_0000_0000, Format::Dwarf32),
-            Err(Error::ValueTooLarge)
-        );
-
-        let mut w = write::EndianVec::new(LittleEndian);
-        let offset = w.write_initial_length(Format::Dwarf64).unwrap();
-        assert_eq!(w.slice(), &[0xff, 0xff, 0xff, 0xff, 0, 0, 0, 0, 0, 0, 0, 0]);
-        w.write_initial_length_at(offset, 0x1122_3344_5566_7788, Format::Dwarf64)
-            .unwrap();
-        assert_eq!(
-            w.slice(),
-            &[0xff, 0xff, 0xff, 0xff, 0x88, 0x77, 0x66, 0x55, 0x44, 0x33, 0x22, 0x11]
-        );
-    }
-}