Adding upstream version 1.64.0+dfsg1.upstream/1.64.0+dfsg1

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

82 files changed, 26024 insertions, 0 deletions

diff --git a/vendor/regex/.cargo-checksum.json b/vendor/regex/.cargo-checksum.json
new file mode 100644
index 000000000..f05551b4f
--- /dev/null
+++ b/vendor/regex/.cargo-checksum.json
@@ -0,0 +1 @@
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diff --git a/vendor/regex/CHANGELOG.md b/vendor/regex/CHANGELOG.md
new file mode 100644
index 000000000..26f9955b8
--- /dev/null
+++ b/vendor/regex/CHANGELOG.md
@@ -0,0 +1,1048 @@
+1.5.6 (2022-05-20)
+==================
+This release includes a few bug fixes, including a bug that produced incorrect
+matches when a non-greedy `?` operator was used.
+
+* [BUG #680](https://github.com/rust-lang/regex/issues/680):
+  Fixes a bug where `[[:alnum:][:^ascii:]]` dropped `[:alnum:]` from the class.
+* [BUG #859](https://github.com/rust-lang/regex/issues/859):
+  Fixes a bug where `Hir::is_match_empty` returned `false` for `\b`.
+* [BUG #862](https://github.com/rust-lang/regex/issues/862):
+  Fixes a bug where 'ab??' matches 'ab' instead of 'a' in 'ab'.
+
+
+1.5.5 (2022-03-08)
+==================
+This releases fixes a security bug in the regex compiler. This bug permits a
+vector for a denial-of-service attack in cases where the regex being compiled
+is untrusted. There are no known problems where the regex is itself trusted,
+including in cases of untrusted haystacks.
+
+* [SECURITY #GHSA-m5pq-gvj9-9vr8](https://github.com/rust-lang/regex/security/advisories/GHSA-m5pq-gvj9-9vr8):
+  Fixes a bug in the regex compiler where empty sub-expressions subverted the
+  existing mitigations in place to enforce a size limit on compiled regexes.
+  The Rust Security Response WG published an advisory about this:
+  https://groups.google.com/g/rustlang-security-announcements/c/NcNNL1Jq7Yw
+
+
+1.5.4 (2021-05-06)
+==================
+This release fixes another compilation failure when building regex. This time,
+the fix is for when the `pattern` feature is enabled, which only works on
+nightly Rust. CI has been updated to test this case.
+
+* [BUG #772](https://github.com/rust-lang/regex/pull/772):
+  Fix build when `pattern` feature is enabled.
+
+
+1.5.3 (2021-05-01)
+==================
+This releases fixes a bug when building regex with only the `unicode-perl`
+feature. It turns out that while CI was building this configuration, it wasn't
+actually failing the overall build on a failed compilation.
+
+* [BUG #769](https://github.com/rust-lang/regex/issues/769):
+  Fix build in `regex-syntax` when only the `unicode-perl` feature is enabled.
+
+
+1.5.2 (2021-05-01)
+==================
+This release fixes a performance bug when Unicode word boundaries are used.
+Namely, for certain regexes on certain inputs, it's possible for the lazy DFA
+to stop searching (causing a fallback to a slower engine) when it doesn't
+actually need to.
+
+[PR #768](https://github.com/rust-lang/regex/pull/768) fixes the bug, which was
+originally reported in
+[ripgrep#1860](https://github.com/BurntSushi/ripgrep/issues/1860).
+
+
+1.5.1 (2021-04-30)
+==================
+This is a patch release that fixes a compilation error when the `perf-literal`
+feature is not enabled.
+
+
+1.5.0 (2021-04-30)
+==================
+This release primarily updates to Rust 2018 (finally) and bumps the MSRV to
+Rust 1.41 (from Rust 1.28). Rust 1.41 was chosen because it's still reasonably
+old, and is what's in Debian stable at the time of writing.
+
+This release also drops this crate's own bespoke substring search algorithms
+in favor of a new
+[`memmem` implementation provided by the `memchr` crate](https://docs.rs/memchr/2.4.0/memchr/memmem/index.html).
+This will change the performance profile of some regexes, sometimes getting a
+little worse, and hopefully more frequently, getting a lot better. Please
+report any serious performance regressions if you find them.
+
+
+1.4.6 (2021-04-22)
+==================
+This is a small patch release that fixes the compiler's size check on how much
+heap memory a regex uses. Previously, the compiler did not account for the
+heap usage of Unicode character classes. Now it does. It's possible that this
+may make some regexes fail to compile that previously did compile. If that
+happens, please file an issue.
+
+* [BUG OSS-fuzz#33579](https://bugs.chromium.org/p/oss-fuzz/issues/detail?id=33579):
+  Some regexes can use more heap memory than one would expect.
+
+
+1.4.5 (2021-03-14)
+==================
+This is a small patch release that fixes a regression in the size of a `Regex`
+in the 1.4.4 release. Prior to 1.4.4, a `Regex` was 552 bytes. In the 1.4.4
+release, it was 856 bytes due to internal changes. In this release, a `Regex`
+is now 16 bytes. In general, the size of a `Regex` was never something that was
+on my radar, but this increased size in the 1.4.4 release seems to have crossed
+a threshold and resulted in stack overflows in some programs.
+
+* [BUG #750](https://github.com/rust-lang/regex/pull/750):
+  Fixes stack overflows seemingly caused by a large `Regex` size by decreasing
+  its size.
+
+
+1.4.4 (2021-03-11)
+==================
+This is a small patch release that contains some bug fixes. Notably, it also
+drops the `thread_local` (and `lazy_static`, via transitivity) dependencies.
+
+Bug fixes:
+
+* [BUG #362](https://github.com/rust-lang/regex/pull/362):
+  Memory leaks caused by an internal caching strategy should now be fixed.
+* [BUG #576](https://github.com/rust-lang/regex/pull/576):
+  All regex types now implement `UnwindSafe` and `RefUnwindSafe`.
+* [BUG #728](https://github.com/rust-lang/regex/pull/749):
+  Add missing `Replacer` impls for `Vec<u8>`, `String`, `Cow`, etc.
+
+
+1.4.3 (2021-01-08)
+==================
+This is a small patch release that adds some missing standard trait
+implementations for some types in the public API.
+
+Bug fixes:
+
+* [BUG #734](https://github.com/rust-lang/regex/pull/734):
+  Add `FusedIterator` and `ExactSizeIterator` impls to iterator types.
+* [BUG #735](https://github.com/rust-lang/regex/pull/735):
+  Add missing `Debug` impls to public API types.
+
+
+1.4.2 (2020-11-01)
+==================
+This is a small bug fix release that bans `\P{any}`. We previously banned empty
+classes like `[^\w\W]`, but missed the `\P{any}` case. In the future, we hope
+to permit empty classes.
+
+* [BUG #722](https://github.com/rust-lang/regex/issues/722):
+  Ban `\P{any}` to avoid a panic in the regex compiler. Found by OSS-Fuzz.
+
+
+1.4.1 (2020-10-13)
+==================
+This is a small bug fix release that makes `\p{cf}` work. Previously, it would
+report "property not found" even though `cf` is a valid abbreviation for the
+`Format` general category.
+
+* [BUG #719](https://github.com/rust-lang/regex/issues/719):
+  Fixes bug that prevented `\p{cf}` from working.
+
+
+1.4.0 (2020-10-11)
+==================
+This releases has a few minor documentation fixes as well as some very minor
+API additions. The MSRV remains at Rust 1.28 for now, but this is intended to
+increase to at least Rust 1.41.1 soon.
+
+This release also adds support for OSS-Fuzz. Kudos to
+[@DavidKorczynski](https://github.com/DavidKorczynski)
+for doing the heavy lifting for that!
+
+New features:
+
+* [FEATURE #649](https://github.com/rust-lang/regex/issues/649):
+  Support `[`, `]` and `.` in capture group names.
+* [FEATURE #687](https://github.com/rust-lang/regex/issues/687):
+  Add `is_empty` predicate to `RegexSet`.
+* [FEATURE #689](https://github.com/rust-lang/regex/issues/689):
+  Implement `Clone` for `SubCaptureMatches`.
+* [FEATURE #715](https://github.com/rust-lang/regex/issues/715):
+  Add `empty` constructor to `RegexSet` for convenience.
+
+Bug fixes:
+
+* [BUG #694](https://github.com/rust-lang/regex/issues/694):
+  Fix doc example for `Replacer::replace_append`.
+* [BUG #698](https://github.com/rust-lang/regex/issues/698):
+  Clarify docs for `s` flag when using a `bytes::Regex`.
+* [BUG #711](https://github.com/rust-lang/regex/issues/711):
+  Clarify `is_match` docs to indicate that it can match anywhere in string.
+
+
+1.3.9 (2020-05-28)
+==================
+This release fixes a MSRV (Minimum Support Rust Version) regression in the
+1.3.8 release. Namely, while 1.3.8 compiles on Rust 1.28, it actually does not
+compile on other Rust versions, such as Rust 1.39.
+
+Bug fixes:
+
+* [BUG #685](https://github.com/rust-lang/regex/issues/685):
+  Remove use of `doc_comment` crate, which cannot be used before Rust 1.43.
+
+
+1.3.8 (2020-05-28)
+==================
+This release contains a couple of important bug fixes driven
+by better support for empty-subexpressions in regexes. For
+example, regexes like `b|` are now allowed. Major thanks to
+[@sliquister](https://github.com/sliquister) for implementing support for this
+in [#677](https://github.com/rust-lang/regex/pull/677).
+
+Bug fixes:
+
+* [BUG #523](https://github.com/rust-lang/regex/pull/523):
+  Add note to documentation that spaces can be escaped in `x` mode.
+* [BUG #524](https://github.com/rust-lang/regex/issues/524):
+  Add support for empty sub-expressions, including empty alternations.
+* [BUG #659](https://github.com/rust-lang/regex/issues/659):
+  Fix match bug caused by an empty sub-expression miscompilation.
+
+
+1.3.7 (2020-04-17)
+==================
+This release contains a small bug fix that fixes how `regex` forwards crate
+features to `regex-syntax`. In particular, this will reduce recompilations in
+some cases.
+
+Bug fixes:
+
+* [BUG #665](https://github.com/rust-lang/regex/pull/665):
+  Fix feature forwarding to `regex-syntax`.
+
+
+1.3.6 (2020-03-24)
+==================
+This release contains a sizable (~30%) performance improvement when compiling
+some kinds of large regular expressions.
+
+Performance improvements:
+
+* [PERF #657](https://github.com/rust-lang/regex/pull/657):
+  Improvement performance of compiling large regular expressions.
+
+
+1.3.5 (2020-03-12)
+==================
+This release updates this crate to Unicode 13.
+
+New features:
+
+* [FEATURE #653](https://github.com/rust-lang/regex/pull/653):
+  Update `regex-syntax` to Unicode 13.
+
+
+1.3.4 (2020-01-30)
+==================
+This is a small bug fix release that fixes a bug related to the scoping of
+flags in a regex. Namely, before this fix, a regex like `((?i)a)b)` would
+match `aB` despite the fact that `b` should not be matched case insensitively.
+
+Bug fixes:
+
+* [BUG #640](https://github.com/rust-lang/regex/issues/640):
+  Fix bug related to the scoping of flags in a regex.
+
+
+1.3.3 (2020-01-09)
+==================
+This is a small maintenance release that upgrades the dependency on
+`thread_local` from `0.3` to `1.0`. The minimum supported Rust version remains
+at Rust 1.28.
+
+
+1.3.2 (2020-01-09)
+==================
+This is a small maintenance release with some house cleaning and bug fixes.
+
+New features:
+
+* [FEATURE #631](https://github.com/rust-lang/regex/issues/631):
+  Add a `Match::range` method an a `From<Match> for Range` impl.
+
+Bug fixes:
+
+* [BUG #521](https://github.com/rust-lang/regex/issues/521):
+  Corrects `/-/.splitn("a", 2)` to return `["a"]` instead of `["a", ""]`.
+* [BUG #594](https://github.com/rust-lang/regex/pull/594):
+  Improve error reporting when writing `\p\`.
+* [BUG #627](https://github.com/rust-lang/regex/issues/627):
+  Corrects `/-/.split("a-")` to return `["a", ""]` instead of `["a"]`.
+* [BUG #633](https://github.com/rust-lang/regex/pull/633):
+  Squash deprecation warnings for the `std::error::Error::description` method.
+
+
+1.3.1 (2019-09-04)
+==================
+This is a maintenance release with no changes in order to try to work-around
+a [docs.rs/Cargo issue](https://github.com/rust-lang/docs.rs/issues/400).
+
+
+1.3.0 (2019-09-03)
+==================
+This release adds a plethora of new crate features that permit users of regex
+to shrink its size considerably, in exchange for giving up either functionality
+(such as Unicode support) or runtime performance. When all such features are
+disabled, the dependency tree for `regex` shrinks to exactly 1 crate
+(`regex-syntax`). More information about the new crate features can be
+[found in the docs](https://docs.rs/regex/*/#crate-features).
+
+Note that while this is a new minor version release, the minimum supported
+Rust version for this crate remains at `1.28.0`.
+
+New features:
+
+* [FEATURE #474](https://github.com/rust-lang/regex/issues/474):
+  The `use_std` feature has been deprecated in favor of the `std` feature.
+  The `use_std` feature will be removed in regex 2. Until then, `use_std` will
+  remain as an alias for the `std` feature.
+* [FEATURE #583](https://github.com/rust-lang/regex/issues/583):
+  Add a substantial number of crate features shrinking `regex`.
+
+
+1.2.1 (2019-08-03)
+==================
+This release does a bit of house cleaning. Namely:
+
+* This repository is now using rustfmt.
+* License headers have been removed from all files, in following suit with the
+  Rust project.
+* Teddy has been removed from the `regex` crate, and is now part of the
+  `aho-corasick` crate.
+  [See `aho-corasick`'s new `packed` sub-module for details](https://docs.rs/aho-corasick/0.7.6/aho_corasick/packed/index.html).
+* The `utf8-ranges` crate has been deprecated, with its functionality moving
+  into the
+  [`utf8` sub-module of `regex-syntax`](https://docs.rs/regex-syntax/0.6.11/regex_syntax/utf8/index.html).
+* The `ucd-util` dependency has been dropped, in favor of implementing what
+  little we need inside of `regex-syntax` itself.
+
+In general, this is part of an ongoing (long term) effort to make optimizations
+in the regex engine easier to reason about. The current code is too convoluted
+and thus it is very easy to introduce new bugs. This simplification effort is
+the primary motivation behind re-working the `aho-corasick` crate to not only
+bundle algorithms like Teddy, but to also provide regex-like match semantics
+automatically.
+
+Moving forward, the plan is to join up with the `bstr` and `regex-automata`
+crates, with the former providing more sophisticated substring search
+algorithms (thereby deleting existing code in `regex`) and the latter providing
+ahead-of-time compiled DFAs for cases where they are inexpensive to compute.
+
+
+1.2.0 (2019-07-20)
+==================
+This release updates regex's minimum supported Rust version to 1.28, which was
+release almost 1 year ago. This release also updates regex's Unicode data
+tables to 12.1.0.
+
+
+1.1.9 (2019-07-06)
+==================
+This release contains a bug fix that caused regex's tests to fail, due to a
+dependency on an unreleased behavior in regex-syntax.
+
+* [BUG #593](https://github.com/rust-lang/regex/issues/593):
+  Move an integration-style test on error messages into regex-syntax.
+
+
+1.1.8 (2019-07-04)
+==================
+This release contains a few small internal refactorings. One of which fixes
+an instance of undefined behavior in a part of the SIMD code.
+
+Bug fixes:
+
+* [BUG #545](https://github.com/rust-lang/regex/issues/545):
+  Improves error messages when a repetition operator is used without a number.
+* [BUG #588](https://github.com/rust-lang/regex/issues/588):
+  Removes use of a repr(Rust) union used for type punning in the Teddy matcher.
+* [BUG #591](https://github.com/rust-lang/regex/issues/591):
+  Update docs for running benchmarks and improve failure modes.
+
+
+1.1.7 (2019-06-09)
+==================
+This release fixes up a few warnings as a result of recent deprecations.
+
+
+1.1.6 (2019-04-16)
+==================
+This release fixes a regression introduced by a bug fix (for
+[BUG #557](https://github.com/rust-lang/regex/issues/557)) which could cause
+the regex engine to enter an infinite loop. This bug was originally
+[reported against ripgrep](https://github.com/BurntSushi/ripgrep/issues/1247).
+
+
+1.1.5 (2019-04-01)
+==================
+This release fixes a bug in regex's dependency specification where it requires
+a newer version of regex-syntax, but this wasn't communicated correctly in the
+Cargo.toml. This would have been caught by a minimal version check, but this
+check was disabled because the `rand` crate itself advertises incorrect
+dependency specifications.
+
+Bug fixes:
+
+* [BUG #570](https://github.com/rust-lang/regex/pull/570):
+  Fix regex-syntax minimal version.
+
+
+1.1.4 (2019-03-31)
+==================
+This release fixes a backwards compatibility regression where Regex was no
+longer UnwindSafe. This was caused by the upgrade to aho-corasick 0.7, whose
+AhoCorasick type was itself not UnwindSafe. This has been fixed in aho-corasick
+0.7.4, which we now require.
+
+Bug fixes:
+
+* [BUG #568](https://github.com/rust-lang/regex/pull/568):
+  Fix an API regression where Regex was no longer UnwindSafe.
+
+
+1.1.3 (2019-03-30)
+==================
+This releases fixes a few bugs and adds a performance improvement when a regex
+is a simple alternation of literals.
+
+Performance improvements:
+
+* [OPT #566](https://github.com/rust-lang/regex/pull/566):
+  Upgrades `aho-corasick` to 0.7 and uses it for `foo|bar|...|quux` regexes.
+
+Bug fixes:
+
+* [BUG #527](https://github.com/rust-lang/regex/issues/527):
+  Fix a bug where the parser would panic on patterns like `((?x))`.
+* [BUG #555](https://github.com/rust-lang/regex/issues/555):
+  Fix a bug where the parser would panic on patterns like `(?m){1,1}`.
+* [BUG #557](https://github.com/rust-lang/regex/issues/557):
+  Fix a bug where captures could lead to an incorrect match.
+
+
+1.1.2 (2019-02-27)
+==================
+This release fixes a bug found in the fix introduced in 1.1.1.
+
+Bug fixes:
+
+* [BUG edf45e6f](https://github.com/rust-lang/regex/commit/edf45e6f):
+  Fix bug introduced in reverse suffix literal matcher in the 1.1.1 release.
+
+
+1.1.1 (2019-02-27)
+==================
+This is a small release with one fix for a bug caused by literal optimizations.
+
+Bug fixes:
+
+* [BUG 661bf53d](https://github.com/rust-lang/regex/commit/661bf53d):
+  Fixes a bug in the reverse suffix literal optimization. This was originally
+  reported
+  [against ripgrep](https://github.com/BurntSushi/ripgrep/issues/1203).
+
+
+1.1.0 (2018-11-30)
+==================
+This is a small release with a couple small enhancements. This release also
+increases the minimal supported Rust version (MSRV) to 1.24.1 (from 1.20.0). In
+accordance with this crate's MSRV policy, this release bumps the minor version
+number.
+
+Performance improvements:
+
+* [OPT #511](https://github.com/rust-lang/regex/pull/511),
+  [OPT #540](https://github.com/rust-lang/regex/pull/540):
+  Improve lazy DFA construction for large regex sets.
+
+New features:
+
+* [FEATURE #538](https://github.com/rust-lang/regex/pull/538):
+  Add Emoji and "break" Unicode properties. See [UNICODE.md](UNICODE.md).
+
+Bug fixes:
+
+* [BUG #530](https://github.com/rust-lang/regex/pull/530):
+  Add Unicode license (for data tables).
+* Various typo/doc fixups.
+
+
+1.0.6 (2018-11-06)
+==================
+This is a small release.
+
+Performance improvements:
+
+* [OPT #513](https://github.com/rust-lang/regex/pull/513):
+  Improve performance of compiling large Unicode classes by 8-10%.
+
+Bug fixes:
+
+* [BUG #533](https://github.com/rust-lang/regex/issues/533):
+  Fix definition of `[[:blank:]]` class that regressed in `regex-syntax 0.5`.
+
+
+1.0.5 (2018-09-06)
+==================
+This is a small release with an API enhancement.
+
+New features:
+
+* [FEATURE #509](https://github.com/rust-lang/regex/pull/509):
+  Generalize impls of the `Replacer` trait.
+
+
+1.0.4 (2018-08-25)
+==================
+This is a small release that bumps the quickcheck dependency.
+
+
+1.0.3 (2018-08-24)
+==================
+This is a small bug fix release.
+
+Bug fixes:
+
+* [BUG #504](https://github.com/rust-lang/regex/pull/504):
+  Fix for Cargo's "minimal version" support.
+* [BUG 1e39165f](https://github.com/rust-lang/regex/commit/1e39165f):
+  Fix doc examples for byte regexes.
+
+
+1.0.2 (2018-07-18)
+==================
+This release exposes some new lower level APIs on `Regex` that permit
+amortizing allocation and controlling the location at which a search is
+performed in a more granular way. Most users of the regex crate will not
+need or want to use these APIs.
+
+New features:
+
+* [FEATURE #493](https://github.com/rust-lang/regex/pull/493):
+  Add a few lower level APIs for amortizing allocation and more fine grained
+  searching.
+
+Bug fixes:
+
+* [BUG 3981d2ad](https://github.com/rust-lang/regex/commit/3981d2ad):
+  Correct outdated documentation on `RegexBuilder::dot_matches_new_line`.
+* [BUG 7ebe4ae0](https://github.com/rust-lang/regex/commit/7ebe4ae0):
+  Correct outdated documentation on `Parser::allow_invalid_utf8` in the
+  `regex-syntax` crate.
+* [BUG 24c7770b](https://github.com/rust-lang/regex/commit/24c7770b):
+  Fix a bug in the HIR printer where it wouldn't correctly escape meta
+  characters in character classes.
+
+
+1.0.1 (2018-06-19)
+==================
+This release upgrades regex's Unicode tables to Unicode 11, and enables SIMD
+optimizations automatically on Rust stable (1.27 or newer).
+
+New features:
+
+* [FEATURE #486](https://github.com/rust-lang/regex/pull/486):
+  Implement `size_hint` on `RegexSet` match iterators.
+* [FEATURE #488](https://github.com/rust-lang/regex/pull/488):
+  Update Unicode tables for Unicode 11.
+* [FEATURE #490](https://github.com/rust-lang/regex/pull/490):
+  SIMD optimizations are now enabled automatically in Rust stable, for versions
+  1.27 and up. No compilation flags or features need to be set. CPU support
+  SIMD is detected automatically at runtime.
+
+Bug fixes:
+
+* [BUG #482](https://github.com/rust-lang/regex/pull/482):
+  Present a better compilation error when the `use_std` feature isn't used.
+
+
+1.0.0 (2018-05-01)
+==================
+This release marks the 1.0 release of regex.
+
+While this release includes some breaking changes, most users of older versions
+of the regex library should be able to migrate to 1.0 by simply bumping the
+version number. The important changes are as follows:
+
+* We adopt Rust 1.20 as the new minimum supported version of Rust for regex.
+  We also tentativley adopt a policy that permits bumping the minimum supported
+  version of Rust in minor version releases of regex, but no patch releases.
+  That is, with respect to semver, we do not strictly consider bumping the
+  minimum version of Rust to be a breaking change, but adopt a conservative
+  stance as a compromise.
+* Octal syntax in regular expressions has been disabled by default. This
+  permits better error messages that inform users that backreferences aren't
+  available. Octal syntax can be re-enabled via the corresponding option on
+  `RegexBuilder`.
+* `(?-u:\B)` is no longer allowed in Unicode regexes since it can match at
+  invalid UTF-8 code unit boundaries. `(?-u:\b)` is still allowed in Unicode
+  regexes.
+* The `From<regex_syntax::Error>` impl has been removed. This formally removes
+  the public dependency on `regex-syntax`.
+* A new feature, `use_std`, has been added and enabled by default. Disabling
+  the feature will result in a compilation error. In the future, this may
+  permit us to support `no_std` environments (w/ `alloc`) in a backwards
+  compatible way.
+
+For more information and discussion, please see
+[1.0 release tracking issue](https://github.com/rust-lang/regex/issues/457).
+
+
+0.2.11 (2018-05-01)
+===================
+This release primarily contains bug fixes. Some of them resolve bugs where
+the parser could panic.
+
+New features:
+
+* [FEATURE #459](https://github.com/rust-lang/regex/pull/459):
+  Include C++'s standard regex library and Boost's regex library in the
+  benchmark harness. We now include D/libphobos, C++/std, C++/boost, Oniguruma,
+  PCRE1, PCRE2, RE2 and Tcl in the harness.
+
+Bug fixes:
+
+* [BUG #445](https://github.com/rust-lang/regex/issues/445):
+  Clarify order of indices returned by RegexSet match iterator.
+* [BUG #461](https://github.com/rust-lang/regex/issues/461):
+  Improve error messages for invalid regexes like `[\d-a]`.
+* [BUG #464](https://github.com/rust-lang/regex/issues/464):
+  Fix a bug in the error message pretty printer that could cause a panic when
+  a regex contained a literal `\n` character.
+* [BUG #465](https://github.com/rust-lang/regex/issues/465):
+  Fix a panic in the parser that was caused by applying a repetition operator
+  to `(?flags)`.
+* [BUG #466](https://github.com/rust-lang/regex/issues/466):
+  Fix a bug where `\pC` was not recognized as an alias for `\p{Other}`.
+* [BUG #470](https://github.com/rust-lang/regex/pull/470):
+  Fix a bug where literal searches did more work than necessary for anchored
+  regexes.
+
+
+0.2.10 (2018-03-16)
+===================
+This release primarily updates the regex crate to changes made in `std::arch`
+on nightly Rust.
+
+New features:
+
+* [FEATURE #458](https://github.com/rust-lang/regex/pull/458):
+  The `Hir` type in `regex-syntax` now has a printer.
+
+
+0.2.9 (2018-03-12)
+==================
+This release introduces a new nightly only feature, `unstable`, which enables
+SIMD optimizations for certain types of regexes. No additional compile time
+options are necessary, and the regex crate will automatically choose the
+best CPU features at run time. As a result, the `simd` (nightly only) crate
+dependency has been dropped.
+
+New features:
+
+* [FEATURE #456](https://github.com/rust-lang/regex/pull/456):
+  The regex crate now includes AVX2 optimizations in addition to the extant
+  SSSE3 optimization.
+
+Bug fixes:
+
+* [BUG #455](https://github.com/rust-lang/regex/pull/455):
+  Fix a bug where `(?x)[ / - ]` failed to parse.
+
+
+0.2.8 (2018-03-12)
+==================
+Bug gixes:
+
+* [BUG #454](https://github.com/rust-lang/regex/pull/454):
+  Fix a bug in the nest limit checker being too aggressive.
+
+
+0.2.7 (2018-03-07)
+==================
+This release includes a ground-up rewrite of the regex-syntax crate, which has
+been in development for over a year.
+
+New features:
+
+* Error messages for invalid regexes have been greatly improved. You get these
+  automatically; you don't need to do anything. In addition to better
+  formatting, error messages will now explicitly call out the use of look
+  around. When regex 1.0 is released, this will happen for backreferences as
+  well.
+* Full support for intersection, difference and symmetric difference of
+  character classes. These can be used via the `&&`, `--` and `~~` binary
+  operators within classes.
+* A Unicode Level 1 conformat implementation of `\p{..}` character classes.
+  Things like `\p{scx:Hira}`, `\p{age:3.2}` or `\p{Changes_When_Casefolded}`
+  now work. All property name and value aliases are supported, and properties
+  are selected via loose matching. e.g., `\p{Greek}` is the same as
+  `\p{G r E e K}`.
+* A new `UNICODE.md` document has been added to this repository that
+  exhaustively documents support for UTS#18.
+* Empty sub-expressions are now permitted in most places. That is, `()+` is
+  now a valid regex.
+* Almost everything in regex-syntax now uses constant stack space, even when
+  performing analysis that requires structural induction. This reduces the risk
+  of a user provided regular expression causing a stack overflow.
+* [FEATURE #174](https://github.com/rust-lang/regex/issues/174):
+  The `Ast` type in `regex-syntax` now contains span information.
+* [FEATURE #424](https://github.com/rust-lang/regex/issues/424):
+  Support `\u`, `\u{...}`, `\U` and `\U{...}` syntax for specifying code points
+  in a regular expression.
+* [FEATURE #449](https://github.com/rust-lang/regex/pull/449):
+  Add a `Replace::by_ref` adapter for use of a replacer without consuming it.
+
+Bug fixes:
+
+* [BUG #446](https://github.com/rust-lang/regex/issues/446):
+  We re-enable the Boyer-Moore literal matcher.
+
+
+0.2.6 (2018-02-08)
+==================
+Bug fixes:
+
+* [BUG #446](https://github.com/rust-lang/regex/issues/446):
+  Fixes a bug in the new Boyer-Moore searcher that results in a match failure.
+  We fix this bug by temporarily disabling Boyer-Moore.
+
+
+0.2.5 (2017-12-30)
+==================
+Bug fixes:
+
+* [BUG #437](https://github.com/rust-lang/regex/issues/437):
+  Fixes a bug in the new Boyer-Moore searcher that results in a panic.
+
+
+0.2.4 (2017-12-30)
+==================
+New features:
+
+* [FEATURE #348](https://github.com/rust-lang/regex/pull/348):
+  Improve performance for capture searches on anchored regex.
+  (Contributed by @ethanpailes. Nice work!)
+* [FEATURE #419](https://github.com/rust-lang/regex/pull/419):
+  Expand literal searching to include Tuned Boyer-Moore in some cases.
+  (Contributed by @ethanpailes. Nice work!)
+
+Bug fixes:
+
+* [BUG](https://github.com/rust-lang/regex/pull/436):
+  The regex compiler plugin has been removed.
+* [BUG](https://github.com/rust-lang/regex/pull/436):
+  `simd` has been bumped to `0.2.1`, which fixes a Rust nightly build error.
+* [BUG](https://github.com/rust-lang/regex/pull/436):
+  Bring the benchmark harness up to date.
+
+
+0.2.3 (2017-11-30)
+==================
+New features:
+
+* [FEATURE #374](https://github.com/rust-lang/regex/pull/374):
+  Add `impl From<Match> for &str`.
+* [FEATURE #380](https://github.com/rust-lang/regex/pull/380):
+  Derive `Clone` and `PartialEq` on `Error`.
+* [FEATURE #400](https://github.com/rust-lang/regex/pull/400):
+  Update to Unicode 10.
+
+Bug fixes:
+
+* [BUG #375](https://github.com/rust-lang/regex/issues/375):
+  Fix a bug that prevented the bounded backtracker from terminating.
+* [BUG #393](https://github.com/rust-lang/regex/issues/393),
+  [BUG #394](https://github.com/rust-lang/regex/issues/394):
+  Fix bug with `replace` methods for empty matches.
+
+
+0.2.2 (2017-05-21)
+==================
+New features:
+
+* [FEATURE #341](https://github.com/rust-lang/regex/issues/341):
+  Support nested character classes and intersection operation.
+  For example, `[\p{Greek}&&\pL]` matches greek letters and
+  `[[0-9]&&[^4]]` matches every decimal digit except `4`.
+  (Much thanks to @robinst, who contributed this awesome feature.)
+
+Bug fixes:
+
+* [BUG #321](https://github.com/rust-lang/regex/issues/321):
+  Fix bug in literal extraction and UTF-8 decoding.
+* [BUG #326](https://github.com/rust-lang/regex/issues/326):
+  Add documentation tip about the `(?x)` flag.
+* [BUG #333](https://github.com/rust-lang/regex/issues/333):
+  Show additional replacement example using curly braces.
+* [BUG #334](https://github.com/rust-lang/regex/issues/334):
+  Fix bug when resolving captures after a match.
+* [BUG #338](https://github.com/rust-lang/regex/issues/338):
+  Add example that uses `Captures::get` to API documentation.
+* [BUG #353](https://github.com/rust-lang/regex/issues/353):
+  Fix RegexSet bug that caused match failure in some cases.
+* [BUG #354](https://github.com/rust-lang/regex/pull/354):
+  Fix panic in parser when `(?x)` is used.
+* [BUG #358](https://github.com/rust-lang/regex/issues/358):
+  Fix literal optimization bug with RegexSet.
+* [BUG #359](https://github.com/rust-lang/regex/issues/359):
+  Fix example code in README.
+* [BUG #365](https://github.com/rust-lang/regex/pull/365):
+  Fix bug in `rure_captures_len` in the C binding.
+* [BUG #367](https://github.com/rust-lang/regex/issues/367):
+  Fix byte class bug that caused a panic.
+
+
+0.2.1
+=====
+One major bug with `replace_all` has been fixed along with a couple of other
+touchups.
+
+* [BUG #312](https://github.com/rust-lang/regex/issues/312):
+  Fix documentation for `NoExpand` to reference correct lifetime parameter.
+* [BUG #314](https://github.com/rust-lang/regex/issues/314):
+  Fix a bug with `replace_all` when replacing a match with the empty string.
+* [BUG #316](https://github.com/rust-lang/regex/issues/316):
+  Note a missing breaking change from the `0.2.0` CHANGELOG entry.
+  (`RegexBuilder::compile` was renamed to `RegexBuilder::build`.)
+* [BUG #324](https://github.com/rust-lang/regex/issues/324):
+  Compiling `regex` should only require one version of `memchr` crate.
+
+
+0.2.0
+=====
+This is a new major release of the regex crate, and is an implementation of the
+[regex 1.0 RFC](https://github.com/rust-lang/rfcs/blob/master/text/1620-regex-1.0.md).
+We are releasing a `0.2` first, and if there are no major problems, we will
+release a `1.0` shortly. For `0.2`, the minimum *supported* Rust version is
+1.12.
+
+There are a number of **breaking changes** in `0.2`. They are split into two
+types. The first type correspond to breaking changes in regular expression
+syntax. The second type correspond to breaking changes in the API.
+
+Breaking changes for regex syntax:
+
+* POSIX character classes now require double bracketing. Previously, the regex
+  `[:upper:]` would parse as the `upper` POSIX character class. Now it parses
+  as the character class containing the characters `:upper:`. The fix to this
+  change is to use `[[:upper:]]` instead. Note that variants like
+  `[[:upper:][:blank:]]` continue to work.
+* The character `[` must always be escaped inside a character class.
+* The characters `&`, `-` and `~` must be escaped if any one of them are
+  repeated consecutively. For example, `[&]`, `[\&]`, `[\&\&]`, `[&-&]` are all
+  equivalent while `[&&]` is illegal. (The motivation for this and the prior
+  change is to provide a backwards compatible path for adding character class
+  set notation.)
+* A `bytes::Regex` now has Unicode mode enabled by default (like the main
+  `Regex` type). This means regexes compiled with `bytes::Regex::new` that
+  don't have the Unicode flag set should add `(?-u)` to recover the original
+  behavior.
+
+Breaking changes for the regex API:
+
+* `find` and `find_iter` now **return `Match` values instead of
+  `(usize, usize)`.** `Match` values have `start` and `end` methods, which
+  return the match offsets. `Match` values also have an `as_str` method,
+  which returns the text of the match itself.
+* The `Captures` type now only provides a single iterator over all capturing
+  matches, which should replace uses of `iter` and `iter_pos`. Uses of
+  `iter_named` should use the `capture_names` method on `Regex`.
+* The `at` method on the `Captures` type has been renamed to `get`, and it
+  now returns a `Match`. Similarly, the `name` method on `Captures` now returns
+  a `Match`.
+* The `replace` methods now return `Cow` values. The `Cow::Borrowed` variant
+  is returned when no replacements are made.
+* The `Replacer` trait has been completely overhauled. This should only
+  impact clients that implement this trait explicitly. Standard uses of
+  the `replace` methods should continue to work unchanged. If you implement
+  the `Replacer` trait, please consult the new documentation.
+* The `quote` free function has been renamed to `escape`.
+* The `Regex::with_size_limit` method has been removed. It is replaced by
+  `RegexBuilder::size_limit`.
+* The `RegexBuilder` type has switched from owned `self` method receivers to
+  `&mut self` method receivers. Most uses will continue to work unchanged, but
+  some code may require naming an intermediate variable to hold the builder.
+* The `compile` method on `RegexBuilder` has been renamed to `build`.
+* The free `is_match` function has been removed. It is replaced by compiling
+  a `Regex` and calling its `is_match` method.
+* The `PartialEq` and `Eq` impls on `Regex` have been dropped. If you relied
+  on these impls, the fix is to define a wrapper type around `Regex`, impl
+  `Deref` on it and provide the necessary impls.
+* The `is_empty` method on `Captures` has been removed. This always returns
+  `false`, so its use is superfluous.
+* The `Syntax` variant of the `Error` type now contains a string instead of
+  a `regex_syntax::Error`. If you were examining syntax errors more closely,
+  you'll need to explicitly use the `regex_syntax` crate to re-parse the regex.
+* The `InvalidSet` variant of the `Error` type has been removed since it is
+  no longer used.
+* Most of the iterator types have been renamed to match conventions. If you
+  were using these iterator types explicitly, please consult the documentation
+  for its new name. For example, `RegexSplits` has been renamed to `Split`.
+
+A number of bugs have been fixed:
+
+* [BUG #151](https://github.com/rust-lang/regex/issues/151):
+  The `Replacer` trait has been changed to permit the caller to control
+  allocation.
+* [BUG #165](https://github.com/rust-lang/regex/issues/165):
+  Remove the free `is_match` function.
+* [BUG #166](https://github.com/rust-lang/regex/issues/166):
+  Expose more knobs (available in `0.1`) and remove `with_size_limit`.
+* [BUG #168](https://github.com/rust-lang/regex/issues/168):
+  Iterators produced by `Captures` now have the correct lifetime parameters.
+* [BUG #175](https://github.com/rust-lang/regex/issues/175):
+  Fix a corner case in the parsing of POSIX character classes.
+* [BUG #178](https://github.com/rust-lang/regex/issues/178):
+  Drop the `PartialEq` and `Eq` impls on `Regex`.
+* [BUG #179](https://github.com/rust-lang/regex/issues/179):
+  Remove `is_empty` from `Captures` since it always returns false.
+* [BUG #276](https://github.com/rust-lang/regex/issues/276):
+  Position of named capture can now be retrieved from a `Captures`.
+* [BUG #296](https://github.com/rust-lang/regex/issues/296):
+  Remove winapi/kernel32-sys dependency on UNIX.
+* [BUG #307](https://github.com/rust-lang/regex/issues/307):
+  Fix error on emscripten.
+
+
+0.1.80
+======
+* [PR #292](https://github.com/rust-lang/regex/pull/292):
+  Fixes bug #291, which was introduced by PR #290.
+
+0.1.79
+======
+* Require regex-syntax 0.3.8.
+
+0.1.78
+======
+* [PR #290](https://github.com/rust-lang/regex/pull/290):
+  Fixes bug #289, which caused some regexes with a certain combination
+  of literals to match incorrectly.
+
+0.1.77
+======
+* [PR #281](https://github.com/rust-lang/regex/pull/281):
+  Fixes bug #280 by disabling all literal optimizations when a pattern
+  is partially anchored.
+
+0.1.76
+======
+* Tweak criteria for using the Teddy literal matcher.
+
+0.1.75
+======
+* [PR #275](https://github.com/rust-lang/regex/pull/275):
+  Improves match verification performance in the Teddy SIMD searcher.
+* [PR #278](https://github.com/rust-lang/regex/pull/278):
+  Replaces slow substring loop in the Teddy SIMD searcher with Aho-Corasick.
+* Implemented DoubleEndedIterator on regex set match iterators.
+
+0.1.74
+======
+* Release regex-syntax 0.3.5 with a minor bug fix.
+* Fix bug #272.
+* Fix bug #277.
+* [PR #270](https://github.com/rust-lang/regex/pull/270):
+  Fixes bugs #264, #268 and an unreported where the DFA cache size could be
+  drastically under estimated in some cases (leading to high unexpected memory
+  usage).
+
+0.1.73
+======
+* Release `regex-syntax 0.3.4`.
+* Bump `regex-syntax` dependency version for `regex` to `0.3.4`.
+
+0.1.72
+======
+* [PR #262](https://github.com/rust-lang/regex/pull/262):
+  Fixes a number of small bugs caught by fuzz testing (AFL).
+
+0.1.71
+======
+* [PR #236](https://github.com/rust-lang/regex/pull/236):
+  Fix a bug in how suffix literals were extracted, which could lead
+  to invalid match behavior in some cases.
+
+0.1.70
+======
+* [PR #231](https://github.com/rust-lang/regex/pull/231):
+  Add SIMD accelerated multiple pattern search.
+* [PR #228](https://github.com/rust-lang/regex/pull/228):
+  Reintroduce the reverse suffix literal optimization.
+* [PR #226](https://github.com/rust-lang/regex/pull/226):
+  Implements NFA state compression in the lazy DFA.
+* [PR #223](https://github.com/rust-lang/regex/pull/223):
+  A fully anchored RegexSet can now short-circuit.
+
+0.1.69
+======
+* [PR #216](https://github.com/rust-lang/regex/pull/216):
+  Tweak the threshold for running backtracking.
+* [PR #217](https://github.com/rust-lang/regex/pull/217):
+  Add upper limit (from the DFA) to capture search (for the NFA).
+* [PR #218](https://github.com/rust-lang/regex/pull/218):
+  Add rure, a C API.
+
+0.1.68
+======
+* [PR #210](https://github.com/rust-lang/regex/pull/210):
+  Fixed a performance bug in `bytes::Regex::replace` where `extend` was used
+  instead of `extend_from_slice`.
+* [PR #211](https://github.com/rust-lang/regex/pull/211):
+  Fixed a bug in the handling of word boundaries in the DFA.
+* [PR #213](https://github.com/rust-lang/pull/213):
+  Added RE2 and Tcl to the benchmark harness. Also added a CLI utility from
+  running regexes using any of the following regex engines: PCRE1, PCRE2,
+  Oniguruma, RE2, Tcl and of course Rust's own regexes.
+
+0.1.67
+======
+* [PR #201](https://github.com/rust-lang/regex/pull/201):
+  Fix undefined behavior in the `regex!` compiler plugin macro.
+* [PR #205](https://github.com/rust-lang/regex/pull/205):
+  More improvements to DFA performance. Competitive with RE2. See PR for
+  benchmarks.
+* [PR #209](https://github.com/rust-lang/regex/pull/209):
+  Release 0.1.66 was semver incompatible since it required a newer version
+  of Rust than previous releases. This PR fixes that. (And `0.1.66` was
+  yanked.)
+
+0.1.66
+======
+* Speculative support for Unicode word boundaries was added to the DFA. This
+  should remove the last common case that disqualified use of the DFA.
+* An optimization that scanned for suffix literals and then matched the regular
+  expression in reverse was removed because it had worst case quadratic time
+  complexity. It was replaced with a more limited optimization where, given any
+  regex of the form `re$`, it will be matched in reverse from the end of the
+  haystack.
+* [PR #202](https://github.com/rust-lang/regex/pull/202):
+  The inner loop of the DFA was heavily optimized to improve cache locality
+  and reduce the overall number of instructions run on each iteration. This
+  represents the first use of `unsafe` in `regex` (to elide bounds checks).
+* [PR #200](https://github.com/rust-lang/regex/pull/200):
+  Use of the `mempool` crate (which used thread local storage) was replaced
+  with a faster version of a similar API in @Amanieu's `thread_local` crate.
+  It should reduce contention when using a regex from multiple threads
+  simultaneously.
+* PCRE2 JIT benchmarks were added. A benchmark comparison can be found
+  [here](https://gist.github.com/anonymous/14683c01993e91689f7206a18675901b).
+  (Includes a comparison with PCRE1's JIT and Oniguruma.)
+* A bug where word boundaries weren't being matched correctly in the DFA was
+  fixed. This only affected use of `bytes::Regex`.
+* [#160](https://github.com/rust-lang/regex/issues/160):
+  `Captures` now has a `Debug` impl.
diff --git a/vendor/regex/Cargo.lock b/vendor/regex/Cargo.lock
new file mode 100644
index 000000000..897a4a32f
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+++ b/vendor/regex/Cargo.lock
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+# This file is automatically @generated by Cargo.
+# It is not intended for manual editing.
+version = 3
+
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+ "libc",
+ "wasi",
+]
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+[[package]]
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+dependencies = [
+ "getrandom",
+]
+
+[[package]]
+name = "regex"
+version = "1.5.6"
+dependencies = [
+ "aho-corasick",
+ "lazy_static",
+ "memchr",
+ "quickcheck",
+ "rand",
+ "regex-syntax",
+]
+
+[[package]]
+name = "regex-syntax"
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+[[package]]
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diff --git a/vendor/regex/Cargo.toml b/vendor/regex/Cargo.toml
new file mode 100644
index 000000000..772bdb372
--- /dev/null
+++ b/vendor/regex/Cargo.toml
@@ -0,0 +1,149 @@
+# THIS FILE IS AUTOMATICALLY GENERATED BY CARGO
+#
+# When uploading crates to the registry Cargo will automatically
+# "normalize" Cargo.toml files for maximal compatibility
+# with all versions of Cargo and also rewrite `path` dependencies
+# to registry (e.g., crates.io) dependencies.
+#
+# If you are reading this file be aware that the original Cargo.toml
+# will likely look very different (and much more reasonable).
+# See Cargo.toml.orig for the original contents.
+
+[package]
+edition = "2018"
+name = "regex"
+version = "1.5.6"
+authors = ["The Rust Project Developers"]
+exclude = [
+    "/scripts/*",
+    "/.github/*",
+]
+autotests = false
+description = """
+An implementation of regular expressions for Rust. This implementation uses
+finite automata and guarantees linear time matching on all inputs.
+"""
+homepage = "https://github.com/rust-lang/regex"
+documentation = "https://docs.rs/regex"
+readme = "README.md"
+categories = ["text-processing"]
+license = "MIT OR Apache-2.0"
+repository = "https://github.com/rust-lang/regex"
+
+[profile.bench]
+debug = true
+
+[profile.release]
+debug = true
+
+[profile.test]
+debug = true
+
+[lib]
+doctest = false
+bench = false
+
+[[test]]
+name = "default"
+path = "tests/test_default.rs"
+
+[[test]]
+name = "default-bytes"
+path = "tests/test_default_bytes.rs"
+
+[[test]]
+name = "nfa"
+path = "tests/test_nfa.rs"
+
+[[test]]
+name = "nfa-utf8bytes"
+path = "tests/test_nfa_utf8bytes.rs"
+
+[[test]]
+name = "nfa-bytes"
+path = "tests/test_nfa_bytes.rs"
+
+[[test]]
+name = "backtrack"
+path = "tests/test_backtrack.rs"
+
+[[test]]
+name = "backtrack-utf8bytes"
+path = "tests/test_backtrack_utf8bytes.rs"
+
+[[test]]
+name = "backtrack-bytes"
+path = "tests/test_backtrack_bytes.rs"
+
+[[test]]
+name = "crates-regex"
+path = "tests/test_crates_regex.rs"
+
+[dependencies.aho-corasick]
+version = "0.7.18"
+optional = true
+
+[dependencies.memchr]
+version = "2.4.0"
+optional = true
+
+[dependencies.regex-syntax]
+version = "0.6.26"
+default-features = false
+
+[dev-dependencies.lazy_static]
+version = "1"
+
+[dev-dependencies.quickcheck]
+version = "1.0.3"
+default-features = false
+
+[dev-dependencies.rand]
+version = "0.8.3"
+features = [
+    "getrandom",
+    "small_rng",
+]
+default-features = false
+
+[features]
+default = [
+    "std",
+    "perf",
+    "unicode",
+    "regex-syntax/default",
+]
+pattern = []
+perf = [
+    "perf-cache",
+    "perf-dfa",
+    "perf-inline",
+    "perf-literal",
+]
+perf-cache = []
+perf-dfa = []
+perf-inline = []
+perf-literal = [
+    "aho-corasick",
+    "memchr",
+]
+std = []
+unicode = [
+    "unicode-age",
+    "unicode-bool",
+    "unicode-case",
+    "unicode-gencat",
+    "unicode-perl",
+    "unicode-script",
+    "unicode-segment",
+    "regex-syntax/unicode",
+]
+unicode-age = ["regex-syntax/unicode-age"]
+unicode-bool = ["regex-syntax/unicode-bool"]
+unicode-case = ["regex-syntax/unicode-case"]
+unicode-gencat = ["regex-syntax/unicode-gencat"]
+unicode-perl = ["regex-syntax/unicode-perl"]
+unicode-script = ["regex-syntax/unicode-script"]
+unicode-segment = ["regex-syntax/unicode-segment"]
+unstable = ["pattern"]
+use_std = ["std"]
diff --git a/vendor/regex/HACKING.md b/vendor/regex/HACKING.md
new file mode 100644
index 000000000..34af5b517
--- /dev/null
+++ b/vendor/regex/HACKING.md
@@ -0,0 +1,341 @@
+Your friendly guide to hacking and navigating the regex library.
+
+This guide assumes familiarity with Rust and Cargo, and at least a perusal of
+the user facing documentation for this crate.
+
+If you're looking for background on the implementation in this library, then
+you can do no better than Russ Cox's article series on implementing regular
+expressions using finite automata: https://swtch.com/~rsc/regexp/
+
+
+## Architecture overview
+
+As you probably already know, this library executes regular expressions using
+finite automata. In particular, a design goal is to make searching linear
+with respect to both the regular expression and the text being searched.
+Meeting that design goal on its own is not so hard and can be done with an
+implementation of the Pike VM (similar to Thompson's construction, but supports
+capturing groups), as described in: https://swtch.com/~rsc/regexp/regexp2.html
+--- This library contains such an implementation in src/pikevm.rs.
+
+Making it fast is harder. One of the key problems with the Pike VM is that it
+can be in more than one state at any point in time, and must shuffle capture
+positions between them. The Pike VM also spends a lot of time following the
+same epsilon transitions over and over again. We can employ one trick to
+speed up the Pike VM: extract one or more literal prefixes from the regular
+expression and execute specialized code to quickly find matches of those
+prefixes in the search text. The Pike VM can then be avoided for most the
+search, and instead only executed when a prefix is found. The code to find
+prefixes is in the regex-syntax crate (in this repository). The code to search
+for literals is in src/literals.rs. When more than one literal prefix is found,
+we fall back to an Aho-Corasick DFA using the aho-corasick crate. For one
+literal, we use a variant of the Boyer-Moore algorithm. Both Aho-Corasick and
+Boyer-Moore use `memchr` when appropriate. The Boyer-Moore variant in this
+library also uses elementary frequency analysis to choose the right byte to run
+`memchr` with.
+
+Of course, detecting prefix literals can only take us so far. Not all regular
+expressions have literal prefixes. To remedy this, we try another approach
+to executing the Pike VM: backtracking, whose implementation can be found in
+src/backtrack.rs. One reason why backtracking can be faster is that it avoids
+excessive shuffling of capture groups. Of course, backtracking is susceptible
+to exponential runtimes, so we keep track of every state we've visited to make
+sure we never visit it again. This guarantees linear time execution, but we
+pay for it with the memory required to track visited states. Because of the
+memory requirement, we only use this engine on small search strings *and* small
+regular expressions.
+
+Lastly, the real workhorse of this library is the "lazy" DFA in src/dfa.rs.
+It is distinct from the Pike VM in that the DFA is explicitly represented in
+memory and is only ever in one state at a time. It is said to be "lazy" because
+the DFA is computed as text is searched, where each byte in the search text
+results in at most one new DFA state. It is made fast by caching states. DFAs
+are susceptible to exponential state blow up (where the worst case is computing
+a new state for every input byte, regardless of what's in the state cache). To
+avoid using a lot of memory, the lazy DFA uses a bounded cache. Once the cache
+is full, it is wiped and state computation starts over again. If the cache is
+wiped too frequently, then the DFA gives up and searching falls back to one of
+the aforementioned algorithms.
+
+All of the above matching engines expose precisely the same matching semantics.
+This is indeed tested. (See the section below about testing.)
+
+The following sub-sections describe the rest of the library and how each of the
+matching engines are actually used.
+
+### Parsing
+
+Regular expressions are parsed using the regex-syntax crate, which is
+maintained in this repository. The regex-syntax crate defines an abstract
+syntax and provides very detailed error messages when a parse error is
+encountered. Parsing is done in a separate crate so that others may benefit
+from its existence, and because it is relatively divorced from the rest of the
+regex library.
+
+The regex-syntax crate also provides sophisticated support for extracting
+prefix and suffix literals from regular expressions.
+
+### Compilation
+
+The compiler is in src/compile.rs. The input to the compiler is some abstract
+syntax for a regular expression and the output is a sequence of opcodes that
+matching engines use to execute a search. (One can think of matching engines as
+mini virtual machines.) The sequence of opcodes is a particular encoding of a
+non-deterministic finite automaton. In particular, the opcodes explicitly rely
+on epsilon transitions.
+
+Consider a simple regular expression like `a|b`. Its compiled form looks like
+this:
+
+    000 Save(0)
+    001 Split(2, 3)
+    002 'a' (goto: 4)
+    003 'b'
+    004 Save(1)
+    005 Match
+
+The first column is the instruction pointer and the second column is the
+instruction. Save instructions indicate that the current position in the input
+should be stored in a captured location. Split instructions represent a binary
+branch in the program (i.e., epsilon transitions). The instructions `'a'` and
+`'b'` indicate that the literal bytes `'a'` or `'b'` should match.
+
+In older versions of this library, the compilation looked like this:
+
+    000 Save(0)
+    001 Split(2, 3)
+    002 'a'
+    003 Jump(5)
+    004 'b'
+    005 Save(1)
+    006 Match
+
+In particular, empty instructions that merely served to move execution from one
+point in the program to another were removed. Instead, every instruction has a
+`goto` pointer embedded into it. This resulted in a small performance boost for
+the Pike VM, because it was one fewer epsilon transition that it had to follow.
+
+There exist more instructions and they are defined and documented in
+src/prog.rs.
+
+Compilation has several knobs and a few unfortunately complicated invariants.
+Namely, the output of compilation can be one of two types of programs: a
+program that executes on Unicode scalar values or a program that executes
+on raw bytes. In the former case, the matching engine is responsible for
+performing UTF-8 decoding and executing instructions using Unicode codepoints.
+In the latter case, the program handles UTF-8 decoding implicitly, so that the
+matching engine can execute on raw bytes. All matching engines can execute
+either Unicode or byte based programs except for the lazy DFA, which requires
+byte based programs. In general, both representations were kept because (1) the
+lazy DFA requires byte based programs so that states can be encoded in a memory
+efficient manner and (2) the Pike VM benefits greatly from inlining Unicode
+character classes into fewer instructions as it results in fewer epsilon
+transitions.
+
+N.B. UTF-8 decoding is built into the compiled program by making use of the
+utf8-ranges crate. The compiler in this library factors out common suffixes to
+reduce the size of huge character classes (e.g., `\pL`).
+
+A regrettable consequence of this split in instruction sets is we generally
+need to compile two programs; one for NFA execution and one for the lazy DFA.
+
+In fact, it is worse than that: the lazy DFA is not capable of finding the
+starting location of a match in a single scan, and must instead execute a
+backwards search after finding the end location. To execute a backwards search,
+we must have compiled the regular expression *in reverse*.
+
+This means that every compilation of a regular expression generally results in
+three distinct programs. It would be possible to lazily compile the Unicode
+program, since it is never needed if (1) the regular expression uses no word
+boundary assertions and (2) the caller never asks for sub-capture locations.
+
+### Execution
+
+At the time of writing, there are four matching engines in this library:
+
+1. The Pike VM (supports captures).
+2. Bounded backtracking (supports captures).
+3. Literal substring or multi-substring search.
+4. Lazy DFA (no support for Unicode word boundary assertions).
+
+Only the first two matching engines are capable of executing every regular
+expression program. They also happen to be the slowest, which means we need
+some logic that (1) knows various facts about the regular expression and (2)
+knows what the caller wants. Using this information, we can determine which
+engine (or engines) to use.
+
+The logic for choosing which engine to execute is in src/exec.rs and is
+documented on the Exec type. Exec values contain regular expression Programs
+(defined in src/prog.rs), which contain all the necessary tidbits for actually
+executing a regular expression on search text.
+
+For the most part, the execution logic is straight-forward and follows the
+limitations of each engine described above pretty faithfully. The hairiest
+part of src/exec.rs by far is the execution of the lazy DFA, since it requires
+a forwards and backwards search, and then falls back to either the Pike VM or
+backtracking if the caller requested capture locations.
+
+The Exec type also contains mutable scratch space for each type of matching
+engine. This scratch space is used during search (for example, for the lazy
+DFA, it contains compiled states that are reused on subsequent searches).
+
+### Programs
+
+A regular expression program is essentially a sequence of opcodes produced by
+the compiler plus various facts about the regular expression (such as whether
+it is anchored, its capture names, etc.).
+
+### The regex! macro
+
+The `regex!` macro no longer exists. It was developed in a bygone era as a
+compiler plugin during the infancy of the regex crate. Back then, then only
+matching engine in the crate was the Pike VM. The `regex!` macro was, itself,
+also a Pike VM. The only advantages it offered over the dynamic Pike VM that
+was built at runtime were the following:
+
+  1. Syntax checking was done at compile time. Your Rust program wouldn't
+     compile if your regex didn't compile.
+  2. Reduction of overhead that was proportional to the size of the regex.
+     For the most part, this overhead consisted of heap allocation, which
+     was nearly eliminated in the compiler plugin.
+
+The main takeaway here is that the compiler plugin was a marginally faster
+version of a slow regex engine. As the regex crate evolved, it grew other regex
+engines (DFA, bounded backtracker) and sophisticated literal optimizations.
+The regex macro didn't keep pace, and it therefore became (dramatically) slower
+than the dynamic engines. The only reason left to use it was for the compile
+time guarantee that your regex is correct. Fortunately, Clippy (the Rust lint
+tool) has a lint that checks your regular expression validity, which mostly
+replaces that use case.
+
+Additionally, the regex compiler plugin stopped receiving maintenance. Nobody
+complained. At that point, it seemed prudent to just remove it.
+
+Will a compiler plugin be brought back? The future is murky, but there is
+definitely an opportunity there to build something that is faster than the
+dynamic engines in some cases. But it will be challenging! As of now, there
+are no plans to work on this.
+
+
+## Testing
+
+A key aspect of any mature regex library is its test suite. A subset of the
+tests in this library come from Glenn Fowler's AT&T test suite (its online
+presence seems gone at the time of writing). The source of the test suite is
+located in src/testdata. The scripts/regex-match-tests.py takes the test suite
+in src/testdata and generates tests/matches.rs.
+
+There are also many other manually crafted tests and regression tests in
+tests/tests.rs. Some of these tests were taken from RE2.
+
+The biggest source of complexity in the tests is related to answering this
+question: how can we reuse the tests to check all of our matching engines? One
+approach would have been to encode every test into some kind of format (like
+the AT&T test suite) and code generate tests for each matching engine. The
+approach we use in this library is to create a Cargo.toml entry point for each
+matching engine we want to test. The entry points are:
+
+* `tests/test_default.rs` - tests `Regex::new`
+* `tests/test_default_bytes.rs` - tests `bytes::Regex::new`
+* `tests/test_nfa.rs` - tests `Regex::new`, forced to use the NFA
+  algorithm on every regex.
+* `tests/test_nfa_bytes.rs` - tests `Regex::new`, forced to use the NFA
+  algorithm on every regex and use *arbitrary* byte based programs.
+* `tests/test_nfa_utf8bytes.rs` - tests `Regex::new`, forced to use the NFA
+  algorithm on every regex and use *UTF-8* byte based programs.
+* `tests/test_backtrack.rs` - tests `Regex::new`, forced to use
+  backtracking on every regex.
+* `tests/test_backtrack_bytes.rs` - tests `Regex::new`, forced to use
+  backtracking on every regex and use *arbitrary* byte based programs.
+* `tests/test_backtrack_utf8bytes.rs` - tests `Regex::new`, forced to use
+  backtracking on every regex and use *UTF-8* byte based programs.
+* `tests/test_crates_regex.rs` - tests to make sure that all of the
+  backends behave in the same way against a number of quickcheck
+  generated random inputs. These tests need to be enabled through
+  the `RUST_REGEX_RANDOM_TEST` environment variable (see
+  below).
+
+The lazy DFA and pure literal engines are absent from this list because
+they cannot be used on every regular expression. Instead, we rely on
+`tests/test_dynamic.rs` to test the lazy DFA and literal engines when possible.
+
+Since the tests are repeated several times, and because `cargo test` runs all
+entry points, it can take a while to compile everything. To reduce compile
+times slightly, try using `cargo test --test default`, which will only use the
+`tests/test_default.rs` entry point.
+
+The random testing takes quite a while, so it is not enabled by default.
+In order to run the random testing you can set the
+`RUST_REGEX_RANDOM_TEST` environment variable to anything before
+invoking `cargo test`. Note that this variable is inspected at compile
+time, so if the tests don't seem to be running, you may need to run
+`cargo clean`.
+
+## Benchmarking
+
+The benchmarking in this crate is made up of many micro-benchmarks. Currently,
+there are two primary sets of benchmarks: the benchmarks that were adopted
+at this library's inception (in `bench/src/misc.rs`) and a newer set of
+benchmarks meant to test various optimizations. Specifically, the latter set
+contain some analysis and are in `bench/src/sherlock.rs`. Also, the latter
+set are all executed on the same lengthy input whereas the former benchmarks
+are executed on strings of varying length.
+
+There is also a smattering of benchmarks for parsing and compilation.
+
+Benchmarks are in a separate crate so that its dependencies can be managed
+separately from the main regex crate.
+
+Benchmarking follows a similarly wonky setup as tests. There are multiple entry
+points:
+
+* `bench_rust.rs` - benchmarks `Regex::new`
+* `bench_rust_bytes.rs` benchmarks `bytes::Regex::new`
+* `bench_pcre.rs` - benchmarks PCRE
+* `bench_onig.rs` - benchmarks Oniguruma
+
+The PCRE and Oniguruma benchmarks exist as a comparison point to a mature
+regular expression library. In general, this regex library compares favorably
+(there are even a few benchmarks that PCRE simply runs too slowly on or
+outright can't execute at all). I would love to add other regular expression
+library benchmarks (especially RE2).
+
+If you're hacking on one of the matching engines and just want to see
+benchmarks, then all you need to run is:
+
+    $ (cd bench && ./run rust)
+
+If you want to compare your results with older benchmarks, then try:
+
+    $ (cd bench && ./run rust | tee old)
+    $ ... make it faster
+    $ (cd bench && ./run rust | tee new)
+    $ cargo benchcmp old new --improvements
+
+The `cargo-benchcmp` utility is available here:
+https://github.com/BurntSushi/cargo-benchcmp
+
+The `./bench/run` utility can run benchmarks for PCRE and Oniguruma too. See
+`./bench/bench --help`.
+
+## Dev Docs
+
+When digging your teeth into the codebase for the first time, the
+crate documentation can be a great resource. By default `rustdoc`
+will strip out all documentation of private crate members in an
+effort to help consumers of the crate focus on the *interface*
+without having to concern themselves with the *implementation*.
+Normally this is a great thing, but if you want to start hacking
+on regex internals it is not what you want. Many of the private members
+of this crate are well documented with rustdoc style comments, and
+it would be a shame to miss out on the opportunity that presents.
+You can generate the private docs with:
+
+```
+$ rustdoc --crate-name docs src/lib.rs -o target/doc -L target/debug/deps --no-defaults --passes collapse-docs --passes unindent-comments
+```
+
+Then just point your browser at `target/doc/regex/index.html`.
+
+See https://github.com/rust-lang/rust/issues/15347 for more info
+about generating developer docs for internal use.
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new file mode 100644
index 000000000..39d4bdb5a
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diff --git a/vendor/regex/PERFORMANCE.md b/vendor/regex/PERFORMANCE.md
new file mode 100644
index 000000000..8cd0d9c71
--- /dev/null
+++ b/vendor/regex/PERFORMANCE.md
@@ -0,0 +1,277 @@
+Your friendly guide to understanding the performance characteristics of this
+crate.
+
+This guide assumes some familiarity with the public API of this crate, which
+can be found here: https://docs.rs/regex
+
+## Theory vs. Practice
+
+One of the design goals of this crate is to provide worst case linear time
+behavior with respect to the text searched using finite state automata. This
+means that, *in theory*, the performance of this crate is much better than most
+regex implementations, which typically use backtracking which has worst case
+exponential time.
+
+For example, try opening a Python interpreter and typing this:
+
+    >>> import re
+    >>> re.search('(a*)*c', 'a' * 30).span()
+
+I'll wait.
+
+At some point, you'll figure out that it won't terminate any time soon. ^C it.
+
+The promise of this crate is that *this pathological behavior can't happen*.
+
+With that said, just because we have protected ourselves against worst case
+exponential behavior doesn't mean we are immune from large constant factors
+or places where the current regex engine isn't quite optimal. This guide will
+detail those cases and provide guidance on how to avoid them, among other
+bits of general advice.
+
+## Thou Shalt Not Compile Regular Expressions In A Loop
+
+**Advice**: Use `lazy_static` to amortize the cost of `Regex` compilation.
+
+Don't do it unless you really don't mind paying for it. Compiling a regular
+expression in this crate is quite expensive. It is conceivable that it may get
+faster some day, but I wouldn't hold out hope for, say, an order of magnitude
+improvement. In particular, compilation can take any where from a few dozen
+microseconds to a few dozen milliseconds. Yes, milliseconds. Unicode character
+classes, in particular, have the largest impact on compilation performance. At
+the time of writing, for example, `\pL{100}` takes around 44ms to compile. This
+is because `\pL` corresponds to every letter in Unicode and compilation must
+turn it into a proper automaton that decodes a subset of UTF-8 which
+corresponds to those letters. Compilation also spends some cycles shrinking the
+size of the automaton.
+
+This means that in order to realize efficient regex matching, one must
+*amortize the cost of compilation*. Trivially, if a call to `is_match` is
+inside a loop, then make sure your call to `Regex::new` is *outside* that loop.
+
+In many programming languages, regular expressions can be conveniently defined
+and compiled in a global scope, and code can reach out and use them as if
+they were global static variables. In Rust, there is really no concept of
+life-before-main, and therefore, one cannot utter this:
+
+    static MY_REGEX: Regex = Regex::new("...").unwrap();
+
+Unfortunately, this would seem to imply that one must pass `Regex` objects
+around to everywhere they are used, which can be especially painful depending
+on how your program is structured. Thankfully, the
+[`lazy_static`](https://crates.io/crates/lazy_static)
+crate provides an answer that works well:
+
+    use lazy_static::lazy_static;
+    use regex::Regex;
+
+    fn some_helper_function(text: &str) -> bool {
+        lazy_static! {
+            static ref MY_REGEX: Regex = Regex::new("...").unwrap();
+        }
+        MY_REGEX.is_match(text)
+    }
+
+In other words, the `lazy_static!` macro enables us to define a `Regex` *as if*
+it were a global static value. What is actually happening under the covers is
+that the code inside the macro (i.e., `Regex::new(...)`) is run on *first use*
+of `MY_REGEX` via a `Deref` impl. The implementation is admittedly magical, but
+it's self contained and everything works exactly as you expect. In particular,
+`MY_REGEX` can be used from multiple threads without wrapping it in an `Arc` or
+a `Mutex`. On that note...
+
+## Using a regex from multiple threads
+
+**Advice**: The performance impact from using a `Regex` from multiple threads
+is likely negligible. If necessary, clone the `Regex` so that each thread gets
+its own copy. Cloning a regex does not incur any additional memory overhead
+than what would be used by using a `Regex` from multiple threads
+simultaneously. *Its only cost is ergonomics.*
+
+It is supported and encouraged to define your regexes using `lazy_static!` as
+if they were global static values, and then use them to search text from
+multiple threads simultaneously.
+
+One might imagine that this is possible because a `Regex` represents a
+*compiled* program, so that any allocation or mutation is already done, and is
+therefore read-only. Unfortunately, this is not true. Each type of search
+strategy in this crate requires some kind of mutable scratch space to use
+*during search*. For example, when executing a DFA, its states are computed
+lazily and reused on subsequent searches. Those states go into that mutable
+scratch space.
+
+The mutable scratch space is an implementation detail, and in general, its
+mutation should not be observable from users of this crate. Therefore, it uses
+interior mutability. This implies that `Regex` can either only be used from one
+thread, or it must do some sort of synchronization. Either choice is
+reasonable, but this crate chooses the latter, in particular because it is
+ergonomic and makes use with `lazy_static!` straight forward.
+
+Synchronization implies *some* amount of overhead. When a `Regex` is used from
+a single thread, this overhead is negligible. When a `Regex` is used from
+multiple threads simultaneously, it is possible for the overhead of
+synchronization from contention to impact performance. The specific cases where
+contention may happen is if you are calling any of these methods repeatedly
+from multiple threads simultaneously:
+
+* shortest_match
+* is_match
+* find
+* captures
+
+In particular, every invocation of one of these methods must synchronize with
+other threads to retrieve its mutable scratch space before searching can start.
+If, however, you are using one of these methods:
+
+* find_iter
+* captures_iter
+
+Then you may not suffer from contention since the cost of synchronization is
+amortized on *construction of the iterator*. That is, the mutable scratch space
+is obtained when the iterator is created and retained throughout its lifetime.
+
+## Only ask for what you need
+
+**Advice**: Prefer in this order: `is_match`, `find`, `captures`.
+
+There are three primary search methods on a `Regex`:
+
+* is_match
+* find
+* captures
+
+In general, these are ordered from fastest to slowest.
+
+`is_match` is fastest because it doesn't actually need to find the start or the
+end of the leftmost-first match. It can quit immediately after it knows there
+is a match. For example, given the regex `a+` and the haystack, `aaaaa`, the
+search will quit after examining the first byte.
+
+In contrast, `find` must return both the start and end location of the
+leftmost-first match. It can use the DFA matcher for this, but must run it
+forwards once to find the end of the match *and then run it backwards* to find
+the start of the match. The two scans and the cost of finding the real end of
+the leftmost-first match make this more expensive than `is_match`.
+
+`captures` is the most expensive of them all because it must do what `find`
+does, and then run either the bounded backtracker or the Pike VM to fill in the
+capture group locations. Both of these are simulations of an NFA, which must
+spend a lot of time shuffling states around. The DFA limits the performance hit
+somewhat by restricting the amount of text that must be searched via an NFA
+simulation.
+
+One other method not mentioned is `shortest_match`. This method has precisely
+the same performance characteristics as `is_match`, except it will return the
+end location of when it discovered a match. For example, given the regex `a+`
+and the haystack `aaaaa`, `shortest_match` may return `1` as opposed to `5`,
+the latter of which being the correct end location of the leftmost-first match.
+
+## Literals in your regex may make it faster
+
+**Advice**: Literals can reduce the work that the regex engine needs to do. Use
+them if you can, especially as prefixes.
+
+In particular, if your regex starts with a prefix literal, the prefix is
+quickly searched before entering the (much slower) regex engine. For example,
+given the regex `foo\w+`, the literal `foo` will be searched for using
+Boyer-Moore. If there's no match, then no regex engine is ever used. Only when
+there's a match is the regex engine invoked at the location of the match, which
+effectively permits the regex engine to skip large portions of a haystack.
+If a regex is comprised entirely of literals (possibly more than one), then
+it's possible that the regex engine can be avoided entirely even when there's a
+match.
+
+When one literal is found, Boyer-Moore is used. When multiple literals are
+found, then an optimized version of Aho-Corasick is used.
+
+This optimization is in particular extended quite a bit in this crate. Here are
+a few examples of regexes that get literal prefixes detected:
+
+* `(foo|bar)` detects `foo` and `bar`
+* `(a|b)c` detects `ac` and `bc`
+* `[ab]foo[yz]` detects `afooy`, `afooz`, `bfooy` and `bfooz`
+* `a?b` detects `a` and `b`
+* `a*b` detects `a` and `b`
+* `(ab){3,6}` detects `ababab`
+
+Literals in anchored regexes can also be used for detecting non-matches very
+quickly. For example, `^foo\w+` and `\w+foo$` may be able to detect a non-match
+just by examining the first (or last) three bytes of the haystack.
+
+## Unicode word boundaries may prevent the DFA from being used
+
+**Advice**: In most cases, `\b` should work well. If not, use `(?-u:\b)`
+instead of `\b` if you care about consistent performance more than correctness.
+
+It's a sad state of the current implementation. At the moment, the DFA will try
+to interpret Unicode word boundaries as if they were ASCII word boundaries.
+If the DFA comes across any non-ASCII byte, it will quit and fall back to an
+alternative matching engine that can handle Unicode word boundaries correctly.
+The alternate matching engine is generally quite a bit slower (perhaps by an
+order of magnitude). If necessary, this can be ameliorated in two ways.
+
+The first way is to add some number of literal prefixes to your regular
+expression. Even though the DFA may not be used, specialized routines will
+still kick in to find prefix literals quickly, which limits how much work the
+NFA simulation will need to do.
+
+The second way is to give up on Unicode and use an ASCII word boundary instead.
+One can use an ASCII word boundary by disabling Unicode support. That is,
+instead of using `\b`, use `(?-u:\b)`.  Namely, given the regex `\b.+\b`, it
+can be transformed into a regex that uses the DFA with `(?-u:\b).+(?-u:\b)`. It
+is important to limit the scope of disabling the `u` flag, since it might lead
+to a syntax error if the regex could match arbitrary bytes. For example, if one
+wrote `(?-u)\b.+\b`, then a syntax error would be returned because `.` matches
+any *byte* when the Unicode flag is disabled.
+
+The second way isn't appreciably different than just using a Unicode word
+boundary in the first place, since the DFA will speculatively interpret it as
+an ASCII word boundary anyway. The key difference is that if an ASCII word
+boundary is used explicitly, then the DFA won't quit in the presence of
+non-ASCII UTF-8 bytes. This results in giving up correctness in exchange for
+more consistent performance.
+
+N.B. When using `bytes::Regex`, Unicode support is disabled by default, so one
+can simply write `\b` to get an ASCII word boundary.
+
+## Excessive counting can lead to exponential state blow up in the DFA
+
+**Advice**: Don't write regexes that cause DFA state blow up if you care about
+match performance.
+
+Wait, didn't I say that this crate guards against exponential worst cases?
+Well, it turns out that the process of converting an NFA to a DFA can lead to
+an exponential blow up in the number of states. This crate specifically guards
+against exponential blow up by doing two things:
+
+1. The DFA is computed lazily. That is, a state in the DFA only exists in
+   memory if it is visited. In particular, the lazy DFA guarantees that *at
+   most* one state is created for every byte of input. This, on its own,
+   guarantees linear time complexity.
+2. Of course, creating a new state for *every* byte of input means that search
+   will go incredibly slow because of very large constant factors. On top of
+   that, creating a state for every byte in a large haystack could result in
+   exorbitant memory usage. To ameliorate this, the DFA bounds the number of
+   states it can store. Once it reaches its limit, it flushes its cache. This
+   prevents reuse of states that it already computed. If the cache is flushed
+   too frequently, then the DFA will give up and execution will fall back to
+   one of the NFA simulations.
+
+In effect, this crate will detect exponential state blow up and fall back to
+a search routine with fixed memory requirements. This does, however, mean that
+searching will be much slower than one might expect. Regexes that rely on
+counting in particular are strong aggravators of this behavior. For example,
+matching `[01]*1[01]{20}$` against a random sequence of `0`s and `1`s.
+
+In the future, it may be possible to increase the bound that the DFA uses,
+which would allow the caller to choose how much memory they're willing to
+spend.
+
+## Resist the temptation to "optimize" regexes
+
+**Advice**: This ain't a backtracking engine.
+
+An entire book was written on how to optimize Perl-style regular expressions.
+Most of those techniques are not applicable for this library. For example,
+there is no problem with using non-greedy matching or having lots of
+alternations in your regex.
diff --git a/vendor/regex/README.md b/vendor/regex/README.md
new file mode 100644
index 000000000..9acd5bb4a
--- /dev/null
+++ b/vendor/regex/README.md
@@ -0,0 +1,250 @@
+regex
+=====
+A Rust library for parsing, compiling, and executing regular expressions. Its
+syntax is similar to Perl-style regular expressions, but lacks a few features
+like look around and backreferences. In exchange, all searches execute in
+linear time with respect to the size of the regular expression and search text.
+Much of the syntax and implementation is inspired
+by [RE2](https://github.com/google/re2).
+
+[![Build status](https://github.com/rust-lang/regex/workflows/ci/badge.svg)](https://github.com/rust-lang/regex/actions)
+[![Crates.io](https://img.shields.io/crates/v/regex.svg)](https://crates.io/crates/regex)
+[![Rust](https://img.shields.io/badge/rust-1.41.1%2B-blue.svg?maxAge=3600)](https://github.com/rust-lang/regex)
+
+### Documentation
+
+[Module documentation with examples](https://docs.rs/regex).
+The module documentation also includes a comprehensive description of the
+syntax supported.
+
+Documentation with examples for the various matching functions and iterators
+can be found on the
+[`Regex` type](https://docs.rs/regex/*/regex/struct.Regex.html).
+
+### Usage
+
+Add this to your `Cargo.toml`:
+
+```toml
+[dependencies]
+regex = "1.5"
+```
+
+Here's a simple example that matches a date in YYYY-MM-DD format and prints the
+year, month and day:
+
+```rust
+use regex::Regex;
+
+fn main() {
+    let re = Regex::new(r"(?x)
+(?P<year>\d{4})  # the year
+-
+(?P<month>\d{2}) # the month
+-
+(?P<day>\d{2})   # the day
+").unwrap();
+    let caps = re.captures("2010-03-14").unwrap();
+
+    assert_eq!("2010", &caps["year"]);
+    assert_eq!("03", &caps["month"]);
+    assert_eq!("14", &caps["day"]);
+}
+```
+
+If you have lots of dates in text that you'd like to iterate over, then it's
+easy to adapt the above example with an iterator:
+
+```rust
+use regex::Regex;
+
+const TO_SEARCH: &'static str = "
+On 2010-03-14, foo happened. On 2014-10-14, bar happened.
+";
+
+fn main() {
+    let re = Regex::new(r"(\d{4})-(\d{2})-(\d{2})").unwrap();
+
+    for caps in re.captures_iter(TO_SEARCH) {
+        // Note that all of the unwraps are actually OK for this regex
+        // because the only way for the regex to match is if all of the
+        // capture groups match. This is not true in general though!
+        println!("year: {}, month: {}, day: {}",
+                 caps.get(1).unwrap().as_str(),
+                 caps.get(2).unwrap().as_str(),
+                 caps.get(3).unwrap().as_str());
+    }
+}
+```
+
+This example outputs:
+
+```text
+year: 2010, month: 03, day: 14
+year: 2014, month: 10, day: 14
+```
+
+### Usage: Avoid compiling the same regex in a loop
+
+It is an anti-pattern to compile the same regular expression in a loop since
+compilation is typically expensive. (It takes anywhere from a few microseconds
+to a few **milliseconds** depending on the size of the regex.) Not only is
+compilation itself expensive, but this also prevents optimizations that reuse
+allocations internally to the matching engines.
+
+In Rust, it can sometimes be a pain to pass regular expressions around if
+they're used from inside a helper function. Instead, we recommend using the
+[`lazy_static`](https://crates.io/crates/lazy_static) crate to ensure that
+regular expressions are compiled exactly once.
+
+For example:
+
+```rust,ignore
+use regex::Regex;
+
+fn some_helper_function(text: &str) -> bool {
+    lazy_static! {
+        static ref RE: Regex = Regex::new("...").unwrap();
+    }
+    RE.is_match(text)
+}
+```
+
+Specifically, in this example, the regex will be compiled when it is used for
+the first time. On subsequent uses, it will reuse the previous compilation.
+
+### Usage: match regular expressions on `&[u8]`
+
+The main API of this crate (`regex::Regex`) requires the caller to pass a
+`&str` for searching. In Rust, an `&str` is required to be valid UTF-8, which
+means the main API can't be used for searching arbitrary bytes.
+
+To match on arbitrary bytes, use the `regex::bytes::Regex` API. The API
+is identical to the main API, except that it takes an `&[u8]` to search
+on instead of an `&str`. By default, `.` will match any *byte* using
+`regex::bytes::Regex`, while `.` will match any *UTF-8 encoded Unicode scalar
+value* using the main API.
+
+This example shows how to find all null-terminated strings in a slice of bytes:
+
+```rust
+use regex::bytes::Regex;
+
+let re = Regex::new(r"(?P<cstr>[^\x00]+)\x00").unwrap();
+let text = b"foo\x00bar\x00baz\x00";
+
+// Extract all of the strings without the null terminator from each match.
+// The unwrap is OK here since a match requires the `cstr` capture to match.
+let cstrs: Vec<&[u8]> =
+    re.captures_iter(text)
+      .map(|c| c.name("cstr").unwrap().as_bytes())
+      .collect();
+assert_eq!(vec![&b"foo"[..], &b"bar"[..], &b"baz"[..]], cstrs);
+```
+
+Notice here that the `[^\x00]+` will match any *byte* except for `NUL`. When
+using the main API, `[^\x00]+` would instead match any valid UTF-8 sequence
+except for `NUL`.
+
+### Usage: match multiple regular expressions simultaneously
+
+This demonstrates how to use a `RegexSet` to match multiple (possibly
+overlapping) regular expressions in a single scan of the search text:
+
+```rust
+use regex::RegexSet;
+
+let set = RegexSet::new(&[
+    r"\w+",
+    r"\d+",
+    r"\pL+",
+    r"foo",
+    r"bar",
+    r"barfoo",
+    r"foobar",
+]).unwrap();
+
+// Iterate over and collect all of the matches.
+let matches: Vec<_> = set.matches("foobar").into_iter().collect();
+assert_eq!(matches, vec![0, 2, 3, 4, 6]);
+
+// You can also test whether a particular regex matched:
+let matches = set.matches("foobar");
+assert!(!matches.matched(5));
+assert!(matches.matched(6));
+```
+
+### Usage: enable SIMD optimizations
+
+SIMD optimizations are enabled automatically on Rust stable 1.27 and newer.
+For nightly versions of Rust, this requires a recent version with the SIMD
+features stabilized.
+
+
+### Usage: a regular expression parser
+
+This repository contains a crate that provides a well tested regular expression
+parser, abstract syntax and a high-level intermediate representation for
+convenient analysis. It provides no facilities for compilation or execution.
+This may be useful if you're implementing your own regex engine or otherwise
+need to do analysis on the syntax of a regular expression. It is otherwise not
+recommended for general use.
+
+[Documentation `regex-syntax`.](https://docs.rs/regex-syntax)
+
+
+### Crate features
+
+This crate comes with several features that permit tweaking the trade off
+between binary size, compilation time and runtime performance. Users of this
+crate can selectively disable Unicode tables, or choose from a variety of
+optimizations performed by this crate to disable.
+
+When all of these features are disabled, runtime match performance may be much
+worse, but if you're matching on short strings, or if high performance isn't
+necessary, then such a configuration is perfectly serviceable. To disable
+all such features, use the following `Cargo.toml` dependency configuration:
+
+```toml
+[dependencies.regex]
+version = "1.3"
+default-features = false
+# regex currently requires the standard library, you must re-enable it.
+features = ["std"]
+```
+
+This will reduce the dependency tree of `regex` down to a single crate
+(`regex-syntax`).
+
+The full set of features one can disable are
+[in the "Crate features" section of the documentation](https://docs.rs/regex/*/#crate-features).
+
+
+### Minimum Rust version policy
+
+This crate's minimum supported `rustc` version is `1.41.1`.
+
+The current **tentative** policy is that the minimum Rust version required
+to use this crate can be increased in minor version updates. For example, if
+regex 1.0 requires Rust 1.20.0, then regex 1.0.z for all values of `z` will
+also require Rust 1.20.0 or newer. However, regex 1.y for `y > 0` may require a
+newer minimum version of Rust.
+
+In general, this crate will be conservative with respect to the minimum
+supported version of Rust.
+
+
+### License
+
+This project is 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.
+
+The data in `regex-syntax/src/unicode_tables/` is licensed under the Unicode
+License Agreement
+([LICENSE-UNICODE](https://www.unicode.org/copyright.html#License)).
diff --git a/vendor/regex/UNICODE.md b/vendor/regex/UNICODE.md
new file mode 100644
index 000000000..df7d21ed9
--- /dev/null
+++ b/vendor/regex/UNICODE.md
@@ -0,0 +1,259 @@
+# Unicode conformance
+
+This document describes the regex crate's conformance to Unicode's
+[UTS#18](https://unicode.org/reports/tr18/)
+report, which lays out 3 levels of support: Basic, Extended and Tailored.
+
+Full support for Level 1 ("Basic Unicode Support") is provided with two
+exceptions:
+
+1. Line boundaries are not Unicode aware. Namely, only the `\n`
+   (`END OF LINE`) character is recognized as a line boundary.
+2. The compatibility properties specified by
+   [RL1.2a](https://unicode.org/reports/tr18/#RL1.2a)
+   are ASCII-only definitions.
+
+Little to no support is provided for either Level 2 or Level 3. For the most
+part, this is because the features are either complex/hard to implement, or at
+the very least, very difficult to implement without sacrificing performance.
+For example, tackling canonical equivalence such that matching worked as one
+would expect regardless of normalization form would be a significant
+undertaking. This is at least partially a result of the fact that this regex
+engine is based on finite automata, which admits less flexibility normally
+associated with backtracking implementations.
+
+
+## RL1.1 Hex Notation
+
+[UTS#18 RL1.1](https://unicode.org/reports/tr18/#Hex_notation)
+
+Hex Notation refers to the ability to specify a Unicode code point in a regular
+expression via its hexadecimal code point representation. This is useful in
+environments that have poor Unicode font rendering or if you need to express a
+code point that is not normally displayable. All forms of hexadecimal notation
+are supported
+
+    \x7F        hex character code (exactly two digits)
+    \x{10FFFF}  any hex character code corresponding to a Unicode code point
+    \u007F      hex character code (exactly four digits)
+    \u{7F}      any hex character code corresponding to a Unicode code point
+    \U0000007F  hex character code (exactly eight digits)
+    \U{7F}      any hex character code corresponding to a Unicode code point
+
+Briefly, the `\x{...}`, `\u{...}` and `\U{...}` are all exactly equivalent ways
+of expressing hexadecimal code points. Any number of digits can be written
+within the brackets. In contrast, `\xNN`, `\uNNNN`, `\UNNNNNNNN` are all
+fixed-width variants of the same idea.
+
+Note that when Unicode mode is disabled, any non-ASCII Unicode codepoint is
+banned. Additionally, the `\xNN` syntax represents arbitrary bytes when Unicode
+mode is disabled. That is, the regex `\xFF` matches the Unicode codepoint
+U+00FF (encoded as `\xC3\xBF` in UTF-8) while the regex `(?-u)\xFF` matches
+the literal byte `\xFF`.
+
+
+## RL1.2 Properties
+
+[UTS#18 RL1.2](https://unicode.org/reports/tr18/#Categories)
+
+Full support for Unicode property syntax is provided. Unicode properties
+provide a convenient way to construct character classes of groups of code
+points specified by Unicode. The regex crate does not provide exhaustive
+support, but covers a useful subset. In particular:
+
+* [General categories](https://unicode.org/reports/tr18/#General_Category_Property)
+* [Scripts and Script Extensions](https://unicode.org/reports/tr18/#Script_Property)
+* [Age](https://unicode.org/reports/tr18/#Age)
+* A smattering of boolean properties, including all of those specified by
+  [RL1.2](https://unicode.org/reports/tr18/#RL1.2) explicitly.
+
+In all cases, property name and value abbreviations are supported, and all
+names/values are matched loosely without regard for case, whitespace or
+underscores. Property name aliases can be found in Unicode's
+[`PropertyAliases.txt`](https://www.unicode.org/Public/UCD/latest/ucd/PropertyAliases.txt)
+file, while property value aliases can be found in Unicode's
+[`PropertyValueAliases.txt`](https://www.unicode.org/Public/UCD/latest/ucd/PropertyValueAliases.txt)
+file.
+
+The syntax supported is also consistent with the UTS#18 recommendation:
+
+* `\p{Greek}` selects the `Greek` script. Equivalent expressions follow:
+  `\p{sc:Greek}`, `\p{Script:Greek}`, `\p{Sc=Greek}`, `\p{script=Greek}`,
+  `\P{sc!=Greek}`. Similarly for `General_Category` (or `gc` for short) and
+  `Script_Extensions` (or `scx` for short).
+* `\p{age:3.2}` selects all code points in Unicode 3.2.
+* `\p{Alphabetic}` selects the "alphabetic" property and can be abbreviated
+  via `\p{alpha}` (for example).
+* Single letter variants for properties with single letter abbreviations.
+  For example, `\p{Letter}` can be equivalently written as `\pL`.
+
+The following is a list of all properties supported by the regex crate (starred
+properties correspond to properties required by RL1.2):
+
+* `General_Category` \* (including `Any`, `ASCII` and `Assigned`)
+* `Script` \*
+* `Script_Extensions` \*
+* `Age`
+* `ASCII_Hex_Digit`
+* `Alphabetic` \*
+* `Bidi_Control`
+* `Case_Ignorable`
+* `Cased`
+* `Changes_When_Casefolded`
+* `Changes_When_Casemapped`
+* `Changes_When_Lowercased`
+* `Changes_When_Titlecased`
+* `Changes_When_Uppercased`
+* `Dash`
+* `Default_Ignorable_Code_Point` \*
+* `Deprecated`
+* `Diacritic`
+* `Emoji`
+* `Emoji_Presentation`
+* `Emoji_Modifier`
+* `Emoji_Modifier_Base`
+* `Emoji_Component`
+* `Extended_Pictographic`
+* `Extender`
+* `Grapheme_Base`
+* `Grapheme_Cluster_Break`
+* `Grapheme_Extend`
+* `Hex_Digit`
+* `IDS_Binary_Operator`
+* `IDS_Trinary_Operator`
+* `ID_Continue`
+* `ID_Start`
+* `Join_Control`
+* `Logical_Order_Exception`
+* `Lowercase` \*
+* `Math`
+* `Noncharacter_Code_Point` \*
+* `Pattern_Syntax`
+* `Pattern_White_Space`
+* `Prepended_Concatenation_Mark`
+* `Quotation_Mark`
+* `Radical`
+* `Regional_Indicator`
+* `Sentence_Break`
+* `Sentence_Terminal`
+* `Soft_Dotted`
+* `Terminal_Punctuation`
+* `Unified_Ideograph`
+* `Uppercase` \*
+* `Variation_Selector`
+* `White_Space` \*
+* `Word_Break`
+* `XID_Continue`
+* `XID_Start`
+
+
+## RL1.2a Compatibility Properties
+
+[UTS#18 RL1.2a](https://unicode.org/reports/tr18/#RL1.2a)
+
+The regex crate only provides ASCII definitions of the
+[compatibility properties documented in UTS#18 Annex C](https://unicode.org/reports/tr18/#Compatibility_Properties)
+(sans the `\X` class, for matching grapheme clusters, which isn't provided
+at all). This is because it seems to be consistent with most other regular
+expression engines, and in particular, because these are often referred to as
+"ASCII" or "POSIX" character classes.
+
+Note that the `\w`, `\s` and `\d` character classes **are** Unicode aware.
+Their traditional ASCII definition can be used by disabling Unicode. That is,
+`[[:word:]]` and `(?-u)\w` are equivalent.
+
+
+## RL1.3 Subtraction and Intersection
+
+[UTS#18 RL1.3](https://unicode.org/reports/tr18/#Subtraction_and_Intersection)
+
+The regex crate provides full support for nested character classes, along with
+union, intersection (`&&`), difference (`--`) and symmetric difference (`~~`)
+operations on arbitrary character classes.
+
+For example, to match all non-ASCII letters, you could use either
+`[\p{Letter}--\p{Ascii}]` (difference) or `[\p{Letter}&&[^\p{Ascii}]]`
+(intersecting the negation).
+
+
+## RL1.4 Simple Word Boundaries
+
+[UTS#18 RL1.4](https://unicode.org/reports/tr18/#Simple_Word_Boundaries)
+
+The regex crate provides basic Unicode aware word boundary assertions. A word
+boundary assertion can be written as `\b`, or `\B` as its negation. A word
+boundary negation corresponds to a zero-width match, where its adjacent
+characters correspond to word and non-word, or non-word and word characters.
+
+Conformance in this case chooses to define word character in the same way that
+the `\w` character class is defined: a code point that is a member of one of
+the following classes:
+
+* `\p{Alphabetic}`
+* `\p{Join_Control}`
+* `\p{gc:Mark}`
+* `\p{gc:Decimal_Number}`
+* `\p{gc:Connector_Punctuation}`
+
+In particular, this differs slightly from the
+[prescription given in RL1.4](https://unicode.org/reports/tr18/#Simple_Word_Boundaries)
+but is permissible according to
+[UTS#18 Annex C](https://unicode.org/reports/tr18/#Compatibility_Properties).
+Namely, it is convenient and simpler to have `\w` and `\b` be in sync with
+one another.
+
+Finally, Unicode word boundaries can be disabled, which will cause ASCII word
+boundaries to be used instead. That is, `\b` is a Unicode word boundary while
+`(?-u)\b` is an ASCII-only word boundary. This can occasionally be beneficial
+if performance is important, since the implementation of Unicode word
+boundaries is currently sub-optimal on non-ASCII text.
+
+
+## RL1.5 Simple Loose Matches
+
+[UTS#18 RL1.5](https://unicode.org/reports/tr18/#Simple_Loose_Matches)
+
+The regex crate provides full support for case insensitive matching in
+accordance with RL1.5. That is, it uses the "simple" case folding mapping. The
+"simple" mapping was chosen because of a key convenient property: every
+"simple" mapping is a mapping from exactly one code point to exactly one other
+code point. This makes case insensitive matching of character classes, for
+example, straight-forward to implement.
+
+When case insensitive mode is enabled (e.g., `(?i)[a]` is equivalent to `a|A`),
+then all characters classes are case folded as well.
+
+
+## RL1.6 Line Boundaries
+
+[UTS#18 RL1.6](https://unicode.org/reports/tr18/#Line_Boundaries)
+
+The regex crate only provides support for recognizing the `\n` (`END OF LINE`)
+character as a line boundary. This choice was made mostly for implementation
+convenience, and to avoid performance cliffs that Unicode word boundaries are
+subject to.
+
+Ideally, it would be nice to at least support `\r\n` as a line boundary as
+well, and in theory, this could be done efficiently.
+
+
+## RL1.7 Code Points
+
+[UTS#18 RL1.7](https://unicode.org/reports/tr18/#Supplementary_Characters)
+
+The regex crate provides full support for Unicode code point matching. Namely,
+the fundamental atom of any match is always a single code point.
+
+Given Rust's strong ties to UTF-8, the following guarantees are also provided:
+
+* All matches are reported on valid UTF-8 code unit boundaries. That is, any
+  match range returned by the public regex API is guaranteed to successfully
+  slice the string that was searched.
+* By consequence of the above, it is impossible to match surrogode code points.
+  No support for UTF-16 is provided, so this is never necessary.
+
+Note that when Unicode mode is disabled, the fundamental atom of matching is
+no longer a code point but a single byte. When Unicode mode is disabled, many
+Unicode features are disabled as well. For example, `(?-u)\pL` is not a valid
+regex but `\pL(?-u)\xFF` (matches any Unicode `Letter` followed by the literal
+byte `\xFF`) is, for example.
diff --git a/vendor/regex/examples/regexdna-input.txt b/vendor/regex/examples/regexdna-input.txt
new file mode 100644
index 000000000..fb2326339
--- /dev/null
+++ b/vendor/regex/examples/regexdna-input.txt
@@ -0,0 +1,1671 @@
+>ONE Homo sapiens alu
+GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGA
+TCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACT
+AAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAG
+GCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCG
+CCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGT
+GGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCA
+GGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAA
+TTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAG
+AATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCA
+GCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGT
+AATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACC
+AGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTG
+GTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACC
+CGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAG
+AGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTT
+TGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACA
+TGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCT
+GTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGG
+TTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGT
+CTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
+CGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCG
+TCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTA
+CTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCG
+AGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCG
+GGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACC
+TGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAA
+TACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGA
+GGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACT
+GCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTC
+ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGT
+TCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGC
+CGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCG
+CTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTG
+GGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCC
+CAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCT
+GGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGC
+GCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGA
+GGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGA
+GACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGA
+GGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTG
+AAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAAT
+CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCA
+GTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAA
+AAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGC
+GGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCT
+ACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGG
+GAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATC
+GCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGC
+GGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGG
+TCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAA
+AAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAG
+GAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACT
+CCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCC
+TGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAG
+ACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGC
+GTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGA
+ACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGA
+CAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCA
+CTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCA
+ACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCG
+CCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGG
+AGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTC
+CGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCG
+AGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACC
+CCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAG
+CTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAG
+CCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGG
+CCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATC
+ACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAA
+AAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGC
+TGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCC
+ACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGG
+CTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGG
+AGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATT
+AGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAA
+TCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGC
+CTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAA
+TCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAG
+CCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGT
+GGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCG
+GGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAG
+CGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTG
+GGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATG
+GTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGT
+AATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTT
+GCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCT
+CAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCG
+GGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTC
+TCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACT
+CGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAG
+ATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGG
+CGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTG
+AGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATA
+CAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGG
+CAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGC
+ACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCAC
+GCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTC
+GAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCG
+GGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCT
+TGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGG
+CGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCA
+GCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGG
+CCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGC
+GCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGG
+CGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGA
+CTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGG
+CCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAA
+ACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCC
+CAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGT
+GAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAA
+AGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGG
+ATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTAC
+TAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGA
+GGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGC
+GCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGG
+TGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTC
+AGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAA
+ATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGA
+GAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCC
+AGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTG
+TAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGAC
+CAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGT
+GGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAAC
+CCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACA
+GAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACT
+TTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAAC
+ATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCC
+TGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAG
+GTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCG
+TCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAG
+GCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCC
+GTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCT
+ACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCC
+GAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCC
+GGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCAC
+CTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAA
+ATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTG
+AGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCAC
+TGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCT
+CACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAG
+TTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAG
+CCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATC
+GCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCT
+GGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATC
+CCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCC
+TGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGG
+CGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGG
+AGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCG
+AGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGG
+AGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGT
+GAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAA
+TCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGC
+AGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCA
+AAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGG
+CGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTC
+TACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCG
+GGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGAT
+CGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCG
+CGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAG
+GTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACA
+AAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCA
+GGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCAC
+TCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGC
+CTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGA
+GACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGG
+CGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTG
+AACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCG
+ACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGC
+ACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCC
+AACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGC
+GCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCG
+GAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACT
+CCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCC
+GAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAAC
+CCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCA
+GCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGA
+GCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAG
+GCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGAT
+CACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTA
+AAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGG
+CTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGC
+CACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTG
+GCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAG
+GAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAAT
+TAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGA
+ATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAG
+CCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTA
+ATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCA
+GCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGG
+TGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCC
+GGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGA
+GCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTT
+GGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACAT
+GGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTG
+TAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGT
+TGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTC
+TCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGC
+GGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGT
+CTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTAC
+TCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGA
+GATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGG
+GCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCT
+GAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAAT
+ACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAG
+GCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTG
+CACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCA
+CGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTT
+CGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCC
+GGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGC
+TTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGG
+GCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCC
+AGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTG
+GCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCG
+CGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAG
+GCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAG
+ACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAG
+GCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGA
+AACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATC
+CCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAG
+TGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAA
+AAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCG
+GATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTA
+CTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGG
+AGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCG
+CGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCG
+GTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGT
+CAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAA
+AATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGG
+AGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTC
+CAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCT
+GTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGA
+CCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCG
+TGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAA
+CCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGAC
+AGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCAC
+TTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAA
+CATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGC
+CTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGA
+GGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCC
+GTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGA
+GGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCC
+CGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGC
+TACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGC
+CGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGC
+CGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCA
+CCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAA
+AATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCT
+GAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCA
+CTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGC
+TCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGA
+GTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTA
+GCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAAT
+CGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCC
+TGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAAT
+CCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGC
+CTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTG
+GCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGG
+GAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGC
+GAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGG
+GAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGG
+TGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTA
+ATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTG
+CAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTC
+AAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGG
+GCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCT
+CTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTC
+GGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGA
+TCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGC
+GCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGA
+GGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATAC
+AAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGC
+AGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCA
+CTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACG
+CCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCG
+AGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGG
+GCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTT
+GAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGC
+GACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAG
+CACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGC
+CAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCG
+CGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGC
+GGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGAC
+TCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGC
+CGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAA
+CCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCC
+AGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTG
+AGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAA
+GGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGA
+TCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACT
+AAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAG
+GCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCG
+CCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGT
+GGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCA
+GGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAA
+TTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAG
+AATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCA
+GCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGT
+AATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACC
+AGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTG
+GTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACC
+CGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAG
+AGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTT
+TGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACA
+TGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCT
+GTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGG
+TTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGT
+CTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
+CGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCG
+TCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTA
+CTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCG
+AGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCG
+GGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACC
+TGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAA
+TACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGA
+GGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACT
+GCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTC
+ACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGT
+TCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGC
+CGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCG
+CTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTG
+GGCGACAGAGCGAGACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCC
+CAGCACTTTGGGAGGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCT
+GGCCAACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGC
+GCGCGCCTGTAATCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGA
+GGCGGAGGTTGCAGTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGA
+GACTCCGTCTCAAAAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGA
+GGCCGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTG
+AAACCCCGTCTCTACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAAT
+CCCAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGGAGGTTGCA
+GTGAGCCGAGATCGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAA
+AAAGGCCGGGCGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGGCGGGC
+GGATCACCTGAGGTCAGGAGTTCGAGACCAGCCTGGCCAACATGGTGAAACCCCGTCTCT
+ACTAAAAATACAAAAATTAGCCGGGCGTGGTGGCGCGCGCCTGTAATCCCAGCTACTCGG
+GAGGCTGAGGCAGGAGAATC
+>TWO IUB ambiguity codes
+cttBtatcatatgctaKggNcataaaSatgtaaaDcDRtBggDtctttataattcBgtcg
+tactDtDagcctatttSVHtHttKtgtHMaSattgWaHKHttttagacatWatgtRgaaa
+NtactMcSMtYtcMgRtacttctWBacgaaatatagScDtttgaagacacatagtVgYgt
+cattHWtMMWcStgttaggKtSgaYaaccWStcgBttgcgaMttBYatcWtgacaYcaga
+gtaBDtRacttttcWatMttDBcatWtatcttactaBgaYtcttgttttttttYaaScYa
+HgtgttNtSatcMtcVaaaStccRcctDaataataStcYtRDSaMtDttgttSagtRRca
+tttHatSttMtWgtcgtatSSagactYaaattcaMtWatttaSgYttaRgKaRtccactt
+tattRggaMcDaWaWagttttgacatgttctacaaaRaatataataaMttcgDacgaSSt
+acaStYRctVaNMtMgtaggcKatcttttattaaaaagVWaHKYagtttttatttaacct
+tacgtVtcVaattVMBcttaMtttaStgacttagattWWacVtgWYagWVRctDattBYt
+gtttaagaagattattgacVatMaacattVctgtBSgaVtgWWggaKHaatKWcBScSWa
+accRVacacaaactaccScattRatatKVtactatatttHttaagtttSKtRtacaaagt
+RDttcaaaaWgcacatWaDgtDKacgaacaattacaRNWaatHtttStgttattaaMtgt
+tgDcgtMgcatBtgcttcgcgaDWgagctgcgaggggVtaaScNatttacttaatgacag
+cccccacatYScaMgtaggtYaNgttctgaMaacNaMRaacaaacaKctacatagYWctg
+ttWaaataaaataRattagHacacaagcgKatacBttRttaagtatttccgatctHSaat
+actcNttMaagtattMtgRtgaMgcataatHcMtaBSaRattagttgatHtMttaaKagg
+YtaaBataSaVatactWtataVWgKgttaaaacagtgcgRatatacatVtHRtVYataSa
+KtWaStVcNKHKttactatccctcatgWHatWaRcttactaggatctataDtDHBttata
+aaaHgtacVtagaYttYaKcctattcttcttaataNDaaggaaaDYgcggctaaWSctBa
+aNtgctggMBaKctaMVKagBaactaWaDaMaccYVtNtaHtVWtKgRtcaaNtYaNacg
+gtttNattgVtttctgtBaWgtaattcaagtcaVWtactNggattctttaYtaaagccgc
+tcttagHVggaYtgtNcDaVagctctctKgacgtatagYcctRYHDtgBattDaaDgccK
+tcHaaStttMcctagtattgcRgWBaVatHaaaataYtgtttagMDMRtaataaggatMt
+ttctWgtNtgtgaaaaMaatatRtttMtDgHHtgtcattttcWattRSHcVagaagtacg
+ggtaKVattKYagactNaatgtttgKMMgYNtcccgSKttctaStatatNVataYHgtNa
+BKRgNacaactgatttcctttaNcgatttctctataScaHtataRagtcRVttacDSDtt
+aRtSatacHgtSKacYagttMHtWataggatgactNtatSaNctataVtttRNKtgRacc
+tttYtatgttactttttcctttaaacatacaHactMacacggtWataMtBVacRaSaatc
+cgtaBVttccagccBcttaRKtgtgcctttttRtgtcagcRttKtaaacKtaaatctcac
+aattgcaNtSBaaccgggttattaaBcKatDagttactcttcattVtttHaaggctKKga
+tacatcBggScagtVcacattttgaHaDSgHatRMaHWggtatatRgccDttcgtatcga
+aacaHtaagttaRatgaVacttagattVKtaaYttaaatcaNatccRttRRaMScNaaaD
+gttVHWgtcHaaHgacVaWtgttScactaagSgttatcttagggDtaccagWattWtRtg
+ttHWHacgattBtgVcaYatcggttgagKcWtKKcaVtgaYgWctgYggVctgtHgaNcV
+taBtWaaYatcDRaaRtSctgaHaYRttagatMatgcatttNattaDttaattgttctaa
+ccctcccctagaWBtttHtBccttagaVaatMcBHagaVcWcagBVttcBtaYMccagat
+gaaaaHctctaacgttagNWRtcggattNatcRaNHttcagtKttttgWatWttcSaNgg
+gaWtactKKMaacatKatacNattgctWtatctaVgagctatgtRaHtYcWcttagccaa
+tYttWttaWSSttaHcaaaaagVacVgtaVaRMgattaVcDactttcHHggHRtgNcctt
+tYatcatKgctcctctatVcaaaaKaaaagtatatctgMtWtaaaacaStttMtcgactt
+taSatcgDataaactaaacaagtaaVctaggaSccaatMVtaaSKNVattttgHccatca
+cBVctgcaVatVttRtactgtVcaattHgtaaattaaattttYtatattaaRSgYtgBag
+aHSBDgtagcacRHtYcBgtcacttacactaYcgctWtattgSHtSatcataaatataHt
+cgtYaaMNgBaatttaRgaMaatatttBtttaaaHHKaatctgatWatYaacttMctctt
+ttVctagctDaaagtaVaKaKRtaacBgtatccaaccactHHaagaagaaggaNaaatBW
+attccgStaMSaMatBttgcatgRSacgttVVtaaDMtcSgVatWcaSatcttttVatag
+ttactttacgatcaccNtaDVgSRcgVcgtgaacgaNtaNatatagtHtMgtHcMtagaa
+attBgtataRaaaacaYKgtRccYtatgaagtaataKgtaaMttgaaRVatgcagaKStc
+tHNaaatctBBtcttaYaBWHgtVtgacagcaRcataWctcaBcYacYgatDgtDHccta
+aagacYRcaggattHaYgtKtaatgcVcaataMYacccatatcacgWDBtgaatcBaata
+cKcttRaRtgatgaBDacggtaattaaYtataStgVHDtDctgactcaaatKtacaatgc
+gYatBtRaDatHaactgtttatatDttttaaaKVccYcaaccNcBcgHaaVcattHctcg
+attaaatBtatgcaaaaatYMctSactHatacgaWacattacMBgHttcgaatVaaaaca
+BatatVtctgaaaaWtctRacgBMaatSgRgtgtcgactatcRtattaScctaStagKga
+DcWgtYtDDWKRgRtHatRtggtcgaHgggcgtattaMgtcagccaBggWVcWctVaaat
+tcgNaatcKWagcNaHtgaaaSaaagctcYctttRVtaaaatNtataaccKtaRgtttaM
+tgtKaBtRtNaggaSattHatatWactcagtgtactaKctatttgRYYatKatgtccgtR
+tttttatttaatatVgKtttgtatgtNtataRatWYNgtRtHggtaaKaYtKSDcatcKg
+taaYatcSRctaVtSMWtVtRWHatttagataDtVggacagVcgKWagBgatBtaaagNc
+aRtagcataBggactaacacRctKgttaatcctHgDgttKHHagttgttaatgHBtatHc
+DaagtVaBaRccctVgtgDtacRHSctaagagcggWYaBtSaKtHBtaaactYacgNKBa
+VYgtaacttagtVttcttaatgtBtatMtMtttaattaatBWccatRtttcatagVgMMt
+agctStKctaMactacDNYgKYHgaWcgaHgagattacVgtttgtRaSttaWaVgataat
+gtgtYtaStattattMtNgWtgttKaccaatagNYttattcgtatHcWtctaaaNVYKKt
+tWtggcDtcgaagtNcagatacgcattaagaccWctgcagcttggNSgaNcHggatgtVt
+catNtRaaBNcHVagagaaBtaaSggDaatWaatRccaVgggStctDaacataKttKatt
+tggacYtattcSatcttagcaatgaVBMcttDattctYaaRgatgcattttNgVHtKcYR
+aatRKctgtaaacRatVSagctgtWacBtKVatctgttttKcgtctaaDcaagtatcSat
+aWVgcKKataWaYttcccSaatgaaaacccWgcRctWatNcWtBRttYaattataaNgac
+acaatagtttVNtataNaYtaatRaVWKtBatKagtaatataDaNaaaaataMtaagaaS
+tccBcaatNgaataWtHaNactgtcDtRcYaaVaaaaaDgtttRatctatgHtgttKtga
+aNSgatactttcgagWaaatctKaaDaRttgtggKKagcDgataaattgSaacWaVtaNM
+acKtcaDaaatttctRaaVcagNacaScRBatatctRatcctaNatWgRtcDcSaWSgtt
+RtKaRtMtKaatgttBHcYaaBtgatSgaSWaScMgatNtctcctatttctYtatMatMt
+RRtSaattaMtagaaaaStcgVgRttSVaScagtgDtttatcatcatacRcatatDctta
+tcatVRtttataaHtattcYtcaaaatactttgVctagtaaYttagatagtSYacKaaac
+gaaKtaaatagataatSatatgaaatSgKtaatVtttatcctgKHaatHattagaaccgt
+YaaHactRcggSBNgtgctaaBagBttgtRttaaattYtVRaaaattgtaatVatttctc
+ttcatgBcVgtgKgaHaaatattYatagWacNctgaaMcgaattStagWaSgtaaKagtt
+ttaagaDgatKcctgtaHtcatggKttVDatcaaggtYcgccagNgtgcVttttagagat
+gctaccacggggtNttttaSHaNtatNcctcatSaaVgtactgBHtagcaYggYVKNgta
+KBcRttgaWatgaatVtagtcgattYgatgtaatttacDacSctgctaaaStttaWMagD
+aaatcaVYctccgggcgaVtaaWtStaKMgDtttcaaMtVgBaatccagNaaatcYRMBg
+gttWtaaScKttMWtYataRaDBMaDataatHBcacDaaKDactaMgagttDattaHatH
+taYatDtattDcRNStgaatattSDttggtattaaNSYacttcDMgYgBatWtaMagact
+VWttctttgYMaYaacRgHWaattgRtaagcattctMKVStatactacHVtatgatcBtV
+NataaBttYtSttacKgggWgYDtgaVtYgatDaacattYgatggtRDaVDttNactaSa
+MtgNttaacaaSaBStcDctaccacagacgcaHatMataWKYtaYattMcaMtgSttDag
+cHacgatcaHttYaKHggagttccgatYcaatgatRaVRcaagatcagtatggScctata
+ttaNtagcgacgtgKaaWaactSgagtMYtcttccaKtStaacggMtaagNttattatcg
+tctaRcactctctDtaacWYtgaYaSaagaWtNtatttRacatgNaatgttattgWDDcN
+aHcctgaaHacSgaataaRaataMHttatMtgaSDSKatatHHaNtacagtccaYatWtc
+actaactatKDacSaStcggataHgYatagKtaatKagStaNgtatactatggRHacttg
+tattatgtDVagDVaRctacMYattDgtttYgtctatggtKaRSttRccRtaaccttaga
+gRatagSaaMaacgcaNtatgaaatcaRaagataatagatactcHaaYKBctccaagaRa
+BaStNagataggcgaatgaMtagaatgtcaKttaaatgtaWcaBttaatRcggtgNcaca
+aKtttScRtWtgcatagtttWYaagBttDKgcctttatMggNttattBtctagVtacata
+aaYttacacaaRttcYtWttgHcaYYtaMgBaBatctNgcDtNttacgacDcgataaSat
+YaSttWtcctatKaatgcagHaVaacgctgcatDtgttaSataaaaYSNttatagtaNYt
+aDaaaNtggggacttaBggcHgcgtNtaaMcctggtVtaKcgNacNtatVaSWctWtgaW
+cggNaBagctctgaYataMgaagatBSttctatacttgtgtKtaattttRagtDtacata
+tatatgatNHVgBMtKtaKaNttDHaagatactHaccHtcatttaaagttVaMcNgHata
+tKtaNtgYMccttatcaaNagctggacStttcNtggcaVtattactHaSttatgNMVatt
+MMDtMactattattgWMSgtHBttStStgatatRaDaagattttctatMtaaaaaggtac
+taaVttaSacNaatactgMttgacHaHRttgMacaaaatagttaatatWKRgacDgaRta
+tatttattatcYttaWtgtBRtWatgHaaattHataagtVaDtWaVaWtgStcgtMSgaS
+RgMKtaaataVacataatgtaSaatttagtcgaaHtaKaatgcacatcggRaggSKctDc
+agtcSttcccStYtccRtctctYtcaaKcgagtaMttttcRaYDttgttatctaatcata
+NctctgctatcaMatactataggDaHaaSttMtaDtcNatataattctMcStaaBYtaNa
+gatgtaatHagagSttgWHVcttatKaYgDctcttggtgttMcRaVgSgggtagacaata
+aDtaattSaDaNaHaBctattgNtaccaaRgaVtKNtaaYggHtaKKgHcatctWtctDt
+ttctttggSDtNtaStagttataaacaattgcaBaBWggHgcaaaBtYgctaatgaaatW
+cDcttHtcMtWWattBHatcatcaaatctKMagtDNatttWaBtHaaaNgMttaaStagt
+tctctaatDtcRVaYttgttMtRtgtcaSaaYVgSWDRtaatagctcagDgcWWaaaBaa
+RaBctgVgggNgDWStNaNBKcBctaaKtttDcttBaaggBttgaccatgaaaNgttttt
+tttatctatgttataccaaDRaaSagtaVtDtcaWatBtacattaWacttaSgtattggD
+gKaaatScaattacgWcagKHaaccaYcRcaRttaDttRtttHgaHVggcttBaRgtccc
+tDatKaVtKtcRgYtaKttacgtatBtStaagcaattaagaRgBagSaattccSWYttta
+ttVaataNctgHgttaaNBgcVYgtRtcccagWNaaaacaDNaBcaaaaRVtcWMgBagM
+tttattacgDacttBtactatcattggaaatVccggttRttcatagttVYcatYaSHaHc
+ttaaagcNWaHataaaRWtctVtRYtagHtaaaYMataHYtNBctNtKaatattStgaMc
+BtRgctaKtgcScSttDgYatcVtggaaKtaagatWccHccgKYctaNNctacaWctttt
+gcRtgtVcgaKttcMRHgctaHtVaataaDtatgKDcttatBtDttggNtacttttMtga
+acRattaaNagaactcaaaBBVtcDtcgaStaDctgaaaSgttMaDtcgttcaccaaaag
+gWtcKcgSMtcDtatgtttStaaBtatagDcatYatWtaaaBacaKgcaDatgRggaaYc
+taRtccagattDaWtttggacBaVcHtHtaacDacYgtaatataMagaatgHMatcttat
+acgtatttttatattacHactgttataMgStYaattYaccaattgagtcaaattaYtgta
+tcatgMcaDcgggtcttDtKgcatgWRtataatatRacacNRBttcHtBgcRttgtgcgt
+catacMtttBctatctBaatcattMttMYgattaaVYatgDaatVagtattDacaacDMa
+tcMtHcccataagatgBggaccattVWtRtSacatgctcaaggggYtttDtaaNgNtaaB
+atggaatgtctRtaBgBtcNYatatNRtagaacMgagSaSDDSaDcctRagtVWSHtVSR
+ggaacaBVaccgtttaStagaacaMtactccagtttVctaaRaaHttNcttagcaattta
+ttaatRtaaaatctaacDaBttggSagagctacHtaaRWgattcaaBtctRtSHaNtgta
+cattVcaHaNaagtataccacaWtaRtaaVKgMYaWgttaKggKMtKcgWatcaDatYtK
+SttgtacgaccNctSaattcDcatcttcaaaDKttacHtggttHggRRaRcaWacaMtBW
+VHSHgaaMcKattgtaRWttScNattBBatYtaNRgcggaagacHSaattRtttcYgacc
+BRccMacccKgatgaacttcgDgHcaaaaaRtatatDtatYVtttttHgSHaSaatagct
+NYtaHYaVYttattNtttgaaaYtaKttWtctaNtgagaaaNctNDctaaHgttagDcRt
+tatagccBaacgcaRBtRctRtggtaMYYttWtgataatcgaataattattataVaaaaa
+ttacNRVYcaaMacNatRttcKatMctgaagactaattataaYgcKcaSYaatMNctcaa
+cgtgatttttBacNtgatDccaattattKWWcattttatatatgatBcDtaaaagttgaa
+VtaHtaHHtBtataRBgtgDtaataMttRtDgDcttattNtggtctatctaaBcatctaR
+atgNacWtaatgaagtcMNaacNgHttatactaWgcNtaStaRgttaaHacccgaYStac
+aaaatWggaYaWgaattattcMaactcBKaaaRVNcaNRDcYcgaBctKaacaaaaaSgc
+tccYBBHYaVagaatagaaaacagYtctVccaMtcgtttVatcaatttDRtgWctagtac
+RttMctgtDctttcKtWttttataaatgVttgBKtgtKWDaWagMtaaagaaattDVtag
+gttacatcatttatgtcgMHaVcttaBtVRtcgtaYgBRHatttHgaBcKaYWaatcNSc
+tagtaaaaatttacaatcactSWacgtaatgKttWattagttttNaggtctcaagtcact
+attcttctaagKggaataMgtttcataagataaaaatagattatDgcBVHWgaBKttDgc
+atRHaagcaYcRaattattatgtMatatattgHDtcaDtcaaaHctStattaatHaccga
+cNattgatatattttgtgtDtRatagSacaMtcRtcattcccgacacSattgttKaWatt
+NHcaacttccgtttSRtgtctgDcgctcaaMagVtBctBMcMcWtgtaacgactctcttR
+ggRKSttgYtYatDccagttDgaKccacgVatWcataVaaagaataMgtgataaKYaaat
+cHDaacgataYctRtcYatcgcaMgtNttaBttttgatttaRtStgcaacaaaataccVg
+aaDgtVgDcStctatatttattaaaaRKDatagaaagaKaaYYcaYSgKStctccSttac
+agtcNactttDVttagaaagMHttRaNcSaRaMgBttattggtttaRMggatggcKDgWR
+tNaataataWKKacttcKWaaagNaBttaBatMHtccattaacttccccYtcBcYRtaga
+ttaagctaaYBDttaNtgaaaccHcaRMtKtaaHMcNBttaNaNcVcgVttWNtDaBatg
+ataaVtcWKcttRggWatcattgaRagHgaattNtatttctctattaattaatgaDaaMa
+tacgttgggcHaYVaaNaDDttHtcaaHtcVVDgBVagcMacgtgttaaBRNtatRtcag
+taagaggtttaagacaVaaggttaWatctccgtVtaDtcDatttccVatgtacNtttccg
+tHttatKgScBatgtVgHtYcWagcaKtaMYaaHgtaattaSaHcgcagtWNaatNccNN
+YcacgVaagaRacttctcattcccRtgtgtaattagcSttaaStWaMtctNNcSMacatt
+ataaactaDgtatWgtagtttaagaaaattgtagtNagtcaataaatttgatMMYactaa
+tatcggBWDtVcYttcDHtVttatacYaRgaMaacaStaatcRttttVtagaDtcacWat
+ttWtgaaaagaaagNRacDtttStVatBaDNtaactatatcBSMcccaSttccggaMatg
+attaaWatKMaBaBatttgataNctgttKtVaagtcagScgaaaDggaWgtgttttKtWt
+atttHaatgtagttcactaaKMagttSYBtKtaYgaactcagagRtatagtVtatcaaaW
+YagcgNtaDagtacNSaaYDgatBgtcgataacYDtaaactacagWDcYKaagtttatta
+gcatcgagttKcatDaattgattatDtcagRtWSKtcgNtMaaaaacaMttKcaWcaaSV
+MaaaccagMVtaMaDtMaHaBgaacataBBVtaatVYaNSWcSgNtDNaaKacacBttta
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+aaatttWacaacaYccYDSaattMatgaccKtaBKWBattgtcaagcHKaagttMMtaat
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+VcKgSDcgagaagatccHtaattctSttatggtKYgtMaHagVaBRatttctgtRgtcta
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+tDcattDtgaccYatagatYRKatNYKttNgcctagtaWtgaactaMVaacctgaStttc
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+catacctRataDDatVaWNcggttgaHtgtMacVtttaBHtgagVttMaataattatgtt
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+MctaaHaatgtBatgagaSatgtatgSRgHgWaVWgataaatatttccKagVgataattW
+aHNcYggaaatgctHtKtaDtctaaagtMaatVDVactWtSaaWaaMtaHtaSKtcBRaN
+cttStggtBttacNagcatagRgtKtgcgaacaacBcgKaatgataagatgaaaattgta
+ctgcgggtccHHWHaaNacaBttNKtKtcaaBatatgctaHNgtKcDWgtttatNgVDHg
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+tgagNKggtggtgKtWKaatacagDRtatRaMRtgattDggtcaaYRtatttNtagaDtc
+acaaSDctDtataatcgtactaHttatacaatYaacaaHttHatHtgcgatRRttNgcat
+SVtacWWgaaggagtatVMaVaaattScDDKNcaYBYaDatHgtctatBagcaacaagaa
+tgagaaRcataaKNaRtBDatcaaacgcattttttaaBtcSgtacaRggatgtMNaattg
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+attDtcgtatWtataataSgctaHagcDVcNtaatcaagtaBDaWaDgtttagYctaNcc
+DtaKtaHcttaataacccaRKtacaVaatNgcWRaMgaattatgaBaaagattVYaHMDc
+aDHtcRcgYtcttaaaWaaaVKgatacRtttRRKYgaatacaWVacVcRtatMacaBtac
+tggMataaattttHggNagSctacHgtBagcgtcgtgattNtttgatSaaggMttctttc
+ttNtYNagBtaaacaaatttMgaccttacataattgYtcgacBtVMctgStgMDtagtaR
+ctHtatgttcatatVRNWataDKatWcgaaaaagttaaaagcacgHNacgtaatctttMR
+tgacttttDacctataaacgaaatatgattagaactccSYtaBctttaataacWgaaaYa
+tagatgWttcatKtNgatttttcaagHtaYgaaRaDaagtaggagcttatVtagtctttc
+attaaaatcgKtattaRttacagVaDatgcatVgattgggtctttHVtagKaaRBtaHta
+aggccccaaaaKatggtttaMWgtBtaaacttcactttKHtcgatctccctaYaBacMgt
+cttBaBaNgcgaaacaatctagtHccHtKttcRtRVttccVctttcatacYagMVtMcag
+aMaaacaataBctgYtaatRaaagattaaccatVRatHtaRagcgcaBcgDttStttttc
+VtttaDtKgcaaWaaaaatSccMcVatgtKgtaKgcgatatgtagtSaaaDttatacaaa
+catYaRRcVRHctKtcgacKttaaVctaDaatgttMggRcWaacttttHaDaKaDaBctg
+taggcgtttaHBccatccattcNHtDaYtaataMttacggctNVaacDattgatatttta
+cVttSaattacaaRtataNDgacVtgaacataVRttttaDtcaaacataYDBtttaatBa
+DtttYDaDaMccMttNBttatatgagaaMgaNtattHccNataattcaHagtgaaggDga
+tgtatatatgYatgaStcataaBStWacgtcccataRMaaDattggttaaattcMKtctM
+acaBSactcggaatDDgatDgcWctaacaccgggaVcacWKVacggtaNatatacctMta
+tgatagtgcaKagggVaDtgtaacttggagtcKatatcgMcttRaMagcattaBRaStct
+YSggaHYtacaactMBaagDcaBDRaaacMYacaHaattagcattaaaHgcgctaaggSc
+cKtgaaKtNaBtatDDcKBSaVtgatVYaagVtctSgMctacgttaacWaaattctSgtD
+actaaStaaattgcagBBRVctaatatacctNttMcRggctttMttagacRaHcaBaacV
+KgaataHttttMgYgattcYaNRgttMgcVaaacaVVcDHaatttgKtMYgtatBtVVct
+WgVtatHtacaaHttcacgatagcagtaaNattBatatatttcVgaDagcggttMaagtc
+ScHagaaatgcYNggcgtttttMtStggtRatctacttaaatVVtBacttHNttttaRca
+aatcacagHgagagtMgatcSWaNRacagDtatactaaDKaSRtgattctccatSaaRtt
+aaYctacacNtaRtaactggatgaccYtacactttaattaattgattYgttcagDtNKtt
+agDttaaaaaaaBtttaaNaYWKMBaaaacVcBMtatWtgBatatgaacVtattMtYatM
+NYDKNcKgDttDaVtaaaatgggatttctgtaaatWtctcWgtVVagtcgRgacttcccc
+taDcacagcRcagagtgtWSatgtacatgttaaSttgtaaHcgatgggMagtgaacttat
+RtttaVcaccaWaMgtactaatSSaHtcMgaaYtatcgaaggYgggcgtgaNDtgttMNg
+aNDMtaattcgVttttaacatgVatgtWVMatatcaKgaaattcaBcctccWcttgaaWH
+tWgHtcgNWgaRgctcBgSgaattgcaaHtgattgtgNagtDttHHgBttaaWcaaWagc
+aSaHHtaaaVctRaaMagtaDaatHtDMtcVaWMtagSagcttHSattaacaaagtRacM
+tRtctgttagcMtcaBatVKtKtKacgagaSNatSactgtatatcBctgagVtYactgta
+aattaaaggcYgDHgtaacatSRDatMMccHatKgttaacgactKtgKagtcttcaaHRV
+tccttKgtSataatttacaactggatDNgaacttcaRtVaagDcaWatcBctctHYatHa
+DaaatttagYatSatccaWtttagaaatVaacBatHcatcgtacaatatcgcNYRcaata
+YaRaYtgattVttgaatgaVaactcRcaNStgtgtattMtgaggtNttBaDRcgaaaagc
+tNgBcWaWgtSaDcVtgVaatMKBtttcgtttctaaHctaaagYactgMtatBDtcStga
+ccgtSDattYaataHctgggaYYttcggttaWaatctggtRagWMaDagtaacBccacta
+cgHWMKaatgatWatcctgHcaBaSctVtcMtgtDttacctaVgatYcWaDRaaaaRtag
+atcgaMagtggaRaWctctgMgcWttaagKBRtaaDaaWtctgtaagYMttactaHtaat
+cttcataacggcacBtSgcgttNHtgtHccatgttttaaagtatcgaKtMttVcataYBB
+aKtaMVaVgtattNDSataHcagtWMtaggtaSaaKgttgBtVtttgttatcatKcgHac
+acRtctHatNVagSBgatgHtgaRaSgttRcctaacaaattDNttgacctaaYtBgaaaa
+tagttattactcttttgatgtNNtVtgtatMgtcttRttcatttgatgacacttcHSaaa
+ccaWWDtWagtaRDDVNacVaRatgttBccttaatHtgtaaacStcVNtcacaSRttcYa
+gacagaMMttttgMcNttBcgWBtactgVtaRttctccaaYHBtaaagaBattaYacgat
+ttacatctgtaaMKaRYtttttactaaVatWgctBtttDVttctggcDaHaggDaagtcg
+aWcaagtagtWttHtgKtVataStccaMcWcaagataagatcactctHatgtcYgaKcat
+cagatactaagNSStHcctRRNtattgtccttagttagMVgtatagactaactctVcaat
+MctgtttgtgttgccttatWgtaBVtttctggMcaaKgDWtcgtaaYStgSactatttHg
+atctgKagtagBtVacRaagRtMctatgggcaaaKaaaatacttcHctaRtgtDcttDat
+taggaaatttcYHaRaaBttaatggcacKtgctHVcaDcaaaVDaaaVcgMttgtNagcg
+taDWgtcgttaatDgKgagcSatatcSHtagtagttggtgtHaWtaHKtatagctgtVga
+ttaBVaatgaataagtaatVatSttaHctttKtttgtagttaccttaatcgtagtcctgB
+cgactatttVcMacHaaaggaatgDatggKtaHtgStatattaaSagctWcctccRtata
+BaDYcgttgcNaagaggatRaaaYtaWgNtSMcaatttactaacatttaaWttHtatBat
+tgtcgacaatNgattgcNgtMaaaKaBDattHacttggtRtttaYaacgVactBtaBaKt
+gBttatgVttgtVttcaatcWcNctDBaaBgaDHacBttattNtgtDtatttVSaaacag
+gatgcRatSgtaSaNtgBatagttcHBgcBBaaattaHgtDattatDaKaatBaaYaaMa
+ataaataKtttYtagtBgMatNcatgtttgaNagtgttgtgKaNaSagtttgaSMaYBca
+aaacDStagttVacaaaaactaaWttBaagtctgtgcgtMgtaattctcctacctcaNtt
+taaccaaaaVtBcacataacaccccBcWMtatVtggaatgaWtcaaWaaaaaaaaWtDta
+atatRcctDWtcctaccMtVVatKttaWaaKaaatataaagScHBagaggBaSMtaWaVt
+atattactSaaaKNaactatNatccttgaYctattcaaaVgatttYHcRagattttaSat
+aggttattcVtaaagaKgtattattKtRttNcggcRgtgtgtWYtaacHgKatKgatYta
+cYagDtWcHBDctctgRaYKaYagcactKcacSaRtBttttBHKcMtNtcBatttatttt
+tgSatVgaaagaWtcDtagDatatgMacaacRgatatatgtttgtKtNRaatatNatgYc
+aHtgHataacKtgagtagtaacYttaNccaaatHcacaacaVDtagtaYtccagcattNt
+acKtBtactaaagaBatVtKaaHBctgStgtBgtatgaSNtgDataaccctgtagcaBgt
+gatcttaDataStgaMaccaSBBgWagtacKcgattgaDgNNaaaacacagtSatBacKD
+gcgtataBKcatacactaSaatYtYcDaactHttcatRtttaatcaattataRtttgtaa
+gMcgNttcatcBtYBagtNWNMtSHcattcRctttttRWgaKacKttgggagBcgttcgc
+MaWHtaatactgtctctatttataVgtttaBScttttaBMaNaatMacactYtBMggtHa
+cMagtaRtctgcatttaHtcaaaatttgagKtgNtactBacaHtcgtatttctMaSRagc
+agttaatgtNtaaattgagagWcKtaNttagVtacgatttgaatttcgRtgtWcVatcgt
+taaDVctgtttBWgaccagaaagtcSgtVtatagaBccttttcctaaattgHtatcggRa
+ttttcaaggcYSKaagWaWtRactaaaacccBatMtttBaatYtaagaactSttcgaaSc
+aatagtattgaccaagtgttttctaacatgtttNVaatcaaagagaaaNattaaRtttta
+VaaaccgcaggNMtatattVctcaagaggaacgBgtttaacaagttcKcYaatatactaa
+ccBaaaSggttcNtattctagttRtBacgScVctcaatttaatYtaaaaaaatgSaatga
+tagaMBRatgRcMcgttgaWHtcaVYgaatYtaatctttYttatRaWtctgBtDcgatNa
+tcKaBaDgatgtaNatWKctccgatattaacattNaaacDatgBgttctgtDtaaaMggt
+gaBaSHataacgccSctaBtttaRBtcNHcDatcDcctagagtcRtaBgWttDRVHagat
+tYatgtatcWtaHtttYcattWtaaagtctNgtStggRNcgcggagSSaaagaaaatYcH
+DtcgctttaatgYcKBVSgtattRaYBaDaaatBgtatgaHtaaRaRgcaSWNtagatHa
+acttNctBtcaccatctMcatattccaSatttgcgaDagDgtatYtaaaVDtaagtttWV
+aagtagYatRttaagDcNgacKBcScagHtattatcDaDactaaaaaYgHttBcgaDttg
+gataaaKSRcBMaBcgaBSttcWtgNBatRaccgattcatttataacggHVtaattcaca
+agagVttaaRaatVVRKcgWtVgacctgDgYaaHaWtctttcacMagggatVgactagMa
+aataKaaNWagKatagNaaWtaaaatttgaattttatttgctaaVgaHatBatcaaBWcB
+gttcMatcgBaaNgttcgSNaggSaRtttgHtRtattaNttcDcatSaVttttcgaaaaa
+ttgHatctaRaggSaNatMDaaatDcacgattttagaHgHaWtYgattaatHNSttatMS
+gggNtcKtYatRggtttgtMWVtttaYtagcagBagHaYagttatatggtBacYcattaR
+SataBatMtttaaatctHcaaaSaaaagttNSaaWcWRccRtKaagtBWtcaaattSttM
+tattggaaaccttaacgttBtWatttatatWcDaatagattcctScacctaagggRaaYt
+aNaatgVtBcttaaBaacaMVaaattatStYgRcctgtactatcMcVKatttcgSgatRH
+MaaaHtagtaaHtVgcaaataatatcgKKtgccaatBNgaaWcVttgagttaKatagttc
+aggKDatDtattgaKaVcaKtaataDataataHSaHcattagttaatRVYcNaHtaRcaa
+ggtNHcgtcaaccaBaaagYtHWaaaRcKgaYaaDttgcWYtataRgaatatgtYtgcKt
+aNttWacatYHctRaDtYtattcBttttatcSataYaYgttWaRagcacHMgtttHtYtt
+YaatcggtatStttcgtRSattaaDaKMaatatactaNBaWgctacacYtgaYVgtgHta
+aaRaaRgHtagtWattataaaSDaaWtgMattatcgaaaagtaYRSaWtSgNtBgagcRY
+aMDtactaacttaWgtatctagacaagNtattHggataatYttYatcataDcgHgttBtt
+ctttVttgccgaaWtaaaacgKgtatctaaaaaNtccDtaDatBMaMggaatNKtatBaa
+atVtccRaHtaSacataHattgtttKVYattcataVaattWtcgtgMttcttKtgtctaa
+cVtatctatatBRataactcgKatStatattcatHHRttKtccaacgtgggtgRgtgaMt
+attattggctatcgtgacMtRcBDtcttgtactaatRHttttaagatcgVMDStattatY
+BtttDttgtBtNttgRcMtYtgBacHaWaBaatDKctaagtgaaactaatgRaaKgatcc
+aagNaaaatattaggWNtaagtatacttttKcgtcggSYtcttgRctataYcttatataa
+agtatattaatttataVaacacaDHatctatttttKYVatHRactttaBHccaWagtact
+BtcacgaVgcgttRtttttttSVgtSagtBaaattctgaHgactcttgMcattttagVta
+agaattHctHtcaDaaNtaacRggWatagttcgtSttgaDatcNgNagctagDgatcNtt
+KgttgtaDtctttRaaYStRatDtgMggactSttaDtagSaVtBDttgtDgccatcacaM
+attaaaMtNacaVcgSWcVaaDatcaHaatgaattaMtatccVtctBtaattgtWattat
+BRcWcaatgNNtactWYtDaKttaaatcactcagtRaaRgatggtKgcgccaaHgaggat
+StattYcaNMtcaBttacttatgagDaNtaMgaaWtgtttcttctaHtMNgttatctaWW
+atMtBtaaatagDVatgtBYtatcggcttaagacMRtaHScgatatYgRDtcattatSDa
+HggaaataNgaWSRRaaaBaatagBattaDctttgHWNttacaataaaaaaatacggttt
+gHgVtaHtWMttNtBtctagtMcgKMgHgYtataHaNagWtcaacYattaataYRgtaWK
+gaBctataaccgatttaHaNBRaRaMtccggtNgacMtctcatttgcaattcWgMactta
+caaDaaNtactWatVtttagccttMaatcagVaagtctVaaDaBtattaattaYtNaYtg
+gattaKtaKctYaMtattYgatattataatKtVgDcttatatNBtcgttgtStttttMag
+aggttaHYSttcKgtcKtDNtataagttataagSgttatDtRttattgttttSNggRtca
+aKMNatgaatattgtBWtaMacctgggYgaSgaagYataagattacgagaatBtggtRcV
+HtgYggaDgaYaKagWagctatagacgaaHgtWaNgacttHRatVaWacKYtgRVNgVcS
+gRWctacatcKSactctgWYtBggtataagcttNRttVtgRcaWaaatDMatYattaact
+ttcgaagRatSctgccttgcRKaccHtttSNVagtagHagBagttagaccaRtataBcca
+taatSHatRtcHagacBWatagcaMtacaRtgtgaaBatctKRtScttccaNaatcNgta
+atatWtcaMgactctBtWtaaNactHaaaaRctcgcatggctMcaaNtcagaaaaacaca
+gtggggWttRttagtaagaVctVMtcgaatcttcMaaaHcaHBttcgattatgtcaDagc
+YRtBtYcgacMgtDcagcgaNgttaataatagcagKYYtcgtaBtYctMaRtaRtDagaa
+aacacatgYaBttgattattcgaaNttBctSataaMataWRgaHtttccgtDgaYtatgg
+tDgHKgMtatttVtMtVagttaRatMattRagataaccctKctMtSttgaHagtcStcta
+tttccSagatgttccacgaggYNttHRacgattcDatatDcataaaatBBttatcgaHtN
+HaaatatDNaggctgaNcaaggagttBttMgRagVatBcRtaWgatgBtSgaKtcgHttt
+gaatcaaDaHttcSBgHcagtVaaSttDcagccgttNBtgttHagYtattctttRWaaVt
+SttcatatKaaRaaaNacaVtVctMtSDtDtRHRcgtaatgctcttaaatSacacaatcg
+HattcaWcttaaaatHaaatcNctWttaNMcMtaKctVtcctaagYgatgatcYaaaRac
+tctaRDaYagtaacgtDgaggaaatctcaaacatcaScttcKttNtaccatNtaNataca
+tttHaaDHgcaDatMWaaBttcRggctMaagctVYcacgatcaDttatYtaatcKatWat
+caatVYtNagatttgattgaYttttYgacttVtcKaRagaaaHVgDtaMatKYagagttN
+atWttaccNtYtcDWgSatgaRgtMatgKtcgacaagWtacttaagtcgKtgatccttNc
+ttatagMatHVggtagcgHctatagccctYttggtaattKNaacgaaYatatVctaataM
+aaaYtgVtcKaYtaataacagaatHcacVagatYWHttagaaSMaatWtYtgtaaagNaa
+acaVgaWtcacNWgataNttcaSagctMDaRttgNactaccgataMaaatgtttattDtc
+aagacgctDHYYatggttcaagccNctccttcMctttagacBtaaWtaWVHggaaaaNat
+ttaDtDtgctaaHHtMtatNtMtagtcatttgcaaaRatacagRHtatDNtgtDgaatVg
+tVNtcaaatYBMaaaagcaKgtgatgatMgWWMaHttttMgMagatDtataaattaacca
+actMtacataaattgRataatacgBtKtaataattRgtatDagDtcRDacctatRcagag
+cSHatNtcaScNtttggacNtaaggaccgtgKNttgttNcttgaaRgYgRtNtcagttBc
+ttttcHtKtgcttYaaNgYagtaaatgaatggWaMattBHtatctatSgtcYtgcHtaat
+tHgaaMtHcagaaSatggtatgccaHBtYtcNattWtgtNgctttaggtttgtWatNtgH
+tgcDttactttttttgcNtactKtWRaVcttcatagtgSNKaNccgaataaBttataata
+YtSagctttaaatSttggctaaKSaatRccgWHgagDttaaatcatgagMtcgagtVtaD
+ggaBtatttgDacataaacgtagYRagBWtgDStKDgatgaagttcattatttaKWcata
+aatWRgatataRgttRacaaNKttNtKagaaYaStaactScattattaacgatttaaatg
+DtaattagatHgaYataaactatggggatVHtgccgtNgatNYcaStRtagaccacWcaM
+tatRagHgVactYtWHtcttcatgatWgagaKggagtatgaWtDtVtNaNtcgYYgtaaa
+ctttaDtBactagtaDctatagtaatatttatatataacgHaaaRagKattSagttYtSt
+>THREE Homo sapiens frequency
+agagagacgatgaaaattaatcgtcaatacgctggcgaacactgagggggacccaatgct
+cttctcggtctaaaaaggaatgtgtcagaaattggtcagttcaaaagtagaccggatctt
+tgcggagaacaattcacggaacgtagcgttgggaaatatcctttctaccacacatcggat
+tttcgccctctcccattatttattgtgttctcacatagaattattgtttagacatccctc
+gttgtatggagagttgcccgagcgtaaaggcataatccatataccgccgggtgagtgacc
+tgaaattgtttttagttgggatttcgctatggattagcttacacgaagagattctaatgg
+tactataggataattataatgctgcgtggcgcagtacaccgttacaaacgtcgttcgcat
+atgtggctaacacggtgaaaatacctacatcgtatttgcaatttcggtcgtttcatagag
+cgcattgaattactcaaaaattatatatgttgattatttgattagactgcgtggaaagaa
+ggggtactcaagccatttgtaaaagctgcatctcgcttaagtttgagagcttacattagt
+ctatttcagtcttctaggaaatgtctgtgtgagtggttgtcgtccataggtcactggcat
+atgcgattcatgacatgctaaactaagaaagtagattactattaccggcatgcctaatgc
+gattgcactgctatgaaggtgcggacgtcgcgcccatgtagccctgataataccaatact
+tacatttggtcagcaattctgacattatacctagcacccataaatttactcagacttgag
+gacaggctcttggagtcgatcttctgtttgtatgcatgtgatcatatagatgaataagcg
+atgcgactagttagggcatagtatagatctgtgtatacagttcagctgaacgtccgcgag
+tggaagtacagctgagatctatcctaaaatgcaaccatatcgttcacacatgatatgaac
+ccagggggaaacattgagttcagttaaattggcagcgaatcccccaagaagaaggcggag
+tgacgttgaacgggcttatggtttttcagtacttcctccgtataagttgagcgaaatgta
+aacagaataatcgttgtgttaacaacattaaaatcgcggaatatgatgagaatacacagt
+gtgagcatttcacttgtaaaatatctttggtagaacttactttgctttaaatatgttaaa
+ccgatctaataatctacaaaacggtagattttgcctagcacattgcgtccttctctattc
+agatagaggcaatactcagaaggttttatccaaagcactgtgttgactaacctaagtttt
+agtctaataatcatgattgattataggtgccgtggactacatgactcgtccacaaataat
+acttagcagatcagcaattggccaagcacccgacttttatttaatggttgtgcaatagtc
+cagattcgtattcgggactctttcaaataatagtttcctggcatctaagtaagaaaagct
+cataaggaagcgatattatgacacgctcttccgccgctgttttgaaacttgagtattgct
+cgtccgaaattgagggtcacttcaaaatttactgagaagacgaagatcgactaaagttaa
+aatgctagtccacagttggtcaagttgaattcatccacgagttatatagctattttaatt
+tatagtcgagtgtacaaaaaacatccacaataagatttatcttagaataacaacccccgt
+atcatcgaaatcctccgttatggcctgactcctcgagcttatagcatttgtgctggcgct
+cttgccaggaacttgctcgcgaggtggtgacgagtgagatgatcagtttcattatgatga
+tacgattttatcgcgactagttaatcatcatagcaagtaaaatttgaattatgtcattat
+catgctccattaacaggttatttaattgatactgacgaaattttttcacaatgggttttc
+tagaatttaatatcagtaattgaagccttcataggggtcctactagtatcctacacgacg
+caggtccgcagtatcctggagggacgtgttactgattaaaagggtcaaaggaatgaaggc
+tcacaatgttacctgcttcaccatagtgagccgatgagttttacattagtactaaatccc
+aaatcatactttacgatgaggcttgctagcgctaaagagaatacatacaccaccacatag
+aattgttagcgatgatatcaaatagactcctggaagtgtcagggggaaactgttcaatat
+ttcgtccacaggactgaccaggcatggaaaagactgacgttggaaactataccatctcac
+gcccgacgcttcactaattgatgatccaaaaaatatagcccggattcctgattagcaaag
+ggttcacagagaaagatattatcgacgtatatcccaaaaaacagacgtaatgtgcatctt
+cgaatcgggatgaatacttgtatcataaaaatgtgacctctagtatacaggttaatgtta
+gtgatacacaatactcgtgggccatgggttctcaaataaaatgtaatattgcgtcgatca
+ctcacccacgtatttggtctaattatgttttatttagtgacaatccaatagataaccggt
+cctattaagggctatatttttagcgaccacgcgtttaaacaaaggattgtatgtagatgg
+taccagtttaattgccagtgggcaatcctaagcaaaatgagattctatcctaaagtttgg
+gcttgatataagatttcggatgtatgggttttataatcgttggagagctcaatcatgagc
+taatacatggatttcgctacctcaccgagagaccttgcatgaagaattctaaccaaaagt
+ttaataggccggattggattgagttaattaagaccttgttcagtcatagtaaaaaccctt
+aaattttaccgattgacaaagtgagcagtcgcaataccctatgcgaaacgcctcgatagt
+gactaggtatacaaggtttttgagttcctttgaaatagttaactaatttaaaattaatta
+acgacatggaaatcacagaacctaatgctttgtaggagttatttatgctgtttactgcct
+ctacaaccctaataaagcagtcctaagaatgaaacgcatcttttagttcagaaagtggta
+tccagggtggtcaatttaataaattcaacatcgggtctcaggatattcggtcatataatt
+tattaagggctcttcgagtcttactctgagtgaaattggaaacagtcatccttttcgttg
+tgaggcatcttacaccgctatcgatatacaatgcattccaccgcggtgtcccgtacacaa
+ggaaacttgttaccttggggatataagaaaactcacacgtctcattattaaactgagtac
+aatttttgcacgagaaagtaatgcaatacaatatgatgaaagccagctaatgaaaaggga
+tggaacgcacctcggatctgttgcactggattaaaatccgattatttttaaaaatattca
+gtgctagagcatatcaggtctacttttttatctggtatgtaaagcccacggagcgatagt
+gagatccttacgactcaacgaaaagttataacataactcccgttagccaaagcccaatcc
+cgattactgccctaccctaacgtctgccatctaaatatcgaacttgttatgatcaatgtg
+actacctcccaccctttccccttcatttgttccactggggataagctagcgttttcagaa
+tcaatgcaataagaatagccaattgtctcacttcatcagagctcttggcaattccaggcg
+ctacgtggttctggaatatattcatttttcaaatagtaatacgtttagtgttgctattgt
+ctacacgtttggatattacgttatgtgagcggacatcaatagttgtctaactctttagta
+agccagagatagcactcttagcgaatggataccatcttccataagtttagttaatagtcc
+gaaacaactgcttcgagcatatttgaacctccttgtaggcaaatagcctcttcaaagcaa
+tcttactaatagatagagtttgttttaagggactactagaaatgggacaatcttaatagt
+atgacctaaactgacatttaaagatatatccaggtggcaagcataaagatcattgcgcca
+cctccaccgtgggattacttatcagtcgatatcctatatgctaagtttgcgacggcagaa
+tacaaactaagctgagttgatgctaaccttacctatgataccccattggaccggttaaca
+gccctacttattccaaataaaagaacttttatgctgtagaagctattatagtgatgcctg
+gtaacttcagtatattaaaatgacacacatacgccatatagagctcctggaactttgaat
+aatgagcgaacttcgaagttgaagagcaagaaaccatatgtcacggttgcctaaagcccg
+gtaaccagacatgtgctatcattgatcattatcgaggttttcataaccttgacccattat
+cggctgtgcgcggacaagtacttaaatcactagtttcttcacctgcttatcggtaagaaa
+taaggttggcaaagaatcgcataagacggacgtagagccgcagcgttgtgcgagtccagg
+tgcatgcgcagcaataggattttaaattttgttccatttttaatttagccgtaaggatgt
+ccgtaaatgattgaaaattggattcaatctttgggcctatgctactggaacctgatcgac
+aaaatttcaaacatacgttaactccgaaagaccgtatttttgcggctagaatagtcagtc
+gcttggagccatataccttaccacttaaacgacgtgctcctgtagttgaaatataaacag
+aacacaaagactaccgatcatatcaactgaagatctttgtaactttgaggcgaagcaccc
+tcttcgagacaactaagagtaaagtaccgggcgccgcaaggagtcgattgggaccctaaa
+tcttgacgaattgctaagaggctcagagctaccactgtaatttctctagagcccataata
+aatgaacgatacatccgtaggtagcacctaagggattataatggaagccaaatgcagtta
+ataatattatatactggcgtacacgattcgacggatctctcacatagtgattcacgaccc
+ccccctttgattgacacagcgtcagcattttgcaagaacgatcttctgcatagggtgcgc
+caccgtaaggatgacgtcgaagctacaactgggtataatttaccatgcttccctgatgct
+gagtgcaatacactaagaatgagtttttaccccatatcaccagtatttgttctgttattg
+cgaagaaatggctatgctgagttggcgactaaagtcacccatcctttttattaggtaacc
+ccctcccttaaactaactgatttgctggagctgccctgcatacatatactttatcattta
+tggacgtccgtgacgcttattatccaccatagtcgatatgctacacggattcattaatgg
+atcgtaggagtttaagttatatttactaagatcggtctcggctactatcccgccttaccc
+ggcgctatttacggccatttttaatatattgacggtaattattcctatggtttcgaccgc
+acgtccttggacaagaaagaatggcaaaaaaaatgtaaaagaaaaaaaatattgagtccc
+taccatcatataaaaaatatgtgatgagtaacttgacgaaatgttagtggttattaaaga
+ctatctattacaccttttgttttctgtcgtagtatattaaagtctagaagccttacagga
+aaatcagggttatacagccgatactccgcagcatgaatcatcgaggaggtgtcctaccat
+cgcgccttgtaatcttgtctgtgtatactgtatttagaccttttatacaaagtaaatatc
+tcggctttatgtgattgggaggggcctactcaaacatgatgacttgacctaataatcact
+gtgcgggcgtcttatgactagctattccttgaaatccaccaccaaatggttaatatgtaa
+aaactttgacgatgaaacaaggtgaatgtgtagttactttgtgtaattagctgcgtcgag
+cattgcttgtaaaaccgtcaatcgcacacgttacttccataaaatttctacgaatacacc
+cttcttaaaaaaaacgtaggaattcacgagtttaacaaacgataactgtataaagtggaa
+gtccgaagaaagcagatgcccgaactactcgaagatgtttcgttttcttaaccatagggg
+cttcttaatggcccactacgcacattttgttcaagcccgagagggacatccccattacgg
+gagtattactaaaactgttccgtaatacgttcagcaagggatgaaaaaggccactgctca
+agttattgacgtgggagtattacatcggaagcctgaatcccacactatgatggtctgtac
+aggcctagggactgcgtctagacggtattaccggcttctaatcatacgatcgtgagtctt
+aacgggaagtaaggctcacacctaccccaaaccatttatctatgtaagtataaaattgtg
+cgtaagtgttcaaagtggacaataaagacgtggcaaaaacccccgcacataagccgcttt
+agatttcacaaataccaatgcggttaaaaacatccttgagtcgtacatacaccatactcg
+cgttaaacggatataacagaagataataaatccggatgtggagtcggtgtaactatagaa
+agccaagtgaaataatgcttaccagtcatttagctatacggctttcatttcatgtcaaga
+gggtggagtttgacctgtacagttgatatatcaccgatacttagaactcacctaaagcta
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+aaatatagaaggaatgattcggcgagttaattttcgccttctccaacatggcatccctac
+gttcgttataaggaccatacatgtaggttttaaaggtttgcggttaatcgatatttacat
+catagaaattctatagtcaaatttacaagactctagatactcactcgttgcagccggcta
+ggaagcgctttgtaccttacttcccttttcgttgcgtaatatgaatttcatatagtaagt
+tcaaggcactcatacctccgtgaagagggtagatagactattaaagttgtttaatagtac
+gtattgatggaaatgacccgtaggagatttaccactcaatccacaagattcgctgctgtg
+cattatcaaaacagtgcatgtcgaaacatgggttgggtccttcaaacacgaatccaggta
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diff --git a/vendor/regex/examples/regexdna-output.txt b/vendor/regex/examples/regexdna-output.txt
new file mode 100644
index 000000000..d36baa5be
--- /dev/null
+++ b/vendor/regex/examples/regexdna-output.txt
@@ -0,0 +1,13 @@
+agggtaaa|tttaccct 0
+[cgt]gggtaaa|tttaccc[acg] 3
+a[act]ggtaaa|tttacc[agt]t 9
+ag[act]gtaaa|tttac[agt]ct 8
+agg[act]taaa|ttta[agt]cct 10
+aggg[acg]aaa|ttt[cgt]ccct 3
+agggt[cgt]aa|tt[acg]accct 4
+agggta[cgt]a|t[acg]taccct 3
+agggtaa[cgt]|[acg]ttaccct 5
+
+101745
+100000
+133640
diff --git a/vendor/regex/examples/shootout-regex-dna-bytes.rs b/vendor/regex/examples/shootout-regex-dna-bytes.rs
new file mode 100644
index 000000000..773fd9ba8
--- /dev/null
+++ b/vendor/regex/examples/shootout-regex-dna-bytes.rs
@@ -0,0 +1,68 @@
+// The Computer Language Benchmarks Game
+// https://benchmarksgame-team.pages.debian.net/benchmarksgame/
+//
+// contributed by the Rust Project Developers
+// contributed by TeXitoi
+// contributed by BurntSushi
+
+use std::io::{self, Read};
+use std::sync::Arc;
+use std::thread;
+
+macro_rules! regex {
+    ($re:expr) => {
+        ::regex::bytes::Regex::new($re).unwrap()
+    };
+}
+
+fn main() {
+    let mut seq = Vec::with_capacity(51 * (1 << 20));
+    io::stdin().read_to_end(&mut seq).unwrap();
+    let ilen = seq.len();
+
+    seq = regex!(">[^\n]*\n|\n").replace_all(&seq, &b""[..]).into_owned();
+    let clen = seq.len();
+    let seq_arc = Arc::new(seq.clone());
+
+    let variants = vec![
+        regex!("agggtaaa|tttaccct"),
+        regex!("[cgt]gggtaaa|tttaccc[acg]"),
+        regex!("a[act]ggtaaa|tttacc[agt]t"),
+        regex!("ag[act]gtaaa|tttac[agt]ct"),
+        regex!("agg[act]taaa|ttta[agt]cct"),
+        regex!("aggg[acg]aaa|ttt[cgt]ccct"),
+        regex!("agggt[cgt]aa|tt[acg]accct"),
+        regex!("agggta[cgt]a|t[acg]taccct"),
+        regex!("agggtaa[cgt]|[acg]ttaccct"),
+    ];
+    let mut counts = vec![];
+    for variant in variants {
+        let seq = seq_arc.clone();
+        let restr = variant.to_string();
+        let future = thread::spawn(move || variant.find_iter(&seq).count());
+        counts.push((restr, future));
+    }
+
+    let substs = vec![
+        (regex!("B"), &b"(c|g|t)"[..]),
+        (regex!("D"), &b"(a|g|t)"[..]),
+        (regex!("H"), &b"(a|c|t)"[..]),
+        (regex!("K"), &b"(g|t)"[..]),
+        (regex!("M"), &b"(a|c)"[..]),
+        (regex!("N"), &b"(a|c|g|t)"[..]),
+        (regex!("R"), &b"(a|g)"[..]),
+        (regex!("S"), &b"(c|g)"[..]),
+        (regex!("V"), &b"(a|c|g)"[..]),
+        (regex!("W"), &b"(a|t)"[..]),
+        (regex!("Y"), &b"(c|t)"[..]),
+    ];
+    let mut seq = seq;
+    for (re, replacement) in substs {
+        seq = re.replace_all(&seq, replacement).into_owned();
+    }
+
+    for (variant, count) in counts {
+        println!("{} {}", variant, count.join().unwrap());
+    }
+    println!("\n{}\n{}\n{}", ilen, clen, seq.len());
+}
diff --git a/vendor/regex/examples/shootout-regex-dna-cheat.rs b/vendor/regex/examples/shootout-regex-dna-cheat.rs
new file mode 100644
index 000000000..1bde7ab1f
--- /dev/null
+++ b/vendor/regex/examples/shootout-regex-dna-cheat.rs
@@ -0,0 +1,90 @@
+// The Computer Language Benchmarks Game
+// https://benchmarksgame-team.pages.debian.net/benchmarksgame/
+//
+// contributed by the Rust Project Developers
+// contributed by TeXitoi
+// contributed by BurntSushi
+
+// This technically solves the problem posed in the `regex-dna` benchmark, but
+// it cheats by combining all of the replacements into a single regex and
+// replacing them with a single linear scan. i.e., it re-implements
+// `replace_all`. As a result, this is around 25% faster. ---AG
+
+use std::io::{self, Read};
+use std::sync::Arc;
+use std::thread;
+
+macro_rules! regex {
+    ($re:expr) => {
+        ::regex::Regex::new($re).unwrap()
+    };
+}
+
+fn main() {
+    let mut seq = String::with_capacity(50 * (1 << 20));
+    io::stdin().read_to_string(&mut seq).unwrap();
+    let ilen = seq.len();
+
+    seq = regex!(">[^\n]*\n|\n").replace_all(&seq, "").into_owned();
+    let clen = seq.len();
+    let seq_arc = Arc::new(seq.clone());
+
+    let variants = vec![
+        regex!("agggtaaa|tttaccct"),
+        regex!("[cgt]gggtaaa|tttaccc[acg]"),
+        regex!("a[act]ggtaaa|tttacc[agt]t"),
+        regex!("ag[act]gtaaa|tttac[agt]ct"),
+        regex!("agg[act]taaa|ttta[agt]cct"),
+        regex!("aggg[acg]aaa|ttt[cgt]ccct"),
+        regex!("agggt[cgt]aa|tt[acg]accct"),
+        regex!("agggta[cgt]a|t[acg]taccct"),
+        regex!("agggtaa[cgt]|[acg]ttaccct"),
+    ];
+    let mut counts = vec![];
+    for variant in variants {
+        let seq = seq_arc.clone();
+        let restr = variant.to_string();
+        let future = thread::spawn(move || variant.find_iter(&seq).count());
+        counts.push((restr, future));
+    }
+
+    let substs = vec![
+        (b'B', "(c|g|t)"),
+        (b'D', "(a|g|t)"),
+        (b'H', "(a|c|t)"),
+        (b'K', "(g|t)"),
+        (b'M', "(a|c)"),
+        (b'N', "(a|c|g|t)"),
+        (b'R', "(a|g)"),
+        (b'S', "(c|g)"),
+        (b'V', "(a|c|g)"),
+        (b'W', "(a|t)"),
+        (b'Y', "(c|t)"),
+    ]; // combined into one regex in `replace_all`
+    let seq = replace_all(&seq, substs);
+
+    for (variant, count) in counts {
+        println!("{} {}", variant, count.join().unwrap());
+    }
+    println!("\n{}\n{}\n{}", ilen, clen, seq.len());
+}
+
+fn replace_all(text: &str, substs: Vec<(u8, &str)>) -> String {
+    let mut replacements = vec![""; 256];
+    let mut alternates = vec![];
+    for (re, replacement) in substs {
+        replacements[re as usize] = replacement;
+        alternates.push((re as char).to_string());
+    }
+
+    let re = regex!(&alternates.join("|"));
+    let mut new = String::with_capacity(text.len());
+    let mut last_match = 0;
+    for m in re.find_iter(text) {
+        new.push_str(&text[last_match..m.start()]);
+        new.push_str(replacements[text.as_bytes()[m.start()] as usize]);
+        last_match = m.end();
+    }
+    new.push_str(&text[last_match..]);
+    new
+}
diff --git a/vendor/regex/examples/shootout-regex-dna-replace.rs b/vendor/regex/examples/shootout-regex-dna-replace.rs
new file mode 100644
index 000000000..20694e06f
--- /dev/null
+++ b/vendor/regex/examples/shootout-regex-dna-replace.rs
@@ -0,0 +1,17 @@
+use std::io::{self, Read};
+
+macro_rules! regex {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re).build().unwrap().into_regex()
+    }};
+}
+
+fn main() {
+    let mut seq = String::with_capacity(50 * (1 << 20));
+    io::stdin().read_to_string(&mut seq).unwrap();
+    let ilen = seq.len();
+
+    seq = regex!(">[^\n]*\n|\n").replace_all(&seq, "").into_owned();
+    println!("original: {}, replaced: {}", ilen, seq.len());
+}
diff --git a/vendor/regex/examples/shootout-regex-dna-single-cheat.rs b/vendor/regex/examples/shootout-regex-dna-single-cheat.rs
new file mode 100644
index 000000000..70a979c6d
--- /dev/null
+++ b/vendor/regex/examples/shootout-regex-dna-single-cheat.rs
@@ -0,0 +1,75 @@
+// The Computer Language Benchmarks Game
+// https://benchmarksgame-team.pages.debian.net/benchmarksgame/
+//
+// contributed by the Rust Project Developers
+// contributed by TeXitoi
+// contributed by BurntSushi
+
+use std::io::{self, Read};
+
+macro_rules! regex {
+    ($re:expr) => {
+        ::regex::Regex::new($re).unwrap()
+    };
+}
+
+fn main() {
+    let mut seq = String::with_capacity(50 * (1 << 20));
+    io::stdin().read_to_string(&mut seq).unwrap();
+    let ilen = seq.len();
+
+    seq = regex!(">[^\n]*\n|\n").replace_all(&seq, "").into_owned();
+    let clen = seq.len();
+
+    let variants = vec![
+        regex!("agggtaaa|tttaccct"),
+        regex!("[cgt]gggtaaa|tttaccc[acg]"),
+        regex!("a[act]ggtaaa|tttacc[agt]t"),
+        regex!("ag[act]gtaaa|tttac[agt]ct"),
+        regex!("agg[act]taaa|ttta[agt]cct"),
+        regex!("aggg[acg]aaa|ttt[cgt]ccct"),
+        regex!("agggt[cgt]aa|tt[acg]accct"),
+        regex!("agggta[cgt]a|t[acg]taccct"),
+        regex!("agggtaa[cgt]|[acg]ttaccct"),
+    ];
+    for re in variants {
+        println!("{} {}", re.to_string(), re.find_iter(&seq).count());
+    }
+
+    let substs = vec![
+        (b'B', "(c|g|t)"),
+        (b'D', "(a|g|t)"),
+        (b'H', "(a|c|t)"),
+        (b'K', "(g|t)"),
+        (b'M', "(a|c)"),
+        (b'N', "(a|c|g|t)"),
+        (b'R', "(a|g)"),
+        (b'S', "(c|g)"),
+        (b'V', "(a|c|g)"),
+        (b'W', "(a|t)"),
+        (b'Y', "(c|t)"),
+    ]; // combined into one regex in `replace_all`
+    let seq = replace_all(&seq, substs);
+
+    println!("\n{}\n{}\n{}", ilen, clen, seq.len());
+}
+
+fn replace_all(text: &str, substs: Vec<(u8, &str)>) -> String {
+    let mut replacements = vec![""; 256];
+    let mut alternates = vec![];
+    for (re, replacement) in substs {
+        replacements[re as usize] = replacement;
+        alternates.push((re as char).to_string());
+    }
+
+    let re = regex!(&alternates.join("|"));
+    let mut new = String::with_capacity(text.len());
+    let mut last_match = 0;
+    for m in re.find_iter(text) {
+        new.push_str(&text[last_match..m.start()]);
+        new.push_str(replacements[text.as_bytes()[m.start()] as usize]);
+        last_match = m.end();
+    }
+    new.push_str(&text[last_match..]);
+    new
+}
diff --git a/vendor/regex/examples/shootout-regex-dna-single.rs b/vendor/regex/examples/shootout-regex-dna-single.rs
new file mode 100644
index 000000000..b47405960
--- /dev/null
+++ b/vendor/regex/examples/shootout-regex-dna-single.rs
@@ -0,0 +1,57 @@
+// The Computer Language Benchmarks Game
+// https://benchmarksgame-team.pages.debian.net/benchmarksgame/
+//
+// contributed by the Rust Project Developers
+// contributed by TeXitoi
+// contributed by BurntSushi
+
+use std::io::{self, Read};
+
+macro_rules! regex {
+    ($re:expr) => {
+        ::regex::Regex::new($re).unwrap()
+    };
+}
+
+fn main() {
+    let mut seq = String::with_capacity(50 * (1 << 20));
+    io::stdin().read_to_string(&mut seq).unwrap();
+    let ilen = seq.len();
+
+    seq = regex!(">[^\n]*\n|\n").replace_all(&seq, "").into_owned();
+    let clen = seq.len();
+
+    let variants = vec![
+        regex!("agggtaaa|tttaccct"),
+        regex!("[cgt]gggtaaa|tttaccc[acg]"),
+        regex!("a[act]ggtaaa|tttacc[agt]t"),
+        regex!("ag[act]gtaaa|tttac[agt]ct"),
+        regex!("agg[act]taaa|ttta[agt]cct"),
+        regex!("aggg[acg]aaa|ttt[cgt]ccct"),
+        regex!("agggt[cgt]aa|tt[acg]accct"),
+        regex!("agggta[cgt]a|t[acg]taccct"),
+        regex!("agggtaa[cgt]|[acg]ttaccct"),
+    ];
+    for re in variants {
+        println!("{} {}", re.to_string(), re.find_iter(&seq).count());
+    }
+
+    let substs = vec![
+        (regex!("B"), "(c|g|t)"),
+        (regex!("D"), "(a|g|t)"),
+        (regex!("H"), "(a|c|t)"),
+        (regex!("K"), "(g|t)"),
+        (regex!("M"), "(a|c)"),
+        (regex!("N"), "(a|c|g|t)"),
+        (regex!("R"), "(a|g)"),
+        (regex!("S"), "(c|g)"),
+        (regex!("V"), "(a|c|g)"),
+        (regex!("W"), "(a|t)"),
+        (regex!("Y"), "(c|t)"),
+    ];
+    let mut seq = seq;
+    for (re, replacement) in substs {
+        seq = re.replace_all(&seq, replacement).into_owned();
+    }
+    println!("\n{}\n{}\n{}", ilen, clen, seq.len());
+}
diff --git a/vendor/regex/examples/shootout-regex-dna.rs b/vendor/regex/examples/shootout-regex-dna.rs
new file mode 100644
index 000000000..b96518e4c
--- /dev/null
+++ b/vendor/regex/examples/shootout-regex-dna.rs
@@ -0,0 +1,68 @@
+// The Computer Language Benchmarks Game
+// https://benchmarksgame-team.pages.debian.net/benchmarksgame/
+//
+// contributed by the Rust Project Developers
+// contributed by TeXitoi
+// contributed by BurntSushi
+
+use std::io::{self, Read};
+use std::sync::Arc;
+use std::thread;
+
+macro_rules! regex {
+    ($re:expr) => {
+        ::regex::Regex::new($re).unwrap()
+    };
+}
+
+fn main() {
+    let mut seq = String::with_capacity(51 * (1 << 20));
+    io::stdin().read_to_string(&mut seq).unwrap();
+    let ilen = seq.len();
+
+    seq = regex!(">[^\n]*\n|\n").replace_all(&seq, "").into_owned();
+    let clen = seq.len();
+    let seq_arc = Arc::new(seq.clone());
+
+    let variants = vec![
+        regex!("agggtaaa|tttaccct"),
+        regex!("[cgt]gggtaaa|tttaccc[acg]"),
+        regex!("a[act]ggtaaa|tttacc[agt]t"),
+        regex!("ag[act]gtaaa|tttac[agt]ct"),
+        regex!("agg[act]taaa|ttta[agt]cct"),
+        regex!("aggg[acg]aaa|ttt[cgt]ccct"),
+        regex!("agggt[cgt]aa|tt[acg]accct"),
+        regex!("agggta[cgt]a|t[acg]taccct"),
+        regex!("agggtaa[cgt]|[acg]ttaccct"),
+    ];
+    let mut counts = vec![];
+    for variant in variants {
+        let seq = seq_arc.clone();
+        let restr = variant.to_string();
+        let future = thread::spawn(move || variant.find_iter(&seq).count());
+        counts.push((restr, future));
+    }
+
+    let substs = vec![
+        (regex!("B"), "(c|g|t)"),
+        (regex!("D"), "(a|g|t)"),
+        (regex!("H"), "(a|c|t)"),
+        (regex!("K"), "(g|t)"),
+        (regex!("M"), "(a|c)"),
+        (regex!("N"), "(a|c|g|t)"),
+        (regex!("R"), "(a|g)"),
+        (regex!("S"), "(c|g)"),
+        (regex!("V"), "(a|c|g)"),
+        (regex!("W"), "(a|t)"),
+        (regex!("Y"), "(c|t)"),
+    ];
+    let mut seq = seq;
+    for (re, replacement) in substs {
+        seq = re.replace_all(&seq, replacement).into_owned();
+    }
+
+    for (variant, count) in counts {
+        println!("{} {}", variant, count.join().unwrap());
+    }
+    println!("\n{}\n{}\n{}", ilen, clen, seq.len());
+}
diff --git a/vendor/regex/rustfmt.toml b/vendor/regex/rustfmt.toml
new file mode 100644
index 000000000..aa37a218b
--- /dev/null
+++ b/vendor/regex/rustfmt.toml
@@ -0,0 +1,2 @@
+max_width = 79
+use_small_heuristics = "max"
diff --git a/vendor/regex/src/backtrack.rs b/vendor/regex/src/backtrack.rs
new file mode 100644
index 000000000..a3d25d662
--- /dev/null
+++ b/vendor/regex/src/backtrack.rs
@@ -0,0 +1,288 @@
+// This is the backtracking matching engine. It has the same exact capability
+// as the full NFA simulation, except it is artificially restricted to small
+// regexes on small inputs because of its memory requirements.
+//
+// In particular, this is a *bounded* backtracking engine. It retains worst
+// case linear time by keeping track of the states that it has visited (using a
+// bitmap). Namely, once a state is visited, it is never visited again. Since a
+// state is keyed by `(instruction index, input index)`, we have that its time
+// complexity is `O(mn)` (i.e., linear in the size of the search text).
+//
+// The backtracking engine can beat out the NFA simulation on small
+// regexes/inputs because it doesn't have to keep track of multiple copies of
+// the capture groups. In benchmarks, the backtracking engine is roughly twice
+// as fast as the full NFA simulation. Note though that its performance doesn't
+// scale, even if you're willing to live with the memory requirements. Namely,
+// the bitset has to be zeroed on each execution, which becomes quite expensive
+// on large bitsets.
+
+use crate::exec::ProgramCache;
+use crate::input::{Input, InputAt};
+use crate::prog::{InstPtr, Program};
+use crate::re_trait::Slot;
+
+type Bits = u32;
+
+const BIT_SIZE: usize = 32;
+const MAX_SIZE_BYTES: usize = 256 * (1 << 10); // 256 KB
+
+/// Returns true iff the given regex and input should be executed by this
+/// engine with reasonable memory usage.
+pub fn should_exec(num_insts: usize, text_len: usize) -> bool {
+    // Total memory usage in bytes is determined by:
+    //
+    //   ((len(insts) * (len(input) + 1) + bits - 1) / bits) * (size_of(u32))
+    //
+    // The actual limit picked is pretty much a heuristic.
+    // See: https://github.com/rust-lang/regex/issues/215
+    let size = ((num_insts * (text_len + 1) + BIT_SIZE - 1) / BIT_SIZE) * 4;
+    size <= MAX_SIZE_BYTES
+}
+
+/// A backtracking matching engine.
+#[derive(Debug)]
+pub struct Bounded<'a, 'm, 'r, 's, I> {
+    prog: &'r Program,
+    input: I,
+    matches: &'m mut [bool],
+    slots: &'s mut [Slot],
+    m: &'a mut Cache,
+}
+
+/// Shared cached state between multiple invocations of a backtracking engine
+/// in the same thread.
+#[derive(Clone, Debug)]
+pub struct Cache {
+    jobs: Vec<Job>,
+    visited: Vec<Bits>,
+}
+
+impl Cache {
+    /// Create new empty cache for the backtracking engine.
+    pub fn new(_prog: &Program) -> Self {
+        Cache { jobs: vec![], visited: vec![] }
+    }
+}
+
+/// A job is an explicit unit of stack space in the backtracking engine.
+///
+/// The "normal" representation is a single state transition, which corresponds
+/// to an NFA state and a character in the input. However, the backtracking
+/// engine must keep track of old capture group values. We use the explicit
+/// stack to do it.
+#[derive(Clone, Copy, Debug)]
+enum Job {
+    Inst { ip: InstPtr, at: InputAt },
+    SaveRestore { slot: usize, old_pos: Option<usize> },
+}
+
+impl<'a, 'm, 'r, 's, I: Input> Bounded<'a, 'm, 'r, 's, I> {
+    /// Execute the backtracking matching engine.
+    ///
+    /// If there's a match, `exec` returns `true` and populates the given
+    /// captures accordingly.
+    pub fn exec(
+        prog: &'r Program,
+        cache: &ProgramCache,
+        matches: &'m mut [bool],
+        slots: &'s mut [Slot],
+        input: I,
+        start: usize,
+        end: usize,
+    ) -> bool {
+        let mut cache = cache.borrow_mut();
+        let cache = &mut cache.backtrack;
+        let start = input.at(start);
+        let mut b = Bounded {
+            prog: prog,
+            input: input,
+            matches: matches,
+            slots: slots,
+            m: cache,
+        };
+        b.exec_(start, end)
+    }
+
+    /// Clears the cache such that the backtracking engine can be executed
+    /// on some input of fixed length.
+    fn clear(&mut self) {
+        // Reset the job memory so that we start fresh.
+        self.m.jobs.clear();
+
+        // Now we need to clear the bit state set.
+        // We do this by figuring out how much space we need to keep track
+        // of the states we've visited.
+        // Then we reset all existing allocated space to 0.
+        // Finally, we request more space if we need it.
+        //
+        // This is all a little circuitous, but doing this using unchecked
+        // operations doesn't seem to have a measurable impact on performance.
+        // (Probably because backtracking is limited to such small
+        // inputs/regexes in the first place.)
+        let visited_len =
+            (self.prog.len() * (self.input.len() + 1) + BIT_SIZE - 1)
+                / BIT_SIZE;
+        self.m.visited.truncate(visited_len);
+        for v in &mut self.m.visited {
+            *v = 0;
+        }
+        if visited_len > self.m.visited.len() {
+            let len = self.m.visited.len();
+            self.m.visited.reserve_exact(visited_len - len);
+            for _ in 0..(visited_len - len) {
+                self.m.visited.push(0);
+            }
+        }
+    }
+
+    /// Start backtracking at the given position in the input, but also look
+    /// for literal prefixes.
+    fn exec_(&mut self, mut at: InputAt, end: usize) -> bool {
+        self.clear();
+        // If this is an anchored regex at the beginning of the input, then
+        // we're either already done or we only need to try backtracking once.
+        if self.prog.is_anchored_start {
+            return if !at.is_start() { false } else { self.backtrack(at) };
+        }
+        let mut matched = false;
+        loop {
+            if !self.prog.prefixes.is_empty() {
+                at = match self.input.prefix_at(&self.prog.prefixes, at) {
+                    None => break,
+                    Some(at) => at,
+                };
+            }
+            matched = self.backtrack(at) || matched;
+            if matched && self.prog.matches.len() == 1 {
+                return true;
+            }
+            if at.pos() >= end {
+                break;
+            }
+            at = self.input.at(at.next_pos());
+        }
+        matched
+    }
+
+    /// The main backtracking loop starting at the given input position.
+    fn backtrack(&mut self, start: InputAt) -> bool {
+        // N.B. We use an explicit stack to avoid recursion.
+        // To avoid excessive pushing and popping, most transitions are handled
+        // in the `step` helper function, which only pushes to the stack when
+        // there's a capture or a branch.
+        let mut matched = false;
+        self.m.jobs.push(Job::Inst { ip: 0, at: start });
+        while let Some(job) = self.m.jobs.pop() {
+            match job {
+                Job::Inst { ip, at } => {
+                    if self.step(ip, at) {
+                        // Only quit if we're matching one regex.
+                        // If we're matching a regex set, then mush on and
+                        // try to find other matches (if we want them).
+                        if self.prog.matches.len() == 1 {
+                            return true;
+                        }
+                        matched = true;
+                    }
+                }
+                Job::SaveRestore { slot, old_pos } => {
+                    if slot < self.slots.len() {
+                        self.slots[slot] = old_pos;
+                    }
+                }
+            }
+        }
+        matched
+    }
+
+    fn step(&mut self, mut ip: InstPtr, mut at: InputAt) -> bool {
+        use crate::prog::Inst::*;
+        loop {
+            // This loop is an optimization to avoid constantly pushing/popping
+            // from the stack. Namely, if we're pushing a job only to run it
+            // next, avoid the push and just mutate `ip` (and possibly `at`)
+            // in place.
+            if self.has_visited(ip, at) {
+                return false;
+            }
+            match self.prog[ip] {
+                Match(slot) => {
+                    if slot < self.matches.len() {
+                        self.matches[slot] = true;
+                    }
+                    return true;
+                }
+                Save(ref inst) => {
+                    if let Some(&old_pos) = self.slots.get(inst.slot) {
+                        // If this path doesn't work out, then we save the old
+                        // capture index (if one exists) in an alternate
+                        // job. If the next path fails, then the alternate
+                        // job is popped and the old capture index is restored.
+                        self.m.jobs.push(Job::SaveRestore {
+                            slot: inst.slot,
+                            old_pos: old_pos,
+                        });
+                        self.slots[inst.slot] = Some(at.pos());
+                    }
+                    ip = inst.goto;
+                }
+                Split(ref inst) => {
+                    self.m.jobs.push(Job::Inst { ip: inst.goto2, at: at });
+                    ip = inst.goto1;
+                }
+                EmptyLook(ref inst) => {
+                    if self.input.is_empty_match(at, inst) {
+                        ip = inst.goto;
+                    } else {
+                        return false;
+                    }
+                }
+                Char(ref inst) => {
+                    if inst.c == at.char() {
+                        ip = inst.goto;
+                        at = self.input.at(at.next_pos());
+                    } else {
+                        return false;
+                    }
+                }
+                Ranges(ref inst) => {
+                    if inst.matches(at.char()) {
+                        ip = inst.goto;
+                        at = self.input.at(at.next_pos());
+                    } else {
+                        return false;
+                    }
+                }
+                Bytes(ref inst) => {
+                    if let Some(b) = at.byte() {
+                        if inst.matches(b) {
+                            ip = inst.goto;
+                            at = self.input.at(at.next_pos());
+                            continue;
+                        }
+                    }
+                    return false;
+                }
+            }
+        }
+    }
+
+    fn has_visited(&mut self, ip: InstPtr, at: InputAt) -> bool {
+        let k = ip * (self.input.len() + 1) + at.pos();
+        let k1 = k / BIT_SIZE;
+        let k2 = usize_to_u32(1 << (k & (BIT_SIZE - 1)));
+        if self.m.visited[k1] & k2 == 0 {
+            self.m.visited[k1] |= k2;
+            false
+        } else {
+            true
+        }
+    }
+}
+
+fn usize_to_u32(n: usize) -> u32 {
+    if (n as u64) > (::std::u32::MAX as u64) {
+        panic!("BUG: {} is too big to fit into u32", n)
+    }
+    n as u32
+}
diff --git a/vendor/regex/src/compile.rs b/vendor/regex/src/compile.rs
new file mode 100644
index 000000000..069f445c8
--- /dev/null
+++ b/vendor/regex/src/compile.rs
@@ -0,0 +1,1267 @@
+use std::collections::HashMap;
+use std::fmt;
+use std::iter;
+use std::result;
+use std::sync::Arc;
+
+use regex_syntax::hir::{self, Hir};
+use regex_syntax::is_word_byte;
+use regex_syntax::utf8::{Utf8Range, Utf8Sequence, Utf8Sequences};
+
+use crate::prog::{
+    EmptyLook, Inst, InstBytes, InstChar, InstEmptyLook, InstPtr, InstRanges,
+    InstSave, InstSplit, Program,
+};
+
+use crate::Error;
+
+type Result = result::Result<Patch, Error>;
+type ResultOrEmpty = result::Result<Option<Patch>, Error>;
+
+#[derive(Debug)]
+struct Patch {
+    hole: Hole,
+    entry: InstPtr,
+}
+
+/// A compiler translates a regular expression AST to a sequence of
+/// instructions. The sequence of instructions represents an NFA.
+// `Compiler` is only public via the `internal` module, so avoid deriving
+// `Debug`.
+#[allow(missing_debug_implementations)]
+pub struct Compiler {
+    insts: Vec<MaybeInst>,
+    compiled: Program,
+    capture_name_idx: HashMap<String, usize>,
+    num_exprs: usize,
+    size_limit: usize,
+    suffix_cache: SuffixCache,
+    utf8_seqs: Option<Utf8Sequences>,
+    byte_classes: ByteClassSet,
+    // This keeps track of extra bytes allocated while compiling the regex
+    // program. Currently, this corresponds to two things. First is the heap
+    // memory allocated by Unicode character classes ('InstRanges'). Second is
+    // a "fake" amount of memory used by empty sub-expressions, so that enough
+    // empty sub-expressions will ultimately trigger the compiler to bail
+    // because of a size limit restriction. (That empty sub-expressions don't
+    // add to heap memory usage is more-or-less an implementation detail.) In
+    // the second case, if we don't bail, then an excessively large repetition
+    // on an empty sub-expression can result in the compiler using a very large
+    // amount of CPU time.
+    extra_inst_bytes: usize,
+}
+
+impl Compiler {
+    /// Create a new regular expression compiler.
+    ///
+    /// Various options can be set before calling `compile` on an expression.
+    pub fn new() -> Self {
+        Compiler {
+            insts: vec![],
+            compiled: Program::new(),
+            capture_name_idx: HashMap::new(),
+            num_exprs: 0,
+            size_limit: 10 * (1 << 20),
+            suffix_cache: SuffixCache::new(1000),
+            utf8_seqs: Some(Utf8Sequences::new('\x00', '\x00')),
+            byte_classes: ByteClassSet::new(),
+            extra_inst_bytes: 0,
+        }
+    }
+
+    /// The size of the resulting program is limited by size_limit. If
+    /// the program approximately exceeds the given size (in bytes), then
+    /// compilation will stop and return an error.
+    pub fn size_limit(mut self, size_limit: usize) -> Self {
+        self.size_limit = size_limit;
+        self
+    }
+
+    /// If bytes is true, then the program is compiled as a byte based
+    /// automaton, which incorporates UTF-8 decoding into the machine. If it's
+    /// false, then the automaton is Unicode scalar value based, e.g., an
+    /// engine utilizing such an automaton is responsible for UTF-8 decoding.
+    ///
+    /// The specific invariant is that when returning a byte based machine,
+    /// the neither the `Char` nor `Ranges` instructions are produced.
+    /// Conversely, when producing a Unicode scalar value machine, the `Bytes`
+    /// instruction is never produced.
+    ///
+    /// Note that `dfa(true)` implies `bytes(true)`.
+    pub fn bytes(mut self, yes: bool) -> Self {
+        self.compiled.is_bytes = yes;
+        self
+    }
+
+    /// When disabled, the program compiled may match arbitrary bytes.
+    ///
+    /// When enabled (the default), all compiled programs exclusively match
+    /// valid UTF-8 bytes.
+    pub fn only_utf8(mut self, yes: bool) -> Self {
+        self.compiled.only_utf8 = yes;
+        self
+    }
+
+    /// When set, the machine returned is suitable for use in the DFA matching
+    /// engine.
+    ///
+    /// In particular, this ensures that if the regex is not anchored in the
+    /// beginning, then a preceding `.*?` is included in the program. (The NFA
+    /// based engines handle the preceding `.*?` explicitly, which is difficult
+    /// or impossible in the DFA engine.)
+    pub fn dfa(mut self, yes: bool) -> Self {
+        self.compiled.is_dfa = yes;
+        self
+    }
+
+    /// When set, the machine returned is suitable for matching text in
+    /// reverse. In particular, all concatenations are flipped.
+    pub fn reverse(mut self, yes: bool) -> Self {
+        self.compiled.is_reverse = yes;
+        self
+    }
+
+    /// Compile a regular expression given its AST.
+    ///
+    /// The compiler is guaranteed to succeed unless the program exceeds the
+    /// specified size limit. If the size limit is exceeded, then compilation
+    /// stops and returns an error.
+    pub fn compile(mut self, exprs: &[Hir]) -> result::Result<Program, Error> {
+        debug_assert!(!exprs.is_empty());
+        self.num_exprs = exprs.len();
+        if exprs.len() == 1 {
+            self.compile_one(&exprs[0])
+        } else {
+            self.compile_many(exprs)
+        }
+    }
+
+    fn compile_one(mut self, expr: &Hir) -> result::Result<Program, Error> {
+        // If we're compiling a forward DFA and we aren't anchored, then
+        // add a `.*?` before the first capture group.
+        // Other matching engines handle this by baking the logic into the
+        // matching engine itself.
+        let mut dotstar_patch = Patch { hole: Hole::None, entry: 0 };
+        self.compiled.is_anchored_start = expr.is_anchored_start();
+        self.compiled.is_anchored_end = expr.is_anchored_end();
+        if self.compiled.needs_dotstar() {
+            dotstar_patch = self.c_dotstar()?;
+            self.compiled.start = dotstar_patch.entry;
+        }
+        self.compiled.captures = vec![None];
+        let patch = self.c_capture(0, expr)?.unwrap_or(self.next_inst());
+        if self.compiled.needs_dotstar() {
+            self.fill(dotstar_patch.hole, patch.entry);
+        } else {
+            self.compiled.start = patch.entry;
+        }
+        self.fill_to_next(patch.hole);
+        self.compiled.matches = vec![self.insts.len()];
+        self.push_compiled(Inst::Match(0));
+        self.compile_finish()
+    }
+
+    fn compile_many(
+        mut self,
+        exprs: &[Hir],
+    ) -> result::Result<Program, Error> {
+        debug_assert!(exprs.len() > 1);
+
+        self.compiled.is_anchored_start =
+            exprs.iter().all(|e| e.is_anchored_start());
+        self.compiled.is_anchored_end =
+            exprs.iter().all(|e| e.is_anchored_end());
+        let mut dotstar_patch = Patch { hole: Hole::None, entry: 0 };
+        if self.compiled.needs_dotstar() {
+            dotstar_patch = self.c_dotstar()?;
+            self.compiled.start = dotstar_patch.entry;
+        } else {
+            self.compiled.start = 0; // first instruction is always split
+        }
+        self.fill_to_next(dotstar_patch.hole);
+
+        let mut prev_hole = Hole::None;
+        for (i, expr) in exprs[0..exprs.len() - 1].iter().enumerate() {
+            self.fill_to_next(prev_hole);
+            let split = self.push_split_hole();
+            let Patch { hole, entry } =
+                self.c_capture(0, expr)?.unwrap_or(self.next_inst());
+            self.fill_to_next(hole);
+            self.compiled.matches.push(self.insts.len());
+            self.push_compiled(Inst::Match(i));
+            prev_hole = self.fill_split(split, Some(entry), None);
+        }
+        let i = exprs.len() - 1;
+        let Patch { hole, entry } =
+            self.c_capture(0, &exprs[i])?.unwrap_or(self.next_inst());
+        self.fill(prev_hole, entry);
+        self.fill_to_next(hole);
+        self.compiled.matches.push(self.insts.len());
+        self.push_compiled(Inst::Match(i));
+        self.compile_finish()
+    }
+
+    fn compile_finish(mut self) -> result::Result<Program, Error> {
+        self.compiled.insts =
+            self.insts.into_iter().map(|inst| inst.unwrap()).collect();
+        self.compiled.byte_classes = self.byte_classes.byte_classes();
+        self.compiled.capture_name_idx = Arc::new(self.capture_name_idx);
+        Ok(self.compiled)
+    }
+
+    /// Compile expr into self.insts, returning a patch on success,
+    /// or an error if we run out of memory.
+    ///
+    /// All of the c_* methods of the compiler share the contract outlined
+    /// here.
+    ///
+    /// The main thing that a c_* method does is mutate `self.insts`
+    /// to add a list of mostly compiled instructions required to execute
+    /// the given expression. `self.insts` contains MaybeInsts rather than
+    /// Insts because there is some backpatching required.
+    ///
+    /// The `Patch` value returned by each c_* method provides metadata
+    /// about the compiled instructions emitted to `self.insts`. The
+    /// `entry` member of the patch refers to the first instruction
+    /// (the entry point), while the `hole` member contains zero or
+    /// more offsets to partial instructions that need to be backpatched.
+    /// The c_* routine can't know where its list of instructions are going to
+    /// jump to after execution, so it is up to the caller to patch
+    /// these jumps to point to the right place. So compiling some
+    /// expression, e, we would end up with a situation that looked like:
+    ///
+    /// ```text
+    /// self.insts = [ ..., i1, i2, ..., iexit1, ..., iexitn, ...]
+    ///                     ^              ^             ^
+    ///                     |                \         /
+    ///                   entry                \     /
+    ///                                         hole
+    /// ```
+    ///
+    /// To compile two expressions, e1 and e2, concatenated together we
+    /// would do:
+    ///
+    /// ```ignore
+    /// let patch1 = self.c(e1);
+    /// let patch2 = self.c(e2);
+    /// ```
+    ///
+    /// while leaves us with a situation that looks like
+    ///
+    /// ```text
+    /// self.insts = [ ..., i1, ..., iexit1, ..., i2, ..., iexit2 ]
+    ///                     ^        ^            ^        ^
+    ///                     |        |            |        |
+    ///                entry1        hole1   entry2        hole2
+    /// ```
+    ///
+    /// Then to merge the two patches together into one we would backpatch
+    /// hole1 with entry2 and return a new patch that enters at entry1
+    /// and has hole2 for a hole. In fact, if you look at the c_concat
+    /// method you will see that it does exactly this, though it handles
+    /// a list of expressions rather than just the two that we use for
+    /// an example.
+    ///
+    /// Ok(None) is returned when an expression is compiled to no
+    /// instruction, and so no patch.entry value makes sense.
+    fn c(&mut self, expr: &Hir) -> ResultOrEmpty {
+        use crate::prog;
+        use regex_syntax::hir::HirKind::*;
+
+        self.check_size()?;
+        match *expr.kind() {
+            Empty => self.c_empty(),
+            Literal(hir::Literal::Unicode(c)) => self.c_char(c),
+            Literal(hir::Literal::Byte(b)) => {
+                assert!(self.compiled.uses_bytes());
+                self.c_byte(b)
+            }
+            Class(hir::Class::Unicode(ref cls)) => self.c_class(cls.ranges()),
+            Class(hir::Class::Bytes(ref cls)) => {
+                if self.compiled.uses_bytes() {
+                    self.c_class_bytes(cls.ranges())
+                } else {
+                    assert!(cls.is_all_ascii());
+                    let mut char_ranges = vec![];
+                    for r in cls.iter() {
+                        let (s, e) = (r.start() as char, r.end() as char);
+                        char_ranges.push(hir::ClassUnicodeRange::new(s, e));
+                    }
+                    self.c_class(&char_ranges)
+                }
+            }
+            Anchor(hir::Anchor::StartLine) if self.compiled.is_reverse => {
+                self.byte_classes.set_range(b'\n', b'\n');
+                self.c_empty_look(prog::EmptyLook::EndLine)
+            }
+            Anchor(hir::Anchor::StartLine) => {
+                self.byte_classes.set_range(b'\n', b'\n');
+                self.c_empty_look(prog::EmptyLook::StartLine)
+            }
+            Anchor(hir::Anchor::EndLine) if self.compiled.is_reverse => {
+                self.byte_classes.set_range(b'\n', b'\n');
+                self.c_empty_look(prog::EmptyLook::StartLine)
+            }
+            Anchor(hir::Anchor::EndLine) => {
+                self.byte_classes.set_range(b'\n', b'\n');
+                self.c_empty_look(prog::EmptyLook::EndLine)
+            }
+            Anchor(hir::Anchor::StartText) if self.compiled.is_reverse => {
+                self.c_empty_look(prog::EmptyLook::EndText)
+            }
+            Anchor(hir::Anchor::StartText) => {
+                self.c_empty_look(prog::EmptyLook::StartText)
+            }
+            Anchor(hir::Anchor::EndText) if self.compiled.is_reverse => {
+                self.c_empty_look(prog::EmptyLook::StartText)
+            }
+            Anchor(hir::Anchor::EndText) => {
+                self.c_empty_look(prog::EmptyLook::EndText)
+            }
+            WordBoundary(hir::WordBoundary::Unicode) => {
+                if !cfg!(feature = "unicode-perl") {
+                    return Err(Error::Syntax(
+                        "Unicode word boundaries are unavailable when \
+                         the unicode-perl feature is disabled"
+                            .to_string(),
+                    ));
+                }
+                self.compiled.has_unicode_word_boundary = true;
+                self.byte_classes.set_word_boundary();
+                // We also make sure that all ASCII bytes are in a different
+                // class from non-ASCII bytes. Otherwise, it's possible for
+                // ASCII bytes to get lumped into the same class as non-ASCII
+                // bytes. This in turn may cause the lazy DFA to falsely start
+                // when it sees an ASCII byte that maps to a byte class with
+                // non-ASCII bytes. This ensures that never happens.
+                self.byte_classes.set_range(0, 0x7F);
+                self.c_empty_look(prog::EmptyLook::WordBoundary)
+            }
+            WordBoundary(hir::WordBoundary::UnicodeNegate) => {
+                if !cfg!(feature = "unicode-perl") {
+                    return Err(Error::Syntax(
+                        "Unicode word boundaries are unavailable when \
+                         the unicode-perl feature is disabled"
+                            .to_string(),
+                    ));
+                }
+                self.compiled.has_unicode_word_boundary = true;
+                self.byte_classes.set_word_boundary();
+                // See comments above for why we set the ASCII range here.
+                self.byte_classes.set_range(0, 0x7F);
+                self.c_empty_look(prog::EmptyLook::NotWordBoundary)
+            }
+            WordBoundary(hir::WordBoundary::Ascii) => {
+                self.byte_classes.set_word_boundary();
+                self.c_empty_look(prog::EmptyLook::WordBoundaryAscii)
+            }
+            WordBoundary(hir::WordBoundary::AsciiNegate) => {
+                self.byte_classes.set_word_boundary();
+                self.c_empty_look(prog::EmptyLook::NotWordBoundaryAscii)
+            }
+            Group(ref g) => match g.kind {
+                hir::GroupKind::NonCapturing => self.c(&g.hir),
+                hir::GroupKind::CaptureIndex(index) => {
+                    if index as usize >= self.compiled.captures.len() {
+                        self.compiled.captures.push(None);
+                    }
+                    self.c_capture(2 * index as usize, &g.hir)
+                }
+                hir::GroupKind::CaptureName { index, ref name } => {
+                    if index as usize >= self.compiled.captures.len() {
+                        let n = name.to_string();
+                        self.compiled.captures.push(Some(n.clone()));
+                        self.capture_name_idx.insert(n, index as usize);
+                    }
+                    self.c_capture(2 * index as usize, &g.hir)
+                }
+            },
+            Concat(ref es) => {
+                if self.compiled.is_reverse {
+                    self.c_concat(es.iter().rev())
+                } else {
+                    self.c_concat(es)
+                }
+            }
+            Alternation(ref es) => self.c_alternate(&**es),
+            Repetition(ref rep) => self.c_repeat(rep),
+        }
+    }
+
+    fn c_empty(&mut self) -> ResultOrEmpty {
+        // See: https://github.com/rust-lang/regex/security/advisories/GHSA-m5pq-gvj9-9vr8
+        // See: CVE-2022-24713
+        //
+        // Since 'empty' sub-expressions don't increase the size of
+        // the actual compiled object, we "fake" an increase in its
+        // size so that our 'check_size_limit' routine will eventually
+        // stop compilation if there are too many empty sub-expressions
+        // (e.g., via a large repetition).
+        self.extra_inst_bytes += std::mem::size_of::<Inst>();
+        Ok(None)
+    }
+
+    fn c_capture(&mut self, first_slot: usize, expr: &Hir) -> ResultOrEmpty {
+        if self.num_exprs > 1 || self.compiled.is_dfa {
+            // Don't ever compile Save instructions for regex sets because
+            // they are never used. They are also never used in DFA programs
+            // because DFAs can't handle captures.
+            self.c(expr)
+        } else {
+            let entry = self.insts.len();
+            let hole = self.push_hole(InstHole::Save { slot: first_slot });
+            let patch = self.c(expr)?.unwrap_or(self.next_inst());
+            self.fill(hole, patch.entry);
+            self.fill_to_next(patch.hole);
+            let hole = self.push_hole(InstHole::Save { slot: first_slot + 1 });
+            Ok(Some(Patch { hole: hole, entry: entry }))
+        }
+    }
+
+    fn c_dotstar(&mut self) -> Result {
+        Ok(if !self.compiled.only_utf8() {
+            self.c(&Hir::repetition(hir::Repetition {
+                kind: hir::RepetitionKind::ZeroOrMore,
+                greedy: false,
+                hir: Box::new(Hir::any(true)),
+            }))?
+            .unwrap()
+        } else {
+            self.c(&Hir::repetition(hir::Repetition {
+                kind: hir::RepetitionKind::ZeroOrMore,
+                greedy: false,
+                hir: Box::new(Hir::any(false)),
+            }))?
+            .unwrap()
+        })
+    }
+
+    fn c_char(&mut self, c: char) -> ResultOrEmpty {
+        if self.compiled.uses_bytes() {
+            if c.is_ascii() {
+                let b = c as u8;
+                let hole =
+                    self.push_hole(InstHole::Bytes { start: b, end: b });
+                self.byte_classes.set_range(b, b);
+                Ok(Some(Patch { hole, entry: self.insts.len() - 1 }))
+            } else {
+                self.c_class(&[hir::ClassUnicodeRange::new(c, c)])
+            }
+        } else {
+            let hole = self.push_hole(InstHole::Char { c: c });
+            Ok(Some(Patch { hole, entry: self.insts.len() - 1 }))
+        }
+    }
+
+    fn c_class(&mut self, ranges: &[hir::ClassUnicodeRange]) -> ResultOrEmpty {
+        use std::mem::size_of;
+
+        assert!(!ranges.is_empty());
+        if self.compiled.uses_bytes() {
+            Ok(Some(CompileClass { c: self, ranges: ranges }.compile()?))
+        } else {
+            let ranges: Vec<(char, char)> =
+                ranges.iter().map(|r| (r.start(), r.end())).collect();
+            let hole = if ranges.len() == 1 && ranges[0].0 == ranges[0].1 {
+                self.push_hole(InstHole::Char { c: ranges[0].0 })
+            } else {
+                self.extra_inst_bytes +=
+                    ranges.len() * (size_of::<char>() * 2);
+                self.push_hole(InstHole::Ranges { ranges: ranges })
+            };
+            Ok(Some(Patch { hole: hole, entry: self.insts.len() - 1 }))
+        }
+    }
+
+    fn c_byte(&mut self, b: u8) -> ResultOrEmpty {
+        self.c_class_bytes(&[hir::ClassBytesRange::new(b, b)])
+    }
+
+    fn c_class_bytes(
+        &mut self,
+        ranges: &[hir::ClassBytesRange],
+    ) -> ResultOrEmpty {
+        debug_assert!(!ranges.is_empty());
+
+        let first_split_entry = self.insts.len();
+        let mut holes = vec![];
+        let mut prev_hole = Hole::None;
+        for r in &ranges[0..ranges.len() - 1] {
+            self.fill_to_next(prev_hole);
+            let split = self.push_split_hole();
+            let next = self.insts.len();
+            self.byte_classes.set_range(r.start(), r.end());
+            holes.push(self.push_hole(InstHole::Bytes {
+                start: r.start(),
+                end: r.end(),
+            }));
+            prev_hole = self.fill_split(split, Some(next), None);
+        }
+        let next = self.insts.len();
+        let r = &ranges[ranges.len() - 1];
+        self.byte_classes.set_range(r.start(), r.end());
+        holes.push(
+            self.push_hole(InstHole::Bytes { start: r.start(), end: r.end() }),
+        );
+        self.fill(prev_hole, next);
+        Ok(Some(Patch { hole: Hole::Many(holes), entry: first_split_entry }))
+    }
+
+    fn c_empty_look(&mut self, look: EmptyLook) -> ResultOrEmpty {
+        let hole = self.push_hole(InstHole::EmptyLook { look: look });
+        Ok(Some(Patch { hole: hole, entry: self.insts.len() - 1 }))
+    }
+
+    fn c_concat<'a, I>(&mut self, exprs: I) -> ResultOrEmpty
+    where
+        I: IntoIterator<Item = &'a Hir>,
+    {
+        let mut exprs = exprs.into_iter();
+        let Patch { mut hole, entry } = loop {
+            match exprs.next() {
+                None => return self.c_empty(),
+                Some(e) => {
+                    if let Some(p) = self.c(e)? {
+                        break p;
+                    }
+                }
+            }
+        };
+        for e in exprs {
+            if let Some(p) = self.c(e)? {
+                self.fill(hole, p.entry);
+                hole = p.hole;
+            }
+        }
+        Ok(Some(Patch { hole: hole, entry: entry }))
+    }
+
+    fn c_alternate(&mut self, exprs: &[Hir]) -> ResultOrEmpty {
+        debug_assert!(
+            exprs.len() >= 2,
+            "alternates must have at least 2 exprs"
+        );
+
+        // Initial entry point is always the first split.
+        let first_split_entry = self.insts.len();
+
+        // Save up all of the holes from each alternate. They will all get
+        // patched to point to the same location.
+        let mut holes = vec![];
+
+        // true indicates that the hole is a split where we want to fill
+        // the second branch.
+        let mut prev_hole = (Hole::None, false);
+        for e in &exprs[0..exprs.len() - 1] {
+            if prev_hole.1 {
+                let next = self.insts.len();
+                self.fill_split(prev_hole.0, None, Some(next));
+            } else {
+                self.fill_to_next(prev_hole.0);
+            }
+            let split = self.push_split_hole();
+            if let Some(Patch { hole, entry }) = self.c(e)? {
+                holes.push(hole);
+                prev_hole = (self.fill_split(split, Some(entry), None), false);
+            } else {
+                let (split1, split2) = split.dup_one();
+                holes.push(split1);
+                prev_hole = (split2, true);
+            }
+        }
+        if let Some(Patch { hole, entry }) = self.c(&exprs[exprs.len() - 1])? {
+            holes.push(hole);
+            if prev_hole.1 {
+                self.fill_split(prev_hole.0, None, Some(entry));
+            } else {
+                self.fill(prev_hole.0, entry);
+            }
+        } else {
+            // We ignore prev_hole.1. When it's true, it means we have two
+            // empty branches both pushing prev_hole.0 into holes, so both
+            // branches will go to the same place anyway.
+            holes.push(prev_hole.0);
+        }
+        Ok(Some(Patch { hole: Hole::Many(holes), entry: first_split_entry }))
+    }
+
+    fn c_repeat(&mut self, rep: &hir::Repetition) -> ResultOrEmpty {
+        use regex_syntax::hir::RepetitionKind::*;
+        match rep.kind {
+            ZeroOrOne => self.c_repeat_zero_or_one(&rep.hir, rep.greedy),
+            ZeroOrMore => self.c_repeat_zero_or_more(&rep.hir, rep.greedy),
+            OneOrMore => self.c_repeat_one_or_more(&rep.hir, rep.greedy),
+            Range(hir::RepetitionRange::Exactly(min_max)) => {
+                self.c_repeat_range(&rep.hir, rep.greedy, min_max, min_max)
+            }
+            Range(hir::RepetitionRange::AtLeast(min)) => {
+                self.c_repeat_range_min_or_more(&rep.hir, rep.greedy, min)
+            }
+            Range(hir::RepetitionRange::Bounded(min, max)) => {
+                self.c_repeat_range(&rep.hir, rep.greedy, min, max)
+            }
+        }
+    }
+
+    fn c_repeat_zero_or_one(
+        &mut self,
+        expr: &Hir,
+        greedy: bool,
+    ) -> ResultOrEmpty {
+        let split_entry = self.insts.len();
+        let split = self.push_split_hole();
+        let Patch { hole: hole_rep, entry: entry_rep } = match self.c(expr)? {
+            Some(p) => p,
+            None => return self.pop_split_hole(),
+        };
+        let split_hole = if greedy {
+            self.fill_split(split, Some(entry_rep), None)
+        } else {
+            self.fill_split(split, None, Some(entry_rep))
+        };
+        let holes = vec![hole_rep, split_hole];
+        Ok(Some(Patch { hole: Hole::Many(holes), entry: split_entry }))
+    }
+
+    fn c_repeat_zero_or_more(
+        &mut self,
+        expr: &Hir,
+        greedy: bool,
+    ) -> ResultOrEmpty {
+        let split_entry = self.insts.len();
+        let split = self.push_split_hole();
+        let Patch { hole: hole_rep, entry: entry_rep } = match self.c(expr)? {
+            Some(p) => p,
+            None => return self.pop_split_hole(),
+        };
+
+        self.fill(hole_rep, split_entry);
+        let split_hole = if greedy {
+            self.fill_split(split, Some(entry_rep), None)
+        } else {
+            self.fill_split(split, None, Some(entry_rep))
+        };
+        Ok(Some(Patch { hole: split_hole, entry: split_entry }))
+    }
+
+    fn c_repeat_one_or_more(
+        &mut self,
+        expr: &Hir,
+        greedy: bool,
+    ) -> ResultOrEmpty {
+        let Patch { hole: hole_rep, entry: entry_rep } = match self.c(expr)? {
+            Some(p) => p,
+            None => return Ok(None),
+        };
+        self.fill_to_next(hole_rep);
+        let split = self.push_split_hole();
+
+        let split_hole = if greedy {
+            self.fill_split(split, Some(entry_rep), None)
+        } else {
+            self.fill_split(split, None, Some(entry_rep))
+        };
+        Ok(Some(Patch { hole: split_hole, entry: entry_rep }))
+    }
+
+    fn c_repeat_range_min_or_more(
+        &mut self,
+        expr: &Hir,
+        greedy: bool,
+        min: u32,
+    ) -> ResultOrEmpty {
+        let min = u32_to_usize(min);
+        // Using next_inst() is ok, because we can't return it (concat would
+        // have to return Some(_) while c_repeat_range_min_or_more returns
+        // None).
+        let patch_concat = self
+            .c_concat(iter::repeat(expr).take(min))?
+            .unwrap_or(self.next_inst());
+        if let Some(patch_rep) = self.c_repeat_zero_or_more(expr, greedy)? {
+            self.fill(patch_concat.hole, patch_rep.entry);
+            Ok(Some(Patch { hole: patch_rep.hole, entry: patch_concat.entry }))
+        } else {
+            Ok(None)
+        }
+    }
+
+    fn c_repeat_range(
+        &mut self,
+        expr: &Hir,
+        greedy: bool,
+        min: u32,
+        max: u32,
+    ) -> ResultOrEmpty {
+        let (min, max) = (u32_to_usize(min), u32_to_usize(max));
+        debug_assert!(min <= max);
+        let patch_concat = self.c_concat(iter::repeat(expr).take(min))?;
+        if min == max {
+            return Ok(patch_concat);
+        }
+        // Same reasoning as in c_repeat_range_min_or_more (we know that min <
+        // max at this point).
+        let patch_concat = patch_concat.unwrap_or(self.next_inst());
+        let initial_entry = patch_concat.entry;
+        // It is much simpler to compile, e.g., `a{2,5}` as:
+        //
+        //     aaa?a?a?
+        //
+        // But you end up with a sequence of instructions like this:
+        //
+        //     0: 'a'
+        //     1: 'a',
+        //     2: split(3, 4)
+        //     3: 'a'
+        //     4: split(5, 6)
+        //     5: 'a'
+        //     6: split(7, 8)
+        //     7: 'a'
+        //     8: MATCH
+        //
+        // This is *incredibly* inefficient because the splits end
+        // up forming a chain, which has to be resolved everything a
+        // transition is followed.
+        let mut holes = vec![];
+        let mut prev_hole = patch_concat.hole;
+        for _ in min..max {
+            self.fill_to_next(prev_hole);
+            let split = self.push_split_hole();
+            let Patch { hole, entry } = match self.c(expr)? {
+                Some(p) => p,
+                None => return self.pop_split_hole(),
+            };
+            prev_hole = hole;
+            if greedy {
+                holes.push(self.fill_split(split, Some(entry), None));
+            } else {
+                holes.push(self.fill_split(split, None, Some(entry)));
+            }
+        }
+        holes.push(prev_hole);
+        Ok(Some(Patch { hole: Hole::Many(holes), entry: initial_entry }))
+    }
+
+    /// Can be used as a default value for the c_* functions when the call to
+    /// c_function is followed by inserting at least one instruction that is
+    /// always executed after the ones written by the c* function.
+    fn next_inst(&self) -> Patch {
+        Patch { hole: Hole::None, entry: self.insts.len() }
+    }
+
+    fn fill(&mut self, hole: Hole, goto: InstPtr) {
+        match hole {
+            Hole::None => {}
+            Hole::One(pc) => {
+                self.insts[pc].fill(goto);
+            }
+            Hole::Many(holes) => {
+                for hole in holes {
+                    self.fill(hole, goto);
+                }
+            }
+        }
+    }
+
+    fn fill_to_next(&mut self, hole: Hole) {
+        let next = self.insts.len();
+        self.fill(hole, next);
+    }
+
+    fn fill_split(
+        &mut self,
+        hole: Hole,
+        goto1: Option<InstPtr>,
+        goto2: Option<InstPtr>,
+    ) -> Hole {
+        match hole {
+            Hole::None => Hole::None,
+            Hole::One(pc) => match (goto1, goto2) {
+                (Some(goto1), Some(goto2)) => {
+                    self.insts[pc].fill_split(goto1, goto2);
+                    Hole::None
+                }
+                (Some(goto1), None) => {
+                    self.insts[pc].half_fill_split_goto1(goto1);
+                    Hole::One(pc)
+                }
+                (None, Some(goto2)) => {
+                    self.insts[pc].half_fill_split_goto2(goto2);
+                    Hole::One(pc)
+                }
+                (None, None) => unreachable!(
+                    "at least one of the split \
+                     holes must be filled"
+                ),
+            },
+            Hole::Many(holes) => {
+                let mut new_holes = vec![];
+                for hole in holes {
+                    new_holes.push(self.fill_split(hole, goto1, goto2));
+                }
+                if new_holes.is_empty() {
+                    Hole::None
+                } else if new_holes.len() == 1 {
+                    new_holes.pop().unwrap()
+                } else {
+                    Hole::Many(new_holes)
+                }
+            }
+        }
+    }
+
+    fn push_compiled(&mut self, inst: Inst) {
+        self.insts.push(MaybeInst::Compiled(inst));
+    }
+
+    fn push_hole(&mut self, inst: InstHole) -> Hole {
+        let hole = self.insts.len();
+        self.insts.push(MaybeInst::Uncompiled(inst));
+        Hole::One(hole)
+    }
+
+    fn push_split_hole(&mut self) -> Hole {
+        let hole = self.insts.len();
+        self.insts.push(MaybeInst::Split);
+        Hole::One(hole)
+    }
+
+    fn pop_split_hole(&mut self) -> ResultOrEmpty {
+        self.insts.pop();
+        Ok(None)
+    }
+
+    fn check_size(&self) -> result::Result<(), Error> {
+        use std::mem::size_of;
+
+        let size =
+            self.extra_inst_bytes + (self.insts.len() * size_of::<Inst>());
+        if size > self.size_limit {
+            Err(Error::CompiledTooBig(self.size_limit))
+        } else {
+            Ok(())
+        }
+    }
+}
+
+#[derive(Debug)]
+enum Hole {
+    None,
+    One(InstPtr),
+    Many(Vec<Hole>),
+}
+
+impl Hole {
+    fn dup_one(self) -> (Self, Self) {
+        match self {
+            Hole::One(pc) => (Hole::One(pc), Hole::One(pc)),
+            Hole::None | Hole::Many(_) => {
+                unreachable!("must be called on single hole")
+            }
+        }
+    }
+}
+
+#[derive(Clone, Debug)]
+enum MaybeInst {
+    Compiled(Inst),
+    Uncompiled(InstHole),
+    Split,
+    Split1(InstPtr),
+    Split2(InstPtr),
+}
+
+impl MaybeInst {
+    fn fill(&mut self, goto: InstPtr) {
+        let maybeinst = match *self {
+            MaybeInst::Split => MaybeInst::Split1(goto),
+            MaybeInst::Uncompiled(ref inst) => {
+                MaybeInst::Compiled(inst.fill(goto))
+            }
+            MaybeInst::Split1(goto1) => {
+                MaybeInst::Compiled(Inst::Split(InstSplit {
+                    goto1: goto1,
+                    goto2: goto,
+                }))
+            }
+            MaybeInst::Split2(goto2) => {
+                MaybeInst::Compiled(Inst::Split(InstSplit {
+                    goto1: goto,
+                    goto2: goto2,
+                }))
+            }
+            _ => unreachable!(
+                "not all instructions were compiled! \
+                 found uncompiled instruction: {:?}",
+                self
+            ),
+        };
+        *self = maybeinst;
+    }
+
+    fn fill_split(&mut self, goto1: InstPtr, goto2: InstPtr) {
+        let filled = match *self {
+            MaybeInst::Split => {
+                Inst::Split(InstSplit { goto1: goto1, goto2: goto2 })
+            }
+            _ => unreachable!(
+                "must be called on Split instruction, \
+                 instead it was called on: {:?}",
+                self
+            ),
+        };
+        *self = MaybeInst::Compiled(filled);
+    }
+
+    fn half_fill_split_goto1(&mut self, goto1: InstPtr) {
+        let half_filled = match *self {
+            MaybeInst::Split => goto1,
+            _ => unreachable!(
+                "must be called on Split instruction, \
+                 instead it was called on: {:?}",
+                self
+            ),
+        };
+        *self = MaybeInst::Split1(half_filled);
+    }
+
+    fn half_fill_split_goto2(&mut self, goto2: InstPtr) {
+        let half_filled = match *self {
+            MaybeInst::Split => goto2,
+            _ => unreachable!(
+                "must be called on Split instruction, \
+                 instead it was called on: {:?}",
+                self
+            ),
+        };
+        *self = MaybeInst::Split2(half_filled);
+    }
+
+    fn unwrap(self) -> Inst {
+        match self {
+            MaybeInst::Compiled(inst) => inst,
+            _ => unreachable!(
+                "must be called on a compiled instruction, \
+                 instead it was called on: {:?}",
+                self
+            ),
+        }
+    }
+}
+
+#[derive(Clone, Debug)]
+enum InstHole {
+    Save { slot: usize },
+    EmptyLook { look: EmptyLook },
+    Char { c: char },
+    Ranges { ranges: Vec<(char, char)> },
+    Bytes { start: u8, end: u8 },
+}
+
+impl InstHole {
+    fn fill(&self, goto: InstPtr) -> Inst {
+        match *self {
+            InstHole::Save { slot } => {
+                Inst::Save(InstSave { goto: goto, slot: slot })
+            }
+            InstHole::EmptyLook { look } => {
+                Inst::EmptyLook(InstEmptyLook { goto: goto, look: look })
+            }
+            InstHole::Char { c } => Inst::Char(InstChar { goto: goto, c: c }),
+            InstHole::Ranges { ref ranges } => Inst::Ranges(InstRanges {
+                goto: goto,
+                ranges: ranges.clone().into_boxed_slice(),
+            }),
+            InstHole::Bytes { start, end } => {
+                Inst::Bytes(InstBytes { goto: goto, start: start, end: end })
+            }
+        }
+    }
+}
+
+struct CompileClass<'a, 'b> {
+    c: &'a mut Compiler,
+    ranges: &'b [hir::ClassUnicodeRange],
+}
+
+impl<'a, 'b> CompileClass<'a, 'b> {
+    fn compile(mut self) -> Result {
+        let mut holes = vec![];
+        let mut initial_entry = None;
+        let mut last_split = Hole::None;
+        let mut utf8_seqs = self.c.utf8_seqs.take().unwrap();
+        self.c.suffix_cache.clear();
+
+        for (i, range) in self.ranges.iter().enumerate() {
+            let is_last_range = i + 1 == self.ranges.len();
+            utf8_seqs.reset(range.start(), range.end());
+            let mut it = (&mut utf8_seqs).peekable();
+            loop {
+                let utf8_seq = match it.next() {
+                    None => break,
+                    Some(utf8_seq) => utf8_seq,
+                };
+                if is_last_range && it.peek().is_none() {
+                    let Patch { hole, entry } = self.c_utf8_seq(&utf8_seq)?;
+                    holes.push(hole);
+                    self.c.fill(last_split, entry);
+                    last_split = Hole::None;
+                    if initial_entry.is_none() {
+                        initial_entry = Some(entry);
+                    }
+                } else {
+                    if initial_entry.is_none() {
+                        initial_entry = Some(self.c.insts.len());
+                    }
+                    self.c.fill_to_next(last_split);
+                    last_split = self.c.push_split_hole();
+                    let Patch { hole, entry } = self.c_utf8_seq(&utf8_seq)?;
+                    holes.push(hole);
+                    last_split =
+                        self.c.fill_split(last_split, Some(entry), None);
+                }
+            }
+        }
+        self.c.utf8_seqs = Some(utf8_seqs);
+        Ok(Patch { hole: Hole::Many(holes), entry: initial_entry.unwrap() })
+    }
+
+    fn c_utf8_seq(&mut self, seq: &Utf8Sequence) -> Result {
+        if self.c.compiled.is_reverse {
+            self.c_utf8_seq_(seq)
+        } else {
+            self.c_utf8_seq_(seq.into_iter().rev())
+        }
+    }
+
+    fn c_utf8_seq_<'r, I>(&mut self, seq: I) -> Result
+    where
+        I: IntoIterator<Item = &'r Utf8Range>,
+    {
+        // The initial instruction for each UTF-8 sequence should be the same.
+        let mut from_inst = ::std::usize::MAX;
+        let mut last_hole = Hole::None;
+        for byte_range in seq {
+            let key = SuffixCacheKey {
+                from_inst: from_inst,
+                start: byte_range.start,
+                end: byte_range.end,
+            };
+            {
+                let pc = self.c.insts.len();
+                if let Some(cached_pc) = self.c.suffix_cache.get(key, pc) {
+                    from_inst = cached_pc;
+                    continue;
+                }
+            }
+            self.c.byte_classes.set_range(byte_range.start, byte_range.end);
+            if from_inst == ::std::usize::MAX {
+                last_hole = self.c.push_hole(InstHole::Bytes {
+                    start: byte_range.start,
+                    end: byte_range.end,
+                });
+            } else {
+                self.c.push_compiled(Inst::Bytes(InstBytes {
+                    goto: from_inst,
+                    start: byte_range.start,
+                    end: byte_range.end,
+                }));
+            }
+            from_inst = self.c.insts.len().checked_sub(1).unwrap();
+            debug_assert!(from_inst < ::std::usize::MAX);
+        }
+        debug_assert!(from_inst < ::std::usize::MAX);
+        Ok(Patch { hole: last_hole, entry: from_inst })
+    }
+}
+
+/// `SuffixCache` is a simple bounded hash map for caching suffix entries in
+/// UTF-8 automata. For example, consider the Unicode range \u{0}-\u{FFFF}.
+/// The set of byte ranges looks like this:
+///
+/// [0-7F]
+/// [C2-DF][80-BF]
+/// [E0][A0-BF][80-BF]
+/// [E1-EC][80-BF][80-BF]
+/// [ED][80-9F][80-BF]
+/// [EE-EF][80-BF][80-BF]
+///
+/// Each line above translates to one alternate in the compiled regex program.
+/// However, all but one of the alternates end in the same suffix, which is
+/// a waste of an instruction. The suffix cache facilitates reusing them across
+/// alternates.
+///
+/// Note that a HashMap could be trivially used for this, but we don't need its
+/// overhead. Some small bounded space (LRU style) is more than enough.
+///
+/// This uses similar idea to [`SparseSet`](../sparse/struct.SparseSet.html),
+/// except it uses hashes as original indices and then compares full keys for
+/// validation against `dense` array.
+#[derive(Debug)]
+struct SuffixCache {
+    sparse: Box<[usize]>,
+    dense: Vec<SuffixCacheEntry>,
+}
+
+#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
+struct SuffixCacheEntry {
+    key: SuffixCacheKey,
+    pc: InstPtr,
+}
+
+#[derive(Clone, Copy, Debug, Default, Eq, Hash, PartialEq)]
+struct SuffixCacheKey {
+    from_inst: InstPtr,
+    start: u8,
+    end: u8,
+}
+
+impl SuffixCache {
+    fn new(size: usize) -> Self {
+        SuffixCache {
+            sparse: vec![0usize; size].into(),
+            dense: Vec::with_capacity(size),
+        }
+    }
+
+    fn get(&mut self, key: SuffixCacheKey, pc: InstPtr) -> Option<InstPtr> {
+        let hash = self.hash(&key);
+        let pos = &mut self.sparse[hash];
+        if let Some(entry) = self.dense.get(*pos) {
+            if entry.key == key {
+                return Some(entry.pc);
+            }
+        }
+        *pos = self.dense.len();
+        self.dense.push(SuffixCacheEntry { key: key, pc: pc });
+        None
+    }
+
+    fn clear(&mut self) {
+        self.dense.clear();
+    }
+
+    fn hash(&self, suffix: &SuffixCacheKey) -> usize {
+        // Basic FNV-1a hash as described:
+        // https://en.wikipedia.org/wiki/Fowler%E2%80%93Noll%E2%80%93Vo_hash_function
+        const FNV_PRIME: u64 = 1099511628211;
+        let mut h = 14695981039346656037;
+        h = (h ^ (suffix.from_inst as u64)).wrapping_mul(FNV_PRIME);
+        h = (h ^ (suffix.start as u64)).wrapping_mul(FNV_PRIME);
+        h = (h ^ (suffix.end as u64)).wrapping_mul(FNV_PRIME);
+        (h as usize) % self.sparse.len()
+    }
+}
+
+struct ByteClassSet([bool; 256]);
+
+impl ByteClassSet {
+    fn new() -> Self {
+        ByteClassSet([false; 256])
+    }
+
+    fn set_range(&mut self, start: u8, end: u8) {
+        debug_assert!(start <= end);
+        if start > 0 {
+            self.0[start as usize - 1] = true;
+        }
+        self.0[end as usize] = true;
+    }
+
+    fn set_word_boundary(&mut self) {
+        // We need to mark all ranges of bytes whose pairs result in
+        // evaluating \b differently.
+        let iswb = is_word_byte;
+        let mut b1: u16 = 0;
+        let mut b2: u16;
+        while b1 <= 255 {
+            b2 = b1 + 1;
+            while b2 <= 255 && iswb(b1 as u8) == iswb(b2 as u8) {
+                b2 += 1;
+            }
+            self.set_range(b1 as u8, (b2 - 1) as u8);
+            b1 = b2;
+        }
+    }
+
+    fn byte_classes(&self) -> Vec<u8> {
+        // N.B. If you're debugging the DFA, it's useful to simply return
+        // `(0..256).collect()`, which effectively removes the byte classes
+        // and makes the transitions easier to read.
+        // (0usize..256).map(|x| x as u8).collect()
+        let mut byte_classes = vec![0; 256];
+        let mut class = 0u8;
+        let mut i = 0;
+        loop {
+            byte_classes[i] = class as u8;
+            if i >= 255 {
+                break;
+            }
+            if self.0[i] {
+                class = class.checked_add(1).unwrap();
+            }
+            i += 1;
+        }
+        byte_classes
+    }
+}
+
+impl fmt::Debug for ByteClassSet {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        f.debug_tuple("ByteClassSet").field(&&self.0[..]).finish()
+    }
+}
+
+fn u32_to_usize(n: u32) -> usize {
+    // In case usize is less than 32 bits, we need to guard against overflow.
+    // On most platforms this compiles to nothing.
+    // TODO Use `std::convert::TryFrom` once it's stable.
+    if (n as u64) > (::std::usize::MAX as u64) {
+        panic!("BUG: {} is too big to be pointer sized", n)
+    }
+    n as usize
+}
+
+#[cfg(test)]
+mod tests {
+    use super::ByteClassSet;
+
+    #[test]
+    fn byte_classes() {
+        let mut set = ByteClassSet::new();
+        set.set_range(b'a', b'z');
+        let classes = set.byte_classes();
+        assert_eq!(classes[0], 0);
+        assert_eq!(classes[1], 0);
+        assert_eq!(classes[2], 0);
+        assert_eq!(classes[b'a' as usize - 1], 0);
+        assert_eq!(classes[b'a' as usize], 1);
+        assert_eq!(classes[b'm' as usize], 1);
+        assert_eq!(classes[b'z' as usize], 1);
+        assert_eq!(classes[b'z' as usize + 1], 2);
+        assert_eq!(classes[254], 2);
+        assert_eq!(classes[255], 2);
+
+        let mut set = ByteClassSet::new();
+        set.set_range(0, 2);
+        set.set_range(4, 6);
+        let classes = set.byte_classes();
+        assert_eq!(classes[0], 0);
+        assert_eq!(classes[1], 0);
+        assert_eq!(classes[2], 0);
+        assert_eq!(classes[3], 1);
+        assert_eq!(classes[4], 2);
+        assert_eq!(classes[5], 2);
+        assert_eq!(classes[6], 2);
+        assert_eq!(classes[7], 3);
+        assert_eq!(classes[255], 3);
+    }
+
+    #[test]
+    fn full_byte_classes() {
+        let mut set = ByteClassSet::new();
+        for i in 0..256u16 {
+            set.set_range(i as u8, i as u8);
+        }
+        assert_eq!(set.byte_classes().len(), 256);
+    }
+}
diff --git a/vendor/regex/src/dfa.rs b/vendor/regex/src/dfa.rs
new file mode 100644
index 000000000..4aee8039c
--- /dev/null
+++ b/vendor/regex/src/dfa.rs
@@ -0,0 +1,1949 @@
+/*!
+The DFA matching engine.
+
+A DFA provides faster matching because the engine is in exactly one state at
+any point in time. In the NFA, there may be multiple active states, and
+considerable CPU cycles are spent shuffling them around. In finite automata
+speak, the DFA follows epsilon transitions in the regex far less than the NFA.
+
+A DFA is a classic trade off between time and space. The NFA is slower, but
+its memory requirements are typically small and predictable. The DFA is faster,
+but given the right regex and the right input, the number of states in the
+DFA can grow exponentially. To mitigate this space problem, we do two things:
+
+1. We implement an *online* DFA. That is, the DFA is constructed from the NFA
+   during a search. When a new state is computed, it is stored in a cache so
+   that it may be reused. An important consequence of this implementation
+   is that states that are never reached for a particular input are never
+   computed. (This is impossible in an "offline" DFA which needs to compute
+   all possible states up front.)
+2. If the cache gets too big, we wipe it and continue matching.
+
+In pathological cases, a new state can be created for every byte of input.
+(e.g., The regex `(a|b)*a(a|b){20}` on a long sequence of a's and b's.)
+In this case, performance regresses to slightly slower than the full NFA
+simulation, in large part because the cache becomes useless. If the cache
+is wiped too frequently, the DFA quits and control falls back to one of the
+NFA simulations.
+
+Because of the "lazy" nature of this DFA, the inner matching loop is
+considerably more complex than one might expect out of a DFA. A number of
+tricks are employed to make it fast. Tread carefully.
+
+N.B. While this implementation is heavily commented, Russ Cox's series of
+articles on regexes is strongly recommended: https://swtch.com/~rsc/regexp/
+(As is the DFA implementation in RE2, which heavily influenced this
+implementation.)
+*/
+
+use std::collections::HashMap;
+use std::fmt;
+use std::iter::repeat;
+use std::mem;
+use std::sync::Arc;
+
+use crate::exec::ProgramCache;
+use crate::prog::{Inst, Program};
+use crate::sparse::SparseSet;
+
+/// Return true if and only if the given program can be executed by a DFA.
+///
+/// Generally, a DFA is always possible. A pathological case where it is not
+/// possible is if the number of NFA states exceeds `u32::MAX`, in which case,
+/// this function will return false.
+///
+/// This function will also return false if the given program has any Unicode
+/// instructions (Char or Ranges) since the DFA operates on bytes only.
+pub fn can_exec(insts: &Program) -> bool {
+    use crate::prog::Inst::*;
+    // If for some reason we manage to allocate a regex program with more
+    // than i32::MAX instructions, then we can't execute the DFA because we
+    // use 32 bit instruction pointer deltas for memory savings.
+    // If i32::MAX is the largest positive delta,
+    // then -i32::MAX == i32::MIN + 1 is the largest negative delta,
+    // and we are OK to use 32 bits.
+    if insts.dfa_size_limit == 0 || insts.len() > ::std::i32::MAX as usize {
+        return false;
+    }
+    for inst in insts {
+        match *inst {
+            Char(_) | Ranges(_) => return false,
+            EmptyLook(_) | Match(_) | Save(_) | Split(_) | Bytes(_) => {}
+        }
+    }
+    true
+}
+
+/// A reusable cache of DFA states.
+///
+/// This cache is reused between multiple invocations of the same regex
+/// program. (It is not shared simultaneously between threads. If there is
+/// contention, then new caches are created.)
+#[derive(Debug)]
+pub struct Cache {
+    /// Group persistent DFA related cache state together. The sparse sets
+    /// listed below are used as scratch space while computing uncached states.
+    inner: CacheInner,
+    /// qcur and qnext are ordered sets with constant time
+    /// addition/membership/clearing-whole-set and linear time iteration. They
+    /// are used to manage the sets of NFA states in DFA states when computing
+    /// cached DFA states. In particular, the order of the NFA states matters
+    /// for leftmost-first style matching. Namely, when computing a cached
+    /// state, the set of NFA states stops growing as soon as the first Match
+    /// instruction is observed.
+    qcur: SparseSet,
+    qnext: SparseSet,
+}
+
+/// `CacheInner` is logically just a part of Cache, but groups together fields
+/// that aren't passed as function parameters throughout search. (This split
+/// is mostly an artifact of the borrow checker. It is happily paid.)
+#[derive(Debug)]
+struct CacheInner {
+    /// A cache of pre-compiled DFA states, keyed by the set of NFA states
+    /// and the set of empty-width flags set at the byte in the input when the
+    /// state was observed.
+    ///
+    /// A StatePtr is effectively a `*State`, but to avoid various inconvenient
+    /// things, we just pass indexes around manually. The performance impact of
+    /// this is probably an instruction or two in the inner loop. However, on
+    /// 64 bit, each StatePtr is half the size of a *State.
+    compiled: StateMap,
+    /// The transition table.
+    ///
+    /// The transition table is laid out in row-major order, where states are
+    /// rows and the transitions for each state are columns. At a high level,
+    /// given state `s` and byte `b`, the next state can be found at index
+    /// `s * 256 + b`.
+    ///
+    /// This is, of course, a lie. A StatePtr is actually a pointer to the
+    /// *start* of a row in this table. When indexing in the DFA's inner loop,
+    /// this removes the need to multiply the StatePtr by the stride. Yes, it
+    /// matters. This reduces the number of states we can store, but: the
+    /// stride is rarely 256 since we define transitions in terms of
+    /// *equivalence classes* of bytes. Each class corresponds to a set of
+    /// bytes that never discriminate a distinct path through the DFA from each
+    /// other.
+    trans: Transitions,
+    /// A set of cached start states, which are limited to the number of
+    /// permutations of flags set just before the initial byte of input. (The
+    /// index into this vec is a `EmptyFlags`.)
+    ///
+    /// N.B. A start state can be "dead" (i.e., no possible match), so we
+    /// represent it with a StatePtr.
+    start_states: Vec<StatePtr>,
+    /// Stack scratch space used to follow epsilon transitions in the NFA.
+    /// (This permits us to avoid recursion.)
+    ///
+    /// The maximum stack size is the number of NFA states.
+    stack: Vec<InstPtr>,
+    /// The total number of times this cache has been flushed by the DFA
+    /// because of space constraints.
+    flush_count: u64,
+    /// The total heap size of the DFA's cache. We use this to determine when
+    /// we should flush the cache.
+    size: usize,
+    /// Scratch space used when building instruction pointer lists for new
+    /// states. This helps amortize allocation.
+    insts_scratch_space: Vec<u8>,
+}
+
+/// The transition table.
+///
+/// It is laid out in row-major order, with states as rows and byte class
+/// transitions as columns.
+///
+/// The transition table is responsible for producing valid `StatePtrs`. A
+/// `StatePtr` points to the start of a particular row in this table. When
+/// indexing to find the next state this allows us to avoid a multiplication
+/// when computing an index into the table.
+#[derive(Clone)]
+struct Transitions {
+    /// The table.
+    table: Vec<StatePtr>,
+    /// The stride.
+    num_byte_classes: usize,
+}
+
+/// Fsm encapsulates the actual execution of the DFA.
+#[derive(Debug)]
+pub struct Fsm<'a> {
+    /// prog contains the NFA instruction opcodes. DFA execution uses either
+    /// the `dfa` instructions or the `dfa_reverse` instructions from
+    /// `exec::ExecReadOnly`. (It never uses `ExecReadOnly.nfa`, which may have
+    /// Unicode opcodes that cannot be executed by the DFA.)
+    prog: &'a Program,
+    /// The start state. We record it here because the pointer may change
+    /// when the cache is wiped.
+    start: StatePtr,
+    /// The current position in the input.
+    at: usize,
+    /// Should we quit after seeing the first match? e.g., When the caller
+    /// uses `is_match` or `shortest_match`.
+    quit_after_match: bool,
+    /// The last state that matched.
+    ///
+    /// When no match has occurred, this is set to STATE_UNKNOWN.
+    ///
+    /// This is only useful when matching regex sets. The last match state
+    /// is useful because it contains all of the match instructions seen,
+    /// thereby allowing us to enumerate which regexes in the set matched.
+    last_match_si: StatePtr,
+    /// The input position of the last cache flush. We use this to determine
+    /// if we're thrashing in the cache too often. If so, the DFA quits so
+    /// that we can fall back to the NFA algorithm.
+    last_cache_flush: usize,
+    /// All cached DFA information that is persisted between searches.
+    cache: &'a mut CacheInner,
+}
+
+/// The result of running the DFA.
+///
+/// Generally, the result is either a match or not a match, but sometimes the
+/// DFA runs too slowly because the cache size is too small. In that case, it
+/// gives up with the intent of falling back to the NFA algorithm.
+///
+/// The DFA can also give up if it runs out of room to create new states, or if
+/// it sees non-ASCII bytes in the presence of a Unicode word boundary.
+#[derive(Clone, Debug)]
+pub enum Result<T> {
+    Match(T),
+    NoMatch(usize),
+    Quit,
+}
+
+impl<T> Result<T> {
+    /// Returns true if this result corresponds to a match.
+    pub fn is_match(&self) -> bool {
+        match *self {
+            Result::Match(_) => true,
+            Result::NoMatch(_) | Result::Quit => false,
+        }
+    }
+
+    /// Maps the given function onto T and returns the result.
+    ///
+    /// If this isn't a match, then this is a no-op.
+    #[cfg(feature = "perf-literal")]
+    pub fn map<U, F: FnMut(T) -> U>(self, mut f: F) -> Result<U> {
+        match self {
+            Result::Match(t) => Result::Match(f(t)),
+            Result::NoMatch(x) => Result::NoMatch(x),
+            Result::Quit => Result::Quit,
+        }
+    }
+
+    /// Sets the non-match position.
+    ///
+    /// If this isn't a non-match, then this is a no-op.
+    fn set_non_match(self, at: usize) -> Result<T> {
+        match self {
+            Result::NoMatch(_) => Result::NoMatch(at),
+            r => r,
+        }
+    }
+}
+
+/// `State` is a DFA state. It contains an ordered set of NFA states (not
+/// necessarily complete) and a smattering of flags.
+///
+/// The flags are packed into the first byte of data.
+///
+/// States don't carry their transitions. Instead, transitions are stored in
+/// a single row-major table.
+///
+/// Delta encoding is used to store the instruction pointers.
+/// The first instruction pointer is stored directly starting
+/// at data[1], and each following pointer is stored as an offset
+/// to the previous one. If a delta is in the range -127..127,
+/// it is packed into a single byte; Otherwise the byte 128 (-128 as an i8)
+/// is coded as a flag, followed by 4 bytes encoding the delta.
+#[derive(Clone, Eq, Hash, PartialEq)]
+struct State {
+    data: Arc<[u8]>,
+}
+
+/// `InstPtr` is a 32 bit pointer into a sequence of opcodes (i.e., it indexes
+/// an NFA state).
+///
+/// Throughout this library, this is usually set to `usize`, but we force a
+/// `u32` here for the DFA to save on space.
+type InstPtr = u32;
+
+/// Adds ip to data using delta encoding with respect to prev.
+///
+/// After completion, `data` will contain `ip` and `prev` will be set to `ip`.
+fn push_inst_ptr(data: &mut Vec<u8>, prev: &mut InstPtr, ip: InstPtr) {
+    let delta = (ip as i32) - (*prev as i32);
+    write_vari32(data, delta);
+    *prev = ip;
+}
+
+struct InstPtrs<'a> {
+    base: usize,
+    data: &'a [u8],
+}
+
+impl<'a> Iterator for InstPtrs<'a> {
+    type Item = usize;
+
+    fn next(&mut self) -> Option<usize> {
+        if self.data.is_empty() {
+            return None;
+        }
+        let (delta, nread) = read_vari32(self.data);
+        let base = self.base as i32 + delta;
+        debug_assert!(base >= 0);
+        debug_assert!(nread > 0);
+        self.data = &self.data[nread..];
+        self.base = base as usize;
+        Some(self.base)
+    }
+}
+
+impl State {
+    fn flags(&self) -> StateFlags {
+        StateFlags(self.data[0])
+    }
+
+    fn inst_ptrs(&self) -> InstPtrs<'_> {
+        InstPtrs { base: 0, data: &self.data[1..] }
+    }
+}
+
+/// `StatePtr` is a 32 bit pointer to the start of a row in the transition
+/// table.
+///
+/// It has many special values. There are two types of special values:
+/// sentinels and flags.
+///
+/// Sentinels corresponds to special states that carry some kind of
+/// significance. There are three such states: unknown, dead and quit states.
+///
+/// Unknown states are states that haven't been computed yet. They indicate
+/// that a transition should be filled in that points to either an existing
+/// cached state or a new state altogether. In general, an unknown state means
+/// "follow the NFA's epsilon transitions."
+///
+/// Dead states are states that can never lead to a match, no matter what
+/// subsequent input is observed. This means that the DFA should quit
+/// immediately and return the longest match it has found thus far.
+///
+/// Quit states are states that imply the DFA is not capable of matching the
+/// regex correctly. Currently, this is only used when a Unicode word boundary
+/// exists in the regex *and* a non-ASCII byte is observed.
+///
+/// The other type of state pointer is a state pointer with special flag bits.
+/// There are two flags: a start flag and a match flag. The lower bits of both
+/// kinds always contain a "valid" `StatePtr` (indicated by the `STATE_MAX`
+/// mask).
+///
+/// The start flag means that the state is a start state, and therefore may be
+/// subject to special prefix scanning optimizations.
+///
+/// The match flag means that the state is a match state, and therefore the
+/// current position in the input (while searching) should be recorded.
+///
+/// The above exists mostly in the service of making the inner loop fast.
+/// In particular, the inner *inner* loop looks something like this:
+///
+/// ```ignore
+/// while state <= STATE_MAX and i < len(text):
+///     state = state.next[i]
+/// ```
+///
+/// This is nice because it lets us execute a lazy DFA as if it were an
+/// entirely offline DFA (i.e., with very few instructions). The loop will
+/// quit only when we need to examine a case that needs special attention.
+type StatePtr = u32;
+
+/// An unknown state means that the state has not been computed yet, and that
+/// the only way to progress is to compute it.
+const STATE_UNKNOWN: StatePtr = 1 << 31;
+
+/// A dead state means that the state has been computed and it is known that
+/// once it is entered, no future match can ever occur.
+const STATE_DEAD: StatePtr = STATE_UNKNOWN + 1;
+
+/// A quit state means that the DFA came across some input that it doesn't
+/// know how to process correctly. The DFA should quit and another matching
+/// engine should be run in its place.
+const STATE_QUIT: StatePtr = STATE_DEAD + 1;
+
+/// A start state is a state that the DFA can start in.
+///
+/// Note that start states have their lower bits set to a state pointer.
+const STATE_START: StatePtr = 1 << 30;
+
+/// A match state means that the regex has successfully matched.
+///
+/// Note that match states have their lower bits set to a state pointer.
+const STATE_MATCH: StatePtr = 1 << 29;
+
+/// The maximum state pointer. This is useful to mask out the "valid" state
+/// pointer from a state with the "start" or "match" bits set.
+///
+/// It doesn't make sense to use this with unknown, dead or quit state
+/// pointers, since those pointers are sentinels and never have their lower
+/// bits set to anything meaningful.
+const STATE_MAX: StatePtr = STATE_MATCH - 1;
+
+/// Byte is a u8 in spirit, but a u16 in practice so that we can represent the
+/// special EOF sentinel value.
+#[derive(Copy, Clone, Debug)]
+struct Byte(u16);
+
+/// A set of flags for zero-width assertions.
+#[derive(Clone, Copy, Eq, Debug, Default, Hash, PartialEq)]
+struct EmptyFlags {
+    start: bool,
+    end: bool,
+    start_line: bool,
+    end_line: bool,
+    word_boundary: bool,
+    not_word_boundary: bool,
+}
+
+/// A set of flags describing various configurations of a DFA state. This is
+/// represented by a `u8` so that it is compact.
+#[derive(Clone, Copy, Eq, Default, Hash, PartialEq)]
+struct StateFlags(u8);
+
+impl Cache {
+    /// Create new empty cache for the DFA engine.
+    pub fn new(prog: &Program) -> Self {
+        // We add 1 to account for the special EOF byte.
+        let num_byte_classes = (prog.byte_classes[255] as usize + 1) + 1;
+        let starts = vec![STATE_UNKNOWN; 256];
+        let mut cache = Cache {
+            inner: CacheInner {
+                compiled: StateMap::new(num_byte_classes),
+                trans: Transitions::new(num_byte_classes),
+                start_states: starts,
+                stack: vec![],
+                flush_count: 0,
+                size: 0,
+                insts_scratch_space: vec![],
+            },
+            qcur: SparseSet::new(prog.insts.len()),
+            qnext: SparseSet::new(prog.insts.len()),
+        };
+        cache.inner.reset_size();
+        cache
+    }
+}
+
+impl CacheInner {
+    /// Resets the cache size to account for fixed costs, such as the program
+    /// and stack sizes.
+    fn reset_size(&mut self) {
+        self.size = (self.start_states.len() * mem::size_of::<StatePtr>())
+            + (self.stack.len() * mem::size_of::<InstPtr>());
+    }
+}
+
+impl<'a> Fsm<'a> {
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn forward(
+        prog: &'a Program,
+        cache: &ProgramCache,
+        quit_after_match: bool,
+        text: &[u8],
+        at: usize,
+    ) -> Result<usize> {
+        let mut cache = cache.borrow_mut();
+        let cache = &mut cache.dfa;
+        let mut dfa = Fsm {
+            prog: prog,
+            start: 0, // filled in below
+            at: at,
+            quit_after_match: quit_after_match,
+            last_match_si: STATE_UNKNOWN,
+            last_cache_flush: at,
+            cache: &mut cache.inner,
+        };
+        let (empty_flags, state_flags) = dfa.start_flags(text, at);
+        dfa.start =
+            match dfa.start_state(&mut cache.qcur, empty_flags, state_flags) {
+                None => return Result::Quit,
+                Some(STATE_DEAD) => return Result::NoMatch(at),
+                Some(si) => si,
+            };
+        debug_assert!(dfa.start != STATE_UNKNOWN);
+        dfa.exec_at(&mut cache.qcur, &mut cache.qnext, text)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn reverse(
+        prog: &'a Program,
+        cache: &ProgramCache,
+        quit_after_match: bool,
+        text: &[u8],
+        at: usize,
+    ) -> Result<usize> {
+        let mut cache = cache.borrow_mut();
+        let cache = &mut cache.dfa_reverse;
+        let mut dfa = Fsm {
+            prog: prog,
+            start: 0, // filled in below
+            at: at,
+            quit_after_match: quit_after_match,
+            last_match_si: STATE_UNKNOWN,
+            last_cache_flush: at,
+            cache: &mut cache.inner,
+        };
+        let (empty_flags, state_flags) = dfa.start_flags_reverse(text, at);
+        dfa.start =
+            match dfa.start_state(&mut cache.qcur, empty_flags, state_flags) {
+                None => return Result::Quit,
+                Some(STATE_DEAD) => return Result::NoMatch(at),
+                Some(si) => si,
+            };
+        debug_assert!(dfa.start != STATE_UNKNOWN);
+        dfa.exec_at_reverse(&mut cache.qcur, &mut cache.qnext, text)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn forward_many(
+        prog: &'a Program,
+        cache: &ProgramCache,
+        matches: &mut [bool],
+        text: &[u8],
+        at: usize,
+    ) -> Result<usize> {
+        debug_assert!(matches.len() == prog.matches.len());
+        let mut cache = cache.borrow_mut();
+        let cache = &mut cache.dfa;
+        let mut dfa = Fsm {
+            prog: prog,
+            start: 0, // filled in below
+            at: at,
+            quit_after_match: false,
+            last_match_si: STATE_UNKNOWN,
+            last_cache_flush: at,
+            cache: &mut cache.inner,
+        };
+        let (empty_flags, state_flags) = dfa.start_flags(text, at);
+        dfa.start =
+            match dfa.start_state(&mut cache.qcur, empty_flags, state_flags) {
+                None => return Result::Quit,
+                Some(STATE_DEAD) => return Result::NoMatch(at),
+                Some(si) => si,
+            };
+        debug_assert!(dfa.start != STATE_UNKNOWN);
+        let result = dfa.exec_at(&mut cache.qcur, &mut cache.qnext, text);
+        if result.is_match() {
+            if matches.len() == 1 {
+                matches[0] = true;
+            } else {
+                debug_assert!(dfa.last_match_si != STATE_UNKNOWN);
+                debug_assert!(dfa.last_match_si != STATE_DEAD);
+                for ip in dfa.state(dfa.last_match_si).inst_ptrs() {
+                    if let Inst::Match(slot) = dfa.prog[ip] {
+                        matches[slot] = true;
+                    }
+                }
+            }
+        }
+        result
+    }
+
+    /// Executes the DFA on a forward NFA.
+    ///
+    /// {qcur,qnext} are scratch ordered sets which may be non-empty.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn exec_at(
+        &mut self,
+        qcur: &mut SparseSet,
+        qnext: &mut SparseSet,
+        text: &[u8],
+    ) -> Result<usize> {
+        // For the most part, the DFA is basically:
+        //
+        //   last_match = null
+        //   while current_byte != EOF:
+        //     si = current_state.next[current_byte]
+        //     if si is match
+        //       last_match = si
+        //   return last_match
+        //
+        // However, we need to deal with a few things:
+        //
+        //   1. This is an *online* DFA, so the current state's next list
+        //      may not point to anywhere yet, so we must go out and compute
+        //      them. (They are then cached into the current state's next list
+        //      to avoid re-computation.)
+        //   2. If we come across a state that is known to be dead (i.e., never
+        //      leads to a match), then we can quit early.
+        //   3. If the caller just wants to know if a match occurs, then we
+        //      can quit as soon as we know we have a match. (Full leftmost
+        //      first semantics require continuing on.)
+        //   4. If we're in the start state, then we can use a pre-computed set
+        //      of prefix literals to skip quickly along the input.
+        //   5. After the input is exhausted, we run the DFA on one symbol
+        //      that stands for EOF. This is useful for handling empty width
+        //      assertions.
+        //   6. We can't actually do state.next[byte]. Instead, we have to do
+        //      state.next[byte_classes[byte]], which permits us to keep the
+        //      'next' list very small.
+        //
+        // Since there's a bunch of extra stuff we need to consider, we do some
+        // pretty hairy tricks to get the inner loop to run as fast as
+        // possible.
+        debug_assert!(!self.prog.is_reverse);
+
+        // The last match is the currently known ending match position. It is
+        // reported as an index to the most recent byte that resulted in a
+        // transition to a match state and is always stored in capture slot `1`
+        // when searching forwards. Its maximum value is `text.len()`.
+        let mut result = Result::NoMatch(self.at);
+        let (mut prev_si, mut next_si) = (self.start, self.start);
+        let mut at = self.at;
+        while at < text.len() {
+            // This is the real inner loop. We take advantage of special bits
+            // set in the state pointer to determine whether a state is in the
+            // "common" case or not. Specifically, the common case is a
+            // non-match non-start non-dead state that has already been
+            // computed. So long as we remain in the common case, this inner
+            // loop will chew through the input.
+            //
+            // We also unroll the loop 4 times to amortize the cost of checking
+            // whether we've consumed the entire input. We are also careful
+            // to make sure that `prev_si` always represents the previous state
+            // and `next_si` always represents the next state after the loop
+            // exits, even if it isn't always true inside the loop.
+            while next_si <= STATE_MAX && at < text.len() {
+                // Argument for safety is in the definition of next_si.
+                prev_si = unsafe { self.next_si(next_si, text, at) };
+                at += 1;
+                if prev_si > STATE_MAX || at + 2 >= text.len() {
+                    mem::swap(&mut prev_si, &mut next_si);
+                    break;
+                }
+                next_si = unsafe { self.next_si(prev_si, text, at) };
+                at += 1;
+                if next_si > STATE_MAX {
+                    break;
+                }
+                prev_si = unsafe { self.next_si(next_si, text, at) };
+                at += 1;
+                if prev_si > STATE_MAX {
+                    mem::swap(&mut prev_si, &mut next_si);
+                    break;
+                }
+                next_si = unsafe { self.next_si(prev_si, text, at) };
+                at += 1;
+            }
+            if next_si & STATE_MATCH > 0 {
+                // A match state is outside of the common case because it needs
+                // special case analysis. In particular, we need to record the
+                // last position as having matched and possibly quit the DFA if
+                // we don't need to keep matching.
+                next_si &= !STATE_MATCH;
+                result = Result::Match(at - 1);
+                if self.quit_after_match {
+                    return result;
+                }
+                self.last_match_si = next_si;
+                prev_si = next_si;
+
+                // This permits short-circuiting when matching a regex set.
+                // In particular, if this DFA state contains only match states,
+                // then it's impossible to extend the set of matches since
+                // match states are final. Therefore, we can quit.
+                if self.prog.matches.len() > 1 {
+                    let state = self.state(next_si);
+                    let just_matches =
+                        state.inst_ptrs().all(|ip| self.prog[ip].is_match());
+                    if just_matches {
+                        return result;
+                    }
+                }
+
+                // Another inner loop! If the DFA stays in this particular
+                // match state, then we can rip through all of the input
+                // very quickly, and only recording the match location once
+                // we've left this particular state.
+                let cur = at;
+                while (next_si & !STATE_MATCH) == prev_si
+                    && at + 2 < text.len()
+                {
+                    // Argument for safety is in the definition of next_si.
+                    next_si = unsafe {
+                        self.next_si(next_si & !STATE_MATCH, text, at)
+                    };
+                    at += 1;
+                }
+                if at > cur {
+                    result = Result::Match(at - 2);
+                }
+            } else if next_si & STATE_START > 0 {
+                // A start state isn't in the common case because we may
+                // want to do quick prefix scanning. If the program doesn't
+                // have a detected prefix, then start states are actually
+                // considered common and this case is never reached.
+                debug_assert!(self.has_prefix());
+                next_si &= !STATE_START;
+                prev_si = next_si;
+                at = match self.prefix_at(text, at) {
+                    None => return Result::NoMatch(text.len()),
+                    Some(i) => i,
+                };
+            } else if next_si >= STATE_UNKNOWN {
+                if next_si == STATE_QUIT {
+                    return Result::Quit;
+                }
+                // Finally, this corresponds to the case where the transition
+                // entered a state that can never lead to a match or a state
+                // that hasn't been computed yet. The latter being the "slow"
+                // path.
+                let byte = Byte::byte(text[at - 1]);
+                // We no longer care about the special bits in the state
+                // pointer.
+                prev_si &= STATE_MAX;
+                // Record where we are. This is used to track progress for
+                // determining whether we should quit if we've flushed the
+                // cache too much.
+                self.at = at;
+                next_si = match self.next_state(qcur, qnext, prev_si, byte) {
+                    None => return Result::Quit,
+                    Some(STATE_DEAD) => return result.set_non_match(at),
+                    Some(si) => si,
+                };
+                debug_assert!(next_si != STATE_UNKNOWN);
+                if next_si & STATE_MATCH > 0 {
+                    next_si &= !STATE_MATCH;
+                    result = Result::Match(at - 1);
+                    if self.quit_after_match {
+                        return result;
+                    }
+                    self.last_match_si = next_si;
+                }
+                prev_si = next_si;
+            } else {
+                prev_si = next_si;
+            }
+        }
+
+        // Run the DFA once more on the special EOF sentinel value.
+        // We don't care about the special bits in the state pointer any more,
+        // so get rid of them.
+        prev_si &= STATE_MAX;
+        prev_si = match self.next_state(qcur, qnext, prev_si, Byte::eof()) {
+            None => return Result::Quit,
+            Some(STATE_DEAD) => return result.set_non_match(text.len()),
+            Some(si) => si & !STATE_START,
+        };
+        debug_assert!(prev_si != STATE_UNKNOWN);
+        if prev_si & STATE_MATCH > 0 {
+            prev_si &= !STATE_MATCH;
+            self.last_match_si = prev_si;
+            result = Result::Match(text.len());
+        }
+        result
+    }
+
+    /// Executes the DFA on a reverse NFA.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn exec_at_reverse(
+        &mut self,
+        qcur: &mut SparseSet,
+        qnext: &mut SparseSet,
+        text: &[u8],
+    ) -> Result<usize> {
+        // The comments in `exec_at` above mostly apply here too. The main
+        // difference is that we move backwards over the input and we look for
+        // the longest possible match instead of the leftmost-first match.
+        //
+        // N.B. The code duplication here is regrettable. Efforts to improve
+        // it without sacrificing performance are welcome. ---AG
+        debug_assert!(self.prog.is_reverse);
+        let mut result = Result::NoMatch(self.at);
+        let (mut prev_si, mut next_si) = (self.start, self.start);
+        let mut at = self.at;
+        while at > 0 {
+            while next_si <= STATE_MAX && at > 0 {
+                // Argument for safety is in the definition of next_si.
+                at -= 1;
+                prev_si = unsafe { self.next_si(next_si, text, at) };
+                if prev_si > STATE_MAX || at <= 4 {
+                    mem::swap(&mut prev_si, &mut next_si);
+                    break;
+                }
+                at -= 1;
+                next_si = unsafe { self.next_si(prev_si, text, at) };
+                if next_si > STATE_MAX {
+                    break;
+                }
+                at -= 1;
+                prev_si = unsafe { self.next_si(next_si, text, at) };
+                if prev_si > STATE_MAX {
+                    mem::swap(&mut prev_si, &mut next_si);
+                    break;
+                }
+                at -= 1;
+                next_si = unsafe { self.next_si(prev_si, text, at) };
+            }
+            if next_si & STATE_MATCH > 0 {
+                next_si &= !STATE_MATCH;
+                result = Result::Match(at + 1);
+                if self.quit_after_match {
+                    return result;
+                }
+                self.last_match_si = next_si;
+                prev_si = next_si;
+                let cur = at;
+                while (next_si & !STATE_MATCH) == prev_si && at >= 2 {
+                    // Argument for safety is in the definition of next_si.
+                    at -= 1;
+                    next_si = unsafe {
+                        self.next_si(next_si & !STATE_MATCH, text, at)
+                    };
+                }
+                if at < cur {
+                    result = Result::Match(at + 2);
+                }
+            } else if next_si >= STATE_UNKNOWN {
+                if next_si == STATE_QUIT {
+                    return Result::Quit;
+                }
+                let byte = Byte::byte(text[at]);
+                prev_si &= STATE_MAX;
+                self.at = at;
+                next_si = match self.next_state(qcur, qnext, prev_si, byte) {
+                    None => return Result::Quit,
+                    Some(STATE_DEAD) => return result.set_non_match(at),
+                    Some(si) => si,
+                };
+                debug_assert!(next_si != STATE_UNKNOWN);
+                if next_si & STATE_MATCH > 0 {
+                    next_si &= !STATE_MATCH;
+                    result = Result::Match(at + 1);
+                    if self.quit_after_match {
+                        return result;
+                    }
+                    self.last_match_si = next_si;
+                }
+                prev_si = next_si;
+            } else {
+                prev_si = next_si;
+            }
+        }
+
+        // Run the DFA once more on the special EOF sentinel value.
+        prev_si = match self.next_state(qcur, qnext, prev_si, Byte::eof()) {
+            None => return Result::Quit,
+            Some(STATE_DEAD) => return result.set_non_match(0),
+            Some(si) => si,
+        };
+        debug_assert!(prev_si != STATE_UNKNOWN);
+        if prev_si & STATE_MATCH > 0 {
+            prev_si &= !STATE_MATCH;
+            self.last_match_si = prev_si;
+            result = Result::Match(0);
+        }
+        result
+    }
+
+    /// next_si transitions to the next state, where the transition input
+    /// corresponds to text[i].
+    ///
+    /// This elides bounds checks, and is therefore not safe.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    unsafe fn next_si(&self, si: StatePtr, text: &[u8], i: usize) -> StatePtr {
+        // What is the argument for safety here?
+        // We have three unchecked accesses that could possibly violate safety:
+        //
+        //   1. The given byte of input (`text[i]`).
+        //   2. The class of the byte of input (`classes[text[i]]`).
+        //   3. The transition for the class (`trans[si + cls]`).
+        //
+        // (1) is only safe when calling next_si is guarded by
+        // `i < text.len()`.
+        //
+        // (2) is the easiest case to guarantee since `text[i]` is always a
+        // `u8` and `self.prog.byte_classes` always has length `u8::MAX`.
+        // (See `ByteClassSet.byte_classes` in `compile.rs`.)
+        //
+        // (3) is only safe if (1)+(2) are safe. Namely, the transitions
+        // of every state are defined to have length equal to the number of
+        // byte classes in the program. Therefore, a valid class leads to a
+        // valid transition. (All possible transitions are valid lookups, even
+        // if it points to a state that hasn't been computed yet.) (3) also
+        // relies on `si` being correct, but StatePtrs should only ever be
+        // retrieved from the transition table, which ensures they are correct.
+        debug_assert!(i < text.len());
+        let b = *text.get_unchecked(i);
+        debug_assert!((b as usize) < self.prog.byte_classes.len());
+        let cls = *self.prog.byte_classes.get_unchecked(b as usize);
+        self.cache.trans.next_unchecked(si, cls as usize)
+    }
+
+    /// Computes the next state given the current state and the current input
+    /// byte (which may be EOF).
+    ///
+    /// If STATE_DEAD is returned, then there is no valid state transition.
+    /// This implies that no permutation of future input can lead to a match
+    /// state.
+    ///
+    /// STATE_UNKNOWN can never be returned.
+    fn exec_byte(
+        &mut self,
+        qcur: &mut SparseSet,
+        qnext: &mut SparseSet,
+        mut si: StatePtr,
+        b: Byte,
+    ) -> Option<StatePtr> {
+        use crate::prog::Inst::*;
+
+        // Initialize a queue with the current DFA state's NFA states.
+        qcur.clear();
+        for ip in self.state(si).inst_ptrs() {
+            qcur.insert(ip);
+        }
+
+        // Before inspecting the current byte, we may need to also inspect
+        // whether the position immediately preceding the current byte
+        // satisfies the empty assertions found in the current state.
+        //
+        // We only need to do this step if there are any empty assertions in
+        // the current state.
+        let is_word_last = self.state(si).flags().is_word();
+        let is_word = b.is_ascii_word();
+        if self.state(si).flags().has_empty() {
+            // Compute the flags immediately preceding the current byte.
+            // This means we only care about the "end" or "end line" flags.
+            // (The "start" flags are computed immediately following the
+            // current byte and are handled below.)
+            let mut flags = EmptyFlags::default();
+            if b.is_eof() {
+                flags.end = true;
+                flags.end_line = true;
+            } else if b.as_byte().map_or(false, |b| b == b'\n') {
+                flags.end_line = true;
+            }
+            if is_word_last == is_word {
+                flags.not_word_boundary = true;
+            } else {
+                flags.word_boundary = true;
+            }
+            // Now follow epsilon transitions from every NFA state, but make
+            // sure we only follow transitions that satisfy our flags.
+            qnext.clear();
+            for &ip in &*qcur {
+                self.follow_epsilons(usize_to_u32(ip), qnext, flags);
+            }
+            mem::swap(qcur, qnext);
+        }
+
+        // Now we set flags for immediately after the current byte. Since start
+        // states are processed separately, and are the only states that can
+        // have the StartText flag set, we therefore only need to worry about
+        // the StartLine flag here.
+        //
+        // We do also keep track of whether this DFA state contains a NFA state
+        // that is a matching state. This is precisely how we delay the DFA
+        // matching by one byte in order to process the special EOF sentinel
+        // byte. Namely, if this DFA state containing a matching NFA state,
+        // then it is the *next* DFA state that is marked as a match.
+        let mut empty_flags = EmptyFlags::default();
+        let mut state_flags = StateFlags::default();
+        empty_flags.start_line = b.as_byte().map_or(false, |b| b == b'\n');
+        if b.is_ascii_word() {
+            state_flags.set_word();
+        }
+        // Now follow all epsilon transitions again, but only after consuming
+        // the current byte.
+        qnext.clear();
+        for &ip in &*qcur {
+            match self.prog[ip as usize] {
+                // These states never happen in a byte-based program.
+                Char(_) | Ranges(_) => unreachable!(),
+                // These states are handled when following epsilon transitions.
+                Save(_) | Split(_) | EmptyLook(_) => {}
+                Match(_) => {
+                    state_flags.set_match();
+                    if !self.continue_past_first_match() {
+                        break;
+                    } else if self.prog.matches.len() > 1
+                        && !qnext.contains(ip as usize)
+                    {
+                        // If we are continuing on to find other matches,
+                        // then keep a record of the match states we've seen.
+                        qnext.insert(ip);
+                    }
+                }
+                Bytes(ref inst) => {
+                    if b.as_byte().map_or(false, |b| inst.matches(b)) {
+                        self.follow_epsilons(
+                            inst.goto as InstPtr,
+                            qnext,
+                            empty_flags,
+                        );
+                    }
+                }
+            }
+        }
+
+        let cache = if b.is_eof() && self.prog.matches.len() > 1 {
+            // If we're processing the last byte of the input and we're
+            // matching a regex set, then make the next state contain the
+            // previous states transitions. We do this so that the main
+            // matching loop can extract all of the match instructions.
+            mem::swap(qcur, qnext);
+            // And don't cache this state because it's totally bunk.
+            false
+        } else {
+            true
+        };
+
+        // We've now built up the set of NFA states that ought to comprise the
+        // next DFA state, so try to find it in the cache, and if it doesn't
+        // exist, cache it.
+        //
+        // N.B. We pass `&mut si` here because the cache may clear itself if
+        // it has gotten too full. When that happens, the location of the
+        // current state may change.
+        let mut next =
+            match self.cached_state(qnext, state_flags, Some(&mut si)) {
+                None => return None,
+                Some(next) => next,
+            };
+        if (self.start & !STATE_START) == next {
+            // Start states can never be match states since all matches are
+            // delayed by one byte.
+            debug_assert!(!self.state(next).flags().is_match());
+            next = self.start_ptr(next);
+        }
+        if next <= STATE_MAX && self.state(next).flags().is_match() {
+            next |= STATE_MATCH;
+        }
+        debug_assert!(next != STATE_UNKNOWN);
+        // And now store our state in the current state's next list.
+        if cache {
+            let cls = self.byte_class(b);
+            self.cache.trans.set_next(si, cls, next);
+        }
+        Some(next)
+    }
+
+    /// Follows the epsilon transitions starting at (and including) `ip`. The
+    /// resulting states are inserted into the ordered set `q`.
+    ///
+    /// Conditional epsilon transitions (i.e., empty width assertions) are only
+    /// followed if they are satisfied by the given flags, which should
+    /// represent the flags set at the current location in the input.
+    ///
+    /// If the current location corresponds to the empty string, then only the
+    /// end line and/or end text flags may be set. If the current location
+    /// corresponds to a real byte in the input, then only the start line
+    /// and/or start text flags may be set.
+    ///
+    /// As an exception to the above, when finding the initial state, any of
+    /// the above flags may be set:
+    ///
+    /// If matching starts at the beginning of the input, then start text and
+    /// start line should be set. If the input is empty, then end text and end
+    /// line should also be set.
+    ///
+    /// If matching starts after the beginning of the input, then only start
+    /// line should be set if the preceding byte is `\n`. End line should never
+    /// be set in this case. (Even if the following byte is a `\n`, it will
+    /// be handled in a subsequent DFA state.)
+    fn follow_epsilons(
+        &mut self,
+        ip: InstPtr,
+        q: &mut SparseSet,
+        flags: EmptyFlags,
+    ) {
+        use crate::prog::EmptyLook::*;
+        use crate::prog::Inst::*;
+
+        // We need to traverse the NFA to follow epsilon transitions, so avoid
+        // recursion with an explicit stack.
+        self.cache.stack.push(ip);
+        while let Some(mut ip) = self.cache.stack.pop() {
+            // Try to munch through as many states as possible without
+            // pushes/pops to the stack.
+            loop {
+                // Don't visit states we've already added.
+                if q.contains(ip as usize) {
+                    break;
+                }
+                q.insert(ip as usize);
+                match self.prog[ip as usize] {
+                    Char(_) | Ranges(_) => unreachable!(),
+                    Match(_) | Bytes(_) => {
+                        break;
+                    }
+                    EmptyLook(ref inst) => {
+                        // Only follow empty assertion states if our flags
+                        // satisfy the assertion.
+                        match inst.look {
+                            StartLine if flags.start_line => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            EndLine if flags.end_line => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            StartText if flags.start => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            EndText if flags.end => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            WordBoundaryAscii if flags.word_boundary => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            NotWordBoundaryAscii
+                                if flags.not_word_boundary =>
+                            {
+                                ip = inst.goto as InstPtr;
+                            }
+                            WordBoundary if flags.word_boundary => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            NotWordBoundary if flags.not_word_boundary => {
+                                ip = inst.goto as InstPtr;
+                            }
+                            StartLine | EndLine | StartText | EndText
+                            | WordBoundaryAscii | NotWordBoundaryAscii
+                            | WordBoundary | NotWordBoundary => {
+                                break;
+                            }
+                        }
+                    }
+                    Save(ref inst) => {
+                        ip = inst.goto as InstPtr;
+                    }
+                    Split(ref inst) => {
+                        self.cache.stack.push(inst.goto2 as InstPtr);
+                        ip = inst.goto1 as InstPtr;
+                    }
+                }
+            }
+        }
+    }
+
+    /// Find a previously computed state matching the given set of instructions
+    /// and is_match bool.
+    ///
+    /// The given set of instructions should represent a single state in the
+    /// NFA along with all states reachable without consuming any input.
+    ///
+    /// The is_match bool should be true if and only if the preceding DFA state
+    /// contains an NFA matching state. The cached state produced here will
+    /// then signify a match. (This enables us to delay a match by one byte,
+    /// in order to account for the EOF sentinel byte.)
+    ///
+    /// If the cache is full, then it is wiped before caching a new state.
+    ///
+    /// The current state should be specified if it exists, since it will need
+    /// to be preserved if the cache clears itself. (Start states are
+    /// always saved, so they should not be passed here.) It takes a mutable
+    /// pointer to the index because if the cache is cleared, the state's
+    /// location may change.
+    fn cached_state(
+        &mut self,
+        q: &SparseSet,
+        mut state_flags: StateFlags,
+        current_state: Option<&mut StatePtr>,
+    ) -> Option<StatePtr> {
+        // If we couldn't come up with a non-empty key to represent this state,
+        // then it is dead and can never lead to a match.
+        //
+        // Note that inst_flags represent the set of empty width assertions
+        // in q. We use this as an optimization in exec_byte to determine when
+        // we should follow epsilon transitions at the empty string preceding
+        // the current byte.
+        let key = match self.cached_state_key(q, &mut state_flags) {
+            None => return Some(STATE_DEAD),
+            Some(v) => v,
+        };
+        // In the cache? Cool. Done.
+        if let Some(si) = self.cache.compiled.get_ptr(&key) {
+            return Some(si);
+        }
+        // If the cache has gotten too big, wipe it.
+        if self.approximate_size() > self.prog.dfa_size_limit
+            && !self.clear_cache_and_save(current_state)
+        {
+            // Ooops. DFA is giving up.
+            return None;
+        }
+        // Allocate room for our state and add it.
+        self.add_state(key)
+    }
+
+    /// Produces a key suitable for describing a state in the DFA cache.
+    ///
+    /// The key invariant here is that equivalent keys are produced for any two
+    /// sets of ordered NFA states (and toggling of whether the previous NFA
+    /// states contain a match state) that do not discriminate a match for any
+    /// input.
+    ///
+    /// Specifically, q should be an ordered set of NFA states and is_match
+    /// should be true if and only if the previous NFA states contained a match
+    /// state.
+    fn cached_state_key(
+        &mut self,
+        q: &SparseSet,
+        state_flags: &mut StateFlags,
+    ) -> Option<State> {
+        use crate::prog::Inst::*;
+
+        // We need to build up enough information to recognize pre-built states
+        // in the DFA. Generally speaking, this includes every instruction
+        // except for those which are purely epsilon transitions, e.g., the
+        // Save and Split instructions.
+        //
+        // Empty width assertions are also epsilon transitions, but since they
+        // are conditional, we need to make them part of a state's key in the
+        // cache.
+
+        let mut insts =
+            mem::replace(&mut self.cache.insts_scratch_space, vec![]);
+        insts.clear();
+        // Reserve 1 byte for flags.
+        insts.push(0);
+
+        let mut prev = 0;
+        for &ip in q {
+            let ip = usize_to_u32(ip);
+            match self.prog[ip as usize] {
+                Char(_) | Ranges(_) => unreachable!(),
+                Save(_) | Split(_) => {}
+                Bytes(_) => push_inst_ptr(&mut insts, &mut prev, ip),
+                EmptyLook(_) => {
+                    state_flags.set_empty();
+                    push_inst_ptr(&mut insts, &mut prev, ip)
+                }
+                Match(_) => {
+                    push_inst_ptr(&mut insts, &mut prev, ip);
+                    if !self.continue_past_first_match() {
+                        break;
+                    }
+                }
+            }
+        }
+        // If we couldn't transition to any other instructions and we didn't
+        // see a match when expanding NFA states previously, then this is a
+        // dead state and no amount of additional input can transition out
+        // of this state.
+        let opt_state = if insts.len() == 1 && !state_flags.is_match() {
+            None
+        } else {
+            let StateFlags(f) = *state_flags;
+            insts[0] = f;
+            Some(State { data: Arc::from(&*insts) })
+        };
+        self.cache.insts_scratch_space = insts;
+        opt_state
+    }
+
+    /// Clears the cache, but saves and restores current_state if it is not
+    /// none.
+    ///
+    /// The current state must be provided here in case its location in the
+    /// cache changes.
+    ///
+    /// This returns false if the cache is not cleared and the DFA should
+    /// give up.
+    fn clear_cache_and_save(
+        &mut self,
+        current_state: Option<&mut StatePtr>,
+    ) -> bool {
+        if self.cache.compiled.is_empty() {
+            // Nothing to clear...
+            return true;
+        }
+        match current_state {
+            None => self.clear_cache(),
+            Some(si) => {
+                let cur = self.state(*si).clone();
+                if !self.clear_cache() {
+                    return false;
+                }
+                // The unwrap is OK because we just cleared the cache and
+                // therefore know that the next state pointer won't exceed
+                // STATE_MAX.
+                *si = self.restore_state(cur).unwrap();
+                true
+            }
+        }
+    }
+
+    /// Wipes the state cache, but saves and restores the current start state.
+    ///
+    /// This returns false if the cache is not cleared and the DFA should
+    /// give up.
+    fn clear_cache(&mut self) -> bool {
+        // Bail out of the DFA if we're moving too "slowly."
+        // A heuristic from RE2: assume the DFA is too slow if it is processing
+        // 10 or fewer bytes per state.
+        // Additionally, we permit the cache to be flushed a few times before
+        // caling it quits.
+        let nstates = self.cache.compiled.len();
+        if self.cache.flush_count >= 3
+            && self.at >= self.last_cache_flush
+            && (self.at - self.last_cache_flush) <= 10 * nstates
+        {
+            return false;
+        }
+        // Update statistics tracking cache flushes.
+        self.last_cache_flush = self.at;
+        self.cache.flush_count += 1;
+
+        // OK, actually flush the cache.
+        let start = self.state(self.start & !STATE_START).clone();
+        let last_match = if self.last_match_si <= STATE_MAX {
+            Some(self.state(self.last_match_si).clone())
+        } else {
+            None
+        };
+        self.cache.reset_size();
+        self.cache.trans.clear();
+        self.cache.compiled.clear();
+        for s in &mut self.cache.start_states {
+            *s = STATE_UNKNOWN;
+        }
+        // The unwraps are OK because we just cleared the cache and therefore
+        // know that the next state pointer won't exceed STATE_MAX.
+        let start_ptr = self.restore_state(start).unwrap();
+        self.start = self.start_ptr(start_ptr);
+        if let Some(last_match) = last_match {
+            self.last_match_si = self.restore_state(last_match).unwrap();
+        }
+        true
+    }
+
+    /// Restores the given state back into the cache, and returns a pointer
+    /// to it.
+    fn restore_state(&mut self, state: State) -> Option<StatePtr> {
+        // If we've already stored this state, just return a pointer to it.
+        // None will be the wiser.
+        if let Some(si) = self.cache.compiled.get_ptr(&state) {
+            return Some(si);
+        }
+        self.add_state(state)
+    }
+
+    /// Returns the next state given the current state si and current byte
+    /// b. {qcur,qnext} are used as scratch space for storing ordered NFA
+    /// states.
+    ///
+    /// This tries to fetch the next state from the cache, but if that fails,
+    /// it computes the next state, caches it and returns a pointer to it.
+    ///
+    /// The pointer can be to a real state, or it can be STATE_DEAD.
+    /// STATE_UNKNOWN cannot be returned.
+    ///
+    /// None is returned if a new state could not be allocated (i.e., the DFA
+    /// ran out of space and thinks it's running too slowly).
+    fn next_state(
+        &mut self,
+        qcur: &mut SparseSet,
+        qnext: &mut SparseSet,
+        si: StatePtr,
+        b: Byte,
+    ) -> Option<StatePtr> {
+        if si == STATE_DEAD {
+            return Some(STATE_DEAD);
+        }
+        match self.cache.trans.next(si, self.byte_class(b)) {
+            STATE_UNKNOWN => self.exec_byte(qcur, qnext, si, b),
+            STATE_QUIT => None,
+            nsi => Some(nsi),
+        }
+    }
+
+    /// Computes and returns the start state, where searching begins at
+    /// position `at` in `text`. If the state has already been computed,
+    /// then it is pulled from the cache. If the state hasn't been cached,
+    /// then it is computed, cached and a pointer to it is returned.
+    ///
+    /// This may return STATE_DEAD but never STATE_UNKNOWN.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn start_state(
+        &mut self,
+        q: &mut SparseSet,
+        empty_flags: EmptyFlags,
+        state_flags: StateFlags,
+    ) -> Option<StatePtr> {
+        // Compute an index into our cache of start states based on the set
+        // of empty/state flags set at the current position in the input. We
+        // don't use every flag since not all flags matter. For example, since
+        // matches are delayed by one byte, start states can never be match
+        // states.
+        let flagi = {
+            (((empty_flags.start as u8) << 0)
+                | ((empty_flags.end as u8) << 1)
+                | ((empty_flags.start_line as u8) << 2)
+                | ((empty_flags.end_line as u8) << 3)
+                | ((empty_flags.word_boundary as u8) << 4)
+                | ((empty_flags.not_word_boundary as u8) << 5)
+                | ((state_flags.is_word() as u8) << 6)) as usize
+        };
+        match self.cache.start_states[flagi] {
+            STATE_UNKNOWN => {}
+            si => return Some(si),
+        }
+        q.clear();
+        let start = usize_to_u32(self.prog.start);
+        self.follow_epsilons(start, q, empty_flags);
+        // Start states can never be match states because we delay every match
+        // by one byte. Given an empty string and an empty match, the match
+        // won't actually occur until the DFA processes the special EOF
+        // sentinel byte.
+        let sp = match self.cached_state(q, state_flags, None) {
+            None => return None,
+            Some(sp) => self.start_ptr(sp),
+        };
+        self.cache.start_states[flagi] = sp;
+        Some(sp)
+    }
+
+    /// Computes the set of starting flags for the given position in text.
+    ///
+    /// This should only be used when executing the DFA forwards over the
+    /// input.
+    fn start_flags(&self, text: &[u8], at: usize) -> (EmptyFlags, StateFlags) {
+        let mut empty_flags = EmptyFlags::default();
+        let mut state_flags = StateFlags::default();
+        empty_flags.start = at == 0;
+        empty_flags.end = text.is_empty();
+        empty_flags.start_line = at == 0 || text[at - 1] == b'\n';
+        empty_flags.end_line = text.is_empty();
+
+        let is_word_last = at > 0 && Byte::byte(text[at - 1]).is_ascii_word();
+        let is_word = at < text.len() && Byte::byte(text[at]).is_ascii_word();
+        if is_word_last {
+            state_flags.set_word();
+        }
+        if is_word == is_word_last {
+            empty_flags.not_word_boundary = true;
+        } else {
+            empty_flags.word_boundary = true;
+        }
+        (empty_flags, state_flags)
+    }
+
+    /// Computes the set of starting flags for the given position in text.
+    ///
+    /// This should only be used when executing the DFA in reverse over the
+    /// input.
+    fn start_flags_reverse(
+        &self,
+        text: &[u8],
+        at: usize,
+    ) -> (EmptyFlags, StateFlags) {
+        let mut empty_flags = EmptyFlags::default();
+        let mut state_flags = StateFlags::default();
+        empty_flags.start = at == text.len();
+        empty_flags.end = text.is_empty();
+        empty_flags.start_line = at == text.len() || text[at] == b'\n';
+        empty_flags.end_line = text.is_empty();
+
+        let is_word_last =
+            at < text.len() && Byte::byte(text[at]).is_ascii_word();
+        let is_word = at > 0 && Byte::byte(text[at - 1]).is_ascii_word();
+        if is_word_last {
+            state_flags.set_word();
+        }
+        if is_word == is_word_last {
+            empty_flags.not_word_boundary = true;
+        } else {
+            empty_flags.word_boundary = true;
+        }
+        (empty_flags, state_flags)
+    }
+
+    /// Returns a reference to a State given a pointer to it.
+    fn state(&self, si: StatePtr) -> &State {
+        self.cache.compiled.get_state(si).unwrap()
+    }
+
+    /// Adds the given state to the DFA.
+    ///
+    /// This allocates room for transitions out of this state in
+    /// self.cache.trans. The transitions can be set with the returned
+    /// StatePtr.
+    ///
+    /// If None is returned, then the state limit was reached and the DFA
+    /// should quit.
+    fn add_state(&mut self, state: State) -> Option<StatePtr> {
+        // This will fail if the next state pointer exceeds STATE_PTR. In
+        // practice, the cache limit will prevent us from ever getting here,
+        // but maybe callers will set the cache size to something ridiculous...
+        let si = match self.cache.trans.add() {
+            None => return None,
+            Some(si) => si,
+        };
+        // If the program has a Unicode word boundary, then set any transitions
+        // for non-ASCII bytes to STATE_QUIT. If the DFA stumbles over such a
+        // transition, then it will quit and an alternative matching engine
+        // will take over.
+        if self.prog.has_unicode_word_boundary {
+            for b in 128..256 {
+                let cls = self.byte_class(Byte::byte(b as u8));
+                self.cache.trans.set_next(si, cls, STATE_QUIT);
+            }
+        }
+        // Finally, put our actual state on to our heap of states and index it
+        // so we can find it later.
+        self.cache.size += self.cache.trans.state_heap_size()
+            + state.data.len()
+            + (2 * mem::size_of::<State>())
+            + mem::size_of::<StatePtr>();
+        self.cache.compiled.insert(state, si);
+        // Transition table and set of states and map should all be in sync.
+        debug_assert!(
+            self.cache.compiled.len() == self.cache.trans.num_states()
+        );
+        Some(si)
+    }
+
+    /// Quickly finds the next occurrence of any literal prefixes in the regex.
+    /// If there are no literal prefixes, then the current position is
+    /// returned. If there are literal prefixes and one could not be found,
+    /// then None is returned.
+    ///
+    /// This should only be called when the DFA is in a start state.
+    fn prefix_at(&self, text: &[u8], at: usize) -> Option<usize> {
+        self.prog.prefixes.find(&text[at..]).map(|(s, _)| at + s)
+    }
+
+    /// Returns the number of byte classes required to discriminate transitions
+    /// in each state.
+    ///
+    /// invariant: num_byte_classes() == len(State.next)
+    fn num_byte_classes(&self) -> usize {
+        // We add 1 to account for the special EOF byte.
+        (self.prog.byte_classes[255] as usize + 1) + 1
+    }
+
+    /// Given an input byte or the special EOF sentinel, return its
+    /// corresponding byte class.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn byte_class(&self, b: Byte) -> usize {
+        match b.as_byte() {
+            None => self.num_byte_classes() - 1,
+            Some(b) => self.u8_class(b),
+        }
+    }
+
+    /// Like byte_class, but explicitly for u8s.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn u8_class(&self, b: u8) -> usize {
+        self.prog.byte_classes[b as usize] as usize
+    }
+
+    /// Returns true if the DFA should continue searching past the first match.
+    ///
+    /// Leftmost first semantics in the DFA are preserved by not following NFA
+    /// transitions after the first match is seen.
+    ///
+    /// On occasion, we want to avoid leftmost first semantics to find either
+    /// the longest match (for reverse search) or all possible matches (for
+    /// regex sets).
+    fn continue_past_first_match(&self) -> bool {
+        self.prog.is_reverse || self.prog.matches.len() > 1
+    }
+
+    /// Returns true if there is a prefix we can quickly search for.
+    fn has_prefix(&self) -> bool {
+        !self.prog.is_reverse
+            && !self.prog.prefixes.is_empty()
+            && !self.prog.is_anchored_start
+    }
+
+    /// Sets the STATE_START bit in the given state pointer if and only if
+    /// we have a prefix to scan for.
+    ///
+    /// If there's no prefix, then it's a waste to treat the start state
+    /// specially.
+    fn start_ptr(&self, si: StatePtr) -> StatePtr {
+        if self.has_prefix() {
+            si | STATE_START
+        } else {
+            si
+        }
+    }
+
+    /// Approximate size returns the approximate heap space currently used by
+    /// the DFA. It is used to determine whether the DFA's state cache needs to
+    /// be wiped. Namely, it is possible that for certain regexes on certain
+    /// inputs, a new state could be created for every byte of input. (This is
+    /// bad for memory use, so we bound it with a cache.)
+    fn approximate_size(&self) -> usize {
+        self.cache.size + self.prog.approximate_size()
+    }
+}
+
+/// An abstraction for representing a map of states. The map supports two
+/// different ways of state lookup. One is fast constant time access via a
+/// state pointer. The other is a hashmap lookup based on the DFA's
+/// constituent NFA states.
+///
+/// A DFA state internally uses an Arc such that we only need to store the
+/// set of NFA states on the heap once, even though we support looking up
+/// states by two different means. A more natural way to express this might
+/// use raw pointers, but an Arc is safe and effectively achieves the same
+/// thing.
+#[derive(Debug)]
+struct StateMap {
+    /// The keys are not actually static but rely on always pointing to a
+    /// buffer in `states` which will never be moved except when clearing
+    /// the map or on drop, in which case the keys of this map will be
+    /// removed before
+    map: HashMap<State, StatePtr>,
+    /// Our set of states. Note that `StatePtr / num_byte_classes` indexes
+    /// this Vec rather than just a `StatePtr`.
+    states: Vec<State>,
+    /// The number of byte classes in the DFA. Used to index `states`.
+    num_byte_classes: usize,
+}
+
+impl StateMap {
+    fn new(num_byte_classes: usize) -> StateMap {
+        StateMap {
+            map: HashMap::new(),
+            states: vec![],
+            num_byte_classes: num_byte_classes,
+        }
+    }
+
+    fn len(&self) -> usize {
+        self.states.len()
+    }
+
+    fn is_empty(&self) -> bool {
+        self.states.is_empty()
+    }
+
+    fn get_ptr(&self, state: &State) -> Option<StatePtr> {
+        self.map.get(state).cloned()
+    }
+
+    fn get_state(&self, si: StatePtr) -> Option<&State> {
+        self.states.get(si as usize / self.num_byte_classes)
+    }
+
+    fn insert(&mut self, state: State, si: StatePtr) {
+        self.map.insert(state.clone(), si);
+        self.states.push(state);
+    }
+
+    fn clear(&mut self) {
+        self.map.clear();
+        self.states.clear();
+    }
+}
+
+impl Transitions {
+    /// Create a new transition table.
+    ///
+    /// The number of byte classes corresponds to the stride. Every state will
+    /// have `num_byte_classes` slots for transitions.
+    fn new(num_byte_classes: usize) -> Transitions {
+        Transitions { table: vec![], num_byte_classes: num_byte_classes }
+    }
+
+    /// Returns the total number of states currently in this table.
+    fn num_states(&self) -> usize {
+        self.table.len() / self.num_byte_classes
+    }
+
+    /// Allocates room for one additional state and returns a pointer to it.
+    ///
+    /// If there's no more room, None is returned.
+    fn add(&mut self) -> Option<StatePtr> {
+        let si = self.table.len();
+        if si > STATE_MAX as usize {
+            return None;
+        }
+        self.table.extend(repeat(STATE_UNKNOWN).take(self.num_byte_classes));
+        Some(usize_to_u32(si))
+    }
+
+    /// Clears the table of all states.
+    fn clear(&mut self) {
+        self.table.clear();
+    }
+
+    /// Sets the transition from (si, cls) to next.
+    fn set_next(&mut self, si: StatePtr, cls: usize, next: StatePtr) {
+        self.table[si as usize + cls] = next;
+    }
+
+    /// Returns the transition corresponding to (si, cls).
+    fn next(&self, si: StatePtr, cls: usize) -> StatePtr {
+        self.table[si as usize + cls]
+    }
+
+    /// The heap size, in bytes, of a single state in the transition table.
+    fn state_heap_size(&self) -> usize {
+        self.num_byte_classes * mem::size_of::<StatePtr>()
+    }
+
+    /// Like `next`, but uses unchecked access and is therefore not safe.
+    unsafe fn next_unchecked(&self, si: StatePtr, cls: usize) -> StatePtr {
+        debug_assert!((si as usize) < self.table.len());
+        debug_assert!(cls < self.num_byte_classes);
+        *self.table.get_unchecked(si as usize + cls)
+    }
+}
+
+impl StateFlags {
+    fn is_match(&self) -> bool {
+        self.0 & 0b0000000_1 > 0
+    }
+
+    fn set_match(&mut self) {
+        self.0 |= 0b0000000_1;
+    }
+
+    fn is_word(&self) -> bool {
+        self.0 & 0b000000_1_0 > 0
+    }
+
+    fn set_word(&mut self) {
+        self.0 |= 0b000000_1_0;
+    }
+
+    fn has_empty(&self) -> bool {
+        self.0 & 0b00000_1_00 > 0
+    }
+
+    fn set_empty(&mut self) {
+        self.0 |= 0b00000_1_00;
+    }
+}
+
+impl Byte {
+    fn byte(b: u8) -> Self {
+        Byte(b as u16)
+    }
+    fn eof() -> Self {
+        Byte(256)
+    }
+    fn is_eof(&self) -> bool {
+        self.0 == 256
+    }
+
+    fn is_ascii_word(&self) -> bool {
+        let b = match self.as_byte() {
+            None => return false,
+            Some(b) => b,
+        };
+        match b {
+            b'A'..=b'Z' | b'a'..=b'z' | b'0'..=b'9' | b'_' => true,
+            _ => false,
+        }
+    }
+
+    fn as_byte(&self) -> Option<u8> {
+        if self.is_eof() {
+            None
+        } else {
+            Some(self.0 as u8)
+        }
+    }
+}
+
+impl fmt::Debug for State {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        let ips: Vec<usize> = self.inst_ptrs().collect();
+        f.debug_struct("State")
+            .field("flags", &self.flags())
+            .field("insts", &ips)
+            .finish()
+    }
+}
+
+impl fmt::Debug for Transitions {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        let mut fmtd = f.debug_map();
+        for si in 0..self.num_states() {
+            let s = si * self.num_byte_classes;
+            let e = s + self.num_byte_classes;
+            fmtd.entry(&si.to_string(), &TransitionsRow(&self.table[s..e]));
+        }
+        fmtd.finish()
+    }
+}
+
+struct TransitionsRow<'a>(&'a [StatePtr]);
+
+impl<'a> fmt::Debug for TransitionsRow<'a> {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        let mut fmtd = f.debug_map();
+        for (b, si) in self.0.iter().enumerate() {
+            match *si {
+                STATE_UNKNOWN => {}
+                STATE_DEAD => {
+                    fmtd.entry(&vb(b as usize), &"DEAD");
+                }
+                si => {
+                    fmtd.entry(&vb(b as usize), &si.to_string());
+                }
+            }
+        }
+        fmtd.finish()
+    }
+}
+
+impl fmt::Debug for StateFlags {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        f.debug_struct("StateFlags")
+            .field("is_match", &self.is_match())
+            .field("is_word", &self.is_word())
+            .field("has_empty", &self.has_empty())
+            .finish()
+    }
+}
+
+/// Helper function for formatting a byte as a nice-to-read escaped string.
+fn vb(b: usize) -> String {
+    use std::ascii::escape_default;
+
+    if b > ::std::u8::MAX as usize {
+        "EOF".to_owned()
+    } else {
+        let escaped = escape_default(b as u8).collect::<Vec<u8>>();
+        String::from_utf8_lossy(&escaped).into_owned()
+    }
+}
+
+fn usize_to_u32(n: usize) -> u32 {
+    if (n as u64) > (::std::u32::MAX as u64) {
+        panic!("BUG: {} is too big to fit into u32", n)
+    }
+    n as u32
+}
+
+#[allow(dead_code)] // useful for debugging
+fn show_state_ptr(si: StatePtr) -> String {
+    let mut s = format!("{:?}", si & STATE_MAX);
+    if si == STATE_UNKNOWN {
+        s = format!("{} (unknown)", s);
+    }
+    if si == STATE_DEAD {
+        s = format!("{} (dead)", s);
+    }
+    if si == STATE_QUIT {
+        s = format!("{} (quit)", s);
+    }
+    if si & STATE_START > 0 {
+        s = format!("{} (start)", s);
+    }
+    if si & STATE_MATCH > 0 {
+        s = format!("{} (match)", s);
+    }
+    s
+}
+
+/// https://developers.google.com/protocol-buffers/docs/encoding#varints
+fn write_vari32(data: &mut Vec<u8>, n: i32) {
+    let mut un = (n as u32) << 1;
+    if n < 0 {
+        un = !un;
+    }
+    write_varu32(data, un)
+}
+
+/// https://developers.google.com/protocol-buffers/docs/encoding#varints
+fn read_vari32(data: &[u8]) -> (i32, usize) {
+    let (un, i) = read_varu32(data);
+    let mut n = (un >> 1) as i32;
+    if un & 1 != 0 {
+        n = !n;
+    }
+    (n, i)
+}
+
+/// https://developers.google.com/protocol-buffers/docs/encoding#varints
+fn write_varu32(data: &mut Vec<u8>, mut n: u32) {
+    while n >= 0b1000_0000 {
+        data.push((n as u8) | 0b1000_0000);
+        n >>= 7;
+    }
+    data.push(n as u8);
+}
+
+/// https://developers.google.com/protocol-buffers/docs/encoding#varints
+fn read_varu32(data: &[u8]) -> (u32, usize) {
+    let mut n: u32 = 0;
+    let mut shift: u32 = 0;
+    for (i, &b) in data.iter().enumerate() {
+        if b < 0b1000_0000 {
+            return (n | ((b as u32) << shift), i + 1);
+        }
+        n |= ((b as u32) & 0b0111_1111) << shift;
+        shift += 7;
+    }
+    (0, 0)
+}
+
+#[cfg(test)]
+mod tests {
+
+    use super::{
+        push_inst_ptr, read_vari32, read_varu32, write_vari32, write_varu32,
+        State, StateFlags,
+    };
+    use quickcheck::{quickcheck, Gen, QuickCheck};
+    use std::sync::Arc;
+
+    #[test]
+    fn prop_state_encode_decode() {
+        fn p(mut ips: Vec<u32>, flags: u8) -> bool {
+            // It looks like our encoding scheme can't handle instruction
+            // pointers at or above 2**31. We should fix that, but it seems
+            // unlikely to occur in real code due to the amount of memory
+            // required for such a state machine. So for now, we just clamp
+            // our test data.
+            for ip in &mut ips {
+                if *ip >= 1 << 31 {
+                    *ip = (1 << 31) - 1;
+                }
+            }
+            let mut data = vec![flags];
+            let mut prev = 0;
+            for &ip in ips.iter() {
+                push_inst_ptr(&mut data, &mut prev, ip);
+            }
+            let state = State { data: Arc::from(&data[..]) };
+
+            let expected: Vec<usize> =
+                ips.into_iter().map(|ip| ip as usize).collect();
+            let got: Vec<usize> = state.inst_ptrs().collect();
+            expected == got && state.flags() == StateFlags(flags)
+        }
+        QuickCheck::new()
+            .gen(Gen::new(10_000))
+            .quickcheck(p as fn(Vec<u32>, u8) -> bool);
+    }
+
+    #[test]
+    fn prop_read_write_u32() {
+        fn p(n: u32) -> bool {
+            let mut buf = vec![];
+            write_varu32(&mut buf, n);
+            let (got, nread) = read_varu32(&buf);
+            nread == buf.len() && got == n
+        }
+        quickcheck(p as fn(u32) -> bool);
+    }
+
+    #[test]
+    fn prop_read_write_i32() {
+        fn p(n: i32) -> bool {
+            let mut buf = vec![];
+            write_vari32(&mut buf, n);
+            let (got, nread) = read_vari32(&buf);
+            nread == buf.len() && got == n
+        }
+        quickcheck(p as fn(i32) -> bool);
+    }
+}
diff --git a/vendor/regex/src/error.rs b/vendor/regex/src/error.rs
new file mode 100644
index 000000000..3e0ec7521
--- /dev/null
+++ b/vendor/regex/src/error.rs
@@ -0,0 +1,71 @@
+use std::fmt;
+use std::iter::repeat;
+
+/// An error that occurred during parsing or compiling a regular expression.
+#[derive(Clone, PartialEq)]
+pub enum Error {
+    /// A syntax error.
+    Syntax(String),
+    /// The compiled program exceeded the set size limit.
+    /// The argument is the size limit imposed.
+    CompiledTooBig(usize),
+    /// Hints that destructuring should not be exhaustive.
+    ///
+    /// This enum may grow additional variants, so this makes sure clients
+    /// don't count on exhaustive matching. (Otherwise, adding a new variant
+    /// could break existing code.)
+    #[doc(hidden)]
+    __Nonexhaustive,
+}
+
+impl ::std::error::Error for Error {
+    // TODO: Remove this method entirely on the next breaking semver release.
+    #[allow(deprecated)]
+    fn description(&self) -> &str {
+        match *self {
+            Error::Syntax(ref err) => err,
+            Error::CompiledTooBig(_) => "compiled program too big",
+            Error::__Nonexhaustive => unreachable!(),
+        }
+    }
+}
+
+impl fmt::Display for Error {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        match *self {
+            Error::Syntax(ref err) => err.fmt(f),
+            Error::CompiledTooBig(limit) => write!(
+                f,
+                "Compiled regex exceeds size limit of {} bytes.",
+                limit
+            ),
+            Error::__Nonexhaustive => unreachable!(),
+        }
+    }
+}
+
+// We implement our own Debug implementation so that we show nicer syntax
+// errors when people use `Regex::new(...).unwrap()`. It's a little weird,
+// but the `Syntax` variant is already storing a `String` anyway, so we might
+// as well format it nicely.
+impl fmt::Debug for Error {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        match *self {
+            Error::Syntax(ref err) => {
+                let hr: String = repeat('~').take(79).collect();
+                writeln!(f, "Syntax(")?;
+                writeln!(f, "{}", hr)?;
+                writeln!(f, "{}", err)?;
+                writeln!(f, "{}", hr)?;
+                write!(f, ")")?;
+                Ok(())
+            }
+            Error::CompiledTooBig(limit) => {
+                f.debug_tuple("CompiledTooBig").field(&limit).finish()
+            }
+            Error::__Nonexhaustive => {
+                f.debug_tuple("__Nonexhaustive").finish()
+            }
+        }
+    }
+}
diff --git a/vendor/regex/src/exec.rs b/vendor/regex/src/exec.rs
new file mode 100644
index 000000000..d5fad1c0e
--- /dev/null
+++ b/vendor/regex/src/exec.rs
@@ -0,0 +1,1655 @@
+use std::cell::RefCell;
+use std::collections::HashMap;
+use std::panic::AssertUnwindSafe;
+use std::sync::Arc;
+
+#[cfg(feature = "perf-literal")]
+use aho_corasick::{AhoCorasick, AhoCorasickBuilder, MatchKind};
+use regex_syntax::hir::literal::Literals;
+use regex_syntax::hir::Hir;
+use regex_syntax::ParserBuilder;
+
+use crate::backtrack;
+use crate::compile::Compiler;
+#[cfg(feature = "perf-dfa")]
+use crate::dfa;
+use crate::error::Error;
+use crate::input::{ByteInput, CharInput};
+use crate::literal::LiteralSearcher;
+use crate::pikevm;
+use crate::pool::{Pool, PoolGuard};
+use crate::prog::Program;
+use crate::re_builder::RegexOptions;
+use crate::re_bytes;
+use crate::re_set;
+use crate::re_trait::{Locations, RegularExpression, Slot};
+use crate::re_unicode;
+use crate::utf8::next_utf8;
+
+/// `Exec` manages the execution of a regular expression.
+///
+/// In particular, this manages the various compiled forms of a single regular
+/// expression and the choice of which matching engine to use to execute a
+/// regular expression.
+#[derive(Debug)]
+pub struct Exec {
+    /// All read only state.
+    ro: Arc<ExecReadOnly>,
+    /// A pool of reusable values for the various matching engines.
+    ///
+    /// Note that boxing this value is not strictly necessary, but it is an
+    /// easy way to ensure that T does not bloat the stack sized used by a pool
+    /// in the case where T is big. And this turns out to be the case at the
+    /// time of writing for regex's use of this pool. At the time of writing,
+    /// the size of a Regex on the stack is 856 bytes. Boxing this value
+    /// reduces that size to 16 bytes.
+    pool: Box<Pool<ProgramCache>>,
+}
+
+/// `ExecNoSync` is like `Exec`, except it embeds a reference to a cache. This
+/// means it is no longer Sync, but we can now avoid the overhead of
+/// synchronization to fetch the cache.
+#[derive(Debug)]
+pub struct ExecNoSync<'c> {
+    /// All read only state.
+    ro: &'c Arc<ExecReadOnly>,
+    /// Caches for the various matching engines.
+    cache: PoolGuard<'c, ProgramCache>,
+}
+
+/// `ExecNoSyncStr` is like `ExecNoSync`, but matches on &str instead of &[u8].
+#[derive(Debug)]
+pub struct ExecNoSyncStr<'c>(ExecNoSync<'c>);
+
+/// `ExecReadOnly` comprises all read only state for a regex. Namely, all such
+/// state is determined at compile time and never changes during search.
+#[derive(Debug)]
+struct ExecReadOnly {
+    /// The original regular expressions given by the caller to compile.
+    res: Vec<String>,
+    /// A compiled program that is used in the NFA simulation and backtracking.
+    /// It can be byte-based or Unicode codepoint based.
+    ///
+    /// N.B. It is not possibly to make this byte-based from the public API.
+    /// It is only used for testing byte based programs in the NFA simulations.
+    nfa: Program,
+    /// A compiled byte based program for DFA execution. This is only used
+    /// if a DFA can be executed. (Currently, only word boundary assertions are
+    /// not supported.) Note that this program contains an embedded `.*?`
+    /// preceding the first capture group, unless the regex is anchored at the
+    /// beginning.
+    dfa: Program,
+    /// The same as above, except the program is reversed (and there is no
+    /// preceding `.*?`). This is used by the DFA to find the starting location
+    /// of matches.
+    dfa_reverse: Program,
+    /// A set of suffix literals extracted from the regex.
+    ///
+    /// Prefix literals are stored on the `Program`, since they are used inside
+    /// the matching engines.
+    suffixes: LiteralSearcher,
+    /// An Aho-Corasick automaton with leftmost-first match semantics.
+    ///
+    /// This is only set when the entire regex is a simple unanchored
+    /// alternation of literals. We could probably use it more circumstances,
+    /// but this is already hacky enough in this architecture.
+    ///
+    /// N.B. We use u32 as a state ID representation under the assumption that
+    /// if we were to exhaust the ID space, we probably would have long
+    /// surpassed the compilation size limit.
+    #[cfg(feature = "perf-literal")]
+    ac: Option<AhoCorasick<u32>>,
+    /// match_type encodes as much upfront knowledge about how we're going to
+    /// execute a search as possible.
+    match_type: MatchType,
+}
+
+/// Facilitates the construction of an executor by exposing various knobs
+/// to control how a regex is executed and what kinds of resources it's
+/// permitted to use.
+// `ExecBuilder` is only public via the `internal` module, so avoid deriving
+// `Debug`.
+#[allow(missing_debug_implementations)]
+pub struct ExecBuilder {
+    options: RegexOptions,
+    match_type: Option<MatchType>,
+    bytes: bool,
+    only_utf8: bool,
+}
+
+/// Parsed represents a set of parsed regular expressions and their detected
+/// literals.
+struct Parsed {
+    exprs: Vec<Hir>,
+    prefixes: Literals,
+    suffixes: Literals,
+    bytes: bool,
+}
+
+impl ExecBuilder {
+    /// Create a regex execution builder.
+    ///
+    /// This uses default settings for everything except the regex itself,
+    /// which must be provided. Further knobs can be set by calling methods,
+    /// and then finally, `build` to actually create the executor.
+    pub fn new(re: &str) -> Self {
+        Self::new_many(&[re])
+    }
+
+    /// Like new, but compiles the union of the given regular expressions.
+    ///
+    /// Note that when compiling 2 or more regular expressions, capture groups
+    /// are completely unsupported. (This means both `find` and `captures`
+    /// won't work.)
+    pub fn new_many<I, S>(res: I) -> Self
+    where
+        S: AsRef<str>,
+        I: IntoIterator<Item = S>,
+    {
+        let mut opts = RegexOptions::default();
+        opts.pats = res.into_iter().map(|s| s.as_ref().to_owned()).collect();
+        Self::new_options(opts)
+    }
+
+    /// Create a regex execution builder.
+    pub fn new_options(opts: RegexOptions) -> Self {
+        ExecBuilder {
+            options: opts,
+            match_type: None,
+            bytes: false,
+            only_utf8: true,
+        }
+    }
+
+    /// Set the matching engine to be automatically determined.
+    ///
+    /// This is the default state and will apply whatever optimizations are
+    /// possible, such as running a DFA.
+    ///
+    /// This overrides whatever was previously set via the `nfa` or
+    /// `bounded_backtracking` methods.
+    pub fn automatic(mut self) -> Self {
+        self.match_type = None;
+        self
+    }
+
+    /// Sets the matching engine to use the NFA algorithm no matter what
+    /// optimizations are possible.
+    ///
+    /// This overrides whatever was previously set via the `automatic` or
+    /// `bounded_backtracking` methods.
+    pub fn nfa(mut self) -> Self {
+        self.match_type = Some(MatchType::Nfa(MatchNfaType::PikeVM));
+        self
+    }
+
+    /// Sets the matching engine to use a bounded backtracking engine no
+    /// matter what optimizations are possible.
+    ///
+    /// One must use this with care, since the bounded backtracking engine
+    /// uses memory proportion to `len(regex) * len(text)`.
+    ///
+    /// This overrides whatever was previously set via the `automatic` or
+    /// `nfa` methods.
+    pub fn bounded_backtracking(mut self) -> Self {
+        self.match_type = Some(MatchType::Nfa(MatchNfaType::Backtrack));
+        self
+    }
+
+    /// Compiles byte based programs for use with the NFA matching engines.
+    ///
+    /// By default, the NFA engines match on Unicode scalar values. They can
+    /// be made to use byte based programs instead. In general, the byte based
+    /// programs are slower because of a less efficient encoding of character
+    /// classes.
+    ///
+    /// Note that this does not impact DFA matching engines, which always
+    /// execute on bytes.
+    pub fn bytes(mut self, yes: bool) -> Self {
+        self.bytes = yes;
+        self
+    }
+
+    /// When disabled, the program compiled may match arbitrary bytes.
+    ///
+    /// When enabled (the default), all compiled programs exclusively match
+    /// valid UTF-8 bytes.
+    pub fn only_utf8(mut self, yes: bool) -> Self {
+        self.only_utf8 = yes;
+        self
+    }
+
+    /// Set the Unicode flag.
+    pub fn unicode(mut self, yes: bool) -> Self {
+        self.options.unicode = yes;
+        self
+    }
+
+    /// Parse the current set of patterns into their AST and extract literals.
+    fn parse(&self) -> Result<Parsed, Error> {
+        let mut exprs = Vec::with_capacity(self.options.pats.len());
+        let mut prefixes = Some(Literals::empty());
+        let mut suffixes = Some(Literals::empty());
+        let mut bytes = false;
+        let is_set = self.options.pats.len() > 1;
+        // If we're compiling a regex set and that set has any anchored
+        // expressions, then disable all literal optimizations.
+        for pat in &self.options.pats {
+            let mut parser = ParserBuilder::new()
+                .octal(self.options.octal)
+                .case_insensitive(self.options.case_insensitive)
+                .multi_line(self.options.multi_line)
+                .dot_matches_new_line(self.options.dot_matches_new_line)
+                .swap_greed(self.options.swap_greed)
+                .ignore_whitespace(self.options.ignore_whitespace)
+                .unicode(self.options.unicode)
+                .allow_invalid_utf8(!self.only_utf8)
+                .nest_limit(self.options.nest_limit)
+                .build();
+            let expr =
+                parser.parse(pat).map_err(|e| Error::Syntax(e.to_string()))?;
+            bytes = bytes || !expr.is_always_utf8();
+
+            if cfg!(feature = "perf-literal") {
+                if !expr.is_anchored_start() && expr.is_any_anchored_start() {
+                    // Partial anchors unfortunately make it hard to use
+                    // prefixes, so disable them.
+                    prefixes = None;
+                } else if is_set && expr.is_anchored_start() {
+                    // Regex sets with anchors do not go well with literal
+                    // optimizations.
+                    prefixes = None;
+                }
+                prefixes = prefixes.and_then(|mut prefixes| {
+                    if !prefixes.union_prefixes(&expr) {
+                        None
+                    } else {
+                        Some(prefixes)
+                    }
+                });
+
+                if !expr.is_anchored_end() && expr.is_any_anchored_end() {
+                    // Partial anchors unfortunately make it hard to use
+                    // suffixes, so disable them.
+                    suffixes = None;
+                } else if is_set && expr.is_anchored_end() {
+                    // Regex sets with anchors do not go well with literal
+                    // optimizations.
+                    suffixes = None;
+                }
+                suffixes = suffixes.and_then(|mut suffixes| {
+                    if !suffixes.union_suffixes(&expr) {
+                        None
+                    } else {
+                        Some(suffixes)
+                    }
+                });
+            }
+            exprs.push(expr);
+        }
+        Ok(Parsed {
+            exprs: exprs,
+            prefixes: prefixes.unwrap_or_else(Literals::empty),
+            suffixes: suffixes.unwrap_or_else(Literals::empty),
+            bytes: bytes,
+        })
+    }
+
+    /// Build an executor that can run a regular expression.
+    pub fn build(self) -> Result<Exec, Error> {
+        // Special case when we have no patterns to compile.
+        // This can happen when compiling a regex set.
+        if self.options.pats.is_empty() {
+            let ro = Arc::new(ExecReadOnly {
+                res: vec![],
+                nfa: Program::new(),
+                dfa: Program::new(),
+                dfa_reverse: Program::new(),
+                suffixes: LiteralSearcher::empty(),
+                #[cfg(feature = "perf-literal")]
+                ac: None,
+                match_type: MatchType::Nothing,
+            });
+            let pool = ExecReadOnly::new_pool(&ro);
+            return Ok(Exec { ro: ro, pool });
+        }
+        let parsed = self.parse()?;
+        let mut nfa = Compiler::new()
+            .size_limit(self.options.size_limit)
+            .bytes(self.bytes || parsed.bytes)
+            .only_utf8(self.only_utf8)
+            .compile(&parsed.exprs)?;
+        let mut dfa = Compiler::new()
+            .size_limit(self.options.size_limit)
+            .dfa(true)
+            .only_utf8(self.only_utf8)
+            .compile(&parsed.exprs)?;
+        let mut dfa_reverse = Compiler::new()
+            .size_limit(self.options.size_limit)
+            .dfa(true)
+            .only_utf8(self.only_utf8)
+            .reverse(true)
+            .compile(&parsed.exprs)?;
+
+        #[cfg(feature = "perf-literal")]
+        let ac = self.build_aho_corasick(&parsed);
+        nfa.prefixes = LiteralSearcher::prefixes(parsed.prefixes);
+        dfa.prefixes = nfa.prefixes.clone();
+        dfa.dfa_size_limit = self.options.dfa_size_limit;
+        dfa_reverse.dfa_size_limit = self.options.dfa_size_limit;
+
+        let mut ro = ExecReadOnly {
+            res: self.options.pats,
+            nfa: nfa,
+            dfa: dfa,
+            dfa_reverse: dfa_reverse,
+            suffixes: LiteralSearcher::suffixes(parsed.suffixes),
+            #[cfg(feature = "perf-literal")]
+            ac: ac,
+            match_type: MatchType::Nothing,
+        };
+        ro.match_type = ro.choose_match_type(self.match_type);
+
+        let ro = Arc::new(ro);
+        let pool = ExecReadOnly::new_pool(&ro);
+        Ok(Exec { ro, pool })
+    }
+
+    #[cfg(feature = "perf-literal")]
+    fn build_aho_corasick(&self, parsed: &Parsed) -> Option<AhoCorasick<u32>> {
+        if parsed.exprs.len() != 1 {
+            return None;
+        }
+        let lits = match alternation_literals(&parsed.exprs[0]) {
+            None => return None,
+            Some(lits) => lits,
+        };
+        // If we have a small number of literals, then let Teddy handle
+        // things (see literal/mod.rs).
+        if lits.len() <= 32 {
+            return None;
+        }
+        Some(
+            AhoCorasickBuilder::new()
+                .match_kind(MatchKind::LeftmostFirst)
+                .auto_configure(&lits)
+                .build_with_size::<u32, _, _>(&lits)
+                // This should never happen because we'd long exceed the
+                // compilation limit for regexes first.
+                .expect("AC automaton too big"),
+        )
+    }
+}
+
+impl<'c> RegularExpression for ExecNoSyncStr<'c> {
+    type Text = str;
+
+    fn slots_len(&self) -> usize {
+        self.0.slots_len()
+    }
+
+    fn next_after_empty(&self, text: &str, i: usize) -> usize {
+        next_utf8(text.as_bytes(), i)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn shortest_match_at(&self, text: &str, start: usize) -> Option<usize> {
+        self.0.shortest_match_at(text.as_bytes(), start)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn is_match_at(&self, text: &str, start: usize) -> bool {
+        self.0.is_match_at(text.as_bytes(), start)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find_at(&self, text: &str, start: usize) -> Option<(usize, usize)> {
+        self.0.find_at(text.as_bytes(), start)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn captures_read_at(
+        &self,
+        locs: &mut Locations,
+        text: &str,
+        start: usize,
+    ) -> Option<(usize, usize)> {
+        self.0.captures_read_at(locs, text.as_bytes(), start)
+    }
+}
+
+impl<'c> RegularExpression for ExecNoSync<'c> {
+    type Text = [u8];
+
+    /// Returns the number of capture slots in the regular expression. (There
+    /// are two slots for every capture group, corresponding to possibly empty
+    /// start and end locations of the capture.)
+    fn slots_len(&self) -> usize {
+        self.ro.nfa.captures.len() * 2
+    }
+
+    fn next_after_empty(&self, _text: &[u8], i: usize) -> usize {
+        i + 1
+    }
+
+    /// Returns the end of a match location, possibly occurring before the
+    /// end location of the correct leftmost-first match.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn shortest_match_at(&self, text: &[u8], start: usize) -> Option<usize> {
+        if !self.is_anchor_end_match(text) {
+            return None;
+        }
+        match self.ro.match_type {
+            #[cfg(feature = "perf-literal")]
+            MatchType::Literal(ty) => {
+                self.find_literals(ty, text, start).map(|(_, e)| e)
+            }
+            #[cfg(feature = "perf-dfa")]
+            MatchType::Dfa | MatchType::DfaMany => {
+                match self.shortest_dfa(text, start) {
+                    dfa::Result::Match(end) => Some(end),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => self.shortest_nfa(text, start),
+                }
+            }
+            #[cfg(feature = "perf-dfa")]
+            MatchType::DfaAnchoredReverse => {
+                match dfa::Fsm::reverse(
+                    &self.ro.dfa_reverse,
+                    self.cache.value(),
+                    true,
+                    &text[start..],
+                    text.len(),
+                ) {
+                    dfa::Result::Match(_) => Some(text.len()),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => self.shortest_nfa(text, start),
+                }
+            }
+            #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+            MatchType::DfaSuffix => {
+                match self.shortest_dfa_reverse_suffix(text, start) {
+                    dfa::Result::Match(e) => Some(e),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => self.shortest_nfa(text, start),
+                }
+            }
+            MatchType::Nfa(ty) => self.shortest_nfa_type(ty, text, start),
+            MatchType::Nothing => None,
+        }
+    }
+
+    /// Returns true if and only if the regex matches text.
+    ///
+    /// For single regular expressions, this is equivalent to calling
+    /// shortest_match(...).is_some().
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn is_match_at(&self, text: &[u8], start: usize) -> bool {
+        if !self.is_anchor_end_match(text) {
+            return false;
+        }
+        // We need to do this dance because shortest_match relies on the NFA
+        // filling in captures[1], but a RegexSet has no captures. In other
+        // words, a RegexSet can't (currently) use shortest_match. ---AG
+        match self.ro.match_type {
+            #[cfg(feature = "perf-literal")]
+            MatchType::Literal(ty) => {
+                self.find_literals(ty, text, start).is_some()
+            }
+            #[cfg(feature = "perf-dfa")]
+            MatchType::Dfa | MatchType::DfaMany => {
+                match self.shortest_dfa(text, start) {
+                    dfa::Result::Match(_) => true,
+                    dfa::Result::NoMatch(_) => false,
+                    dfa::Result::Quit => self.match_nfa(text, start),
+                }
+            }
+            #[cfg(feature = "perf-dfa")]
+            MatchType::DfaAnchoredReverse => {
+                match dfa::Fsm::reverse(
+                    &self.ro.dfa_reverse,
+                    self.cache.value(),
+                    true,
+                    &text[start..],
+                    text.len(),
+                ) {
+                    dfa::Result::Match(_) => true,
+                    dfa::Result::NoMatch(_) => false,
+                    dfa::Result::Quit => self.match_nfa(text, start),
+                }
+            }
+            #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+            MatchType::DfaSuffix => {
+                match self.shortest_dfa_reverse_suffix(text, start) {
+                    dfa::Result::Match(_) => true,
+                    dfa::Result::NoMatch(_) => false,
+                    dfa::Result::Quit => self.match_nfa(text, start),
+                }
+            }
+            MatchType::Nfa(ty) => self.match_nfa_type(ty, text, start),
+            MatchType::Nothing => false,
+        }
+    }
+
+    /// Finds the start and end location of the leftmost-first match, starting
+    /// at the given location.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find_at(&self, text: &[u8], start: usize) -> Option<(usize, usize)> {
+        if !self.is_anchor_end_match(text) {
+            return None;
+        }
+        match self.ro.match_type {
+            #[cfg(feature = "perf-literal")]
+            MatchType::Literal(ty) => self.find_literals(ty, text, start),
+            #[cfg(feature = "perf-dfa")]
+            MatchType::Dfa => match self.find_dfa_forward(text, start) {
+                dfa::Result::Match((s, e)) => Some((s, e)),
+                dfa::Result::NoMatch(_) => None,
+                dfa::Result::Quit => {
+                    self.find_nfa(MatchNfaType::Auto, text, start)
+                }
+            },
+            #[cfg(feature = "perf-dfa")]
+            MatchType::DfaAnchoredReverse => {
+                match self.find_dfa_anchored_reverse(text, start) {
+                    dfa::Result::Match((s, e)) => Some((s, e)),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => {
+                        self.find_nfa(MatchNfaType::Auto, text, start)
+                    }
+                }
+            }
+            #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+            MatchType::DfaSuffix => {
+                match self.find_dfa_reverse_suffix(text, start) {
+                    dfa::Result::Match((s, e)) => Some((s, e)),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => {
+                        self.find_nfa(MatchNfaType::Auto, text, start)
+                    }
+                }
+            }
+            MatchType::Nfa(ty) => self.find_nfa(ty, text, start),
+            MatchType::Nothing => None,
+            #[cfg(feature = "perf-dfa")]
+            MatchType::DfaMany => {
+                unreachable!("BUG: RegexSet cannot be used with find")
+            }
+        }
+    }
+
+    /// Finds the start and end location of the leftmost-first match and also
+    /// fills in all matching capture groups.
+    ///
+    /// The number of capture slots given should be equal to the total number
+    /// of capture slots in the compiled program.
+    ///
+    /// Note that the first two slots always correspond to the start and end
+    /// locations of the overall match.
+    fn captures_read_at(
+        &self,
+        locs: &mut Locations,
+        text: &[u8],
+        start: usize,
+    ) -> Option<(usize, usize)> {
+        let slots = locs.as_slots();
+        for slot in slots.iter_mut() {
+            *slot = None;
+        }
+        // If the caller unnecessarily uses this, then we try to save them
+        // from themselves.
+        match slots.len() {
+            0 => return self.find_at(text, start),
+            2 => {
+                return self.find_at(text, start).map(|(s, e)| {
+                    slots[0] = Some(s);
+                    slots[1] = Some(e);
+                    (s, e)
+                });
+            }
+            _ => {} // fallthrough
+        }
+        if !self.is_anchor_end_match(text) {
+            return None;
+        }
+        match self.ro.match_type {
+            #[cfg(feature = "perf-literal")]
+            MatchType::Literal(ty) => {
+                self.find_literals(ty, text, start).and_then(|(s, e)| {
+                    self.captures_nfa_type(
+                        MatchNfaType::Auto,
+                        slots,
+                        text,
+                        s,
+                        e,
+                    )
+                })
+            }
+            #[cfg(feature = "perf-dfa")]
+            MatchType::Dfa => {
+                if self.ro.nfa.is_anchored_start {
+                    self.captures_nfa(slots, text, start)
+                } else {
+                    match self.find_dfa_forward(text, start) {
+                        dfa::Result::Match((s, e)) => self.captures_nfa_type(
+                            MatchNfaType::Auto,
+                            slots,
+                            text,
+                            s,
+                            e,
+                        ),
+                        dfa::Result::NoMatch(_) => None,
+                        dfa::Result::Quit => {
+                            self.captures_nfa(slots, text, start)
+                        }
+                    }
+                }
+            }
+            #[cfg(feature = "perf-dfa")]
+            MatchType::DfaAnchoredReverse => {
+                match self.find_dfa_anchored_reverse(text, start) {
+                    dfa::Result::Match((s, e)) => self.captures_nfa_type(
+                        MatchNfaType::Auto,
+                        slots,
+                        text,
+                        s,
+                        e,
+                    ),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => self.captures_nfa(slots, text, start),
+                }
+            }
+            #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+            MatchType::DfaSuffix => {
+                match self.find_dfa_reverse_suffix(text, start) {
+                    dfa::Result::Match((s, e)) => self.captures_nfa_type(
+                        MatchNfaType::Auto,
+                        slots,
+                        text,
+                        s,
+                        e,
+                    ),
+                    dfa::Result::NoMatch(_) => None,
+                    dfa::Result::Quit => self.captures_nfa(slots, text, start),
+                }
+            }
+            MatchType::Nfa(ty) => {
+                self.captures_nfa_type(ty, slots, text, start, text.len())
+            }
+            MatchType::Nothing => None,
+            #[cfg(feature = "perf-dfa")]
+            MatchType::DfaMany => {
+                unreachable!("BUG: RegexSet cannot be used with captures")
+            }
+        }
+    }
+}
+
+impl<'c> ExecNoSync<'c> {
+    /// Finds the leftmost-first match using only literal search.
+    #[cfg(feature = "perf-literal")]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find_literals(
+        &self,
+        ty: MatchLiteralType,
+        text: &[u8],
+        start: usize,
+    ) -> Option<(usize, usize)> {
+        use self::MatchLiteralType::*;
+        match ty {
+            Unanchored => {
+                let lits = &self.ro.nfa.prefixes;
+                lits.find(&text[start..]).map(|(s, e)| (start + s, start + e))
+            }
+            AnchoredStart => {
+                let lits = &self.ro.nfa.prefixes;
+                if start == 0 || !self.ro.nfa.is_anchored_start {
+                    lits.find_start(&text[start..])
+                        .map(|(s, e)| (start + s, start + e))
+                } else {
+                    None
+                }
+            }
+            AnchoredEnd => {
+                let lits = &self.ro.suffixes;
+                lits.find_end(&text[start..])
+                    .map(|(s, e)| (start + s, start + e))
+            }
+            AhoCorasick => self
+                .ro
+                .ac
+                .as_ref()
+                .unwrap()
+                .find(&text[start..])
+                .map(|m| (start + m.start(), start + m.end())),
+        }
+    }
+
+    /// Finds the leftmost-first match (start and end) using only the DFA.
+    ///
+    /// If the result returned indicates that the DFA quit, then another
+    /// matching engine should be used.
+    #[cfg(feature = "perf-dfa")]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find_dfa_forward(
+        &self,
+        text: &[u8],
+        start: usize,
+    ) -> dfa::Result<(usize, usize)> {
+        use crate::dfa::Result::*;
+        let end = match dfa::Fsm::forward(
+            &self.ro.dfa,
+            self.cache.value(),
+            false,
+            text,
+            start,
+        ) {
+            NoMatch(i) => return NoMatch(i),
+            Quit => return Quit,
+            Match(end) if start == end => return Match((start, start)),
+            Match(end) => end,
+        };
+        // Now run the DFA in reverse to find the start of the match.
+        match dfa::Fsm::reverse(
+            &self.ro.dfa_reverse,
+            self.cache.value(),
+            false,
+            &text[start..],
+            end - start,
+        ) {
+            Match(s) => Match((start + s, end)),
+            NoMatch(i) => NoMatch(i),
+            Quit => Quit,
+        }
+    }
+
+    /// Finds the leftmost-first match (start and end) using only the DFA,
+    /// but assumes the regex is anchored at the end and therefore starts at
+    /// the end of the regex and matches in reverse.
+    ///
+    /// If the result returned indicates that the DFA quit, then another
+    /// matching engine should be used.
+    #[cfg(feature = "perf-dfa")]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find_dfa_anchored_reverse(
+        &self,
+        text: &[u8],
+        start: usize,
+    ) -> dfa::Result<(usize, usize)> {
+        use crate::dfa::Result::*;
+        match dfa::Fsm::reverse(
+            &self.ro.dfa_reverse,
+            self.cache.value(),
+            false,
+            &text[start..],
+            text.len() - start,
+        ) {
+            Match(s) => Match((start + s, text.len())),
+            NoMatch(i) => NoMatch(i),
+            Quit => Quit,
+        }
+    }
+
+    /// Finds the end of the shortest match using only the DFA.
+    #[cfg(feature = "perf-dfa")]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn shortest_dfa(&self, text: &[u8], start: usize) -> dfa::Result<usize> {
+        dfa::Fsm::forward(&self.ro.dfa, self.cache.value(), true, text, start)
+    }
+
+    /// Finds the end of the shortest match using only the DFA by scanning for
+    /// suffix literals.
+    #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn shortest_dfa_reverse_suffix(
+        &self,
+        text: &[u8],
+        start: usize,
+    ) -> dfa::Result<usize> {
+        match self.exec_dfa_reverse_suffix(text, start) {
+            None => self.shortest_dfa(text, start),
+            Some(r) => r.map(|(_, end)| end),
+        }
+    }
+
+    /// Finds the end of the shortest match using only the DFA by scanning for
+    /// suffix literals. It also reports the start of the match.
+    ///
+    /// Note that if None is returned, then the optimization gave up to avoid
+    /// worst case quadratic behavior. A forward scanning DFA should be tried
+    /// next.
+    ///
+    /// If a match is returned and the full leftmost-first match is desired,
+    /// then a forward scan starting from the beginning of the match must be
+    /// done.
+    ///
+    /// If the result returned indicates that the DFA quit, then another
+    /// matching engine should be used.
+    #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn exec_dfa_reverse_suffix(
+        &self,
+        text: &[u8],
+        original_start: usize,
+    ) -> Option<dfa::Result<(usize, usize)>> {
+        use crate::dfa::Result::*;
+
+        let lcs = self.ro.suffixes.lcs();
+        debug_assert!(lcs.len() >= 1);
+        let mut start = original_start;
+        let mut end = start;
+        let mut last_literal = start;
+        while end <= text.len() {
+            last_literal += match lcs.find(&text[last_literal..]) {
+                None => return Some(NoMatch(text.len())),
+                Some(i) => i,
+            };
+            end = last_literal + lcs.len();
+            match dfa::Fsm::reverse(
+                &self.ro.dfa_reverse,
+                self.cache.value(),
+                false,
+                &text[start..end],
+                end - start,
+            ) {
+                Match(0) | NoMatch(0) => return None,
+                Match(i) => return Some(Match((start + i, end))),
+                NoMatch(i) => {
+                    start += i;
+                    last_literal += 1;
+                    continue;
+                }
+                Quit => return Some(Quit),
+            };
+        }
+        Some(NoMatch(text.len()))
+    }
+
+    /// Finds the leftmost-first match (start and end) using only the DFA
+    /// by scanning for suffix literals.
+    ///
+    /// If the result returned indicates that the DFA quit, then another
+    /// matching engine should be used.
+    #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find_dfa_reverse_suffix(
+        &self,
+        text: &[u8],
+        start: usize,
+    ) -> dfa::Result<(usize, usize)> {
+        use crate::dfa::Result::*;
+
+        let match_start = match self.exec_dfa_reverse_suffix(text, start) {
+            None => return self.find_dfa_forward(text, start),
+            Some(Match((start, _))) => start,
+            Some(r) => return r,
+        };
+        // At this point, we've found a match. The only way to quit now
+        // without a match is if the DFA gives up (seems unlikely).
+        //
+        // Now run the DFA forwards to find the proper end of the match.
+        // (The suffix literal match can only indicate the earliest
+        // possible end location, which may appear before the end of the
+        // leftmost-first match.)
+        match dfa::Fsm::forward(
+            &self.ro.dfa,
+            self.cache.value(),
+            false,
+            text,
+            match_start,
+        ) {
+            NoMatch(_) => panic!("BUG: reverse match implies forward match"),
+            Quit => Quit,
+            Match(e) => Match((match_start, e)),
+        }
+    }
+
+    /// Executes the NFA engine to return whether there is a match or not.
+    ///
+    /// Ideally, we could use shortest_nfa(...).is_some() and get the same
+    /// performance characteristics, but regex sets don't have captures, which
+    /// shortest_nfa depends on.
+    #[cfg(feature = "perf-dfa")]
+    fn match_nfa(&self, text: &[u8], start: usize) -> bool {
+        self.match_nfa_type(MatchNfaType::Auto, text, start)
+    }
+
+    /// Like match_nfa, but allows specification of the type of NFA engine.
+    fn match_nfa_type(
+        &self,
+        ty: MatchNfaType,
+        text: &[u8],
+        start: usize,
+    ) -> bool {
+        self.exec_nfa(
+            ty,
+            &mut [false],
+            &mut [],
+            true,
+            false,
+            text,
+            start,
+            text.len(),
+        )
+    }
+
+    /// Finds the shortest match using an NFA.
+    #[cfg(feature = "perf-dfa")]
+    fn shortest_nfa(&self, text: &[u8], start: usize) -> Option<usize> {
+        self.shortest_nfa_type(MatchNfaType::Auto, text, start)
+    }
+
+    /// Like shortest_nfa, but allows specification of the type of NFA engine.
+    fn shortest_nfa_type(
+        &self,
+        ty: MatchNfaType,
+        text: &[u8],
+        start: usize,
+    ) -> Option<usize> {
+        let mut slots = [None, None];
+        if self.exec_nfa(
+            ty,
+            &mut [false],
+            &mut slots,
+            true,
+            true,
+            text,
+            start,
+            text.len(),
+        ) {
+            slots[1]
+        } else {
+            None
+        }
+    }
+
+    /// Like find, but executes an NFA engine.
+    fn find_nfa(
+        &self,
+        ty: MatchNfaType,
+        text: &[u8],
+        start: usize,
+    ) -> Option<(usize, usize)> {
+        let mut slots = [None, None];
+        if self.exec_nfa(
+            ty,
+            &mut [false],
+            &mut slots,
+            false,
+            false,
+            text,
+            start,
+            text.len(),
+        ) {
+            match (slots[0], slots[1]) {
+                (Some(s), Some(e)) => Some((s, e)),
+                _ => None,
+            }
+        } else {
+            None
+        }
+    }
+
+    /// Like find_nfa, but fills in captures.
+    ///
+    /// `slots` should have length equal to `2 * nfa.captures.len()`.
+    #[cfg(feature = "perf-dfa")]
+    fn captures_nfa(
+        &self,
+        slots: &mut [Slot],
+        text: &[u8],
+        start: usize,
+    ) -> Option<(usize, usize)> {
+        self.captures_nfa_type(
+            MatchNfaType::Auto,
+            slots,
+            text,
+            start,
+            text.len(),
+        )
+    }
+
+    /// Like captures_nfa, but allows specification of type of NFA engine.
+    fn captures_nfa_type(
+        &self,
+        ty: MatchNfaType,
+        slots: &mut [Slot],
+        text: &[u8],
+        start: usize,
+        end: usize,
+    ) -> Option<(usize, usize)> {
+        if self.exec_nfa(
+            ty,
+            &mut [false],
+            slots,
+            false,
+            false,
+            text,
+            start,
+            end,
+        ) {
+            match (slots[0], slots[1]) {
+                (Some(s), Some(e)) => Some((s, e)),
+                _ => None,
+            }
+        } else {
+            None
+        }
+    }
+
+    fn exec_nfa(
+        &self,
+        mut ty: MatchNfaType,
+        matches: &mut [bool],
+        slots: &mut [Slot],
+        quit_after_match: bool,
+        quit_after_match_with_pos: bool,
+        text: &[u8],
+        start: usize,
+        end: usize,
+    ) -> bool {
+        use self::MatchNfaType::*;
+        if let Auto = ty {
+            if backtrack::should_exec(self.ro.nfa.len(), text.len()) {
+                ty = Backtrack;
+            } else {
+                ty = PikeVM;
+            }
+        }
+        // The backtracker can't return the shortest match position as it is
+        // implemented today. So if someone calls `shortest_match` and we need
+        // to run an NFA, then use the PikeVM.
+        if quit_after_match_with_pos || ty == PikeVM {
+            self.exec_pikevm(
+                matches,
+                slots,
+                quit_after_match,
+                text,
+                start,
+                end,
+            )
+        } else {
+            self.exec_backtrack(matches, slots, text, start, end)
+        }
+    }
+
+    /// Always run the NFA algorithm.
+    fn exec_pikevm(
+        &self,
+        matches: &mut [bool],
+        slots: &mut [Slot],
+        quit_after_match: bool,
+        text: &[u8],
+        start: usize,
+        end: usize,
+    ) -> bool {
+        if self.ro.nfa.uses_bytes() {
+            pikevm::Fsm::exec(
+                &self.ro.nfa,
+                self.cache.value(),
+                matches,
+                slots,
+                quit_after_match,
+                ByteInput::new(text, self.ro.nfa.only_utf8),
+                start,
+                end,
+            )
+        } else {
+            pikevm::Fsm::exec(
+                &self.ro.nfa,
+                self.cache.value(),
+                matches,
+                slots,
+                quit_after_match,
+                CharInput::new(text),
+                start,
+                end,
+            )
+        }
+    }
+
+    /// Always runs the NFA using bounded backtracking.
+    fn exec_backtrack(
+        &self,
+        matches: &mut [bool],
+        slots: &mut [Slot],
+        text: &[u8],
+        start: usize,
+        end: usize,
+    ) -> bool {
+        if self.ro.nfa.uses_bytes() {
+            backtrack::Bounded::exec(
+                &self.ro.nfa,
+                self.cache.value(),
+                matches,
+                slots,
+                ByteInput::new(text, self.ro.nfa.only_utf8),
+                start,
+                end,
+            )
+        } else {
+            backtrack::Bounded::exec(
+                &self.ro.nfa,
+                self.cache.value(),
+                matches,
+                slots,
+                CharInput::new(text),
+                start,
+                end,
+            )
+        }
+    }
+
+    /// Finds which regular expressions match the given text.
+    ///
+    /// `matches` should have length equal to the number of regexes being
+    /// searched.
+    ///
+    /// This is only useful when one wants to know which regexes in a set
+    /// match some text.
+    pub fn many_matches_at(
+        &self,
+        matches: &mut [bool],
+        text: &[u8],
+        start: usize,
+    ) -> bool {
+        use self::MatchType::*;
+        if !self.is_anchor_end_match(text) {
+            return false;
+        }
+        match self.ro.match_type {
+            #[cfg(feature = "perf-literal")]
+            Literal(ty) => {
+                debug_assert_eq!(matches.len(), 1);
+                matches[0] = self.find_literals(ty, text, start).is_some();
+                matches[0]
+            }
+            #[cfg(feature = "perf-dfa")]
+            Dfa | DfaAnchoredReverse | DfaMany => {
+                match dfa::Fsm::forward_many(
+                    &self.ro.dfa,
+                    self.cache.value(),
+                    matches,
+                    text,
+                    start,
+                ) {
+                    dfa::Result::Match(_) => true,
+                    dfa::Result::NoMatch(_) => false,
+                    dfa::Result::Quit => self.exec_nfa(
+                        MatchNfaType::Auto,
+                        matches,
+                        &mut [],
+                        false,
+                        false,
+                        text,
+                        start,
+                        text.len(),
+                    ),
+                }
+            }
+            #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+            DfaSuffix => {
+                match dfa::Fsm::forward_many(
+                    &self.ro.dfa,
+                    self.cache.value(),
+                    matches,
+                    text,
+                    start,
+                ) {
+                    dfa::Result::Match(_) => true,
+                    dfa::Result::NoMatch(_) => false,
+                    dfa::Result::Quit => self.exec_nfa(
+                        MatchNfaType::Auto,
+                        matches,
+                        &mut [],
+                        false,
+                        false,
+                        text,
+                        start,
+                        text.len(),
+                    ),
+                }
+            }
+            Nfa(ty) => self.exec_nfa(
+                ty,
+                matches,
+                &mut [],
+                false,
+                false,
+                text,
+                start,
+                text.len(),
+            ),
+            Nothing => false,
+        }
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn is_anchor_end_match(&self, text: &[u8]) -> bool {
+        #[cfg(not(feature = "perf-literal"))]
+        fn imp(_: &ExecReadOnly, _: &[u8]) -> bool {
+            true
+        }
+
+        #[cfg(feature = "perf-literal")]
+        fn imp(ro: &ExecReadOnly, text: &[u8]) -> bool {
+            // Only do this check if the haystack is big (>1MB).
+            if text.len() > (1 << 20) && ro.nfa.is_anchored_end {
+                let lcs = ro.suffixes.lcs();
+                if lcs.len() >= 1 && !lcs.is_suffix(text) {
+                    return false;
+                }
+            }
+            true
+        }
+
+        imp(&self.ro, text)
+    }
+
+    pub fn capture_name_idx(&self) -> &Arc<HashMap<String, usize>> {
+        &self.ro.nfa.capture_name_idx
+    }
+}
+
+impl<'c> ExecNoSyncStr<'c> {
+    pub fn capture_name_idx(&self) -> &Arc<HashMap<String, usize>> {
+        self.0.capture_name_idx()
+    }
+}
+
+impl Exec {
+    /// Get a searcher that isn't Sync.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn searcher(&self) -> ExecNoSync<'_> {
+        ExecNoSync {
+            ro: &self.ro, // a clone is too expensive here! (and not needed)
+            cache: self.pool.get(),
+        }
+    }
+
+    /// Get a searcher that isn't Sync and can match on &str.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn searcher_str(&self) -> ExecNoSyncStr<'_> {
+        ExecNoSyncStr(self.searcher())
+    }
+
+    /// Build a Regex from this executor.
+    pub fn into_regex(self) -> re_unicode::Regex {
+        re_unicode::Regex::from(self)
+    }
+
+    /// Build a RegexSet from this executor.
+    pub fn into_regex_set(self) -> re_set::unicode::RegexSet {
+        re_set::unicode::RegexSet::from(self)
+    }
+
+    /// Build a Regex from this executor that can match arbitrary bytes.
+    pub fn into_byte_regex(self) -> re_bytes::Regex {
+        re_bytes::Regex::from(self)
+    }
+
+    /// Build a RegexSet from this executor that can match arbitrary bytes.
+    pub fn into_byte_regex_set(self) -> re_set::bytes::RegexSet {
+        re_set::bytes::RegexSet::from(self)
+    }
+
+    /// The original regular expressions given by the caller that were
+    /// compiled.
+    pub fn regex_strings(&self) -> &[String] {
+        &self.ro.res
+    }
+
+    /// Return a slice of capture names.
+    ///
+    /// Any capture that isn't named is None.
+    pub fn capture_names(&self) -> &[Option<String>] {
+        &self.ro.nfa.captures
+    }
+
+    /// Return a reference to named groups mapping (from group name to
+    /// group position).
+    pub fn capture_name_idx(&self) -> &Arc<HashMap<String, usize>> {
+        &self.ro.nfa.capture_name_idx
+    }
+}
+
+impl Clone for Exec {
+    fn clone(&self) -> Exec {
+        let pool = ExecReadOnly::new_pool(&self.ro);
+        Exec { ro: self.ro.clone(), pool }
+    }
+}
+
+impl ExecReadOnly {
+    fn choose_match_type(&self, hint: Option<MatchType>) -> MatchType {
+        if let Some(MatchType::Nfa(_)) = hint {
+            return hint.unwrap();
+        }
+        // If the NFA is empty, then we'll never match anything.
+        if self.nfa.insts.is_empty() {
+            return MatchType::Nothing;
+        }
+        if let Some(literalty) = self.choose_literal_match_type() {
+            return literalty;
+        }
+        if let Some(dfaty) = self.choose_dfa_match_type() {
+            return dfaty;
+        }
+        // We're so totally hosed.
+        MatchType::Nfa(MatchNfaType::Auto)
+    }
+
+    /// If a plain literal scan can be used, then a corresponding literal
+    /// search type is returned.
+    fn choose_literal_match_type(&self) -> Option<MatchType> {
+        #[cfg(not(feature = "perf-literal"))]
+        fn imp(_: &ExecReadOnly) -> Option<MatchType> {
+            None
+        }
+
+        #[cfg(feature = "perf-literal")]
+        fn imp(ro: &ExecReadOnly) -> Option<MatchType> {
+            // If our set of prefixes is complete, then we can use it to find
+            // a match in lieu of a regex engine. This doesn't quite work well
+            // in the presence of multiple regexes, so only do it when there's
+            // one.
+            //
+            // TODO(burntsushi): Also, don't try to match literals if the regex
+            // is partially anchored. We could technically do it, but we'd need
+            // to create two sets of literals: all of them and then the subset
+            // that aren't anchored. We would then only search for all of them
+            // when at the beginning of the input and use the subset in all
+            // other cases.
+            if ro.res.len() != 1 {
+                return None;
+            }
+            if ro.ac.is_some() {
+                return Some(MatchType::Literal(
+                    MatchLiteralType::AhoCorasick,
+                ));
+            }
+            if ro.nfa.prefixes.complete() {
+                return if ro.nfa.is_anchored_start {
+                    Some(MatchType::Literal(MatchLiteralType::AnchoredStart))
+                } else {
+                    Some(MatchType::Literal(MatchLiteralType::Unanchored))
+                };
+            }
+            if ro.suffixes.complete() {
+                return if ro.nfa.is_anchored_end {
+                    Some(MatchType::Literal(MatchLiteralType::AnchoredEnd))
+                } else {
+                    // This case shouldn't happen. When the regex isn't
+                    // anchored, then complete prefixes should imply complete
+                    // suffixes.
+                    Some(MatchType::Literal(MatchLiteralType::Unanchored))
+                };
+            }
+            None
+        }
+
+        imp(self)
+    }
+
+    /// If a DFA scan can be used, then choose the appropriate DFA strategy.
+    fn choose_dfa_match_type(&self) -> Option<MatchType> {
+        #[cfg(not(feature = "perf-dfa"))]
+        fn imp(_: &ExecReadOnly) -> Option<MatchType> {
+            None
+        }
+
+        #[cfg(feature = "perf-dfa")]
+        fn imp(ro: &ExecReadOnly) -> Option<MatchType> {
+            if !dfa::can_exec(&ro.dfa) {
+                return None;
+            }
+            // Regex sets require a slightly specialized path.
+            if ro.res.len() >= 2 {
+                return Some(MatchType::DfaMany);
+            }
+            // If the regex is anchored at the end but not the start, then
+            // just match in reverse from the end of the haystack.
+            if !ro.nfa.is_anchored_start && ro.nfa.is_anchored_end {
+                return Some(MatchType::DfaAnchoredReverse);
+            }
+            #[cfg(feature = "perf-literal")]
+            {
+                // If there's a longish suffix literal, then it might be faster
+                // to look for that first.
+                if ro.should_suffix_scan() {
+                    return Some(MatchType::DfaSuffix);
+                }
+            }
+            // Fall back to your garden variety forward searching lazy DFA.
+            Some(MatchType::Dfa)
+        }
+
+        imp(self)
+    }
+
+    /// Returns true if the program is amenable to suffix scanning.
+    ///
+    /// When this is true, as a heuristic, we assume it is OK to quickly scan
+    /// for suffix literals and then do a *reverse* DFA match from any matches
+    /// produced by the literal scan. (And then followed by a forward DFA
+    /// search, since the previously found suffix literal maybe not actually be
+    /// the end of a match.)
+    ///
+    /// This is a bit of a specialized optimization, but can result in pretty
+    /// big performance wins if 1) there are no prefix literals and 2) the
+    /// suffix literals are pretty rare in the text. (1) is obviously easy to
+    /// account for but (2) is harder. As a proxy, we assume that longer
+    /// strings are generally rarer, so we only enable this optimization when
+    /// we have a meaty suffix.
+    #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+    fn should_suffix_scan(&self) -> bool {
+        if self.suffixes.is_empty() {
+            return false;
+        }
+        let lcs_len = self.suffixes.lcs().char_len();
+        lcs_len >= 3 && lcs_len > self.dfa.prefixes.lcp().char_len()
+    }
+
+    fn new_pool(ro: &Arc<ExecReadOnly>) -> Box<Pool<ProgramCache>> {
+        let ro = ro.clone();
+        Box::new(Pool::new(Box::new(move || {
+            AssertUnwindSafe(RefCell::new(ProgramCacheInner::new(&ro)))
+        })))
+    }
+}
+
+#[derive(Clone, Copy, Debug)]
+enum MatchType {
+    /// A single or multiple literal search. This is only used when the regex
+    /// can be decomposed into a literal search.
+    #[cfg(feature = "perf-literal")]
+    Literal(MatchLiteralType),
+    /// A normal DFA search.
+    #[cfg(feature = "perf-dfa")]
+    Dfa,
+    /// A reverse DFA search starting from the end of a haystack.
+    #[cfg(feature = "perf-dfa")]
+    DfaAnchoredReverse,
+    /// A reverse DFA search with suffix literal scanning.
+    #[cfg(all(feature = "perf-dfa", feature = "perf-literal"))]
+    DfaSuffix,
+    /// Use the DFA on two or more regular expressions.
+    #[cfg(feature = "perf-dfa")]
+    DfaMany,
+    /// An NFA variant.
+    Nfa(MatchNfaType),
+    /// No match is ever possible, so don't ever try to search.
+    Nothing,
+}
+
+#[derive(Clone, Copy, Debug)]
+#[cfg(feature = "perf-literal")]
+enum MatchLiteralType {
+    /// Match literals anywhere in text.
+    Unanchored,
+    /// Match literals only at the start of text.
+    AnchoredStart,
+    /// Match literals only at the end of text.
+    AnchoredEnd,
+    /// Use an Aho-Corasick automaton. This requires `ac` to be Some on
+    /// ExecReadOnly.
+    AhoCorasick,
+}
+
+#[derive(Clone, Copy, Debug, Eq, PartialEq)]
+enum MatchNfaType {
+    /// Choose between Backtrack and PikeVM.
+    Auto,
+    /// NFA bounded backtracking.
+    ///
+    /// (This is only set by tests, since it never makes sense to always want
+    /// backtracking.)
+    Backtrack,
+    /// The Pike VM.
+    ///
+    /// (This is only set by tests, since it never makes sense to always want
+    /// the Pike VM.)
+    PikeVM,
+}
+
+/// `ProgramCache` maintains reusable allocations for each matching engine
+/// available to a particular program.
+///
+/// We declare this as unwind safe since it's a cache that's only used for
+/// performance purposes. If a panic occurs, it is (or should be) always safe
+/// to continue using the same regex object.
+pub type ProgramCache = AssertUnwindSafe<RefCell<ProgramCacheInner>>;
+
+#[derive(Debug)]
+pub struct ProgramCacheInner {
+    pub pikevm: pikevm::Cache,
+    pub backtrack: backtrack::Cache,
+    #[cfg(feature = "perf-dfa")]
+    pub dfa: dfa::Cache,
+    #[cfg(feature = "perf-dfa")]
+    pub dfa_reverse: dfa::Cache,
+}
+
+impl ProgramCacheInner {
+    fn new(ro: &ExecReadOnly) -> Self {
+        ProgramCacheInner {
+            pikevm: pikevm::Cache::new(&ro.nfa),
+            backtrack: backtrack::Cache::new(&ro.nfa),
+            #[cfg(feature = "perf-dfa")]
+            dfa: dfa::Cache::new(&ro.dfa),
+            #[cfg(feature = "perf-dfa")]
+            dfa_reverse: dfa::Cache::new(&ro.dfa_reverse),
+        }
+    }
+}
+
+/// Alternation literals checks if the given HIR is a simple alternation of
+/// literals, and if so, returns them. Otherwise, this returns None.
+#[cfg(feature = "perf-literal")]
+fn alternation_literals(expr: &Hir) -> Option<Vec<Vec<u8>>> {
+    use regex_syntax::hir::{HirKind, Literal};
+
+    // This is pretty hacky, but basically, if `is_alternation_literal` is
+    // true, then we can make several assumptions about the structure of our
+    // HIR. This is what justifies the `unreachable!` statements below.
+    //
+    // This code should be refactored once we overhaul this crate's
+    // optimization pipeline, because this is a terribly inflexible way to go
+    // about things.
+
+    if !expr.is_alternation_literal() {
+        return None;
+    }
+    let alts = match *expr.kind() {
+        HirKind::Alternation(ref alts) => alts,
+        _ => return None, // one literal isn't worth it
+    };
+
+    let extendlit = |lit: &Literal, dst: &mut Vec<u8>| match *lit {
+        Literal::Unicode(c) => {
+            let mut buf = [0; 4];
+            dst.extend_from_slice(c.encode_utf8(&mut buf).as_bytes());
+        }
+        Literal::Byte(b) => {
+            dst.push(b);
+        }
+    };
+
+    let mut lits = vec![];
+    for alt in alts {
+        let mut lit = vec![];
+        match *alt.kind() {
+            HirKind::Literal(ref x) => extendlit(x, &mut lit),
+            HirKind::Concat(ref exprs) => {
+                for e in exprs {
+                    match *e.kind() {
+                        HirKind::Literal(ref x) => extendlit(x, &mut lit),
+                        _ => unreachable!("expected literal, got {:?}", e),
+                    }
+                }
+            }
+            _ => unreachable!("expected literal or concat, got {:?}", alt),
+        }
+        lits.push(lit);
+    }
+    Some(lits)
+}
+
+#[cfg(test)]
+mod test {
+    #[test]
+    fn uppercut_s_backtracking_bytes_default_bytes_mismatch() {
+        use crate::internal::ExecBuilder;
+
+        let backtrack_bytes_re = ExecBuilder::new("^S")
+            .bounded_backtracking()
+            .only_utf8(false)
+            .build()
+            .map(|exec| exec.into_byte_regex())
+            .map_err(|err| format!("{}", err))
+            .unwrap();
+
+        let default_bytes_re = ExecBuilder::new("^S")
+            .only_utf8(false)
+            .build()
+            .map(|exec| exec.into_byte_regex())
+            .map_err(|err| format!("{}", err))
+            .unwrap();
+
+        let input = vec![83, 83];
+
+        let s1 = backtrack_bytes_re.split(&input);
+        let s2 = default_bytes_re.split(&input);
+        for (chunk1, chunk2) in s1.zip(s2) {
+            assert_eq!(chunk1, chunk2);
+        }
+    }
+
+    #[test]
+    fn unicode_lit_star_backtracking_utf8bytes_default_utf8bytes_mismatch() {
+        use crate::internal::ExecBuilder;
+
+        let backtrack_bytes_re = ExecBuilder::new(r"^(?u:\*)")
+            .bounded_backtracking()
+            .bytes(true)
+            .build()
+            .map(|exec| exec.into_regex())
+            .map_err(|err| format!("{}", err))
+            .unwrap();
+
+        let default_bytes_re = ExecBuilder::new(r"^(?u:\*)")
+            .bytes(true)
+            .build()
+            .map(|exec| exec.into_regex())
+            .map_err(|err| format!("{}", err))
+            .unwrap();
+
+        let input = "**";
+
+        let s1 = backtrack_bytes_re.split(input);
+        let s2 = default_bytes_re.split(input);
+        for (chunk1, chunk2) in s1.zip(s2) {
+            assert_eq!(chunk1, chunk2);
+        }
+    }
+}
diff --git a/vendor/regex/src/expand.rs b/vendor/regex/src/expand.rs
new file mode 100644
index 000000000..fd9c2d05d
--- /dev/null
+++ b/vendor/regex/src/expand.rs
@@ -0,0 +1,239 @@
+use std::str;
+
+use crate::find_byte::find_byte;
+
+use crate::re_bytes;
+use crate::re_unicode;
+
+pub fn expand_str(
+    caps: &re_unicode::Captures<'_>,
+    mut replacement: &str,
+    dst: &mut String,
+) {
+    while !replacement.is_empty() {
+        match find_byte(b'$', replacement.as_bytes()) {
+            None => break,
+            Some(i) => {
+                dst.push_str(&replacement[..i]);
+                replacement = &replacement[i..];
+            }
+        }
+        if replacement.as_bytes().get(1).map_or(false, |&b| b == b'$') {
+            dst.push_str("$");
+            replacement = &replacement[2..];
+            continue;
+        }
+        debug_assert!(!replacement.is_empty());
+        let cap_ref = match find_cap_ref(replacement.as_bytes()) {
+            Some(cap_ref) => cap_ref,
+            None => {
+                dst.push_str("$");
+                replacement = &replacement[1..];
+                continue;
+            }
+        };
+        replacement = &replacement[cap_ref.end..];
+        match cap_ref.cap {
+            Ref::Number(i) => {
+                dst.push_str(caps.get(i).map(|m| m.as_str()).unwrap_or(""));
+            }
+            Ref::Named(name) => {
+                dst.push_str(
+                    caps.name(name).map(|m| m.as_str()).unwrap_or(""),
+                );
+            }
+        }
+    }
+    dst.push_str(replacement);
+}
+
+pub fn expand_bytes(
+    caps: &re_bytes::Captures<'_>,
+    mut replacement: &[u8],
+    dst: &mut Vec<u8>,
+) {
+    while !replacement.is_empty() {
+        match find_byte(b'$', replacement) {
+            None => break,
+            Some(i) => {
+                dst.extend(&replacement[..i]);
+                replacement = &replacement[i..];
+            }
+        }
+        if replacement.get(1).map_or(false, |&b| b == b'$') {
+            dst.push(b'$');
+            replacement = &replacement[2..];
+            continue;
+        }
+        debug_assert!(!replacement.is_empty());
+        let cap_ref = match find_cap_ref(replacement) {
+            Some(cap_ref) => cap_ref,
+            None => {
+                dst.push(b'$');
+                replacement = &replacement[1..];
+                continue;
+            }
+        };
+        replacement = &replacement[cap_ref.end..];
+        match cap_ref.cap {
+            Ref::Number(i) => {
+                dst.extend(caps.get(i).map(|m| m.as_bytes()).unwrap_or(b""));
+            }
+            Ref::Named(name) => {
+                dst.extend(
+                    caps.name(name).map(|m| m.as_bytes()).unwrap_or(b""),
+                );
+            }
+        }
+    }
+    dst.extend(replacement);
+}
+
+/// `CaptureRef` represents a reference to a capture group inside some text.
+/// The reference is either a capture group name or a number.
+///
+/// It is also tagged with the position in the text following the
+/// capture reference.
+#[derive(Clone, Copy, Debug, Eq, PartialEq)]
+struct CaptureRef<'a> {
+    cap: Ref<'a>,
+    end: usize,
+}
+
+/// A reference to a capture group in some text.
+///
+/// e.g., `$2`, `$foo`, `${foo}`.
+#[derive(Clone, Copy, Debug, Eq, PartialEq)]
+enum Ref<'a> {
+    Named(&'a str),
+    Number(usize),
+}
+
+impl<'a> From<&'a str> for Ref<'a> {
+    fn from(x: &'a str) -> Ref<'a> {
+        Ref::Named(x)
+    }
+}
+
+impl From<usize> for Ref<'static> {
+    fn from(x: usize) -> Ref<'static> {
+        Ref::Number(x)
+    }
+}
+
+/// Parses a possible reference to a capture group name in the given text,
+/// starting at the beginning of `replacement`.
+///
+/// If no such valid reference could be found, None is returned.
+fn find_cap_ref(replacement: &[u8]) -> Option<CaptureRef<'_>> {
+    let mut i = 0;
+    let rep: &[u8] = replacement.as_ref();
+    if rep.len() <= 1 || rep[0] != b'$' {
+        return None;
+    }
+    i += 1;
+    if rep[i] == b'{' {
+        return find_cap_ref_braced(rep, i + 1);
+    }
+    let mut cap_end = i;
+    while rep.get(cap_end).map_or(false, is_valid_cap_letter) {
+        cap_end += 1;
+    }
+    if cap_end == i {
+        return None;
+    }
+    // We just verified that the range 0..cap_end is valid ASCII, so it must
+    // therefore be valid UTF-8. If we really cared, we could avoid this UTF-8
+    // check via an unchecked conversion or by parsing the number straight from
+    // &[u8].
+    let cap =
+        str::from_utf8(&rep[i..cap_end]).expect("valid UTF-8 capture name");
+    Some(CaptureRef {
+        cap: match cap.parse::<u32>() {
+            Ok(i) => Ref::Number(i as usize),
+            Err(_) => Ref::Named(cap),
+        },
+        end: cap_end,
+    })
+}
+
+fn find_cap_ref_braced(rep: &[u8], mut i: usize) -> Option<CaptureRef<'_>> {
+    let start = i;
+    while rep.get(i).map_or(false, |&b| b != b'}') {
+        i += 1;
+    }
+    if !rep.get(i).map_or(false, |&b| b == b'}') {
+        return None;
+    }
+    // When looking at braced names, we don't put any restrictions on the name,
+    // so it's possible it could be invalid UTF-8. But a capture group name
+    // can never be invalid UTF-8, so if we have invalid UTF-8, then we can
+    // safely return None.
+    let cap = match str::from_utf8(&rep[start..i]) {
+        Err(_) => return None,
+        Ok(cap) => cap,
+    };
+    Some(CaptureRef {
+        cap: match cap.parse::<u32>() {
+            Ok(i) => Ref::Number(i as usize),
+            Err(_) => Ref::Named(cap),
+        },
+        end: i + 1,
+    })
+}
+
+/// Returns true if and only if the given byte is allowed in a capture name.
+fn is_valid_cap_letter(b: &u8) -> bool {
+    match *b {
+        b'0'..=b'9' | b'a'..=b'z' | b'A'..=b'Z' | b'_' => true,
+        _ => false,
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use super::{find_cap_ref, CaptureRef};
+
+    macro_rules! find {
+        ($name:ident, $text:expr) => {
+            #[test]
+            fn $name() {
+                assert_eq!(None, find_cap_ref($text.as_bytes()));
+            }
+        };
+        ($name:ident, $text:expr, $capref:expr) => {
+            #[test]
+            fn $name() {
+                assert_eq!(Some($capref), find_cap_ref($text.as_bytes()));
+            }
+        };
+    }
+
+    macro_rules! c {
+        ($name_or_number:expr, $pos:expr) => {
+            CaptureRef { cap: $name_or_number.into(), end: $pos }
+        };
+    }
+
+    find!(find_cap_ref1, "$foo", c!("foo", 4));
+    find!(find_cap_ref2, "${foo}", c!("foo", 6));
+    find!(find_cap_ref3, "$0", c!(0, 2));
+    find!(find_cap_ref4, "$5", c!(5, 2));
+    find!(find_cap_ref5, "$10", c!(10, 3));
+    // See https://github.com/rust-lang/regex/pull/585
+    // for more on characters following numbers
+    find!(find_cap_ref6, "$42a", c!("42a", 4));
+    find!(find_cap_ref7, "${42}a", c!(42, 5));
+    find!(find_cap_ref8, "${42");
+    find!(find_cap_ref9, "${42 ");
+    find!(find_cap_ref10, " $0 ");
+    find!(find_cap_ref11, "$");
+    find!(find_cap_ref12, " ");
+    find!(find_cap_ref13, "");
+    find!(find_cap_ref14, "$1-$2", c!(1, 2));
+    find!(find_cap_ref15, "$1_$2", c!("1_", 3));
+    find!(find_cap_ref16, "$x-$y", c!("x", 2));
+    find!(find_cap_ref17, "$x_$y", c!("x_", 3));
+    find!(find_cap_ref18, "${#}", c!("#", 4));
+    find!(find_cap_ref19, "${Z[}", c!("Z[", 5));
+}
diff --git a/vendor/regex/src/find_byte.rs b/vendor/regex/src/find_byte.rs
new file mode 100644
index 000000000..e95f72afb
--- /dev/null
+++ b/vendor/regex/src/find_byte.rs
@@ -0,0 +1,18 @@
+/// Searches for the given needle in the given haystack.
+///
+/// If the perf-literal feature is enabled, then this uses the super optimized
+/// memchr crate. Otherwise, it uses the naive byte-at-a-time implementation.
+pub fn find_byte(needle: u8, haystack: &[u8]) -> Option<usize> {
+    #[cfg(not(feature = "perf-literal"))]
+    fn imp(needle: u8, haystack: &[u8]) -> Option<usize> {
+        haystack.iter().position(|&b| b == needle)
+    }
+
+    #[cfg(feature = "perf-literal")]
+    fn imp(needle: u8, haystack: &[u8]) -> Option<usize> {
+        use memchr::memchr;
+        memchr(needle, haystack)
+    }
+
+    imp(needle, haystack)
+}
diff --git a/vendor/regex/src/freqs.rs b/vendor/regex/src/freqs.rs
new file mode 100644
index 000000000..fcffa95fb
--- /dev/null
+++ b/vendor/regex/src/freqs.rs
@@ -0,0 +1,261 @@
+// NOTE: The following code was generated by "scripts/frequencies.py", do not
+// edit directly
+
+pub const BYTE_FREQUENCIES: [u8; 256] = [
+    55,  // '\x00'
+    52,  // '\x01'
+    51,  // '\x02'
+    50,  // '\x03'
+    49,  // '\x04'
+    48,  // '\x05'
+    47,  // '\x06'
+    46,  // '\x07'
+    45,  // '\x08'
+    103, // '\t'
+    242, // '\n'
+    66,  // '\x0b'
+    67,  // '\x0c'
+    229, // '\r'
+    44,  // '\x0e'
+    43,  // '\x0f'
+    42,  // '\x10'
+    41,  // '\x11'
+    40,  // '\x12'
+    39,  // '\x13'
+    38,  // '\x14'
+    37,  // '\x15'
+    36,  // '\x16'
+    35,  // '\x17'
+    34,  // '\x18'
+    33,  // '\x19'
+    56,  // '\x1a'
+    32,  // '\x1b'
+    31,  // '\x1c'
+    30,  // '\x1d'
+    29,  // '\x1e'
+    28,  // '\x1f'
+    255, // ' '
+    148, // '!'
+    164, // '"'
+    149, // '#'
+    136, // '$'
+    160, // '%'
+    155, // '&'
+    173, // "'"
+    221, // '('
+    222, // ')'
+    134, // '*'
+    122, // '+'
+    232, // ','
+    202, // '-'
+    215, // '.'
+    224, // '/'
+    208, // '0'
+    220, // '1'
+    204, // '2'
+    187, // '3'
+    183, // '4'
+    179, // '5'
+    177, // '6'
+    168, // '7'
+    178, // '8'
+    200, // '9'
+    226, // ':'
+    195, // ';'
+    154, // '<'
+    184, // '='
+    174, // '>'
+    126, // '?'
+    120, // '@'
+    191, // 'A'
+    157, // 'B'
+    194, // 'C'
+    170, // 'D'
+    189, // 'E'
+    162, // 'F'
+    161, // 'G'
+    150, // 'H'
+    193, // 'I'
+    142, // 'J'
+    137, // 'K'
+    171, // 'L'
+    176, // 'M'
+    185, // 'N'
+    167, // 'O'
+    186, // 'P'
+    112, // 'Q'
+    175, // 'R'
+    192, // 'S'
+    188, // 'T'
+    156, // 'U'
+    140, // 'V'
+    143, // 'W'
+    123, // 'X'
+    133, // 'Y'
+    128, // 'Z'
+    147, // '['
+    138, // '\\'
+    146, // ']'
+    114, // '^'
+    223, // '_'
+    151, // '`'
+    249, // 'a'
+    216, // 'b'
+    238, // 'c'
+    236, // 'd'
+    253, // 'e'
+    227, // 'f'
+    218, // 'g'
+    230, // 'h'
+    247, // 'i'
+    135, // 'j'
+    180, // 'k'
+    241, // 'l'
+    233, // 'm'
+    246, // 'n'
+    244, // 'o'
+    231, // 'p'
+    139, // 'q'
+    245, // 'r'
+    243, // 's'
+    251, // 't'
+    235, // 'u'
+    201, // 'v'
+    196, // 'w'
+    240, // 'x'
+    214, // 'y'
+    152, // 'z'
+    182, // '{'
+    205, // '|'
+    181, // '}'
+    127, // '~'
+    27,  // '\x7f'
+    212, // '\x80'
+    211, // '\x81'
+    210, // '\x82'
+    213, // '\x83'
+    228, // '\x84'
+    197, // '\x85'
+    169, // '\x86'
+    159, // '\x87'
+    131, // '\x88'
+    172, // '\x89'
+    105, // '\x8a'
+    80,  // '\x8b'
+    98,  // '\x8c'
+    96,  // '\x8d'
+    97,  // '\x8e'
+    81,  // '\x8f'
+    207, // '\x90'
+    145, // '\x91'
+    116, // '\x92'
+    115, // '\x93'
+    144, // '\x94'
+    130, // '\x95'
+    153, // '\x96'
+    121, // '\x97'
+    107, // '\x98'
+    132, // '\x99'
+    109, // '\x9a'
+    110, // '\x9b'
+    124, // '\x9c'
+    111, // '\x9d'
+    82,  // '\x9e'
+    108, // '\x9f'
+    118, // '\xa0'
+    141, // '¡'
+    113, // '¢'
+    129, // '£'
+    119, // '¤'
+    125, // '¥'
+    165, // '¦'
+    117, // '§'
+    92,  // '¨'
+    106, // '©'
+    83,  // 'ª'
+    72,  // '«'
+    99,  // '¬'
+    93,  // '\xad'
+    65,  // '®'
+    79,  // '¯'
+    166, // '°'
+    237, // '±'
+    163, // '²'
+    199, // '³'
+    190, // '´'
+    225, // 'µ'
+    209, // '¶'
+    203, // '·'
+    198, // '¸'
+    217, // '¹'
+    219, // 'º'
+    206, // '»'
+    234, // '¼'
+    248, // '½'
+    158, // '¾'
+    239, // '¿'
+    255, // 'À'
+    255, // 'Á'
+    255, // 'Â'
+    255, // 'Ã'
+    255, // 'Ä'
+    255, // 'Å'
+    255, // 'Æ'
+    255, // 'Ç'
+    255, // 'È'
+    255, // 'É'
+    255, // 'Ê'
+    255, // 'Ë'
+    255, // 'Ì'
+    255, // 'Í'
+    255, // 'Î'
+    255, // 'Ï'
+    255, // 'Ð'
+    255, // 'Ñ'
+    255, // 'Ò'
+    255, // 'Ó'
+    255, // 'Ô'
+    255, // 'Õ'
+    255, // 'Ö'
+    255, // '×'
+    255, // 'Ø'
+    255, // 'Ù'
+    255, // 'Ú'
+    255, // 'Û'
+    255, // 'Ü'
+    255, // 'Ý'
+    255, // 'Þ'
+    255, // 'ß'
+    255, // 'à'
+    255, // 'á'
+    255, // 'â'
+    255, // 'ã'
+    255, // 'ä'
+    255, // 'å'
+    255, // 'æ'
+    255, // 'ç'
+    255, // 'è'
+    255, // 'é'
+    255, // 'ê'
+    255, // 'ë'
+    255, // 'ì'
+    255, // 'í'
+    255, // 'î'
+    255, // 'ï'
+    255, // 'ð'
+    255, // 'ñ'
+    255, // 'ò'
+    255, // 'ó'
+    255, // 'ô'
+    255, // 'õ'
+    255, // 'ö'
+    255, // '÷'
+    255, // 'ø'
+    255, // 'ù'
+    255, // 'ú'
+    255, // 'û'
+    255, // 'ü'
+    255, // 'ý'
+    255, // 'þ'
+    255, // 'ÿ'
+];
diff --git a/vendor/regex/src/input.rs b/vendor/regex/src/input.rs
new file mode 100644
index 000000000..5d50ee340
--- /dev/null
+++ b/vendor/regex/src/input.rs
@@ -0,0 +1,432 @@
+use std::char;
+use std::cmp::Ordering;
+use std::fmt;
+use std::ops;
+use std::u32;
+
+use crate::literal::LiteralSearcher;
+use crate::prog::InstEmptyLook;
+use crate::utf8::{decode_last_utf8, decode_utf8};
+
+/// Represents a location in the input.
+#[derive(Clone, Copy, Debug)]
+pub struct InputAt {
+    pos: usize,
+    c: Char,
+    byte: Option<u8>,
+    len: usize,
+}
+
+impl InputAt {
+    /// Returns true iff this position is at the beginning of the input.
+    pub fn is_start(&self) -> bool {
+        self.pos == 0
+    }
+
+    /// Returns true iff this position is past the end of the input.
+    pub fn is_end(&self) -> bool {
+        self.c.is_none() && self.byte.is_none()
+    }
+
+    /// Returns the character at this position.
+    ///
+    /// If this position is just before or after the input, then an absent
+    /// character is returned.
+    pub fn char(&self) -> Char {
+        self.c
+    }
+
+    /// Returns the byte at this position.
+    pub fn byte(&self) -> Option<u8> {
+        self.byte
+    }
+
+    /// Returns the UTF-8 width of the character at this position.
+    pub fn len(&self) -> usize {
+        self.len
+    }
+
+    /// Returns whether the UTF-8 width of the character at this position
+    /// is zero.
+    pub fn is_empty(&self) -> bool {
+        self.len == 0
+    }
+
+    /// Returns the byte offset of this position.
+    pub fn pos(&self) -> usize {
+        self.pos
+    }
+
+    /// Returns the byte offset of the next position in the input.
+    pub fn next_pos(&self) -> usize {
+        self.pos + self.len
+    }
+}
+
+/// An abstraction over input used in the matching engines.
+pub trait Input: fmt::Debug {
+    /// Return an encoding of the position at byte offset `i`.
+    fn at(&self, i: usize) -> InputAt;
+
+    /// Return the Unicode character occurring next to `at`.
+    ///
+    /// If no such character could be decoded, then `Char` is absent.
+    fn next_char(&self, at: InputAt) -> Char;
+
+    /// Return the Unicode character occurring previous to `at`.
+    ///
+    /// If no such character could be decoded, then `Char` is absent.
+    fn previous_char(&self, at: InputAt) -> Char;
+
+    /// Return true if the given empty width instruction matches at the
+    /// input position given.
+    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool;
+
+    /// Scan the input for a matching prefix.
+    fn prefix_at(
+        &self,
+        prefixes: &LiteralSearcher,
+        at: InputAt,
+    ) -> Option<InputAt>;
+
+    /// The number of bytes in the input.
+    fn len(&self) -> usize;
+
+    /// Whether the input is empty.
+    fn is_empty(&self) -> bool {
+        self.len() == 0
+    }
+
+    /// Return the given input as a sequence of bytes.
+    fn as_bytes(&self) -> &[u8];
+}
+
+impl<'a, T: Input> Input for &'a T {
+    fn at(&self, i: usize) -> InputAt {
+        (**self).at(i)
+    }
+
+    fn next_char(&self, at: InputAt) -> Char {
+        (**self).next_char(at)
+    }
+
+    fn previous_char(&self, at: InputAt) -> Char {
+        (**self).previous_char(at)
+    }
+
+    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool {
+        (**self).is_empty_match(at, empty)
+    }
+
+    fn prefix_at(
+        &self,
+        prefixes: &LiteralSearcher,
+        at: InputAt,
+    ) -> Option<InputAt> {
+        (**self).prefix_at(prefixes, at)
+    }
+
+    fn len(&self) -> usize {
+        (**self).len()
+    }
+
+    fn as_bytes(&self) -> &[u8] {
+        (**self).as_bytes()
+    }
+}
+
+/// An input reader over characters.
+#[derive(Clone, Copy, Debug)]
+pub struct CharInput<'t>(&'t [u8]);
+
+impl<'t> CharInput<'t> {
+    /// Return a new character input reader for the given string.
+    pub fn new(s: &'t [u8]) -> CharInput<'t> {
+        CharInput(s)
+    }
+}
+
+impl<'t> ops::Deref for CharInput<'t> {
+    type Target = [u8];
+
+    fn deref(&self) -> &[u8] {
+        self.0
+    }
+}
+
+impl<'t> Input for CharInput<'t> {
+    fn at(&self, i: usize) -> InputAt {
+        if i >= self.len() {
+            InputAt { pos: self.len(), c: None.into(), byte: None, len: 0 }
+        } else {
+            let c = decode_utf8(&self[i..]).map(|(c, _)| c).into();
+            InputAt { pos: i, c: c, byte: None, len: c.len_utf8() }
+        }
+    }
+
+    fn next_char(&self, at: InputAt) -> Char {
+        at.char()
+    }
+
+    fn previous_char(&self, at: InputAt) -> Char {
+        decode_last_utf8(&self[..at.pos()]).map(|(c, _)| c).into()
+    }
+
+    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool {
+        use crate::prog::EmptyLook::*;
+        match empty.look {
+            StartLine => {
+                let c = self.previous_char(at);
+                at.pos() == 0 || c == '\n'
+            }
+            EndLine => {
+                let c = self.next_char(at);
+                at.pos() == self.len() || c == '\n'
+            }
+            StartText => at.pos() == 0,
+            EndText => at.pos() == self.len(),
+            WordBoundary => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                c1.is_word_char() != c2.is_word_char()
+            }
+            NotWordBoundary => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                c1.is_word_char() == c2.is_word_char()
+            }
+            WordBoundaryAscii => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                c1.is_word_byte() != c2.is_word_byte()
+            }
+            NotWordBoundaryAscii => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                c1.is_word_byte() == c2.is_word_byte()
+            }
+        }
+    }
+
+    fn prefix_at(
+        &self,
+        prefixes: &LiteralSearcher,
+        at: InputAt,
+    ) -> Option<InputAt> {
+        prefixes.find(&self[at.pos()..]).map(|(s, _)| self.at(at.pos() + s))
+    }
+
+    fn len(&self) -> usize {
+        self.0.len()
+    }
+
+    fn as_bytes(&self) -> &[u8] {
+        self.0
+    }
+}
+
+/// An input reader over bytes.
+#[derive(Clone, Copy, Debug)]
+pub struct ByteInput<'t> {
+    text: &'t [u8],
+    only_utf8: bool,
+}
+
+impl<'t> ByteInput<'t> {
+    /// Return a new byte-based input reader for the given string.
+    pub fn new(text: &'t [u8], only_utf8: bool) -> ByteInput<'t> {
+        ByteInput { text: text, only_utf8: only_utf8 }
+    }
+}
+
+impl<'t> ops::Deref for ByteInput<'t> {
+    type Target = [u8];
+
+    fn deref(&self) -> &[u8] {
+        self.text
+    }
+}
+
+impl<'t> Input for ByteInput<'t> {
+    fn at(&self, i: usize) -> InputAt {
+        if i >= self.len() {
+            InputAt { pos: self.len(), c: None.into(), byte: None, len: 0 }
+        } else {
+            InputAt {
+                pos: i,
+                c: None.into(),
+                byte: self.get(i).cloned(),
+                len: 1,
+            }
+        }
+    }
+
+    fn next_char(&self, at: InputAt) -> Char {
+        decode_utf8(&self[at.pos()..]).map(|(c, _)| c).into()
+    }
+
+    fn previous_char(&self, at: InputAt) -> Char {
+        decode_last_utf8(&self[..at.pos()]).map(|(c, _)| c).into()
+    }
+
+    fn is_empty_match(&self, at: InputAt, empty: &InstEmptyLook) -> bool {
+        use crate::prog::EmptyLook::*;
+        match empty.look {
+            StartLine => {
+                let c = self.previous_char(at);
+                at.pos() == 0 || c == '\n'
+            }
+            EndLine => {
+                let c = self.next_char(at);
+                at.pos() == self.len() || c == '\n'
+            }
+            StartText => at.pos() == 0,
+            EndText => at.pos() == self.len(),
+            WordBoundary => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                c1.is_word_char() != c2.is_word_char()
+            }
+            NotWordBoundary => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                c1.is_word_char() == c2.is_word_char()
+            }
+            WordBoundaryAscii => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                if self.only_utf8 {
+                    // If we must match UTF-8, then we can't match word
+                    // boundaries at invalid UTF-8.
+                    if c1.is_none() && !at.is_start() {
+                        return false;
+                    }
+                    if c2.is_none() && !at.is_end() {
+                        return false;
+                    }
+                }
+                c1.is_word_byte() != c2.is_word_byte()
+            }
+            NotWordBoundaryAscii => {
+                let (c1, c2) = (self.previous_char(at), self.next_char(at));
+                if self.only_utf8 {
+                    // If we must match UTF-8, then we can't match word
+                    // boundaries at invalid UTF-8.
+                    if c1.is_none() && !at.is_start() {
+                        return false;
+                    }
+                    if c2.is_none() && !at.is_end() {
+                        return false;
+                    }
+                }
+                c1.is_word_byte() == c2.is_word_byte()
+            }
+        }
+    }
+
+    fn prefix_at(
+        &self,
+        prefixes: &LiteralSearcher,
+        at: InputAt,
+    ) -> Option<InputAt> {
+        prefixes.find(&self[at.pos()..]).map(|(s, _)| self.at(at.pos() + s))
+    }
+
+    fn len(&self) -> usize {
+        self.text.len()
+    }
+
+    fn as_bytes(&self) -> &[u8] {
+        self.text
+    }
+}
+
+/// An inline representation of `Option<char>`.
+///
+/// This eliminates the need to do case analysis on `Option<char>` to determine
+/// ordinality with other characters.
+///
+/// (The `Option<char>` is not related to encoding. Instead, it is used in the
+/// matching engines to represent the beginning and ending boundaries of the
+/// search text.)
+#[derive(Clone, Copy, Hash, PartialEq, Eq, PartialOrd, Ord)]
+pub struct Char(u32);
+
+impl fmt::Debug for Char {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        match char::from_u32(self.0) {
+            None => write!(f, "Empty"),
+            Some(c) => write!(f, "{:?}", c),
+        }
+    }
+}
+
+impl Char {
+    /// Returns true iff the character is absent.
+    #[inline]
+    pub fn is_none(self) -> bool {
+        self.0 == u32::MAX
+    }
+
+    /// Returns the length of the character's UTF-8 encoding.
+    ///
+    /// If the character is absent, then `1` is returned.
+    #[inline]
+    pub fn len_utf8(self) -> usize {
+        char::from_u32(self.0).map_or(1, |c| c.len_utf8())
+    }
+
+    /// Returns true iff the character is a word character.
+    ///
+    /// If the character is absent, then false is returned.
+    pub fn is_word_char(self) -> bool {
+        // is_word_character can panic if the Unicode data for \w isn't
+        // available. However, our compiler ensures that if a Unicode word
+        // boundary is used, then the data must also be available. If it isn't,
+        // then the compiler returns an error.
+        char::from_u32(self.0).map_or(false, regex_syntax::is_word_character)
+    }
+
+    /// Returns true iff the byte is a word byte.
+    ///
+    /// If the byte is absent, then false is returned.
+    pub fn is_word_byte(self) -> bool {
+        match char::from_u32(self.0) {
+            Some(c) if c <= '\u{7F}' => regex_syntax::is_word_byte(c as u8),
+            None | Some(_) => false,
+        }
+    }
+}
+
+impl From<char> for Char {
+    fn from(c: char) -> Char {
+        Char(c as u32)
+    }
+}
+
+impl From<Option<char>> for Char {
+    fn from(c: Option<char>) -> Char {
+        c.map_or(Char(u32::MAX), |c| c.into())
+    }
+}
+
+impl PartialEq<char> for Char {
+    #[inline]
+    fn eq(&self, other: &char) -> bool {
+        self.0 == *other as u32
+    }
+}
+
+impl PartialEq<Char> for char {
+    #[inline]
+    fn eq(&self, other: &Char) -> bool {
+        *self as u32 == other.0
+    }
+}
+
+impl PartialOrd<char> for Char {
+    #[inline]
+    fn partial_cmp(&self, other: &char) -> Option<Ordering> {
+        self.0.partial_cmp(&(*other as u32))
+    }
+}
+
+impl PartialOrd<Char> for char {
+    #[inline]
+    fn partial_cmp(&self, other: &Char) -> Option<Ordering> {
+        (*self as u32).partial_cmp(&other.0)
+    }
+}
diff --git a/vendor/regex/src/lib.rs b/vendor/regex/src/lib.rs
new file mode 100644
index 000000000..7f2dec815
--- /dev/null
+++ b/vendor/regex/src/lib.rs
@@ -0,0 +1,767 @@
+/*!
+This crate provides a library for parsing, compiling, and executing regular
+expressions. Its syntax is similar to Perl-style regular expressions, but lacks
+a few features like look around and backreferences. In exchange, all searches
+execute in linear time with respect to the size of the regular expression and
+search text.
+
+This crate's documentation provides some simple examples, describes
+[Unicode support](#unicode) and exhaustively lists the
+[supported syntax](#syntax).
+
+For more specific details on the API for regular expressions, please see the
+documentation for the [`Regex`](struct.Regex.html) type.
+
+# Usage
+
+This crate is [on crates.io](https://crates.io/crates/regex) and can be
+used by adding `regex` to your dependencies in your project's `Cargo.toml`.
+
+```toml
+[dependencies]
+regex = "1"
+```
+
+# Example: find a date
+
+General use of regular expressions in this package involves compiling an
+expression and then using it to search, split or replace text. For example,
+to confirm that some text resembles a date:
+
+```rust
+use regex::Regex;
+let re = Regex::new(r"^\d{4}-\d{2}-\d{2}$").unwrap();
+assert!(re.is_match("2014-01-01"));
+```
+
+Notice the use of the `^` and `$` anchors. In this crate, every expression
+is executed with an implicit `.*?` at the beginning and end, which allows
+it to match anywhere in the text. Anchors can be used to ensure that the
+full text matches an expression.
+
+This example also demonstrates the utility of
+[raw strings](https://doc.rust-lang.org/stable/reference/tokens.html#raw-string-literals)
+in Rust, which
+are just like regular strings except they are prefixed with an `r` and do
+not process any escape sequences. For example, `"\\d"` is the same
+expression as `r"\d"`.
+
+# Example: Avoid compiling the same regex in a loop
+
+It is an anti-pattern to compile the same regular expression in a loop
+since compilation is typically expensive. (It takes anywhere from a few
+microseconds to a few **milliseconds** depending on the size of the
+regex.) Not only is compilation itself expensive, but this also prevents
+optimizations that reuse allocations internally to the matching engines.
+
+In Rust, it can sometimes be a pain to pass regular expressions around if
+they're used from inside a helper function. Instead, we recommend using the
+[`lazy_static`](https://crates.io/crates/lazy_static) crate to ensure that
+regular expressions are compiled exactly once.
+
+For example:
+
+```rust
+use lazy_static::lazy_static;
+use regex::Regex;
+
+fn some_helper_function(text: &str) -> bool {
+    lazy_static! {
+        static ref RE: Regex = Regex::new("...").unwrap();
+    }
+    RE.is_match(text)
+}
+
+fn main() {}
+```
+
+Specifically, in this example, the regex will be compiled when it is used for
+the first time. On subsequent uses, it will reuse the previous compilation.
+
+# Example: iterating over capture groups
+
+This crate provides convenient iterators for matching an expression
+repeatedly against a search string to find successive non-overlapping
+matches. For example, to find all dates in a string and be able to access
+them by their component pieces:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"(\d{4})-(\d{2})-(\d{2})").unwrap();
+let text = "2012-03-14, 2013-01-01 and 2014-07-05";
+for cap in re.captures_iter(text) {
+    println!("Month: {} Day: {} Year: {}", &cap[2], &cap[3], &cap[1]);
+}
+// Output:
+// Month: 03 Day: 14 Year: 2012
+// Month: 01 Day: 01 Year: 2013
+// Month: 07 Day: 05 Year: 2014
+# }
+```
+
+Notice that the year is in the capture group indexed at `1`. This is
+because the *entire match* is stored in the capture group at index `0`.
+
+# Example: replacement with named capture groups
+
+Building on the previous example, perhaps we'd like to rearrange the date
+formats. This can be done with text replacement. But to make the code
+clearer, we can *name*  our capture groups and use those names as variables
+in our replacement text:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"(?P<y>\d{4})-(?P<m>\d{2})-(?P<d>\d{2})").unwrap();
+let before = "2012-03-14, 2013-01-01 and 2014-07-05";
+let after = re.replace_all(before, "$m/$d/$y");
+assert_eq!(after, "03/14/2012, 01/01/2013 and 07/05/2014");
+# }
+```
+
+The `replace` methods are actually polymorphic in the replacement, which
+provides more flexibility than is seen here. (See the documentation for
+`Regex::replace` for more details.)
+
+Note that if your regex gets complicated, you can use the `x` flag to
+enable insignificant whitespace mode, which also lets you write comments:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"(?x)
+  (?P<y>\d{4}) # the year
+  -
+  (?P<m>\d{2}) # the month
+  -
+  (?P<d>\d{2}) # the day
+").unwrap();
+let before = "2012-03-14, 2013-01-01 and 2014-07-05";
+let after = re.replace_all(before, "$m/$d/$y");
+assert_eq!(after, "03/14/2012, 01/01/2013 and 07/05/2014");
+# }
+```
+
+If you wish to match against whitespace in this mode, you can still use `\s`,
+`\n`, `\t`, etc. For escaping a single space character, you can escape it
+directly with `\ `, use its hex character code `\x20` or temporarily disable
+the `x` flag, e.g., `(?-x: )`.
+
+# Example: match multiple regular expressions simultaneously
+
+This demonstrates how to use a `RegexSet` to match multiple (possibly
+overlapping) regular expressions in a single scan of the search text:
+
+```rust
+use regex::RegexSet;
+
+let set = RegexSet::new(&[
+    r"\w+",
+    r"\d+",
+    r"\pL+",
+    r"foo",
+    r"bar",
+    r"barfoo",
+    r"foobar",
+]).unwrap();
+
+// Iterate over and collect all of the matches.
+let matches: Vec<_> = set.matches("foobar").into_iter().collect();
+assert_eq!(matches, vec![0, 2, 3, 4, 6]);
+
+// You can also test whether a particular regex matched:
+let matches = set.matches("foobar");
+assert!(!matches.matched(5));
+assert!(matches.matched(6));
+```
+
+# Pay for what you use
+
+With respect to searching text with a regular expression, there are three
+questions that can be asked:
+
+1. Does the text match this expression?
+2. If so, where does it match?
+3. Where did the capturing groups match?
+
+Generally speaking, this crate could provide a function to answer only #3,
+which would subsume #1 and #2 automatically. However, it can be significantly
+more expensive to compute the location of capturing group matches, so it's best
+not to do it if you don't need to.
+
+Therefore, only use what you need. For example, don't use `find` if you
+only need to test if an expression matches a string. (Use `is_match`
+instead.)
+
+# Unicode
+
+This implementation executes regular expressions **only** on valid UTF-8
+while exposing match locations as byte indices into the search string. (To
+relax this restriction, use the [`bytes`](bytes/index.html) sub-module.)
+
+Only simple case folding is supported. Namely, when matching
+case-insensitively, the characters are first mapped using the "simple" case
+folding rules defined by Unicode.
+
+Regular expressions themselves are **only** interpreted as a sequence of
+Unicode scalar values. This means you can use Unicode characters directly
+in your expression:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"(?i)Δ+").unwrap();
+let mat = re.find("ΔδΔ").unwrap();
+assert_eq!((mat.start(), mat.end()), (0, 6));
+# }
+```
+
+Most features of the regular expressions in this crate are Unicode aware. Here
+are some examples:
+
+* `.` will match any valid UTF-8 encoded Unicode scalar value except for `\n`.
+  (To also match `\n`, enable the `s` flag, e.g., `(?s:.)`.)
+* `\w`, `\d` and `\s` are Unicode aware. For example, `\s` will match all forms
+  of whitespace categorized by Unicode.
+* `\b` matches a Unicode word boundary.
+* Negated character classes like `[^a]` match all Unicode scalar values except
+  for `a`.
+* `^` and `$` are **not** Unicode aware in multi-line mode. Namely, they only
+  recognize `\n` and not any of the other forms of line terminators defined
+  by Unicode.
+
+Unicode general categories, scripts, script extensions, ages and a smattering
+of boolean properties are available as character classes. For example, you can
+match a sequence of numerals, Greek or Cherokee letters:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"[\pN\p{Greek}\p{Cherokee}]+").unwrap();
+let mat = re.find("abcΔᎠβⅠᏴγδⅡxyz").unwrap();
+assert_eq!((mat.start(), mat.end()), (3, 23));
+# }
+```
+
+For a more detailed breakdown of Unicode support with respect to
+[UTS#18](https://unicode.org/reports/tr18/),
+please see the
+[UNICODE](https://github.com/rust-lang/regex/blob/master/UNICODE.md)
+document in the root of the regex repository.
+
+# Opt out of Unicode support
+
+The `bytes` sub-module provides a `Regex` type that can be used to match
+on `&[u8]`. By default, text is interpreted as UTF-8 just like it is with
+the main `Regex` type. However, this behavior can be disabled by turning
+off the `u` flag, even if doing so could result in matching invalid UTF-8.
+For example, when the `u` flag is disabled, `.` will match any byte instead
+of any Unicode scalar value.
+
+Disabling the `u` flag is also possible with the standard `&str`-based `Regex`
+type, but it is only allowed where the UTF-8 invariant is maintained. For
+example, `(?-u:\w)` is an ASCII-only `\w` character class and is legal in an
+`&str`-based `Regex`, but `(?-u:\xFF)` will attempt to match the raw byte
+`\xFF`, which is invalid UTF-8 and therefore is illegal in `&str`-based
+regexes.
+
+Finally, since Unicode support requires bundling large Unicode data
+tables, this crate exposes knobs to disable the compilation of those
+data tables, which can be useful for shrinking binary size and reducing
+compilation times. For details on how to do that, see the section on [crate
+features](#crate-features).
+
+# Syntax
+
+The syntax supported in this crate is documented below.
+
+Note that the regular expression parser and abstract syntax are exposed in
+a separate crate, [`regex-syntax`](https://docs.rs/regex-syntax).
+
+## Matching one character
+
+<pre class="rust">
+.             any character except new line (includes new line with s flag)
+\d            digit (\p{Nd})
+\D            not digit
+\pN           One-letter name Unicode character class
+\p{Greek}     Unicode character class (general category or script)
+\PN           Negated one-letter name Unicode character class
+\P{Greek}     negated Unicode character class (general category or script)
+</pre>
+
+### Character classes
+
+<pre class="rust">
+[xyz]         A character class matching either x, y or z (union).
+[^xyz]        A character class matching any character except x, y and z.
+[a-z]         A character class matching any character in range a-z.
+[[:alpha:]]   ASCII character class ([A-Za-z])
+[[:^alpha:]]  Negated ASCII character class ([^A-Za-z])
+[x[^xyz]]     Nested/grouping character class (matching any character except y and z)
+[a-y&&xyz]    Intersection (matching x or y)
+[0-9&&[^4]]   Subtraction using intersection and negation (matching 0-9 except 4)
+[0-9--4]      Direct subtraction (matching 0-9 except 4)
+[a-g~~b-h]    Symmetric difference (matching `a` and `h` only)
+[\[\]]        Escaping in character classes (matching [ or ])
+</pre>
+
+Any named character class may appear inside a bracketed `[...]` character
+class. For example, `[\p{Greek}[:digit:]]` matches any Greek or ASCII
+digit. `[\p{Greek}&&\pL]` matches Greek letters.
+
+Precedence in character classes, from most binding to least:
+
+1. Ranges: `a-cd` == `[a-c]d`
+2. Union: `ab&&bc` == `[ab]&&[bc]`
+3. Intersection: `^a-z&&b` == `^[a-z&&b]`
+4. Negation
+
+## Composites
+
+<pre class="rust">
+xy    concatenation (x followed by y)
+x|y   alternation (x or y, prefer x)
+</pre>
+
+## Repetitions
+
+<pre class="rust">
+x*        zero or more of x (greedy)
+x+        one or more of x (greedy)
+x?        zero or one of x (greedy)
+x*?       zero or more of x (ungreedy/lazy)
+x+?       one or more of x (ungreedy/lazy)
+x??       zero or one of x (ungreedy/lazy)
+x{n,m}    at least n x and at most m x (greedy)
+x{n,}     at least n x (greedy)
+x{n}      exactly n x
+x{n,m}?   at least n x and at most m x (ungreedy/lazy)
+x{n,}?    at least n x (ungreedy/lazy)
+x{n}?     exactly n x
+</pre>
+
+## Empty matches
+
+<pre class="rust">
+^     the beginning of text (or start-of-line with multi-line mode)
+$     the end of text (or end-of-line with multi-line mode)
+\A    only the beginning of text (even with multi-line mode enabled)
+\z    only the end of text (even with multi-line mode enabled)
+\b    a Unicode word boundary (\w on one side and \W, \A, or \z on other)
+\B    not a Unicode word boundary
+</pre>
+
+## Grouping and flags
+
+<pre class="rust">
+(exp)          numbered capture group (indexed by opening parenthesis)
+(?P&lt;name&gt;exp)  named (also numbered) capture group (allowed chars: [_0-9a-zA-Z.\[\]])
+(?:exp)        non-capturing group
+(?flags)       set flags within current group
+(?flags:exp)   set flags for exp (non-capturing)
+</pre>
+
+Flags are each a single character. For example, `(?x)` sets the flag `x`
+and `(?-x)` clears the flag `x`. Multiple flags can be set or cleared at
+the same time: `(?xy)` sets both the `x` and `y` flags and `(?x-y)` sets
+the `x` flag and clears the `y` flag.
+
+All flags are by default disabled unless stated otherwise. They are:
+
+<pre class="rust">
+i     case-insensitive: letters match both upper and lower case
+m     multi-line mode: ^ and $ match begin/end of line
+s     allow . to match \n
+U     swap the meaning of x* and x*?
+u     Unicode support (enabled by default)
+x     ignore whitespace and allow line comments (starting with `#`)
+</pre>
+
+Flags can be toggled within a pattern. Here's an example that matches
+case-insensitively for the first part but case-sensitively for the second part:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"(?i)a+(?-i)b+").unwrap();
+let cap = re.captures("AaAaAbbBBBb").unwrap();
+assert_eq!(&cap[0], "AaAaAbb");
+# }
+```
+
+Notice that the `a+` matches either `a` or `A`, but the `b+` only matches
+`b`.
+
+Multi-line mode means `^` and `$` no longer match just at the beginning/end of
+the input, but at the beginning/end of lines:
+
+```
+# use regex::Regex;
+let re = Regex::new(r"(?m)^line \d+").unwrap();
+let m = re.find("line one\nline 2\n").unwrap();
+assert_eq!(m.as_str(), "line 2");
+```
+
+Note that `^` matches after new lines, even at the end of input:
+
+```
+# use regex::Regex;
+let re = Regex::new(r"(?m)^").unwrap();
+let m = re.find_iter("test\n").last().unwrap();
+assert_eq!((m.start(), m.end()), (5, 5));
+```
+
+Here is an example that uses an ASCII word boundary instead of a Unicode
+word boundary:
+
+```rust
+# use regex::Regex;
+# fn main() {
+let re = Regex::new(r"(?-u:\b).+(?-u:\b)").unwrap();
+let cap = re.captures("$$abc$$").unwrap();
+assert_eq!(&cap[0], "abc");
+# }
+```
+
+## Escape sequences
+
+<pre class="rust">
+\*          literal *, works for any punctuation character: \.+*?()|[]{}^$
+\a          bell (\x07)
+\f          form feed (\x0C)
+\t          horizontal tab
+\n          new line
+\r          carriage return
+\v          vertical tab (\x0B)
+\123        octal character code (up to three digits) (when enabled)
+\x7F        hex character code (exactly two digits)
+\x{10FFFF}  any hex character code corresponding to a Unicode code point
+\u007F      hex character code (exactly four digits)
+\u{7F}      any hex character code corresponding to a Unicode code point
+\U0000007F  hex character code (exactly eight digits)
+\U{7F}      any hex character code corresponding to a Unicode code point
+</pre>
+
+## Perl character classes (Unicode friendly)
+
+These classes are based on the definitions provided in
+[UTS#18](https://www.unicode.org/reports/tr18/#Compatibility_Properties):
+
+<pre class="rust">
+\d     digit (\p{Nd})
+\D     not digit
+\s     whitespace (\p{White_Space})
+\S     not whitespace
+\w     word character (\p{Alphabetic} + \p{M} + \d + \p{Pc} + \p{Join_Control})
+\W     not word character
+</pre>
+
+## ASCII character classes
+
+<pre class="rust">
+[[:alnum:]]    alphanumeric ([0-9A-Za-z])
+[[:alpha:]]    alphabetic ([A-Za-z])
+[[:ascii:]]    ASCII ([\x00-\x7F])
+[[:blank:]]    blank ([\t ])
+[[:cntrl:]]    control ([\x00-\x1F\x7F])
+[[:digit:]]    digits ([0-9])
+[[:graph:]]    graphical ([!-~])
+[[:lower:]]    lower case ([a-z])
+[[:print:]]    printable ([ -~])
+[[:punct:]]    punctuation ([!-/:-@\[-`{-~])
+[[:space:]]    whitespace ([\t\n\v\f\r ])
+[[:upper:]]    upper case ([A-Z])
+[[:word:]]     word characters ([0-9A-Za-z_])
+[[:xdigit:]]   hex digit ([0-9A-Fa-f])
+</pre>
+
+# Crate features
+
+By default, this crate tries pretty hard to make regex matching both as fast
+as possible and as correct as it can be, within reason. This means that there
+is a lot of code dedicated to performance, the handling of Unicode data and the
+Unicode data itself. Overall, this leads to more dependencies, larger binaries
+and longer compile times.  This trade off may not be appropriate in all cases,
+and indeed, even when all Unicode and performance features are disabled, one
+is still left with a perfectly serviceable regex engine that will work well
+in many cases.
+
+This crate exposes a number of features for controlling that trade off. Some
+of these features are strictly performance oriented, such that disabling them
+won't result in a loss of functionality, but may result in worse performance.
+Other features, such as the ones controlling the presence or absence of Unicode
+data, can result in a loss of functionality. For example, if one disables the
+`unicode-case` feature (described below), then compiling the regex `(?i)a`
+will fail since Unicode case insensitivity is enabled by default. Instead,
+callers must use `(?i-u)a` instead to disable Unicode case folding. Stated
+differently, enabling or disabling any of the features below can only add or
+subtract from the total set of valid regular expressions. Enabling or disabling
+a feature will never modify the match semantics of a regular expression.
+
+All features below are enabled by default.
+
+### Ecosystem features
+
+* **std** -
+  When enabled, this will cause `regex` to use the standard library. Currently,
+  disabling this feature will always result in a compilation error. It is
+  intended to add `alloc`-only support to regex in the future.
+
+### Performance features
+
+* **perf** -
+  Enables all performance related features. This feature is enabled by default
+  and will always cover all features that improve performance, even if more
+  are added in the future.
+* **perf-dfa** -
+  Enables the use of a lazy DFA for matching. The lazy DFA is used to compile
+  portions of a regex to a very fast DFA on an as-needed basis. This can
+  result in substantial speedups, usually by an order of magnitude on large
+  haystacks. The lazy DFA does not bring in any new dependencies, but it can
+  make compile times longer.
+* **perf-inline** -
+  Enables the use of aggressive inlining inside match routines. This reduces
+  the overhead of each match. The aggressive inlining, however, increases
+  compile times and binary size.
+* **perf-literal** -
+  Enables the use of literal optimizations for speeding up matches. In some
+  cases, literal optimizations can result in speedups of _several_ orders of
+  magnitude. Disabling this drops the `aho-corasick` and `memchr` dependencies.
+* **perf-cache** -
+  This feature used to enable a faster internal cache at the cost of using
+  additional dependencies, but this is no longer an option. A fast internal
+  cache is now used unconditionally with no additional dependencies. This may
+  change in the future.
+
+### Unicode features
+
+* **unicode** -
+  Enables all Unicode features. This feature is enabled by default, and will
+  always cover all Unicode features, even if more are added in the future.
+* **unicode-age** -
+  Provide the data for the
+  [Unicode `Age` property](https://www.unicode.org/reports/tr44/tr44-24.html#Character_Age).
+  This makes it possible to use classes like `\p{Age:6.0}` to refer to all
+  codepoints first introduced in Unicode 6.0
+* **unicode-bool** -
+  Provide the data for numerous Unicode boolean properties. The full list
+  is not included here, but contains properties like `Alphabetic`, `Emoji`,
+  `Lowercase`, `Math`, `Uppercase` and `White_Space`.
+* **unicode-case** -
+  Provide the data for case insensitive matching using
+  [Unicode's "simple loose matches" specification](https://www.unicode.org/reports/tr18/#Simple_Loose_Matches).
+* **unicode-gencat** -
+  Provide the data for
+  [Unicode general categories](https://www.unicode.org/reports/tr44/tr44-24.html#General_Category_Values).
+  This includes, but is not limited to, `Decimal_Number`, `Letter`,
+  `Math_Symbol`, `Number` and `Punctuation`.
+* **unicode-perl** -
+  Provide the data for supporting the Unicode-aware Perl character classes,
+  corresponding to `\w`, `\s` and `\d`. This is also necessary for using
+  Unicode-aware word boundary assertions. Note that if this feature is
+  disabled, the `\s` and `\d` character classes are still available if the
+  `unicode-bool` and `unicode-gencat` features are enabled, respectively.
+* **unicode-script** -
+  Provide the data for
+  [Unicode scripts and script extensions](https://www.unicode.org/reports/tr24/).
+  This includes, but is not limited to, `Arabic`, `Cyrillic`, `Hebrew`,
+  `Latin` and `Thai`.
+* **unicode-segment** -
+  Provide the data necessary to provide the properties used to implement the
+  [Unicode text segmentation algorithms](https://www.unicode.org/reports/tr29/).
+  This enables using classes like `\p{gcb=Extend}`, `\p{wb=Katakana}` and
+  `\p{sb=ATerm}`.
+
+
+# Untrusted input
+
+This crate can handle both untrusted regular expressions and untrusted
+search text.
+
+Untrusted regular expressions are handled by capping the size of a compiled
+regular expression.
+(See [`RegexBuilder::size_limit`](struct.RegexBuilder.html#method.size_limit).)
+Without this, it would be trivial for an attacker to exhaust your system's
+memory with expressions like `a{100}{100}{100}`.
+
+Untrusted search text is allowed because the matching engine(s) in this
+crate have time complexity `O(mn)` (with `m ~ regex` and `n ~ search
+text`), which means there's no way to cause exponential blow-up like with
+some other regular expression engines. (We pay for this by disallowing
+features like arbitrary look-ahead and backreferences.)
+
+When a DFA is used, pathological cases with exponential state blow-up are
+avoided by constructing the DFA lazily or in an "online" manner. Therefore,
+at most one new state can be created for each byte of input. This satisfies
+our time complexity guarantees, but can lead to memory growth
+proportional to the size of the input. As a stopgap, the DFA is only
+allowed to store a fixed number of states. When the limit is reached, its
+states are wiped and continues on, possibly duplicating previous work. If
+the limit is reached too frequently, it gives up and hands control off to
+another matching engine with fixed memory requirements.
+(The DFA size limit can also be tweaked. See
+[`RegexBuilder::dfa_size_limit`](struct.RegexBuilder.html#method.dfa_size_limit).)
+*/
+
+#![deny(missing_docs)]
+#![cfg_attr(feature = "pattern", feature(pattern))]
+#![warn(missing_debug_implementations)]
+
+#[cfg(not(feature = "std"))]
+compile_error!("`std` feature is currently required to build this crate");
+
+// To check README's example
+// TODO: Re-enable this once the MSRV is 1.43 or greater.
+// See: https://github.com/rust-lang/regex/issues/684
+// See: https://github.com/rust-lang/regex/issues/685
+// #[cfg(doctest)]
+// doc_comment::doctest!("../README.md");
+
+#[cfg(feature = "std")]
+pub use crate::error::Error;
+#[cfg(feature = "std")]
+pub use crate::re_builder::set_unicode::*;
+#[cfg(feature = "std")]
+pub use crate::re_builder::unicode::*;
+#[cfg(feature = "std")]
+pub use crate::re_set::unicode::*;
+#[cfg(feature = "std")]
+#[cfg(feature = "std")]
+pub use crate::re_unicode::{
+    escape, CaptureLocations, CaptureMatches, CaptureNames, Captures,
+    Locations, Match, Matches, NoExpand, Regex, Replacer, ReplacerRef, Split,
+    SplitN, SubCaptureMatches,
+};
+
+/**
+Match regular expressions on arbitrary bytes.
+
+This module provides a nearly identical API to the one found in the
+top-level of this crate. There are two important differences:
+
+1. Matching is done on `&[u8]` instead of `&str`. Additionally, `Vec<u8>`
+is used where `String` would have been used.
+2. Unicode support can be disabled even when disabling it would result in
+matching invalid UTF-8 bytes.
+
+# Example: match null terminated string
+
+This shows how to find all null-terminated strings in a slice of bytes:
+
+```rust
+# use regex::bytes::Regex;
+let re = Regex::new(r"(?-u)(?P<cstr>[^\x00]+)\x00").unwrap();
+let text = b"foo\x00bar\x00baz\x00";
+
+// Extract all of the strings without the null terminator from each match.
+// The unwrap is OK here since a match requires the `cstr` capture to match.
+let cstrs: Vec<&[u8]> =
+    re.captures_iter(text)
+      .map(|c| c.name("cstr").unwrap().as_bytes())
+      .collect();
+assert_eq!(vec![&b"foo"[..], &b"bar"[..], &b"baz"[..]], cstrs);
+```
+
+# Example: selectively enable Unicode support
+
+This shows how to match an arbitrary byte pattern followed by a UTF-8 encoded
+string (e.g., to extract a title from a Matroska file):
+
+```rust
+# use std::str;
+# use regex::bytes::Regex;
+let re = Regex::new(
+    r"(?-u)\x7b\xa9(?:[\x80-\xfe]|[\x40-\xff].)(?u:(.*))"
+).unwrap();
+let text = b"\x12\xd0\x3b\x5f\x7b\xa9\x85\xe2\x98\x83\x80\x98\x54\x76\x68\x65";
+let caps = re.captures(text).unwrap();
+
+// Notice that despite the `.*` at the end, it will only match valid UTF-8
+// because Unicode mode was enabled with the `u` flag. Without the `u` flag,
+// the `.*` would match the rest of the bytes.
+let mat = caps.get(1).unwrap();
+assert_eq!((7, 10), (mat.start(), mat.end()));
+
+// If there was a match, Unicode mode guarantees that `title` is valid UTF-8.
+let title = str::from_utf8(&caps[1]).unwrap();
+assert_eq!("☃", title);
+```
+
+In general, if the Unicode flag is enabled in a capture group and that capture
+is part of the overall match, then the capture is *guaranteed* to be valid
+UTF-8.
+
+# Syntax
+
+The supported syntax is pretty much the same as the syntax for Unicode
+regular expressions with a few changes that make sense for matching arbitrary
+bytes:
+
+1. The `u` flag can be disabled even when disabling it might cause the regex to
+match invalid UTF-8. When the `u` flag is disabled, the regex is said to be in
+"ASCII compatible" mode.
+2. In ASCII compatible mode, neither Unicode scalar values nor Unicode
+character classes are allowed.
+3. In ASCII compatible mode, Perl character classes (`\w`, `\d` and `\s`)
+revert to their typical ASCII definition. `\w` maps to `[[:word:]]`, `\d` maps
+to `[[:digit:]]` and `\s` maps to `[[:space:]]`.
+4. In ASCII compatible mode, word boundaries use the ASCII compatible `\w` to
+determine whether a byte is a word byte or not.
+5. Hexadecimal notation can be used to specify arbitrary bytes instead of
+Unicode codepoints. For example, in ASCII compatible mode, `\xFF` matches the
+literal byte `\xFF`, while in Unicode mode, `\xFF` is a Unicode codepoint that
+matches its UTF-8 encoding of `\xC3\xBF`. Similarly for octal notation when
+enabled.
+6. In ASCII compatible mode, `.` matches any *byte* except for `\n`. When the
+`s` flag is additionally enabled, `.` matches any byte.
+
+# Performance
+
+In general, one should expect performance on `&[u8]` to be roughly similar to
+performance on `&str`.
+*/
+#[cfg(feature = "std")]
+pub mod bytes {
+    pub use crate::re_builder::bytes::*;
+    pub use crate::re_builder::set_bytes::*;
+    pub use crate::re_bytes::*;
+    pub use crate::re_set::bytes::*;
+}
+
+mod backtrack;
+mod compile;
+#[cfg(feature = "perf-dfa")]
+mod dfa;
+mod error;
+mod exec;
+mod expand;
+mod find_byte;
+mod input;
+mod literal;
+#[cfg(feature = "pattern")]
+mod pattern;
+mod pikevm;
+mod pool;
+mod prog;
+mod re_builder;
+mod re_bytes;
+mod re_set;
+mod re_trait;
+mod re_unicode;
+mod sparse;
+mod utf8;
+
+/// The `internal` module exists to support suspicious activity, such as
+/// testing different matching engines and supporting the `regex-debug` CLI
+/// utility.
+#[doc(hidden)]
+#[cfg(feature = "std")]
+pub mod internal {
+    pub use crate::compile::Compiler;
+    pub use crate::exec::{Exec, ExecBuilder};
+    pub use crate::input::{Char, CharInput, Input, InputAt};
+    pub use crate::literal::LiteralSearcher;
+    pub use crate::prog::{EmptyLook, Inst, InstRanges, Program};
+}
diff --git a/vendor/regex/src/literal/imp.rs b/vendor/regex/src/literal/imp.rs
new file mode 100644
index 000000000..82f050a0d
--- /dev/null
+++ b/vendor/regex/src/literal/imp.rs
@@ -0,0 +1,402 @@
+use std::mem;
+
+use aho_corasick::{self, packed, AhoCorasick, AhoCorasickBuilder};
+use memchr::{memchr, memchr2, memchr3, memmem};
+use regex_syntax::hir::literal::{Literal, Literals};
+
+/// A prefix extracted from a compiled regular expression.
+///
+/// A regex prefix is a set of literal strings that *must* be matched at the
+/// beginning of a regex in order for the entire regex to match. Similarly
+/// for a regex suffix.
+#[derive(Clone, Debug)]
+pub struct LiteralSearcher {
+    complete: bool,
+    lcp: Memmem,
+    lcs: Memmem,
+    matcher: Matcher,
+}
+
+#[derive(Clone, Debug)]
+enum Matcher {
+    /// No literals. (Never advances through the input.)
+    Empty,
+    /// A set of four or more single byte literals.
+    Bytes(SingleByteSet),
+    /// A single substring, using vector accelerated routines when available.
+    Memmem(Memmem),
+    /// An Aho-Corasick automaton.
+    AC { ac: AhoCorasick<u32>, lits: Vec<Literal> },
+    /// A packed multiple substring searcher, using SIMD.
+    ///
+    /// Note that Aho-Corasick will actually use this packed searcher
+    /// internally automatically, however, there is some overhead associated
+    /// with going through the Aho-Corasick machinery. So using the packed
+    /// searcher directly results in some gains.
+    Packed { s: packed::Searcher, lits: Vec<Literal> },
+}
+
+impl LiteralSearcher {
+    /// Returns a matcher that never matches and never advances the input.
+    pub fn empty() -> Self {
+        Self::new(Literals::empty(), Matcher::Empty)
+    }
+
+    /// Returns a matcher for literal prefixes from the given set.
+    pub fn prefixes(lits: Literals) -> Self {
+        let matcher = Matcher::prefixes(&lits);
+        Self::new(lits, matcher)
+    }
+
+    /// Returns a matcher for literal suffixes from the given set.
+    pub fn suffixes(lits: Literals) -> Self {
+        let matcher = Matcher::suffixes(&lits);
+        Self::new(lits, matcher)
+    }
+
+    fn new(lits: Literals, matcher: Matcher) -> Self {
+        let complete = lits.all_complete();
+        LiteralSearcher {
+            complete: complete,
+            lcp: Memmem::new(lits.longest_common_prefix()),
+            lcs: Memmem::new(lits.longest_common_suffix()),
+            matcher: matcher,
+        }
+    }
+
+    /// Returns true if all matches comprise the entire regular expression.
+    ///
+    /// This does not necessarily mean that a literal match implies a match
+    /// of the regular expression. For example, the regular expression `^a`
+    /// is comprised of a single complete literal `a`, but the regular
+    /// expression demands that it only match at the beginning of a string.
+    pub fn complete(&self) -> bool {
+        self.complete && !self.is_empty()
+    }
+
+    /// Find the position of a literal in `haystack` if it exists.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn find(&self, haystack: &[u8]) -> Option<(usize, usize)> {
+        use self::Matcher::*;
+        match self.matcher {
+            Empty => Some((0, 0)),
+            Bytes(ref sset) => sset.find(haystack).map(|i| (i, i + 1)),
+            Memmem(ref s) => s.find(haystack).map(|i| (i, i + s.len())),
+            AC { ref ac, .. } => {
+                ac.find(haystack).map(|m| (m.start(), m.end()))
+            }
+            Packed { ref s, .. } => {
+                s.find(haystack).map(|m| (m.start(), m.end()))
+            }
+        }
+    }
+
+    /// Like find, except matches must start at index `0`.
+    pub fn find_start(&self, haystack: &[u8]) -> Option<(usize, usize)> {
+        for lit in self.iter() {
+            if lit.len() > haystack.len() {
+                continue;
+            }
+            if lit == &haystack[0..lit.len()] {
+                return Some((0, lit.len()));
+            }
+        }
+        None
+    }
+
+    /// Like find, except matches must end at index `haystack.len()`.
+    pub fn find_end(&self, haystack: &[u8]) -> Option<(usize, usize)> {
+        for lit in self.iter() {
+            if lit.len() > haystack.len() {
+                continue;
+            }
+            if lit == &haystack[haystack.len() - lit.len()..] {
+                return Some((haystack.len() - lit.len(), haystack.len()));
+            }
+        }
+        None
+    }
+
+    /// Returns an iterator over all literals to be matched.
+    pub fn iter(&self) -> LiteralIter<'_> {
+        match self.matcher {
+            Matcher::Empty => LiteralIter::Empty,
+            Matcher::Bytes(ref sset) => LiteralIter::Bytes(&sset.dense),
+            Matcher::Memmem(ref s) => LiteralIter::Single(&s.finder.needle()),
+            Matcher::AC { ref lits, .. } => LiteralIter::AC(lits),
+            Matcher::Packed { ref lits, .. } => LiteralIter::Packed(lits),
+        }
+    }
+
+    /// Returns a matcher for the longest common prefix of this matcher.
+    pub fn lcp(&self) -> &Memmem {
+        &self.lcp
+    }
+
+    /// Returns a matcher for the longest common suffix of this matcher.
+    pub fn lcs(&self) -> &Memmem {
+        &self.lcs
+    }
+
+    /// Returns true iff this prefix is empty.
+    pub fn is_empty(&self) -> bool {
+        self.len() == 0
+    }
+
+    /// Returns the number of prefixes in this machine.
+    pub fn len(&self) -> usize {
+        use self::Matcher::*;
+        match self.matcher {
+            Empty => 0,
+            Bytes(ref sset) => sset.dense.len(),
+            Memmem(_) => 1,
+            AC { ref ac, .. } => ac.pattern_count(),
+            Packed { ref lits, .. } => lits.len(),
+        }
+    }
+
+    /// Return the approximate heap usage of literals in bytes.
+    pub fn approximate_size(&self) -> usize {
+        use self::Matcher::*;
+        match self.matcher {
+            Empty => 0,
+            Bytes(ref sset) => sset.approximate_size(),
+            Memmem(ref single) => single.approximate_size(),
+            AC { ref ac, .. } => ac.heap_bytes(),
+            Packed { ref s, .. } => s.heap_bytes(),
+        }
+    }
+}
+
+impl Matcher {
+    fn prefixes(lits: &Literals) -> Self {
+        let sset = SingleByteSet::prefixes(lits);
+        Matcher::new(lits, sset)
+    }
+
+    fn suffixes(lits: &Literals) -> Self {
+        let sset = SingleByteSet::suffixes(lits);
+        Matcher::new(lits, sset)
+    }
+
+    fn new(lits: &Literals, sset: SingleByteSet) -> Self {
+        if lits.literals().is_empty() {
+            return Matcher::Empty;
+        }
+        if sset.dense.len() >= 26 {
+            // Avoid trying to match a large number of single bytes.
+            // This is *very* sensitive to a frequency analysis comparison
+            // between the bytes in sset and the composition of the haystack.
+            // No matter the size of sset, if its members all are rare in the
+            // haystack, then it'd be worth using it. How to tune this... IDK.
+            // ---AG
+            return Matcher::Empty;
+        }
+        if sset.complete {
+            return Matcher::Bytes(sset);
+        }
+        if lits.literals().len() == 1 {
+            return Matcher::Memmem(Memmem::new(&lits.literals()[0]));
+        }
+
+        let pats = lits.literals().to_owned();
+        let is_aho_corasick_fast = sset.dense.len() <= 1 && sset.all_ascii;
+        if lits.literals().len() <= 100 && !is_aho_corasick_fast {
+            let mut builder = packed::Config::new()
+                .match_kind(packed::MatchKind::LeftmostFirst)
+                .builder();
+            if let Some(s) = builder.extend(&pats).build() {
+                return Matcher::Packed { s, lits: pats };
+            }
+        }
+        let ac = AhoCorasickBuilder::new()
+            .match_kind(aho_corasick::MatchKind::LeftmostFirst)
+            .dfa(true)
+            .build_with_size::<u32, _, _>(&pats)
+            .unwrap();
+        Matcher::AC { ac, lits: pats }
+    }
+}
+
+#[derive(Debug)]
+pub enum LiteralIter<'a> {
+    Empty,
+    Bytes(&'a [u8]),
+    Single(&'a [u8]),
+    AC(&'a [Literal]),
+    Packed(&'a [Literal]),
+}
+
+impl<'a> Iterator for LiteralIter<'a> {
+    type Item = &'a [u8];
+
+    fn next(&mut self) -> Option<Self::Item> {
+        match *self {
+            LiteralIter::Empty => None,
+            LiteralIter::Bytes(ref mut many) => {
+                if many.is_empty() {
+                    None
+                } else {
+                    let next = &many[0..1];
+                    *many = &many[1..];
+                    Some(next)
+                }
+            }
+            LiteralIter::Single(ref mut one) => {
+                if one.is_empty() {
+                    None
+                } else {
+                    let next = &one[..];
+                    *one = &[];
+                    Some(next)
+                }
+            }
+            LiteralIter::AC(ref mut lits) => {
+                if lits.is_empty() {
+                    None
+                } else {
+                    let next = &lits[0];
+                    *lits = &lits[1..];
+                    Some(&**next)
+                }
+            }
+            LiteralIter::Packed(ref mut lits) => {
+                if lits.is_empty() {
+                    None
+                } else {
+                    let next = &lits[0];
+                    *lits = &lits[1..];
+                    Some(&**next)
+                }
+            }
+        }
+    }
+}
+
+#[derive(Clone, Debug)]
+struct SingleByteSet {
+    sparse: Vec<bool>,
+    dense: Vec<u8>,
+    complete: bool,
+    all_ascii: bool,
+}
+
+impl SingleByteSet {
+    fn new() -> SingleByteSet {
+        SingleByteSet {
+            sparse: vec![false; 256],
+            dense: vec![],
+            complete: true,
+            all_ascii: true,
+        }
+    }
+
+    fn prefixes(lits: &Literals) -> SingleByteSet {
+        let mut sset = SingleByteSet::new();
+        for lit in lits.literals() {
+            sset.complete = sset.complete && lit.len() == 1;
+            if let Some(&b) = lit.get(0) {
+                if !sset.sparse[b as usize] {
+                    if b > 0x7F {
+                        sset.all_ascii = false;
+                    }
+                    sset.dense.push(b);
+                    sset.sparse[b as usize] = true;
+                }
+            }
+        }
+        sset
+    }
+
+    fn suffixes(lits: &Literals) -> SingleByteSet {
+        let mut sset = SingleByteSet::new();
+        for lit in lits.literals() {
+            sset.complete = sset.complete && lit.len() == 1;
+            if let Some(&b) = lit.get(lit.len().checked_sub(1).unwrap()) {
+                if !sset.sparse[b as usize] {
+                    if b > 0x7F {
+                        sset.all_ascii = false;
+                    }
+                    sset.dense.push(b);
+                    sset.sparse[b as usize] = true;
+                }
+            }
+        }
+        sset
+    }
+
+    /// Faster find that special cases certain sizes to use memchr.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn find(&self, text: &[u8]) -> Option<usize> {
+        match self.dense.len() {
+            0 => None,
+            1 => memchr(self.dense[0], text),
+            2 => memchr2(self.dense[0], self.dense[1], text),
+            3 => memchr3(self.dense[0], self.dense[1], self.dense[2], text),
+            _ => self._find(text),
+        }
+    }
+
+    /// Generic find that works on any sized set.
+    fn _find(&self, haystack: &[u8]) -> Option<usize> {
+        for (i, &b) in haystack.iter().enumerate() {
+            if self.sparse[b as usize] {
+                return Some(i);
+            }
+        }
+        None
+    }
+
+    fn approximate_size(&self) -> usize {
+        (self.dense.len() * mem::size_of::<u8>())
+            + (self.sparse.len() * mem::size_of::<bool>())
+    }
+}
+
+/// A simple wrapper around the memchr crate's memmem implementation.
+///
+/// The API this exposes mirrors the API of previous substring searchers that
+/// this supplanted.
+#[derive(Clone, Debug)]
+pub struct Memmem {
+    finder: memmem::Finder<'static>,
+    char_len: usize,
+}
+
+impl Memmem {
+    fn new(pat: &[u8]) -> Memmem {
+        Memmem {
+            finder: memmem::Finder::new(pat).into_owned(),
+            char_len: char_len_lossy(pat),
+        }
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn find(&self, haystack: &[u8]) -> Option<usize> {
+        self.finder.find(haystack)
+    }
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn is_suffix(&self, text: &[u8]) -> bool {
+        if text.len() < self.len() {
+            return false;
+        }
+        &text[text.len() - self.len()..] == self.finder.needle()
+    }
+
+    pub fn len(&self) -> usize {
+        self.finder.needle().len()
+    }
+
+    pub fn char_len(&self) -> usize {
+        self.char_len
+    }
+
+    fn approximate_size(&self) -> usize {
+        self.finder.needle().len() * mem::size_of::<u8>()
+    }
+}
+
+fn char_len_lossy(bytes: &[u8]) -> usize {
+    String::from_utf8_lossy(bytes).chars().count()
+}
diff --git a/vendor/regex/src/literal/mod.rs b/vendor/regex/src/literal/mod.rs
new file mode 100644
index 000000000..980f52330
--- /dev/null
+++ b/vendor/regex/src/literal/mod.rs
@@ -0,0 +1,55 @@
+pub use self::imp::*;
+
+#[cfg(feature = "perf-literal")]
+mod imp;
+
+#[allow(missing_docs)]
+#[cfg(not(feature = "perf-literal"))]
+mod imp {
+    use regex_syntax::hir::literal::Literals;
+
+    #[derive(Clone, Debug)]
+    pub struct LiteralSearcher(());
+
+    impl LiteralSearcher {
+        pub fn empty() -> Self {
+            LiteralSearcher(())
+        }
+
+        pub fn prefixes(_: Literals) -> Self {
+            LiteralSearcher(())
+        }
+
+        pub fn suffixes(_: Literals) -> Self {
+            LiteralSearcher(())
+        }
+
+        pub fn complete(&self) -> bool {
+            false
+        }
+
+        pub fn find(&self, _: &[u8]) -> Option<(usize, usize)> {
+            unreachable!()
+        }
+
+        pub fn find_start(&self, _: &[u8]) -> Option<(usize, usize)> {
+            unreachable!()
+        }
+
+        pub fn find_end(&self, _: &[u8]) -> Option<(usize, usize)> {
+            unreachable!()
+        }
+
+        pub fn is_empty(&self) -> bool {
+            true
+        }
+
+        pub fn len(&self) -> usize {
+            0
+        }
+
+        pub fn approximate_size(&self) -> usize {
+            0
+        }
+    }
+}
diff --git a/vendor/regex/src/pattern.rs b/vendor/regex/src/pattern.rs
new file mode 100644
index 000000000..b4ffd8e16
--- /dev/null
+++ b/vendor/regex/src/pattern.rs
@@ -0,0 +1,63 @@
+use std::str::pattern::{Pattern, SearchStep, Searcher};
+
+use crate::re_unicode::{Matches, Regex};
+
+#[derive(Debug)]
+pub struct RegexSearcher<'r, 't> {
+    haystack: &'t str,
+    it: Matches<'r, 't>,
+    last_step_end: usize,
+    next_match: Option<(usize, usize)>,
+}
+
+impl<'r, 't> Pattern<'t> for &'r Regex {
+    type Searcher = RegexSearcher<'r, 't>;
+
+    fn into_searcher(self, haystack: &'t str) -> RegexSearcher<'r, 't> {
+        RegexSearcher {
+            haystack: haystack,
+            it: self.find_iter(haystack),
+            last_step_end: 0,
+            next_match: None,
+        }
+    }
+}
+
+unsafe impl<'r, 't> Searcher<'t> for RegexSearcher<'r, 't> {
+    #[inline]
+    fn haystack(&self) -> &'t str {
+        self.haystack
+    }
+
+    #[inline]
+    fn next(&mut self) -> SearchStep {
+        if let Some((s, e)) = self.next_match {
+            self.next_match = None;
+            self.last_step_end = e;
+            return SearchStep::Match(s, e);
+        }
+        match self.it.next() {
+            None => {
+                if self.last_step_end < self.haystack().len() {
+                    let last = self.last_step_end;
+                    self.last_step_end = self.haystack().len();
+                    SearchStep::Reject(last, self.haystack().len())
+                } else {
+                    SearchStep::Done
+                }
+            }
+            Some(m) => {
+                let (s, e) = (m.start(), m.end());
+                if s == self.last_step_end {
+                    self.last_step_end = e;
+                    SearchStep::Match(s, e)
+                } else {
+                    self.next_match = Some((s, e));
+                    let last = self.last_step_end;
+                    self.last_step_end = s;
+                    SearchStep::Reject(last, s)
+                }
+            }
+        }
+    }
+}
diff --git a/vendor/regex/src/pikevm.rs b/vendor/regex/src/pikevm.rs
new file mode 100644
index 000000000..9a1424086
--- /dev/null
+++ b/vendor/regex/src/pikevm.rs
@@ -0,0 +1,360 @@
+// This module implements the Pike VM. That is, it guarantees linear time
+// search of a regex on any text with memory use proportional to the size of
+// the regex.
+//
+// It is equal in power to the backtracking engine in this crate, except the
+// backtracking engine is typically faster on small regexes/texts at the
+// expense of a bigger memory footprint.
+//
+// It can do more than the DFA can (specifically, record capture locations
+// and execute Unicode word boundary assertions), but at a slower speed.
+// Specifically, the Pike VM executes a DFA implicitly by repeatedly expanding
+// epsilon transitions. That is, the Pike VM engine can be in multiple states
+// at once where as the DFA is only ever in one state at a time.
+//
+// Therefore, the Pike VM is generally treated as the fallback when the other
+// matching engines either aren't feasible to run or are insufficient.
+
+use std::mem;
+
+use crate::exec::ProgramCache;
+use crate::input::{Input, InputAt};
+use crate::prog::{InstPtr, Program};
+use crate::re_trait::Slot;
+use crate::sparse::SparseSet;
+
+/// An NFA simulation matching engine.
+#[derive(Debug)]
+pub struct Fsm<'r, I> {
+    /// The sequence of opcodes (among other things) that is actually executed.
+    ///
+    /// The program may be byte oriented or Unicode codepoint oriented.
+    prog: &'r Program,
+    /// An explicit stack used for following epsilon transitions. (This is
+    /// borrowed from the cache.)
+    stack: &'r mut Vec<FollowEpsilon>,
+    /// The input to search.
+    input: I,
+}
+
+/// A cached allocation that can be reused on each execution.
+#[derive(Clone, Debug)]
+pub struct Cache {
+    /// A pair of ordered sets for tracking NFA states.
+    clist: Threads,
+    nlist: Threads,
+    /// An explicit stack used for following epsilon transitions.
+    stack: Vec<FollowEpsilon>,
+}
+
+/// An ordered set of NFA states and their captures.
+#[derive(Clone, Debug)]
+struct Threads {
+    /// An ordered set of opcodes (each opcode is an NFA state).
+    set: SparseSet,
+    /// Captures for every NFA state.
+    ///
+    /// It is stored in row-major order, where the columns are the capture
+    /// slots and the rows are the states.
+    caps: Vec<Slot>,
+    /// The number of capture slots stored per thread. (Every capture has
+    /// two slots.)
+    slots_per_thread: usize,
+}
+
+/// A representation of an explicit stack frame when following epsilon
+/// transitions. This is used to avoid recursion.
+#[derive(Clone, Debug)]
+enum FollowEpsilon {
+    /// Follow transitions at the given instruction pointer.
+    IP(InstPtr),
+    /// Restore the capture slot with the given position in the input.
+    Capture { slot: usize, pos: Slot },
+}
+
+impl Cache {
+    /// Create a new allocation used by the NFA machine to record execution
+    /// and captures.
+    pub fn new(_prog: &Program) -> Self {
+        Cache { clist: Threads::new(), nlist: Threads::new(), stack: vec![] }
+    }
+}
+
+impl<'r, I: Input> Fsm<'r, I> {
+    /// Execute the NFA matching engine.
+    ///
+    /// If there's a match, `exec` returns `true` and populates the given
+    /// captures accordingly.
+    pub fn exec(
+        prog: &'r Program,
+        cache: &ProgramCache,
+        matches: &mut [bool],
+        slots: &mut [Slot],
+        quit_after_match: bool,
+        input: I,
+        start: usize,
+        end: usize,
+    ) -> bool {
+        let mut cache = cache.borrow_mut();
+        let cache = &mut cache.pikevm;
+        cache.clist.resize(prog.len(), prog.captures.len());
+        cache.nlist.resize(prog.len(), prog.captures.len());
+        let at = input.at(start);
+        Fsm { prog: prog, stack: &mut cache.stack, input: input }.exec_(
+            &mut cache.clist,
+            &mut cache.nlist,
+            matches,
+            slots,
+            quit_after_match,
+            at,
+            end,
+        )
+    }
+
+    fn exec_(
+        &mut self,
+        mut clist: &mut Threads,
+        mut nlist: &mut Threads,
+        matches: &mut [bool],
+        slots: &mut [Slot],
+        quit_after_match: bool,
+        mut at: InputAt,
+        end: usize,
+    ) -> bool {
+        let mut matched = false;
+        let mut all_matched = false;
+        clist.set.clear();
+        nlist.set.clear();
+        'LOOP: loop {
+            if clist.set.is_empty() {
+                // Three ways to bail out when our current set of threads is
+                // empty.
+                //
+                // 1. We have a match---so we're done exploring any possible
+                //    alternatives. Time to quit. (We can't do this if we're
+                //    looking for matches for multiple regexes, unless we know
+                //    they all matched.)
+                //
+                // 2. If the expression starts with a '^' we can terminate as
+                //    soon as the last thread dies.
+                if (matched && matches.len() <= 1)
+                    || all_matched
+                    || (!at.is_start() && self.prog.is_anchored_start)
+                {
+                    break;
+                }
+
+                // 3. If there's a literal prefix for the program, try to
+                //    jump ahead quickly. If it can't be found, then we can
+                //    bail out early.
+                if !self.prog.prefixes.is_empty() {
+                    at = match self.input.prefix_at(&self.prog.prefixes, at) {
+                        None => break,
+                        Some(at) => at,
+                    };
+                }
+            }
+
+            // This simulates a preceding '.*?' for every regex by adding
+            // a state starting at the current position in the input for the
+            // beginning of the program only if we don't already have a match.
+            if clist.set.is_empty()
+                || (!self.prog.is_anchored_start && !all_matched)
+            {
+                self.add(&mut clist, slots, 0, at);
+            }
+            // The previous call to "add" actually inspects the position just
+            // before the current character. For stepping through the machine,
+            // we can to look at the current character, so we advance the
+            // input.
+            let at_next = self.input.at(at.next_pos());
+            for i in 0..clist.set.len() {
+                let ip = clist.set[i];
+                if self.step(
+                    &mut nlist,
+                    matches,
+                    slots,
+                    clist.caps(ip),
+                    ip,
+                    at,
+                    at_next,
+                ) {
+                    matched = true;
+                    all_matched = all_matched || matches.iter().all(|&b| b);
+                    if quit_after_match {
+                        // If we only care if a match occurs (not its
+                        // position), then we can quit right now.
+                        break 'LOOP;
+                    }
+                    if self.prog.matches.len() == 1 {
+                        // We don't need to check the rest of the threads
+                        // in this set because we've matched something
+                        // ("leftmost-first"). However, we still need to check
+                        // threads in the next set to support things like
+                        // greedy matching.
+                        //
+                        // This is only true on normal regexes. For regex sets,
+                        // we need to mush on to observe other matches.
+                        break;
+                    }
+                }
+            }
+            if at.pos() >= end {
+                break;
+            }
+            at = at_next;
+            mem::swap(clist, nlist);
+            nlist.set.clear();
+        }
+        matched
+    }
+
+    /// Step through the input, one token (byte or codepoint) at a time.
+    ///
+    /// nlist is the set of states that will be processed on the next token
+    /// in the input.
+    ///
+    /// caps is the set of captures passed by the caller of the NFA. They are
+    /// written to only when a match state is visited.
+    ///
+    /// thread_caps is the set of captures set for the current NFA state, ip.
+    ///
+    /// at and at_next are the current and next positions in the input. at or
+    /// at_next may be EOF.
+    fn step(
+        &mut self,
+        nlist: &mut Threads,
+        matches: &mut [bool],
+        slots: &mut [Slot],
+        thread_caps: &mut [Option<usize>],
+        ip: usize,
+        at: InputAt,
+        at_next: InputAt,
+    ) -> bool {
+        use crate::prog::Inst::*;
+        match self.prog[ip] {
+            Match(match_slot) => {
+                if match_slot < matches.len() {
+                    matches[match_slot] = true;
+                }
+                for (slot, val) in slots.iter_mut().zip(thread_caps.iter()) {
+                    *slot = *val;
+                }
+                true
+            }
+            Char(ref inst) => {
+                if inst.c == at.char() {
+                    self.add(nlist, thread_caps, inst.goto, at_next);
+                }
+                false
+            }
+            Ranges(ref inst) => {
+                if inst.matches(at.char()) {
+                    self.add(nlist, thread_caps, inst.goto, at_next);
+                }
+                false
+            }
+            Bytes(ref inst) => {
+                if let Some(b) = at.byte() {
+                    if inst.matches(b) {
+                        self.add(nlist, thread_caps, inst.goto, at_next);
+                    }
+                }
+                false
+            }
+            EmptyLook(_) | Save(_) | Split(_) => false,
+        }
+    }
+
+    /// Follows epsilon transitions and adds them for processing to nlist,
+    /// starting at and including ip.
+    fn add(
+        &mut self,
+        nlist: &mut Threads,
+        thread_caps: &mut [Option<usize>],
+        ip: usize,
+        at: InputAt,
+    ) {
+        self.stack.push(FollowEpsilon::IP(ip));
+        while let Some(frame) = self.stack.pop() {
+            match frame {
+                FollowEpsilon::IP(ip) => {
+                    self.add_step(nlist, thread_caps, ip, at);
+                }
+                FollowEpsilon::Capture { slot, pos } => {
+                    thread_caps[slot] = pos;
+                }
+            }
+        }
+    }
+
+    /// A helper function for add that avoids excessive pushing to the stack.
+    fn add_step(
+        &mut self,
+        nlist: &mut Threads,
+        thread_caps: &mut [Option<usize>],
+        mut ip: usize,
+        at: InputAt,
+    ) {
+        // Instead of pushing and popping to the stack, we mutate ip as we
+        // traverse the set of states. We only push to the stack when we
+        // absolutely need recursion (restoring captures or following a
+        // branch).
+        use crate::prog::Inst::*;
+        loop {
+            // Don't visit states we've already added.
+            if nlist.set.contains(ip) {
+                return;
+            }
+            nlist.set.insert(ip);
+            match self.prog[ip] {
+                EmptyLook(ref inst) => {
+                    if self.input.is_empty_match(at, inst) {
+                        ip = inst.goto;
+                    }
+                }
+                Save(ref inst) => {
+                    if inst.slot < thread_caps.len() {
+                        self.stack.push(FollowEpsilon::Capture {
+                            slot: inst.slot,
+                            pos: thread_caps[inst.slot],
+                        });
+                        thread_caps[inst.slot] = Some(at.pos());
+                    }
+                    ip = inst.goto;
+                }
+                Split(ref inst) => {
+                    self.stack.push(FollowEpsilon::IP(inst.goto2));
+                    ip = inst.goto1;
+                }
+                Match(_) | Char(_) | Ranges(_) | Bytes(_) => {
+                    let t = &mut nlist.caps(ip);
+                    for (slot, val) in t.iter_mut().zip(thread_caps.iter()) {
+                        *slot = *val;
+                    }
+                    return;
+                }
+            }
+        }
+    }
+}
+
+impl Threads {
+    fn new() -> Self {
+        Threads { set: SparseSet::new(0), caps: vec![], slots_per_thread: 0 }
+    }
+
+    fn resize(&mut self, num_insts: usize, ncaps: usize) {
+        if num_insts == self.set.capacity() {
+            return;
+        }
+        self.slots_per_thread = ncaps * 2;
+        self.set = SparseSet::new(num_insts);
+        self.caps = vec![None; self.slots_per_thread * num_insts];
+    }
+
+    fn caps(&mut self, pc: usize) -> &mut [Option<usize>] {
+        let i = pc * self.slots_per_thread;
+        &mut self.caps[i..i + self.slots_per_thread]
+    }
+}
diff --git a/vendor/regex/src/pool.rs b/vendor/regex/src/pool.rs
new file mode 100644
index 000000000..6a6f15b19
--- /dev/null
+++ b/vendor/regex/src/pool.rs
@@ -0,0 +1,333 @@
+// This module provides a relatively simple thread-safe pool of reusable
+// objects. For the most part, it's implemented by a stack represented by a
+// Mutex<Vec<T>>. It has one small trick: because unlocking a mutex is somewhat
+// costly, in the case where a pool is accessed by the first thread that tried
+// to get a value, we bypass the mutex. Here are some benchmarks showing the
+// difference.
+//
+// 1) misc::anchored_literal_long_non_match    21 (18571 MB/s)
+// 2) misc::anchored_literal_long_non_match   107 (3644 MB/s)
+// 3) misc::anchored_literal_long_non_match    45 (8666 MB/s)
+// 4) misc::anchored_literal_long_non_match    19 (20526 MB/s)
+//
+// (1) represents our baseline: the master branch at the time of writing when
+// using the 'thread_local' crate to implement the pool below.
+//
+// (2) represents a naive pool implemented completely via Mutex<Vec<T>>. There
+// is no special trick for bypassing the mutex.
+//
+// (3) is the same as (2), except it uses Mutex<Vec<Box<T>>>. It is twice as
+// fast because a Box<T> is much smaller than the T we use with a Pool in this
+// crate. So pushing and popping a Box<T> from a Vec is quite a bit faster
+// than for T.
+//
+// (4) is the same as (3), but with the trick for bypassing the mutex in the
+// case of the first-to-get thread.
+//
+// Why move off of thread_local? Even though (4) is a hair faster than (1)
+// above, this was not the main goal. The main goal was to move off of
+// thread_local and find a way to *simply* re-capture some of its speed for
+// regex's specific case. So again, why move off of it? The *primary* reason is
+// because of memory leaks. See https://github.com/rust-lang/regex/issues/362
+// for example. (Why do I want it to be simple? Well, I suppose what I mean is,
+// "use as much safe code as possible to minimize risk and be as sure as I can
+// be that it is correct.")
+//
+// My guess is that the thread_local design is probably not appropriate for
+// regex since its memory usage scales to the number of active threads that
+// have used a regex, where as the pool below scales to the number of threads
+// that simultaneously use a regex. While neither case permits contraction,
+// since we own the pool data structure below, we can add contraction if a
+// clear use case pops up in the wild. More pressingly though, it seems that
+// there are at least some use case patterns where one might have many threads
+// sitting around that might have used a regex at one point. While thread_local
+// does try to reuse space previously used by a thread that has since stopped,
+// its maximal memory usage still scales with the total number of active
+// threads. In contrast, the pool below scales with the total number of threads
+// *simultaneously* using the pool. The hope is that this uses less memory
+// overall. And if it doesn't, we can hopefully tune it somehow.
+//
+// It seems that these sort of conditions happen frequently
+// in FFI inside of other more "managed" languages. This was
+// mentioned in the issue linked above, and also mentioned here:
+// https://github.com/BurntSushi/rure-go/issues/3. And in particular, users
+// confirm that disabling the use of thread_local resolves the leak.
+//
+// There were other weaker reasons for moving off of thread_local as well.
+// Namely, at the time, I was looking to reduce dependencies. And for something
+// like regex, maintenance can be simpler when we own the full dependency tree.
+
+use std::panic::{RefUnwindSafe, UnwindSafe};
+use std::sync::atomic::{AtomicUsize, Ordering};
+use std::sync::Mutex;
+
+/// An atomic counter used to allocate thread IDs.
+static COUNTER: AtomicUsize = AtomicUsize::new(1);
+
+thread_local!(
+    /// A thread local used to assign an ID to a thread.
+    static THREAD_ID: usize = {
+        let next = COUNTER.fetch_add(1, Ordering::Relaxed);
+        // SAFETY: We cannot permit the reuse of thread IDs since reusing a
+        // thread ID might result in more than one thread "owning" a pool,
+        // and thus, permit accessing a mutable value from multiple threads
+        // simultaneously without synchronization. The intent of this panic is
+        // to be a sanity check. It is not expected that the thread ID space
+        // will actually be exhausted in practice.
+        //
+        // This checks that the counter never wraps around, since atomic
+        // addition wraps around on overflow.
+        if next == 0 {
+            panic!("regex: thread ID allocation space exhausted");
+        }
+        next
+    };
+);
+
+/// The type of the function used to create values in a pool when the pool is
+/// empty and the caller requests one.
+type CreateFn<T> =
+    Box<dyn Fn() -> T + Send + Sync + UnwindSafe + RefUnwindSafe + 'static>;
+
+/// A simple thread safe pool for reusing values.
+///
+/// Getting a value out comes with a guard. When that guard is dropped, the
+/// value is automatically put back in the pool.
+///
+/// A Pool<T> impls Sync when T is Send (even if it's not Sync). This means
+/// that T can use interior mutability. This is possible because a pool is
+/// guaranteed to provide a value to exactly one thread at any time.
+///
+/// Currently, a pool never contracts in size. Its size is proportional to the
+/// number of simultaneous uses.
+pub struct Pool<T> {
+    /// A stack of T values to hand out. These are used when a Pool is
+    /// accessed by a thread that didn't create it.
+    stack: Mutex<Vec<Box<T>>>,
+    /// A function to create more T values when stack is empty and a caller
+    /// has requested a T.
+    create: CreateFn<T>,
+    /// The ID of the thread that owns this pool. The owner is the thread
+    /// that makes the first call to 'get'. When the owner calls 'get', it
+    /// gets 'owner_val' directly instead of returning a T from 'stack'.
+    /// See comments elsewhere for details, but this is intended to be an
+    /// optimization for the common case that makes getting a T faster.
+    ///
+    /// It is initialized to a value of zero (an impossible thread ID) as a
+    /// sentinel to indicate that it is unowned.
+    owner: AtomicUsize,
+    /// A value to return when the caller is in the same thread that created
+    /// the Pool.
+    owner_val: T,
+}
+
+// SAFETY: Since we want to use a Pool from multiple threads simultaneously
+// behind an Arc, we need for it to be Sync. In cases where T is sync, Pool<T>
+// would be Sync. However, since we use a Pool to store mutable scratch space,
+// we wind up using a T that has interior mutability and is thus itself not
+// Sync. So what we *really* want is for our Pool<T> to by Sync even when T is
+// not Sync (but is at least Send).
+//
+// The only non-sync aspect of a Pool is its 'owner_val' field, which is used
+// to implement faster access to a pool value in the common case of a pool
+// being accessed in the same thread in which it was created. The 'stack' field
+// is also shared, but a Mutex<T> where T: Send is already Sync. So we only
+// need to worry about 'owner_val'.
+//
+// The key is to guarantee that 'owner_val' can only ever be accessed from one
+// thread. In our implementation below, we guarantee this by only returning the
+// 'owner_val' when the ID of the current thread matches the ID of the thread
+// that created the Pool. Since this can only ever be one thread, it follows
+// that only one thread can access 'owner_val' at any point in time. Thus, it
+// is safe to declare that Pool<T> is Sync when T is Send.
+//
+// NOTE: It would also be possible to make the owning thread be the *first*
+// thread that tries to get a value out of a Pool. However, the current
+// implementation is a little simpler and it's not clear if making the first
+// thread (rather than the creating thread) is meaningfully better.
+//
+// If there is a way to achieve our performance goals using safe code, then
+// I would very much welcome a patch. As it stands, the implementation below
+// tries to balance safety with performance. The case where a Regex is used
+// from multiple threads simultaneously will suffer a bit since getting a cache
+// will require unlocking a mutex.
+unsafe impl<T: Send> Sync for Pool<T> {}
+
+impl<T: ::std::fmt::Debug> ::std::fmt::Debug for Pool<T> {
+    fn fmt(&self, f: &mut ::std::fmt::Formatter<'_>) -> ::std::fmt::Result {
+        f.debug_struct("Pool")
+            .field("stack", &self.stack)
+            .field("owner", &self.owner)
+            .field("owner_val", &self.owner_val)
+            .finish()
+    }
+}
+
+/// A guard that is returned when a caller requests a value from the pool.
+///
+/// The purpose of the guard is to use RAII to automatically put the value back
+/// in the pool once it's dropped.
+#[derive(Debug)]
+pub struct PoolGuard<'a, T: Send> {
+    /// The pool that this guard is attached to.
+    pool: &'a Pool<T>,
+    /// This is None when the guard represents the special "owned" value. In
+    /// which case, the value is retrieved from 'pool.owner_val'.
+    value: Option<Box<T>>,
+}
+
+impl<T: Send> Pool<T> {
+    /// Create a new pool. The given closure is used to create values in the
+    /// pool when necessary.
+    pub fn new(create: CreateFn<T>) -> Pool<T> {
+        let owner = AtomicUsize::new(0);
+        let owner_val = create();
+        Pool { stack: Mutex::new(vec![]), create, owner, owner_val }
+    }
+
+    /// Get a value from the pool. The caller is guaranteed to have exclusive
+    /// access to the given value.
+    ///
+    /// Note that there is no guarantee provided about which value in the
+    /// pool is returned. That is, calling get, dropping the guard (causing
+    /// the value to go back into the pool) and then calling get again is NOT
+    /// guaranteed to return the same value received in the first get call.
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    pub fn get(&self) -> PoolGuard<'_, T> {
+        // Our fast path checks if the caller is the thread that "owns" this
+        // pool. Or stated differently, whether it is the first thread that
+        // tried to extract a value from the pool. If it is, then we can return
+        // a T to the caller without going through a mutex.
+        //
+        // SAFETY: We must guarantee that only one thread gets access to this
+        // value. Since a thread is uniquely identified by the THREAD_ID thread
+        // local, it follows that is the caller's thread ID is equal to the
+        // owner, then only one thread may receive this value.
+        let caller = THREAD_ID.with(|id| *id);
+        let owner = self.owner.load(Ordering::Relaxed);
+        if caller == owner {
+            return self.guard_owned();
+        }
+        self.get_slow(caller, owner)
+    }
+
+    /// This is the "slow" version that goes through a mutex to pop an
+    /// allocated value off a stack to return to the caller. (Or, if the stack
+    /// is empty, a new value is created.)
+    ///
+    /// If the pool has no owner, then this will set the owner.
+    #[cold]
+    fn get_slow(&self, caller: usize, owner: usize) -> PoolGuard<'_, T> {
+        use std::sync::atomic::Ordering::Relaxed;
+
+        if owner == 0 {
+            // The sentinel 0 value means this pool is not yet owned. We
+            // try to atomically set the owner. If we do, then this thread
+            // becomes the owner and we can return a guard that represents
+            // the special T for the owner.
+            let res = self.owner.compare_exchange(0, caller, Relaxed, Relaxed);
+            if res.is_ok() {
+                return self.guard_owned();
+            }
+        }
+        let mut stack = self.stack.lock().unwrap();
+        let value = match stack.pop() {
+            None => Box::new((self.create)()),
+            Some(value) => value,
+        };
+        self.guard_stack(value)
+    }
+
+    /// Puts a value back into the pool. Callers don't need to call this. Once
+    /// the guard that's returned by 'get' is dropped, it is put back into the
+    /// pool automatically.
+    fn put(&self, value: Box<T>) {
+        let mut stack = self.stack.lock().unwrap();
+        stack.push(value);
+    }
+
+    /// Create a guard that represents the special owned T.
+    fn guard_owned(&self) -> PoolGuard<'_, T> {
+        PoolGuard { pool: self, value: None }
+    }
+
+    /// Create a guard that contains a value from the pool's stack.
+    fn guard_stack(&self, value: Box<T>) -> PoolGuard<'_, T> {
+        PoolGuard { pool: self, value: Some(value) }
+    }
+}
+
+impl<'a, T: Send> PoolGuard<'a, T> {
+    /// Return the underlying value.
+    pub fn value(&self) -> &T {
+        match self.value {
+            None => &self.pool.owner_val,
+            Some(ref v) => &**v,
+        }
+    }
+}
+
+impl<'a, T: Send> Drop for PoolGuard<'a, T> {
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn drop(&mut self) {
+        if let Some(value) = self.value.take() {
+            self.pool.put(value);
+        }
+    }
+}
+
+#[cfg(test)]
+mod tests {
+    use std::panic::{RefUnwindSafe, UnwindSafe};
+
+    use super::*;
+
+    #[test]
+    fn oibits() {
+        use crate::exec::ProgramCache;
+
+        fn has_oibits<T: Send + Sync + UnwindSafe + RefUnwindSafe>() {}
+        has_oibits::<Pool<ProgramCache>>();
+    }
+
+    // Tests that Pool implements the "single owner" optimization. That is, the
+    // thread that first accesses the pool gets its own copy, while all other
+    // threads get distinct copies.
+    #[test]
+    fn thread_owner_optimization() {
+        use std::cell::RefCell;
+        use std::sync::Arc;
+
+        let pool: Arc<Pool<RefCell<Vec<char>>>> =
+            Arc::new(Pool::new(Box::new(|| RefCell::new(vec!['a']))));
+        pool.get().value().borrow_mut().push('x');
+
+        let pool1 = pool.clone();
+        let t1 = std::thread::spawn(move || {
+            let guard = pool1.get();
+            let v = guard.value();
+            v.borrow_mut().push('y');
+        });
+
+        let pool2 = pool.clone();
+        let t2 = std::thread::spawn(move || {
+            let guard = pool2.get();
+            let v = guard.value();
+            v.borrow_mut().push('z');
+        });
+
+        t1.join().unwrap();
+        t2.join().unwrap();
+
+        // If we didn't implement the single owner optimization, then one of
+        // the threads above is likely to have mutated the [a, x] vec that
+        // we stuffed in the pool before spawning the threads. But since
+        // neither thread was first to access the pool, and because of the
+        // optimization, we should be guaranteed that neither thread mutates
+        // the special owned pool value.
+        //
+        // (Technically this is an implementation detail and not a contract of
+        // Pool's API.)
+        assert_eq!(vec!['a', 'x'], *pool.get().value().borrow());
+    }
+}
diff --git a/vendor/regex/src/prog.rs b/vendor/regex/src/prog.rs
new file mode 100644
index 000000000..475a8112a
--- /dev/null
+++ b/vendor/regex/src/prog.rs
@@ -0,0 +1,447 @@
+use std::cmp::Ordering;
+use std::collections::HashMap;
+use std::fmt;
+use std::mem;
+use std::ops::Deref;
+use std::slice;
+use std::sync::Arc;
+
+use crate::input::Char;
+use crate::literal::LiteralSearcher;
+
+/// `InstPtr` represents the index of an instruction in a regex program.
+pub type InstPtr = usize;
+
+/// Program is a sequence of instructions and various facts about thos
+/// instructions.
+#[derive(Clone)]
+pub struct Program {
+    /// A sequence of instructions that represents an NFA.
+    pub insts: Vec<Inst>,
+    /// Pointers to each Match instruction in the sequence.
+    ///
+    /// This is always length 1 unless this program represents a regex set.
+    pub matches: Vec<InstPtr>,
+    /// The ordered sequence of all capture groups extracted from the AST.
+    /// Unnamed groups are `None`.
+    pub captures: Vec<Option<String>>,
+    /// Pointers to all named capture groups into `captures`.
+    pub capture_name_idx: Arc<HashMap<String, usize>>,
+    /// A pointer to the start instruction. This can vary depending on how
+    /// the program was compiled. For example, programs for use with the DFA
+    /// engine have a `.*?` inserted at the beginning of unanchored regular
+    /// expressions. The actual starting point of the program is after the
+    /// `.*?`.
+    pub start: InstPtr,
+    /// A set of equivalence classes for discriminating bytes in the compiled
+    /// program.
+    pub byte_classes: Vec<u8>,
+    /// When true, this program can only match valid UTF-8.
+    pub only_utf8: bool,
+    /// When true, this program uses byte range instructions instead of Unicode
+    /// range instructions.
+    pub is_bytes: bool,
+    /// When true, the program is compiled for DFA matching. For example, this
+    /// implies `is_bytes` and also inserts a preceding `.*?` for unanchored
+    /// regexes.
+    pub is_dfa: bool,
+    /// When true, the program matches text in reverse (for use only in the
+    /// DFA).
+    pub is_reverse: bool,
+    /// Whether the regex must match from the start of the input.
+    pub is_anchored_start: bool,
+    /// Whether the regex must match at the end of the input.
+    pub is_anchored_end: bool,
+    /// Whether this program contains a Unicode word boundary instruction.
+    pub has_unicode_word_boundary: bool,
+    /// A possibly empty machine for very quickly matching prefix literals.
+    pub prefixes: LiteralSearcher,
+    /// A limit on the size of the cache that the DFA is allowed to use while
+    /// matching.
+    ///
+    /// The cache limit specifies approximately how much space we're willing to
+    /// give to the state cache. Once the state cache exceeds the size, it is
+    /// wiped and all states must be re-computed.
+    ///
+    /// Note that this value does not impact correctness. It can be set to 0
+    /// and the DFA will run just fine. (It will only ever store exactly one
+    /// state in the cache, and will likely run very slowly, but it will work.)
+    ///
+    /// Also note that this limit is *per thread of execution*. That is,
+    /// if the same regex is used to search text across multiple threads
+    /// simultaneously, then the DFA cache is not shared. Instead, copies are
+    /// made.
+    pub dfa_size_limit: usize,
+}
+
+impl Program {
+    /// Creates an empty instruction sequence. Fields are given default
+    /// values.
+    pub fn new() -> Self {
+        Program {
+            insts: vec![],
+            matches: vec![],
+            captures: vec![],
+            capture_name_idx: Arc::new(HashMap::new()),
+            start: 0,
+            byte_classes: vec![0; 256],
+            only_utf8: true,
+            is_bytes: false,
+            is_dfa: false,
+            is_reverse: false,
+            is_anchored_start: false,
+            is_anchored_end: false,
+            has_unicode_word_boundary: false,
+            prefixes: LiteralSearcher::empty(),
+            dfa_size_limit: 2 * (1 << 20),
+        }
+    }
+
+    /// If pc is an index to a no-op instruction (like Save), then return the
+    /// next pc that is not a no-op instruction.
+    pub fn skip(&self, mut pc: usize) -> usize {
+        loop {
+            match self[pc] {
+                Inst::Save(ref i) => pc = i.goto,
+                _ => return pc,
+            }
+        }
+    }
+
+    /// Return true if and only if an execution engine at instruction `pc` will
+    /// always lead to a match.
+    pub fn leads_to_match(&self, pc: usize) -> bool {
+        if self.matches.len() > 1 {
+            // If we have a regex set, then we have more than one ending
+            // state, so leading to one of those states is generally
+            // meaningless.
+            return false;
+        }
+        match self[self.skip(pc)] {
+            Inst::Match(_) => true,
+            _ => false,
+        }
+    }
+
+    /// Returns true if the current configuration demands that an implicit
+    /// `.*?` be prepended to the instruction sequence.
+    pub fn needs_dotstar(&self) -> bool {
+        self.is_dfa && !self.is_reverse && !self.is_anchored_start
+    }
+
+    /// Returns true if this program uses Byte instructions instead of
+    /// Char/Range instructions.
+    pub fn uses_bytes(&self) -> bool {
+        self.is_bytes || self.is_dfa
+    }
+
+    /// Returns true if this program exclusively matches valid UTF-8 bytes.
+    ///
+    /// That is, if an invalid UTF-8 byte is seen, then no match is possible.
+    pub fn only_utf8(&self) -> bool {
+        self.only_utf8
+    }
+
+    /// Return the approximate heap usage of this instruction sequence in
+    /// bytes.
+    pub fn approximate_size(&self) -> usize {
+        // The only instruction that uses heap space is Ranges (for
+        // Unicode codepoint programs) to store non-overlapping codepoint
+        // ranges. To keep this operation constant time, we ignore them.
+        (self.len() * mem::size_of::<Inst>())
+            + (self.matches.len() * mem::size_of::<InstPtr>())
+            + (self.captures.len() * mem::size_of::<Option<String>>())
+            + (self.capture_name_idx.len()
+                * (mem::size_of::<String>() + mem::size_of::<usize>()))
+            + (self.byte_classes.len() * mem::size_of::<u8>())
+            + self.prefixes.approximate_size()
+    }
+}
+
+impl Deref for Program {
+    type Target = [Inst];
+
+    #[cfg_attr(feature = "perf-inline", inline(always))]
+    fn deref(&self) -> &Self::Target {
+        &*self.insts
+    }
+}
+
+impl fmt::Debug for Program {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        use self::Inst::*;
+
+        fn with_goto(cur: usize, goto: usize, fmtd: String) -> String {
+            if goto == cur + 1 {
+                fmtd
+            } else {
+                format!("{} (goto: {})", fmtd, goto)
+            }
+        }
+
+        fn visible_byte(b: u8) -> String {
+            use std::ascii::escape_default;
+            let escaped = escape_default(b).collect::<Vec<u8>>();
+            String::from_utf8_lossy(&escaped).into_owned()
+        }
+
+        for (pc, inst) in self.iter().enumerate() {
+            match *inst {
+                Match(slot) => write!(f, "{:04} Match({:?})", pc, slot)?,
+                Save(ref inst) => {
+                    let s = format!("{:04} Save({})", pc, inst.slot);
+                    write!(f, "{}", with_goto(pc, inst.goto, s))?;
+                }
+                Split(ref inst) => {
+                    write!(
+                        f,
+                        "{:04} Split({}, {})",
+                        pc, inst.goto1, inst.goto2
+                    )?;
+                }
+                EmptyLook(ref inst) => {
+                    let s = format!("{:?}", inst.look);
+                    write!(f, "{:04} {}", pc, with_goto(pc, inst.goto, s))?;
+                }
+                Char(ref inst) => {
+                    let s = format!("{:?}", inst.c);
+                    write!(f, "{:04} {}", pc, with_goto(pc, inst.goto, s))?;
+                }
+                Ranges(ref inst) => {
+                    let ranges = inst
+                        .ranges
+                        .iter()
+                        .map(|r| format!("{:?}-{:?}", r.0, r.1))
+                        .collect::<Vec<String>>()
+                        .join(", ");
+                    write!(
+                        f,
+                        "{:04} {}",
+                        pc,
+                        with_goto(pc, inst.goto, ranges)
+                    )?;
+                }
+                Bytes(ref inst) => {
+                    let s = format!(
+                        "Bytes({}, {})",
+                        visible_byte(inst.start),
+                        visible_byte(inst.end)
+                    );
+                    write!(f, "{:04} {}", pc, with_goto(pc, inst.goto, s))?;
+                }
+            }
+            if pc == self.start {
+                write!(f, " (start)")?;
+            }
+            write!(f, "\n")?;
+        }
+        Ok(())
+    }
+}
+
+impl<'a> IntoIterator for &'a Program {
+    type Item = &'a Inst;
+    type IntoIter = slice::Iter<'a, Inst>;
+    fn into_iter(self) -> Self::IntoIter {
+        self.iter()
+    }
+}
+
+/// Inst is an instruction code in a Regex program.
+///
+/// Regrettably, a regex program either contains Unicode codepoint
+/// instructions (Char and Ranges) or it contains byte instructions (Bytes).
+/// A regex program can never contain both.
+///
+/// It would be worth investigating splitting this into two distinct types and
+/// then figuring out how to make the matching engines polymorphic over those
+/// types without sacrificing performance.
+///
+/// Other than the benefit of moving invariants into the type system, another
+/// benefit is the decreased size. If we remove the `Char` and `Ranges`
+/// instructions from the `Inst` enum, then its size shrinks from 32 bytes to
+/// 24 bytes. (This is because of the removal of a `Box<[]>` in the `Ranges`
+/// variant.) Given that byte based machines are typically much bigger than
+/// their Unicode analogues (because they can decode UTF-8 directly), this ends
+/// up being a pretty significant savings.
+#[derive(Clone, Debug)]
+pub enum Inst {
+    /// Match indicates that the program has reached a match state.
+    ///
+    /// The number in the match corresponds to the Nth logical regular
+    /// expression in this program. This index is always 0 for normal regex
+    /// programs. Values greater than 0 appear when compiling regex sets, and
+    /// each match instruction gets its own unique value. The value corresponds
+    /// to the Nth regex in the set.
+    Match(usize),
+    /// Save causes the program to save the current location of the input in
+    /// the slot indicated by InstSave.
+    Save(InstSave),
+    /// Split causes the program to diverge to one of two paths in the
+    /// program, preferring goto1 in InstSplit.
+    Split(InstSplit),
+    /// EmptyLook represents a zero-width assertion in a regex program. A
+    /// zero-width assertion does not consume any of the input text.
+    EmptyLook(InstEmptyLook),
+    /// Char requires the regex program to match the character in InstChar at
+    /// the current position in the input.
+    Char(InstChar),
+    /// Ranges requires the regex program to match the character at the current
+    /// position in the input with one of the ranges specified in InstRanges.
+    Ranges(InstRanges),
+    /// Bytes is like Ranges, except it expresses a single byte range. It is
+    /// used in conjunction with Split instructions to implement multi-byte
+    /// character classes.
+    Bytes(InstBytes),
+}
+
+impl Inst {
+    /// Returns true if and only if this is a match instruction.
+    pub fn is_match(&self) -> bool {
+        match *self {
+            Inst::Match(_) => true,
+            _ => false,
+        }
+    }
+}
+
+/// Representation of the Save instruction.
+#[derive(Clone, Debug)]
+pub struct InstSave {
+    /// The next location to execute in the program.
+    pub goto: InstPtr,
+    /// The capture slot (there are two slots for every capture in a regex,
+    /// including the zeroth capture for the entire match).
+    pub slot: usize,
+}
+
+/// Representation of the Split instruction.
+#[derive(Clone, Debug)]
+pub struct InstSplit {
+    /// The first instruction to try. A match resulting from following goto1
+    /// has precedence over a match resulting from following goto2.
+    pub goto1: InstPtr,
+    /// The second instruction to try. A match resulting from following goto1
+    /// has precedence over a match resulting from following goto2.
+    pub goto2: InstPtr,
+}
+
+/// Representation of the `EmptyLook` instruction.
+#[derive(Clone, Debug)]
+pub struct InstEmptyLook {
+    /// The next location to execute in the program if this instruction
+    /// succeeds.
+    pub goto: InstPtr,
+    /// The type of zero-width assertion to check.
+    pub look: EmptyLook,
+}
+
+/// The set of zero-width match instructions.
+#[derive(Clone, Copy, Debug, PartialEq, Eq)]
+pub enum EmptyLook {
+    /// Start of line or input.
+    StartLine,
+    /// End of line or input.
+    EndLine,
+    /// Start of input.
+    StartText,
+    /// End of input.
+    EndText,
+    /// Word character on one side and non-word character on other.
+    WordBoundary,
+    /// Word character on both sides or non-word character on both sides.
+    NotWordBoundary,
+    /// ASCII word boundary.
+    WordBoundaryAscii,
+    /// Not ASCII word boundary.
+    NotWordBoundaryAscii,
+}
+
+/// Representation of the Char instruction.
+#[derive(Clone, Debug)]
+pub struct InstChar {
+    /// The next location to execute in the program if this instruction
+    /// succeeds.
+    pub goto: InstPtr,
+    /// The character to test.
+    pub c: char,
+}
+
+/// Representation of the Ranges instruction.
+#[derive(Clone, Debug)]
+pub struct InstRanges {
+    /// The next location to execute in the program if this instruction
+    /// succeeds.
+    pub goto: InstPtr,
+    /// The set of Unicode scalar value ranges to test.
+    pub ranges: Box<[(char, char)]>,
+}
+
+impl InstRanges {
+    /// Tests whether the given input character matches this instruction.
+    pub fn matches(&self, c: Char) -> bool {
+        // This speeds up the `match_class_unicode` benchmark by checking
+        // some common cases quickly without binary search. e.g., Matching
+        // a Unicode class on predominantly ASCII text.
+        for r in self.ranges.iter().take(4) {
+            if c < r.0 {
+                return false;
+            }
+            if c <= r.1 {
+                return true;
+            }
+        }
+        self.ranges
+            .binary_search_by(|r| {
+                if r.1 < c {
+                    Ordering::Less
+                } else if r.0 > c {
+                    Ordering::Greater
+                } else {
+                    Ordering::Equal
+                }
+            })
+            .is_ok()
+    }
+
+    /// Return the number of distinct characters represented by all of the
+    /// ranges.
+    pub fn num_chars(&self) -> usize {
+        self.ranges
+            .iter()
+            .map(|&(s, e)| 1 + (e as u32) - (s as u32))
+            .sum::<u32>() as usize
+    }
+}
+
+/// Representation of the Bytes instruction.
+#[derive(Clone, Debug)]
+pub struct InstBytes {
+    /// The next location to execute in the program if this instruction
+    /// succeeds.
+    pub goto: InstPtr,
+    /// The start (inclusive) of this byte range.
+    pub start: u8,
+    /// The end (inclusive) of this byte range.
+    pub end: u8,
+}
+
+impl InstBytes {
+    /// Returns true if and only if the given byte is in this range.
+    pub fn matches(&self, byte: u8) -> bool {
+        self.start <= byte && byte <= self.end
+    }
+}
+
+#[cfg(test)]
+mod test {
+    #[test]
+    #[cfg(target_pointer_width = "64")]
+    fn test_size_of_inst() {
+        use std::mem::size_of;
+
+        use super::Inst;
+
+        assert_eq!(32, size_of::<Inst>());
+    }
+}
diff --git a/vendor/regex/src/re_builder.rs b/vendor/regex/src/re_builder.rs
new file mode 100644
index 000000000..ee6383690
--- /dev/null
+++ b/vendor/regex/src/re_builder.rs
@@ -0,0 +1,421 @@
+/// The set of user configurable options for compiling zero or more regexes.
+#[derive(Clone, Debug)]
+#[allow(missing_docs)]
+pub struct RegexOptions {
+    pub pats: Vec<String>,
+    pub size_limit: usize,
+    pub dfa_size_limit: usize,
+    pub nest_limit: u32,
+    pub case_insensitive: bool,
+    pub multi_line: bool,
+    pub dot_matches_new_line: bool,
+    pub swap_greed: bool,
+    pub ignore_whitespace: bool,
+    pub unicode: bool,
+    pub octal: bool,
+}
+
+impl Default for RegexOptions {
+    fn default() -> Self {
+        RegexOptions {
+            pats: vec![],
+            size_limit: 10 * (1 << 20),
+            dfa_size_limit: 2 * (1 << 20),
+            nest_limit: 250,
+            case_insensitive: false,
+            multi_line: false,
+            dot_matches_new_line: false,
+            swap_greed: false,
+            ignore_whitespace: false,
+            unicode: true,
+            octal: false,
+        }
+    }
+}
+
+macro_rules! define_builder {
+    ($name:ident, $regex_mod:ident, $only_utf8:expr) => {
+        pub mod $name {
+            use super::RegexOptions;
+            use crate::error::Error;
+            use crate::exec::ExecBuilder;
+
+            use crate::$regex_mod::Regex;
+
+            /// A configurable builder for a regular expression.
+            ///
+            /// A builder can be used to configure how the regex is built, for example, by
+            /// setting the default flags (which can be overridden in the expression
+            /// itself) or setting various limits.
+            #[derive(Debug)]
+            pub struct RegexBuilder(RegexOptions);
+
+            impl RegexBuilder {
+                /// Create a new regular expression builder with the given pattern.
+                ///
+                /// If the pattern is invalid, then an error will be returned when
+                /// `build` is called.
+                pub fn new(pattern: &str) -> RegexBuilder {
+                    let mut builder = RegexBuilder(RegexOptions::default());
+                    builder.0.pats.push(pattern.to_owned());
+                    builder
+                }
+
+                /// Consume the builder and compile the regular expression.
+                ///
+                /// Note that calling `as_str` on the resulting `Regex` will produce the
+                /// pattern given to `new` verbatim. Notably, it will not incorporate any
+                /// of the flags set on this builder.
+                pub fn build(&self) -> Result<Regex, Error> {
+                    ExecBuilder::new_options(self.0.clone())
+                        .only_utf8($only_utf8)
+                        .build()
+                        .map(Regex::from)
+                }
+
+                /// Set the value for the case insensitive (`i`) flag.
+                ///
+                /// When enabled, letters in the pattern will match both upper case and
+                /// lower case variants.
+                pub fn case_insensitive(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexBuilder {
+                    self.0.case_insensitive = yes;
+                    self
+                }
+
+                /// Set the value for the multi-line matching (`m`) flag.
+                ///
+                /// When enabled, `^` matches the beginning of lines and `$` matches the
+                /// end of lines.
+                ///
+                /// By default, they match beginning/end of the input.
+                pub fn multi_line(&mut self, yes: bool) -> &mut RegexBuilder {
+                    self.0.multi_line = yes;
+                    self
+                }
+
+                /// Set the value for the any character (`s`) flag, where in `.` matches
+                /// anything when `s` is set and matches anything except for new line when
+                /// it is not set (the default).
+                ///
+                /// N.B. "matches anything" means "any byte" when Unicode is disabled and
+                /// means "any valid UTF-8 encoding of any Unicode scalar value" when
+                /// Unicode is enabled.
+                pub fn dot_matches_new_line(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexBuilder {
+                    self.0.dot_matches_new_line = yes;
+                    self
+                }
+
+                /// Set the value for the greedy swap (`U`) flag.
+                ///
+                /// When enabled, a pattern like `a*` is lazy (tries to find shortest
+                /// match) and `a*?` is greedy (tries to find longest match).
+                ///
+                /// By default, `a*` is greedy and `a*?` is lazy.
+                pub fn swap_greed(&mut self, yes: bool) -> &mut RegexBuilder {
+                    self.0.swap_greed = yes;
+                    self
+                }
+
+                /// Set the value for the ignore whitespace (`x`) flag.
+                ///
+                /// When enabled, whitespace such as new lines and spaces will be ignored
+                /// between expressions of the pattern, and `#` can be used to start a
+                /// comment until the next new line.
+                pub fn ignore_whitespace(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexBuilder {
+                    self.0.ignore_whitespace = yes;
+                    self
+                }
+
+                /// Set the value for the Unicode (`u`) flag.
+                ///
+                /// Enabled by default. When disabled, character classes such as `\w` only
+                /// match ASCII word characters instead of all Unicode word characters.
+                pub fn unicode(&mut self, yes: bool) -> &mut RegexBuilder {
+                    self.0.unicode = yes;
+                    self
+                }
+
+                /// Whether to support octal syntax or not.
+                ///
+                /// Octal syntax is a little-known way of uttering Unicode codepoints in
+                /// a regular expression. For example, `a`, `\x61`, `\u0061` and
+                /// `\141` are all equivalent regular expressions, where the last example
+                /// shows octal syntax.
+                ///
+                /// While supporting octal syntax isn't in and of itself a problem, it does
+                /// make good error messages harder. That is, in PCRE based regex engines,
+                /// syntax like `\0` invokes a backreference, which is explicitly
+                /// unsupported in Rust's regex engine. However, many users expect it to
+                /// be supported. Therefore, when octal support is disabled, the error
+                /// message will explicitly mention that backreferences aren't supported.
+                ///
+                /// Octal syntax is disabled by default.
+                pub fn octal(&mut self, yes: bool) -> &mut RegexBuilder {
+                    self.0.octal = yes;
+                    self
+                }
+
+                /// Set the approximate size limit of the compiled regular expression.
+                ///
+                /// This roughly corresponds to the number of bytes occupied by a single
+                /// compiled program. If the program exceeds this number, then a
+                /// compilation error is returned.
+                pub fn size_limit(
+                    &mut self,
+                    limit: usize,
+                ) -> &mut RegexBuilder {
+                    self.0.size_limit = limit;
+                    self
+                }
+
+                /// Set the approximate size of the cache used by the DFA.
+                ///
+                /// This roughly corresponds to the number of bytes that the DFA will
+                /// use while searching.
+                ///
+                /// Note that this is a *per thread* limit. There is no way to set a global
+                /// limit. In particular, if a regex is used from multiple threads
+                /// simultaneously, then each thread may use up to the number of bytes
+                /// specified here.
+                pub fn dfa_size_limit(
+                    &mut self,
+                    limit: usize,
+                ) -> &mut RegexBuilder {
+                    self.0.dfa_size_limit = limit;
+                    self
+                }
+
+                /// Set the nesting limit for this parser.
+                ///
+                /// The nesting limit controls how deep the abstract syntax tree is allowed
+                /// to be. If the AST exceeds the given limit (e.g., with too many nested
+                /// groups), then an error is returned by the parser.
+                ///
+                /// The purpose of this limit is to act as a heuristic to prevent stack
+                /// overflow for consumers that do structural induction on an `Ast` using
+                /// explicit recursion. While this crate never does this (instead using
+                /// constant stack space and moving the call stack to the heap), other
+                /// crates may.
+                ///
+                /// This limit is not checked until the entire Ast is parsed. Therefore,
+                /// if callers want to put a limit on the amount of heap space used, then
+                /// they should impose a limit on the length, in bytes, of the concrete
+                /// pattern string. In particular, this is viable since this parser
+                /// implementation will limit itself to heap space proportional to the
+                /// length of the pattern string.
+                ///
+                /// Note that a nest limit of `0` will return a nest limit error for most
+                /// patterns but not all. For example, a nest limit of `0` permits `a` but
+                /// not `ab`, since `ab` requires a concatenation, which results in a nest
+                /// depth of `1`. In general, a nest limit is not something that manifests
+                /// in an obvious way in the concrete syntax, therefore, it should not be
+                /// used in a granular way.
+                pub fn nest_limit(&mut self, limit: u32) -> &mut RegexBuilder {
+                    self.0.nest_limit = limit;
+                    self
+                }
+            }
+        }
+    };
+}
+
+define_builder!(bytes, re_bytes, false);
+define_builder!(unicode, re_unicode, true);
+
+macro_rules! define_set_builder {
+    ($name:ident, $regex_mod:ident, $only_utf8:expr) => {
+        pub mod $name {
+            use super::RegexOptions;
+            use crate::error::Error;
+            use crate::exec::ExecBuilder;
+
+            use crate::re_set::$regex_mod::RegexSet;
+
+            /// A configurable builder for a set of regular expressions.
+            ///
+            /// A builder can be used to configure how the regexes are built, for example,
+            /// by setting the default flags (which can be overridden in the expression
+            /// itself) or setting various limits.
+            #[derive(Debug)]
+            pub struct RegexSetBuilder(RegexOptions);
+
+            impl RegexSetBuilder {
+                /// Create a new regular expression builder with the given pattern.
+                ///
+                /// If the pattern is invalid, then an error will be returned when
+                /// `build` is called.
+                pub fn new<I, S>(patterns: I) -> RegexSetBuilder
+                where
+                    S: AsRef<str>,
+                    I: IntoIterator<Item = S>,
+                {
+                    let mut builder = RegexSetBuilder(RegexOptions::default());
+                    for pat in patterns {
+                        builder.0.pats.push(pat.as_ref().to_owned());
+                    }
+                    builder
+                }
+
+                /// Consume the builder and compile the regular expressions into a set.
+                pub fn build(&self) -> Result<RegexSet, Error> {
+                    ExecBuilder::new_options(self.0.clone())
+                        .only_utf8($only_utf8)
+                        .build()
+                        .map(RegexSet::from)
+                }
+
+                /// Set the value for the case insensitive (`i`) flag.
+                pub fn case_insensitive(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexSetBuilder {
+                    self.0.case_insensitive = yes;
+                    self
+                }
+
+                /// Set the value for the multi-line matching (`m`) flag.
+                pub fn multi_line(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexSetBuilder {
+                    self.0.multi_line = yes;
+                    self
+                }
+
+                /// Set the value for the any character (`s`) flag, where in `.` matches
+                /// anything when `s` is set and matches anything except for new line when
+                /// it is not set (the default).
+                ///
+                /// N.B. "matches anything" means "any byte" for `regex::bytes::RegexSet`
+                /// expressions and means "any Unicode scalar value" for `regex::RegexSet`
+                /// expressions.
+                pub fn dot_matches_new_line(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexSetBuilder {
+                    self.0.dot_matches_new_line = yes;
+                    self
+                }
+
+                /// Set the value for the greedy swap (`U`) flag.
+                pub fn swap_greed(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexSetBuilder {
+                    self.0.swap_greed = yes;
+                    self
+                }
+
+                /// Set the value for the ignore whitespace (`x`) flag.
+                pub fn ignore_whitespace(
+                    &mut self,
+                    yes: bool,
+                ) -> &mut RegexSetBuilder {
+                    self.0.ignore_whitespace = yes;
+                    self
+                }
+
+                /// Set the value for the Unicode (`u`) flag.
+                pub fn unicode(&mut self, yes: bool) -> &mut RegexSetBuilder {
+                    self.0.unicode = yes;
+                    self
+                }
+
+                /// Whether to support octal syntax or not.
+                ///
+                /// Octal syntax is a little-known way of uttering Unicode codepoints in
+                /// a regular expression. For example, `a`, `\x61`, `\u0061` and
+                /// `\141` are all equivalent regular expressions, where the last example
+                /// shows octal syntax.
+                ///
+                /// While supporting octal syntax isn't in and of itself a problem, it does
+                /// make good error messages harder. That is, in PCRE based regex engines,
+                /// syntax like `\0` invokes a backreference, which is explicitly
+                /// unsupported in Rust's regex engine. However, many users expect it to
+                /// be supported. Therefore, when octal support is disabled, the error
+                /// message will explicitly mention that backreferences aren't supported.
+                ///
+                /// Octal syntax is disabled by default.
+                pub fn octal(&mut self, yes: bool) -> &mut RegexSetBuilder {
+                    self.0.octal = yes;
+                    self
+                }
+
+                /// Set the approximate size limit of the compiled regular expression.
+                ///
+                /// This roughly corresponds to the number of bytes occupied by a single
+                /// compiled program. If the program exceeds this number, then a
+                /// compilation error is returned.
+                pub fn size_limit(
+                    &mut self,
+                    limit: usize,
+                ) -> &mut RegexSetBuilder {
+                    self.0.size_limit = limit;
+                    self
+                }
+
+                /// Set the approximate size of the cache used by the DFA.
+                ///
+                /// This roughly corresponds to the number of bytes that the DFA will
+                /// use while searching.
+                ///
+                /// Note that this is a *per thread* limit. There is no way to set a global
+                /// limit. In particular, if a regex is used from multiple threads
+                /// simultaneously, then each thread may use up to the number of bytes
+                /// specified here.
+                pub fn dfa_size_limit(
+                    &mut self,
+                    limit: usize,
+                ) -> &mut RegexSetBuilder {
+                    self.0.dfa_size_limit = limit;
+                    self
+                }
+
+                /// Set the nesting limit for this parser.
+                ///
+                /// The nesting limit controls how deep the abstract syntax tree is allowed
+                /// to be. If the AST exceeds the given limit (e.g., with too many nested
+                /// groups), then an error is returned by the parser.
+                ///
+                /// The purpose of this limit is to act as a heuristic to prevent stack
+                /// overflow for consumers that do structural induction on an `Ast` using
+                /// explicit recursion. While this crate never does this (instead using
+                /// constant stack space and moving the call stack to the heap), other
+                /// crates may.
+                ///
+                /// This limit is not checked until the entire Ast is parsed. Therefore,
+                /// if callers want to put a limit on the amount of heap space used, then
+                /// they should impose a limit on the length, in bytes, of the concrete
+                /// pattern string. In particular, this is viable since this parser
+                /// implementation will limit itself to heap space proportional to the
+                /// length of the pattern string.
+                ///
+                /// Note that a nest limit of `0` will return a nest limit error for most
+                /// patterns but not all. For example, a nest limit of `0` permits `a` but
+                /// not `ab`, since `ab` requires a concatenation, which results in a nest
+                /// depth of `1`. In general, a nest limit is not something that manifests
+                /// in an obvious way in the concrete syntax, therefore, it should not be
+                /// used in a granular way.
+                pub fn nest_limit(
+                    &mut self,
+                    limit: u32,
+                ) -> &mut RegexSetBuilder {
+                    self.0.nest_limit = limit;
+                    self
+                }
+            }
+        }
+    };
+}
+
+define_set_builder!(set_bytes, bytes, false);
+define_set_builder!(set_unicode, unicode, true);
diff --git a/vendor/regex/src/re_bytes.rs b/vendor/regex/src/re_bytes.rs
new file mode 100644
index 000000000..ae55d6d25
--- /dev/null
+++ b/vendor/regex/src/re_bytes.rs
@@ -0,0 +1,1260 @@
+use std::borrow::Cow;
+use std::collections::HashMap;
+use std::fmt;
+use std::iter::FusedIterator;
+use std::ops::{Index, Range};
+use std::str::FromStr;
+use std::sync::Arc;
+
+use crate::find_byte::find_byte;
+
+use crate::error::Error;
+use crate::exec::{Exec, ExecNoSync};
+use crate::expand::expand_bytes;
+use crate::re_builder::bytes::RegexBuilder;
+use crate::re_trait::{self, RegularExpression, SubCapturesPosIter};
+
+/// Match represents a single match of a regex in a haystack.
+///
+/// The lifetime parameter `'t` refers to the lifetime of the matched text.
+#[derive(Copy, Clone, Debug, Eq, PartialEq)]
+pub struct Match<'t> {
+    text: &'t [u8],
+    start: usize,
+    end: usize,
+}
+
+impl<'t> Match<'t> {
+    /// Returns the starting byte offset of the match in the haystack.
+    #[inline]
+    pub fn start(&self) -> usize {
+        self.start
+    }
+
+    /// Returns the ending byte offset of the match in the haystack.
+    #[inline]
+    pub fn end(&self) -> usize {
+        self.end
+    }
+
+    /// Returns the range over the starting and ending byte offsets of the
+    /// match in the haystack.
+    #[inline]
+    pub fn range(&self) -> Range<usize> {
+        self.start..self.end
+    }
+
+    /// Returns the matched text.
+    #[inline]
+    pub fn as_bytes(&self) -> &'t [u8] {
+        &self.text[self.range()]
+    }
+
+    /// Creates a new match from the given haystack and byte offsets.
+    #[inline]
+    fn new(haystack: &'t [u8], start: usize, end: usize) -> Match<'t> {
+        Match { text: haystack, start: start, end: end }
+    }
+}
+
+impl<'t> From<Match<'t>> for Range<usize> {
+    fn from(m: Match<'t>) -> Range<usize> {
+        m.range()
+    }
+}
+
+/// A compiled regular expression for matching arbitrary bytes.
+///
+/// It can be used to search, split or replace text. All searching is done with
+/// an implicit `.*?` at the beginning and end of an expression. To force an
+/// expression to match the whole string (or a prefix or a suffix), you must
+/// use an anchor like `^` or `$` (or `\A` and `\z`).
+///
+/// Like the `Regex` type in the parent module, matches with this regex return
+/// byte offsets into the search text. **Unlike** the parent `Regex` type,
+/// these byte offsets may not correspond to UTF-8 sequence boundaries since
+/// the regexes in this module can match arbitrary bytes.
+#[derive(Clone)]
+pub struct Regex(Exec);
+
+impl fmt::Display for Regex {
+    /// Shows the original regular expression.
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        write!(f, "{}", self.as_str())
+    }
+}
+
+impl fmt::Debug for Regex {
+    /// Shows the original regular expression.
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        fmt::Display::fmt(self, f)
+    }
+}
+
+/// A constructor for Regex from an Exec.
+///
+/// This is hidden because Exec isn't actually part of the public API.
+#[doc(hidden)]
+impl From<Exec> for Regex {
+    fn from(exec: Exec) -> Regex {
+        Regex(exec)
+    }
+}
+
+impl FromStr for Regex {
+    type Err = Error;
+
+    /// Attempts to parse a string into a regular expression
+    fn from_str(s: &str) -> Result<Regex, Error> {
+        Regex::new(s)
+    }
+}
+
+/// Core regular expression methods.
+impl Regex {
+    /// Compiles a regular expression. Once compiled, it can be used repeatedly
+    /// to search, split or replace text in a string.
+    ///
+    /// If an invalid expression is given, then an error is returned.
+    pub fn new(re: &str) -> Result<Regex, Error> {
+        RegexBuilder::new(re).build()
+    }
+
+    /// Returns true if and only if there is a match for the regex in the
+    /// string given.
+    ///
+    /// It is recommended to use this method if all you need to do is test
+    /// a match, since the underlying matching engine may be able to do less
+    /// work.
+    ///
+    /// # Example
+    ///
+    /// Test if some text contains at least one word with exactly 13 ASCII word
+    /// bytes:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let text = b"I categorically deny having triskaidekaphobia.";
+    /// assert!(Regex::new(r"\b\w{13}\b").unwrap().is_match(text));
+    /// # }
+    /// ```
+    pub fn is_match(&self, text: &[u8]) -> bool {
+        self.is_match_at(text, 0)
+    }
+
+    /// Returns the start and end byte range of the leftmost-first match in
+    /// `text`. If no match exists, then `None` is returned.
+    ///
+    /// Note that this should only be used if you want to discover the position
+    /// of the match. Testing the existence of a match is faster if you use
+    /// `is_match`.
+    ///
+    /// # Example
+    ///
+    /// Find the start and end location of the first word with exactly 13
+    /// ASCII word bytes:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let text = b"I categorically deny having triskaidekaphobia.";
+    /// let mat = Regex::new(r"\b\w{13}\b").unwrap().find(text).unwrap();
+    /// assert_eq!((mat.start(), mat.end()), (2, 15));
+    /// # }
+    /// ```
+    pub fn find<'t>(&self, text: &'t [u8]) -> Option<Match<'t>> {
+        self.find_at(text, 0)
+    }
+
+    /// Returns an iterator for each successive non-overlapping match in
+    /// `text`, returning the start and end byte indices with respect to
+    /// `text`.
+    ///
+    /// # Example
+    ///
+    /// Find the start and end location of every word with exactly 13 ASCII
+    /// word bytes:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let text = b"Retroactively relinquishing remunerations is reprehensible.";
+    /// for mat in Regex::new(r"\b\w{13}\b").unwrap().find_iter(text) {
+    ///     println!("{:?}", mat);
+    /// }
+    /// # }
+    /// ```
+    pub fn find_iter<'r, 't>(&'r self, text: &'t [u8]) -> Matches<'r, 't> {
+        Matches(self.0.searcher().find_iter(text))
+    }
+
+    /// Returns the capture groups corresponding to the leftmost-first
+    /// match in `text`. Capture group `0` always corresponds to the entire
+    /// match. If no match is found, then `None` is returned.
+    ///
+    /// You should only use `captures` if you need access to the location of
+    /// capturing group matches. Otherwise, `find` is faster for discovering
+    /// the location of the overall match.
+    ///
+    /// # Examples
+    ///
+    /// Say you have some text with movie names and their release years,
+    /// like "'Citizen Kane' (1941)". It'd be nice if we could search for text
+    /// looking like that, while also extracting the movie name and its release
+    /// year separately.
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"'([^']+)'\s+\((\d{4})\)").unwrap();
+    /// let text = b"Not my favorite movie: 'Citizen Kane' (1941).";
+    /// let caps = re.captures(text).unwrap();
+    /// assert_eq!(caps.get(1).unwrap().as_bytes(), &b"Citizen Kane"[..]);
+    /// assert_eq!(caps.get(2).unwrap().as_bytes(), &b"1941"[..]);
+    /// assert_eq!(caps.get(0).unwrap().as_bytes(), &b"'Citizen Kane' (1941)"[..]);
+    /// // You can also access the groups by index using the Index notation.
+    /// // Note that this will panic on an invalid index.
+    /// assert_eq!(&caps[1], b"Citizen Kane");
+    /// assert_eq!(&caps[2], b"1941");
+    /// assert_eq!(&caps[0], b"'Citizen Kane' (1941)");
+    /// # }
+    /// ```
+    ///
+    /// Note that the full match is at capture group `0`. Each subsequent
+    /// capture group is indexed by the order of its opening `(`.
+    ///
+    /// We can make this example a bit clearer by using *named* capture groups:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
+    ///                .unwrap();
+    /// let text = b"Not my favorite movie: 'Citizen Kane' (1941).";
+    /// let caps = re.captures(text).unwrap();
+    /// assert_eq!(caps.name("title").unwrap().as_bytes(), b"Citizen Kane");
+    /// assert_eq!(caps.name("year").unwrap().as_bytes(), b"1941");
+    /// assert_eq!(caps.get(0).unwrap().as_bytes(), &b"'Citizen Kane' (1941)"[..]);
+    /// // You can also access the groups by name using the Index notation.
+    /// // Note that this will panic on an invalid group name.
+    /// assert_eq!(&caps["title"], b"Citizen Kane");
+    /// assert_eq!(&caps["year"], b"1941");
+    /// assert_eq!(&caps[0], b"'Citizen Kane' (1941)");
+    ///
+    /// # }
+    /// ```
+    ///
+    /// Here we name the capture groups, which we can access with the `name`
+    /// method or the `Index` notation with a `&str`. Note that the named
+    /// capture groups are still accessible with `get` or the `Index` notation
+    /// with a `usize`.
+    ///
+    /// The `0`th capture group is always unnamed, so it must always be
+    /// accessed with `get(0)` or `[0]`.
+    pub fn captures<'t>(&self, text: &'t [u8]) -> Option<Captures<'t>> {
+        let mut locs = self.capture_locations();
+        self.captures_read_at(&mut locs, text, 0).map(move |_| Captures {
+            text: text,
+            locs: locs.0,
+            named_groups: self.0.capture_name_idx().clone(),
+        })
+    }
+
+    /// Returns an iterator over all the non-overlapping capture groups matched
+    /// in `text`. This is operationally the same as `find_iter`, except it
+    /// yields information about capturing group matches.
+    ///
+    /// # Example
+    ///
+    /// We can use this to find all movie titles and their release years in
+    /// some text, where the movie is formatted like "'Title' (xxxx)":
+    ///
+    /// ```rust
+    /// # use std::str; use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
+    ///                .unwrap();
+    /// let text = b"'Citizen Kane' (1941), 'The Wizard of Oz' (1939), 'M' (1931).";
+    /// for caps in re.captures_iter(text) {
+    ///     let title = str::from_utf8(&caps["title"]).unwrap();
+    ///     let year = str::from_utf8(&caps["year"]).unwrap();
+    ///     println!("Movie: {:?}, Released: {:?}", title, year);
+    /// }
+    /// // Output:
+    /// // Movie: Citizen Kane, Released: 1941
+    /// // Movie: The Wizard of Oz, Released: 1939
+    /// // Movie: M, Released: 1931
+    /// # }
+    /// ```
+    pub fn captures_iter<'r, 't>(
+        &'r self,
+        text: &'t [u8],
+    ) -> CaptureMatches<'r, 't> {
+        CaptureMatches(self.0.searcher().captures_iter(text))
+    }
+
+    /// Returns an iterator of substrings of `text` delimited by a match of the
+    /// regular expression. Namely, each element of the iterator corresponds to
+    /// text that *isn't* matched by the regular expression.
+    ///
+    /// This method will *not* copy the text given.
+    ///
+    /// # Example
+    ///
+    /// To split a string delimited by arbitrary amounts of spaces or tabs:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"[ \t]+").unwrap();
+    /// let fields: Vec<&[u8]> = re.split(b"a b \t  c\td    e").collect();
+    /// assert_eq!(fields, vec![
+    ///     &b"a"[..], &b"b"[..], &b"c"[..], &b"d"[..], &b"e"[..],
+    /// ]);
+    /// # }
+    /// ```
+    pub fn split<'r, 't>(&'r self, text: &'t [u8]) -> Split<'r, 't> {
+        Split { finder: self.find_iter(text), last: 0 }
+    }
+
+    /// Returns an iterator of at most `limit` substrings of `text` delimited
+    /// by a match of the regular expression. (A `limit` of `0` will return no
+    /// substrings.) Namely, each element of the iterator corresponds to text
+    /// that *isn't* matched by the regular expression. The remainder of the
+    /// string that is not split will be the last element in the iterator.
+    ///
+    /// This method will *not* copy the text given.
+    ///
+    /// # Example
+    ///
+    /// Get the first two words in some text:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"\W+").unwrap();
+    /// let fields: Vec<&[u8]> = re.splitn(b"Hey! How are you?", 3).collect();
+    /// assert_eq!(fields, vec![&b"Hey"[..], &b"How"[..], &b"are you?"[..]]);
+    /// # }
+    /// ```
+    pub fn splitn<'r, 't>(
+        &'r self,
+        text: &'t [u8],
+        limit: usize,
+    ) -> SplitN<'r, 't> {
+        SplitN { splits: self.split(text), n: limit }
+    }
+
+    /// Replaces the leftmost-first match with the replacement provided. The
+    /// replacement can be a regular byte string (where `$N` and `$name` are
+    /// expanded to match capture groups) or a function that takes the matches'
+    /// `Captures` and returns the replaced byte string.
+    ///
+    /// If no match is found, then a copy of the byte string is returned
+    /// unchanged.
+    ///
+    /// # Replacement string syntax
+    ///
+    /// All instances of `$name` in the replacement text is replaced with the
+    /// corresponding capture group `name`.
+    ///
+    /// `name` may be an integer corresponding to the index of the
+    /// capture group (counted by order of opening parenthesis where `0` is the
+    /// entire match) or it can be a name (consisting of letters, digits or
+    /// underscores) corresponding to a named capture group.
+    ///
+    /// If `name` isn't a valid capture group (whether the name doesn't exist
+    /// or isn't a valid index), then it is replaced with the empty string.
+    ///
+    /// The longest possible name is used. e.g., `$1a` looks up the capture
+    /// group named `1a` and not the capture group at index `1`. To exert more
+    /// precise control over the name, use braces, e.g., `${1}a`.
+    ///
+    /// To write a literal `$` use `$$`.
+    ///
+    /// # Examples
+    ///
+    /// Note that this function is polymorphic with respect to the replacement.
+    /// In typical usage, this can just be a normal byte string:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new("[^01]+").unwrap();
+    /// assert_eq!(re.replace(b"1078910", &b""[..]), &b"1010"[..]);
+    /// # }
+    /// ```
+    ///
+    /// But anything satisfying the `Replacer` trait will work. For example, a
+    /// closure of type `|&Captures| -> Vec<u8>` provides direct access to the
+    /// captures corresponding to a match. This allows one to access capturing
+    /// group matches easily:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # use regex::bytes::Captures; fn main() {
+    /// let re = Regex::new(r"([^,\s]+),\s+(\S+)").unwrap();
+    /// let result = re.replace(b"Springsteen, Bruce", |caps: &Captures| {
+    ///     let mut replacement = caps[2].to_owned();
+    ///     replacement.push(b' ');
+    ///     replacement.extend(&caps[1]);
+    ///     replacement
+    /// });
+    /// assert_eq!(result, &b"Bruce Springsteen"[..]);
+    /// # }
+    /// ```
+    ///
+    /// But this is a bit cumbersome to use all the time. Instead, a simple
+    /// syntax is supported that expands `$name` into the corresponding capture
+    /// group. Here's the last example, but using this expansion technique
+    /// with named capture groups:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(?P<first>\S+)").unwrap();
+    /// let result = re.replace(b"Springsteen, Bruce", &b"$first $last"[..]);
+    /// assert_eq!(result, &b"Bruce Springsteen"[..]);
+    /// # }
+    /// ```
+    ///
+    /// Note that using `$2` instead of `$first` or `$1` instead of `$last`
+    /// would produce the same result. To write a literal `$` use `$$`.
+    ///
+    /// Sometimes the replacement string requires use of curly braces to
+    /// delineate a capture group replacement and surrounding literal text.
+    /// For example, if we wanted to join two words together with an
+    /// underscore:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"(?P<first>\w+)\s+(?P<second>\w+)").unwrap();
+    /// let result = re.replace(b"deep fried", &b"${first}_$second"[..]);
+    /// assert_eq!(result, &b"deep_fried"[..]);
+    /// # }
+    /// ```
+    ///
+    /// Without the curly braces, the capture group name `first_` would be
+    /// used, and since it doesn't exist, it would be replaced with the empty
+    /// string.
+    ///
+    /// Finally, sometimes you just want to replace a literal string with no
+    /// regard for capturing group expansion. This can be done by wrapping a
+    /// byte string with `NoExpand`:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// use regex::bytes::NoExpand;
+    ///
+    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(\S+)").unwrap();
+    /// let result = re.replace(b"Springsteen, Bruce", NoExpand(b"$2 $last"));
+    /// assert_eq!(result, &b"$2 $last"[..]);
+    /// # }
+    /// ```
+    pub fn replace<'t, R: Replacer>(
+        &self,
+        text: &'t [u8],
+        rep: R,
+    ) -> Cow<'t, [u8]> {
+        self.replacen(text, 1, rep)
+    }
+
+    /// Replaces all non-overlapping matches in `text` with the replacement
+    /// provided. This is the same as calling `replacen` with `limit` set to
+    /// `0`.
+    ///
+    /// See the documentation for `replace` for details on how to access
+    /// capturing group matches in the replacement text.
+    pub fn replace_all<'t, R: Replacer>(
+        &self,
+        text: &'t [u8],
+        rep: R,
+    ) -> Cow<'t, [u8]> {
+        self.replacen(text, 0, rep)
+    }
+
+    /// Replaces at most `limit` non-overlapping matches in `text` with the
+    /// replacement provided. If `limit` is 0, then all non-overlapping matches
+    /// are replaced.
+    ///
+    /// See the documentation for `replace` for details on how to access
+    /// capturing group matches in the replacement text.
+    pub fn replacen<'t, R: Replacer>(
+        &self,
+        text: &'t [u8],
+        limit: usize,
+        mut rep: R,
+    ) -> Cow<'t, [u8]> {
+        if let Some(rep) = rep.no_expansion() {
+            let mut it = self.find_iter(text).enumerate().peekable();
+            if it.peek().is_none() {
+                return Cow::Borrowed(text);
+            }
+            let mut new = Vec::with_capacity(text.len());
+            let mut last_match = 0;
+            for (i, m) in it {
+                if limit > 0 && i >= limit {
+                    break;
+                }
+                new.extend_from_slice(&text[last_match..m.start()]);
+                new.extend_from_slice(&rep);
+                last_match = m.end();
+            }
+            new.extend_from_slice(&text[last_match..]);
+            return Cow::Owned(new);
+        }
+
+        // The slower path, which we use if the replacement needs access to
+        // capture groups.
+        let mut it = self.captures_iter(text).enumerate().peekable();
+        if it.peek().is_none() {
+            return Cow::Borrowed(text);
+        }
+        let mut new = Vec::with_capacity(text.len());
+        let mut last_match = 0;
+        for (i, cap) in it {
+            if limit > 0 && i >= limit {
+                break;
+            }
+            // unwrap on 0 is OK because captures only reports matches
+            let m = cap.get(0).unwrap();
+            new.extend_from_slice(&text[last_match..m.start()]);
+            rep.replace_append(&cap, &mut new);
+            last_match = m.end();
+        }
+        new.extend_from_slice(&text[last_match..]);
+        Cow::Owned(new)
+    }
+}
+
+/// Advanced or "lower level" search methods.
+impl Regex {
+    /// Returns the end location of a match in the text given.
+    ///
+    /// This method may have the same performance characteristics as
+    /// `is_match`, except it provides an end location for a match. In
+    /// particular, the location returned *may be shorter* than the proper end
+    /// of the leftmost-first match.
+    ///
+    /// # Example
+    ///
+    /// Typically, `a+` would match the entire first sequence of `a` in some
+    /// text, but `shortest_match` can give up as soon as it sees the first
+    /// `a`.
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// # fn main() {
+    /// let text = b"aaaaa";
+    /// let pos = Regex::new(r"a+").unwrap().shortest_match(text);
+    /// assert_eq!(pos, Some(1));
+    /// # }
+    /// ```
+    pub fn shortest_match(&self, text: &[u8]) -> Option<usize> {
+        self.shortest_match_at(text, 0)
+    }
+
+    /// Returns the same as shortest_match, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn shortest_match_at(
+        &self,
+        text: &[u8],
+        start: usize,
+    ) -> Option<usize> {
+        self.0.searcher().shortest_match_at(text, start)
+    }
+
+    /// Returns the same as is_match, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn is_match_at(&self, text: &[u8], start: usize) -> bool {
+        self.shortest_match_at(text, start).is_some()
+    }
+
+    /// Returns the same as find, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn find_at<'t>(
+        &self,
+        text: &'t [u8],
+        start: usize,
+    ) -> Option<Match<'t>> {
+        self.0
+            .searcher()
+            .find_at(text, start)
+            .map(|(s, e)| Match::new(text, s, e))
+    }
+
+    /// This is like `captures`, but uses
+    /// [`CaptureLocations`](struct.CaptureLocations.html)
+    /// instead of
+    /// [`Captures`](struct.Captures.html) in order to amortize allocations.
+    ///
+    /// To create a `CaptureLocations` value, use the
+    /// `Regex::capture_locations` method.
+    ///
+    /// This returns the overall match if this was successful, which is always
+    /// equivalence to the `0`th capture group.
+    pub fn captures_read<'t>(
+        &self,
+        locs: &mut CaptureLocations,
+        text: &'t [u8],
+    ) -> Option<Match<'t>> {
+        self.captures_read_at(locs, text, 0)
+    }
+
+    /// Returns the same as `captures_read`, but starts the search at the given
+    /// offset and populates the capture locations given.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn captures_read_at<'t>(
+        &self,
+        locs: &mut CaptureLocations,
+        text: &'t [u8],
+        start: usize,
+    ) -> Option<Match<'t>> {
+        self.0
+            .searcher()
+            .captures_read_at(&mut locs.0, text, start)
+            .map(|(s, e)| Match::new(text, s, e))
+    }
+
+    /// An undocumented alias for `captures_read_at`.
+    ///
+    /// The `regex-capi` crate previously used this routine, so to avoid
+    /// breaking that crate, we continue to provide the name as an undocumented
+    /// alias.
+    #[doc(hidden)]
+    pub fn read_captures_at<'t>(
+        &self,
+        locs: &mut CaptureLocations,
+        text: &'t [u8],
+        start: usize,
+    ) -> Option<Match<'t>> {
+        self.captures_read_at(locs, text, start)
+    }
+}
+
+/// Auxiliary methods.
+impl Regex {
+    /// Returns the original string of this regex.
+    pub fn as_str(&self) -> &str {
+        &self.0.regex_strings()[0]
+    }
+
+    /// Returns an iterator over the capture names.
+    pub fn capture_names(&self) -> CaptureNames<'_> {
+        CaptureNames(self.0.capture_names().iter())
+    }
+
+    /// Returns the number of captures.
+    pub fn captures_len(&self) -> usize {
+        self.0.capture_names().len()
+    }
+
+    /// Returns an empty set of capture locations that can be reused in
+    /// multiple calls to `captures_read` or `captures_read_at`.
+    pub fn capture_locations(&self) -> CaptureLocations {
+        CaptureLocations(self.0.searcher().locations())
+    }
+
+    /// An alias for `capture_locations` to preserve backward compatibility.
+    ///
+    /// The `regex-capi` crate uses this method, so to avoid breaking that
+    /// crate, we continue to export it as an undocumented API.
+    #[doc(hidden)]
+    pub fn locations(&self) -> CaptureLocations {
+        CaptureLocations(self.0.searcher().locations())
+    }
+}
+
+/// An iterator over all non-overlapping matches for a particular string.
+///
+/// The iterator yields a tuple of integers corresponding to the start and end
+/// of the match. The indices are byte offsets. The iterator stops when no more
+/// matches can be found.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the matched byte string.
+#[derive(Debug)]
+pub struct Matches<'r, 't>(re_trait::Matches<'t, ExecNoSync<'r>>);
+
+impl<'r, 't> Iterator for Matches<'r, 't> {
+    type Item = Match<'t>;
+
+    fn next(&mut self) -> Option<Match<'t>> {
+        let text = self.0.text();
+        self.0.next().map(|(s, e)| Match::new(text, s, e))
+    }
+}
+
+impl<'r, 't> FusedIterator for Matches<'r, 't> {}
+
+/// An iterator that yields all non-overlapping capture groups matching a
+/// particular regular expression.
+///
+/// The iterator stops when no more matches can be found.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the matched byte string.
+#[derive(Debug)]
+pub struct CaptureMatches<'r, 't>(
+    re_trait::CaptureMatches<'t, ExecNoSync<'r>>,
+);
+
+impl<'r, 't> Iterator for CaptureMatches<'r, 't> {
+    type Item = Captures<'t>;
+
+    fn next(&mut self) -> Option<Captures<'t>> {
+        self.0.next().map(|locs| Captures {
+            text: self.0.text(),
+            locs: locs,
+            named_groups: self.0.regex().capture_name_idx().clone(),
+        })
+    }
+}
+
+impl<'r, 't> FusedIterator for CaptureMatches<'r, 't> {}
+
+/// Yields all substrings delimited by a regular expression match.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the byte string being split.
+#[derive(Debug)]
+pub struct Split<'r, 't> {
+    finder: Matches<'r, 't>,
+    last: usize,
+}
+
+impl<'r, 't> Iterator for Split<'r, 't> {
+    type Item = &'t [u8];
+
+    fn next(&mut self) -> Option<&'t [u8]> {
+        let text = self.finder.0.text();
+        match self.finder.next() {
+            None => {
+                if self.last > text.len() {
+                    None
+                } else {
+                    let s = &text[self.last..];
+                    self.last = text.len() + 1; // Next call will return None
+                    Some(s)
+                }
+            }
+            Some(m) => {
+                let matched = &text[self.last..m.start()];
+                self.last = m.end();
+                Some(matched)
+            }
+        }
+    }
+}
+
+impl<'r, 't> FusedIterator for Split<'r, 't> {}
+
+/// Yields at most `N` substrings delimited by a regular expression match.
+///
+/// The last substring will be whatever remains after splitting.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the byte string being split.
+#[derive(Debug)]
+pub struct SplitN<'r, 't> {
+    splits: Split<'r, 't>,
+    n: usize,
+}
+
+impl<'r, 't> Iterator for SplitN<'r, 't> {
+    type Item = &'t [u8];
+
+    fn next(&mut self) -> Option<&'t [u8]> {
+        if self.n == 0 {
+            return None;
+        }
+
+        self.n -= 1;
+        if self.n > 0 {
+            return self.splits.next();
+        }
+
+        let text = self.splits.finder.0.text();
+        if self.splits.last > text.len() {
+            // We've already returned all substrings.
+            None
+        } else {
+            // self.n == 0, so future calls will return None immediately
+            Some(&text[self.splits.last..])
+        }
+    }
+
+    fn size_hint(&self) -> (usize, Option<usize>) {
+        (0, Some(self.n))
+    }
+}
+
+impl<'r, 't> FusedIterator for SplitN<'r, 't> {}
+
+/// An iterator over the names of all possible captures.
+///
+/// `None` indicates an unnamed capture; the first element (capture 0, the
+/// whole matched region) is always unnamed.
+///
+/// `'r` is the lifetime of the compiled regular expression.
+#[derive(Clone, Debug)]
+pub struct CaptureNames<'r>(::std::slice::Iter<'r, Option<String>>);
+
+impl<'r> Iterator for CaptureNames<'r> {
+    type Item = Option<&'r str>;
+
+    fn next(&mut self) -> Option<Option<&'r str>> {
+        self.0
+            .next()
+            .as_ref()
+            .map(|slot| slot.as_ref().map(|name| name.as_ref()))
+    }
+
+    fn size_hint(&self) -> (usize, Option<usize>) {
+        self.0.size_hint()
+    }
+
+    fn count(self) -> usize {
+        self.0.count()
+    }
+}
+
+impl<'r> ExactSizeIterator for CaptureNames<'r> {}
+
+impl<'r> FusedIterator for CaptureNames<'r> {}
+
+/// CaptureLocations is a low level representation of the raw offsets of each
+/// submatch.
+///
+/// You can think of this as a lower level
+/// [`Captures`](struct.Captures.html), where this type does not support
+/// named capturing groups directly and it does not borrow the text that these
+/// offsets were matched on.
+///
+/// Primarily, this type is useful when using the lower level `Regex` APIs
+/// such as `read_captures`, which permits amortizing the allocation in which
+/// capture match locations are stored.
+///
+/// In order to build a value of this type, you'll need to call the
+/// `capture_locations` method on the `Regex` being used to execute the search.
+/// The value returned can then be reused in subsequent searches.
+#[derive(Clone, Debug)]
+pub struct CaptureLocations(re_trait::Locations);
+
+/// A type alias for `CaptureLocations` for backwards compatibility.
+///
+/// Previously, we exported `CaptureLocations` as `Locations` in an
+/// undocumented API. To prevent breaking that code (e.g., in `regex-capi`),
+/// we continue re-exporting the same undocumented API.
+#[doc(hidden)]
+pub type Locations = CaptureLocations;
+
+impl CaptureLocations {
+    /// Returns the start and end positions of the Nth capture group. Returns
+    /// `None` if `i` is not a valid capture group or if the capture group did
+    /// not match anything. The positions returned are *always* byte indices
+    /// with respect to the original string matched.
+    #[inline]
+    pub fn get(&self, i: usize) -> Option<(usize, usize)> {
+        self.0.pos(i)
+    }
+
+    /// Returns the total number of capturing groups.
+    ///
+    /// This is always at least `1` since every regex has at least `1`
+    /// capturing group that corresponds to the entire match.
+    #[inline]
+    pub fn len(&self) -> usize {
+        self.0.len()
+    }
+
+    /// An alias for the `get` method for backwards compatibility.
+    ///
+    /// Previously, we exported `get` as `pos` in an undocumented API. To
+    /// prevent breaking that code (e.g., in `regex-capi`), we continue
+    /// re-exporting the same undocumented API.
+    #[doc(hidden)]
+    #[inline]
+    pub fn pos(&self, i: usize) -> Option<(usize, usize)> {
+        self.get(i)
+    }
+}
+
+/// Captures represents a group of captured byte strings for a single match.
+///
+/// The 0th capture always corresponds to the entire match. Each subsequent
+/// index corresponds to the next capture group in the regex. If a capture
+/// group is named, then the matched byte string is *also* available via the
+/// `name` method. (Note that the 0th capture is always unnamed and so must be
+/// accessed with the `get` method.)
+///
+/// Positions returned from a capture group are always byte indices.
+///
+/// `'t` is the lifetime of the matched text.
+pub struct Captures<'t> {
+    text: &'t [u8],
+    locs: re_trait::Locations,
+    named_groups: Arc<HashMap<String, usize>>,
+}
+
+impl<'t> Captures<'t> {
+    /// Returns the match associated with the capture group at index `i`. If
+    /// `i` does not correspond to a capture group, or if the capture group
+    /// did not participate in the match, then `None` is returned.
+    ///
+    /// # Examples
+    ///
+    /// Get the text of the match with a default of an empty string if this
+    /// group didn't participate in the match:
+    ///
+    /// ```rust
+    /// # use regex::bytes::Regex;
+    /// let re = Regex::new(r"[a-z]+(?:([0-9]+)|([A-Z]+))").unwrap();
+    /// let caps = re.captures(b"abc123").unwrap();
+    ///
+    /// let text1 = caps.get(1).map_or(&b""[..], |m| m.as_bytes());
+    /// let text2 = caps.get(2).map_or(&b""[..], |m| m.as_bytes());
+    /// assert_eq!(text1, &b"123"[..]);
+    /// assert_eq!(text2, &b""[..]);
+    /// ```
+    pub fn get(&self, i: usize) -> Option<Match<'t>> {
+        self.locs.pos(i).map(|(s, e)| Match::new(self.text, s, e))
+    }
+
+    /// Returns the match for the capture group named `name`. If `name` isn't a
+    /// valid capture group or didn't match anything, then `None` is returned.
+    pub fn name(&self, name: &str) -> Option<Match<'t>> {
+        self.named_groups.get(name).and_then(|&i| self.get(i))
+    }
+
+    /// An iterator that yields all capturing matches in the order in which
+    /// they appear in the regex. If a particular capture group didn't
+    /// participate in the match, then `None` is yielded for that capture.
+    ///
+    /// The first match always corresponds to the overall match of the regex.
+    pub fn iter<'c>(&'c self) -> SubCaptureMatches<'c, 't> {
+        SubCaptureMatches { caps: self, it: self.locs.iter() }
+    }
+
+    /// Expands all instances of `$name` in `replacement` to the corresponding
+    /// capture group `name`, and writes them to the `dst` buffer given.
+    ///
+    /// `name` may be an integer corresponding to the index of the capture
+    /// group (counted by order of opening parenthesis where `0` is the
+    /// entire match) or it can be a name (consisting of letters, digits or
+    /// underscores) corresponding to a named capture group.
+    ///
+    /// If `name` isn't a valid capture group (whether the name doesn't exist
+    /// or isn't a valid index), then it is replaced with the empty string.
+    ///
+    /// The longest possible name consisting of the characters `[_0-9A-Za-z]`
+    /// is used. e.g., `$1a` looks up the capture group named `1a` and not the
+    /// capture group at index `1`. To exert more precise control over the
+    /// name, or to refer to a capture group name that uses characters outside
+    /// of `[_0-9A-Za-z]`, use braces, e.g., `${1}a` or `${foo[bar].baz}`. When
+    /// using braces, any sequence of valid UTF-8 bytes is permitted. If the
+    /// sequence does not refer to a capture group name in the corresponding
+    /// regex, then it is replaced with an empty string.
+    ///
+    /// To write a literal `$` use `$$`.
+    pub fn expand(&self, replacement: &[u8], dst: &mut Vec<u8>) {
+        expand_bytes(self, replacement, dst)
+    }
+
+    /// Returns the number of captured groups.
+    ///
+    /// This is always at least `1`, since every regex has at least one capture
+    /// group that corresponds to the full match.
+    #[inline]
+    pub fn len(&self) -> usize {
+        self.locs.len()
+    }
+}
+
+impl<'t> fmt::Debug for Captures<'t> {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        f.debug_tuple("Captures").field(&CapturesDebug(self)).finish()
+    }
+}
+
+struct CapturesDebug<'c, 't>(&'c Captures<'t>);
+
+impl<'c, 't> fmt::Debug for CapturesDebug<'c, 't> {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        fn escape_bytes(bytes: &[u8]) -> String {
+            let mut s = String::new();
+            for &b in bytes {
+                s.push_str(&escape_byte(b));
+            }
+            s
+        }
+
+        fn escape_byte(byte: u8) -> String {
+            use std::ascii::escape_default;
+
+            let escaped: Vec<u8> = escape_default(byte).collect();
+            String::from_utf8_lossy(&escaped).into_owned()
+        }
+
+        // We'd like to show something nice here, even if it means an
+        // allocation to build a reverse index.
+        let slot_to_name: HashMap<&usize, &String> =
+            self.0.named_groups.iter().map(|(a, b)| (b, a)).collect();
+        let mut map = f.debug_map();
+        for (slot, m) in self.0.locs.iter().enumerate() {
+            let m = m.map(|(s, e)| escape_bytes(&self.0.text[s..e]));
+            if let Some(name) = slot_to_name.get(&slot) {
+                map.entry(&name, &m);
+            } else {
+                map.entry(&slot, &m);
+            }
+        }
+        map.finish()
+    }
+}
+
+/// Get a group by index.
+///
+/// `'t` is the lifetime of the matched text.
+///
+/// The text can't outlive the `Captures` object if this method is
+/// used, because of how `Index` is defined (normally `a[i]` is part
+/// of `a` and can't outlive it); to do that, use `get()` instead.
+///
+/// # Panics
+///
+/// If there is no group at the given index.
+impl<'t> Index<usize> for Captures<'t> {
+    type Output = [u8];
+
+    fn index(&self, i: usize) -> &[u8] {
+        self.get(i)
+            .map(|m| m.as_bytes())
+            .unwrap_or_else(|| panic!("no group at index '{}'", i))
+    }
+}
+
+/// Get a group by name.
+///
+/// `'t` is the lifetime of the matched text and `'i` is the lifetime
+/// of the group name (the index).
+///
+/// The text can't outlive the `Captures` object if this method is
+/// used, because of how `Index` is defined (normally `a[i]` is part
+/// of `a` and can't outlive it); to do that, use `name` instead.
+///
+/// # Panics
+///
+/// If there is no group named by the given value.
+impl<'t, 'i> Index<&'i str> for Captures<'t> {
+    type Output = [u8];
+
+    fn index<'a>(&'a self, name: &'i str) -> &'a [u8] {
+        self.name(name)
+            .map(|m| m.as_bytes())
+            .unwrap_or_else(|| panic!("no group named '{}'", name))
+    }
+}
+
+/// An iterator that yields all capturing matches in the order in which they
+/// appear in the regex.
+///
+/// If a particular capture group didn't participate in the match, then `None`
+/// is yielded for that capture. The first match always corresponds to the
+/// overall match of the regex.
+///
+/// The lifetime `'c` corresponds to the lifetime of the `Captures` value, and
+/// the lifetime `'t` corresponds to the originally matched text.
+#[derive(Clone, Debug)]
+pub struct SubCaptureMatches<'c, 't> {
+    caps: &'c Captures<'t>,
+    it: SubCapturesPosIter<'c>,
+}
+
+impl<'c, 't> Iterator for SubCaptureMatches<'c, 't> {
+    type Item = Option<Match<'t>>;
+
+    fn next(&mut self) -> Option<Option<Match<'t>>> {
+        self.it
+            .next()
+            .map(|cap| cap.map(|(s, e)| Match::new(self.caps.text, s, e)))
+    }
+}
+
+impl<'c, 't> FusedIterator for SubCaptureMatches<'c, 't> {}
+
+/// Replacer describes types that can be used to replace matches in a byte
+/// string.
+///
+/// In general, users of this crate shouldn't need to implement this trait,
+/// since implementations are already provided for `&[u8]` along with other
+/// variants of bytes types and `FnMut(&Captures) -> Vec<u8>` (or any
+/// `FnMut(&Captures) -> T` where `T: AsRef<[u8]>`), which covers most use cases.
+pub trait Replacer {
+    /// Appends text to `dst` to replace the current match.
+    ///
+    /// The current match is represented by `caps`, which is guaranteed to
+    /// have a match at capture group `0`.
+    ///
+    /// For example, a no-op replacement would be
+    /// `dst.extend(&caps[0])`.
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>);
+
+    /// Return a fixed unchanging replacement byte string.
+    ///
+    /// When doing replacements, if access to `Captures` is not needed (e.g.,
+    /// the replacement byte string does not need `$` expansion), then it can
+    /// be beneficial to avoid finding sub-captures.
+    ///
+    /// In general, this is called once for every call to `replacen`.
+    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>> {
+        None
+    }
+
+    /// Return a `Replacer` that borrows and wraps this `Replacer`.
+    ///
+    /// This is useful when you want to take a generic `Replacer` (which might
+    /// not be cloneable) and use it without consuming it, so it can be used
+    /// more than once.
+    ///
+    /// # Example
+    ///
+    /// ```
+    /// use regex::bytes::{Regex, Replacer};
+    ///
+    /// fn replace_all_twice<R: Replacer>(
+    ///     re: Regex,
+    ///     src: &[u8],
+    ///     mut rep: R,
+    /// ) -> Vec<u8> {
+    ///     let dst = re.replace_all(src, rep.by_ref());
+    ///     let dst = re.replace_all(&dst, rep.by_ref());
+    ///     dst.into_owned()
+    /// }
+    /// ```
+    fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self> {
+        ReplacerRef(self)
+    }
+}
+
+/// By-reference adaptor for a `Replacer`
+///
+/// Returned by [`Replacer::by_ref`](trait.Replacer.html#method.by_ref).
+#[derive(Debug)]
+pub struct ReplacerRef<'a, R: ?Sized>(&'a mut R);
+
+impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        self.0.replace_append(caps, dst)
+    }
+    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, [u8]>> {
+        self.0.no_expansion()
+    }
+}
+
+impl<'a> Replacer for &'a [u8] {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        caps.expand(*self, dst);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, [u8]>> {
+        no_expansion(self)
+    }
+}
+
+impl<'a> Replacer for &'a Vec<u8> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        caps.expand(*self, dst);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, [u8]>> {
+        no_expansion(self)
+    }
+}
+
+impl Replacer for Vec<u8> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        caps.expand(self, dst);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, [u8]>> {
+        no_expansion(self)
+    }
+}
+
+impl<'a> Replacer for Cow<'a, [u8]> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        caps.expand(self.as_ref(), dst);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, [u8]>> {
+        no_expansion(self)
+    }
+}
+
+impl<'a> Replacer for &'a Cow<'a, [u8]> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        caps.expand(self.as_ref(), dst);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, [u8]>> {
+        no_expansion(self)
+    }
+}
+
+fn no_expansion<T: AsRef<[u8]>>(t: &T) -> Option<Cow<'_, [u8]>> {
+    let s = t.as_ref();
+    match find_byte(b'$', s) {
+        Some(_) => None,
+        None => Some(Cow::Borrowed(s)),
+    }
+}
+
+impl<F, T> Replacer for F
+where
+    F: FnMut(&Captures<'_>) -> T,
+    T: AsRef<[u8]>,
+{
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut Vec<u8>) {
+        dst.extend_from_slice((*self)(caps).as_ref());
+    }
+}
+
+/// `NoExpand` indicates literal byte string replacement.
+///
+/// It can be used with `replace` and `replace_all` to do a literal byte string
+/// replacement without expanding `$name` to their corresponding capture
+/// groups. This can be both convenient (to avoid escaping `$`, for example)
+/// and performant (since capture groups don't need to be found).
+///
+/// `'t` is the lifetime of the literal text.
+#[derive(Clone, Debug)]
+pub struct NoExpand<'t>(pub &'t [u8]);
+
+impl<'t> Replacer for NoExpand<'t> {
+    fn replace_append(&mut self, _: &Captures<'_>, dst: &mut Vec<u8>) {
+        dst.extend_from_slice(self.0);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, [u8]>> {
+        Some(Cow::Borrowed(self.0))
+    }
+}
diff --git a/vendor/regex/src/re_set.rs b/vendor/regex/src/re_set.rs
new file mode 100644
index 000000000..73d59532e
--- /dev/null
+++ b/vendor/regex/src/re_set.rs
@@ -0,0 +1,475 @@
+macro_rules! define_set {
+    ($name:ident, $builder_mod:ident, $text_ty:ty, $as_bytes:expr,
+     $(#[$doc_regexset_example:meta])* ) => {
+        pub mod $name {
+            use std::fmt;
+            use std::iter;
+            use std::slice;
+            use std::vec;
+
+            use crate::error::Error;
+            use crate::exec::Exec;
+            use crate::re_builder::$builder_mod::RegexSetBuilder;
+            use crate::re_trait::RegularExpression;
+
+/// Match multiple (possibly overlapping) regular expressions in a single scan.
+///
+/// A regex set corresponds to the union of two or more regular expressions.
+/// That is, a regex set will match text where at least one of its
+/// constituent regular expressions matches. A regex set as its formulated here
+/// provides a touch more power: it will also report *which* regular
+/// expressions in the set match. Indeed, this is the key difference between
+/// regex sets and a single `Regex` with many alternates, since only one
+/// alternate can match at a time.
+///
+/// For example, consider regular expressions to match email addresses and
+/// domains: `[a-z]+@[a-z]+\.(com|org|net)` and `[a-z]+\.(com|org|net)`. If a
+/// regex set is constructed from those regexes, then searching the text
+/// `foo@example.com` will report both regexes as matching. Of course, one
+/// could accomplish this by compiling each regex on its own and doing two
+/// searches over the text. The key advantage of using a regex set is that it
+/// will report the matching regexes using a *single pass through the text*.
+/// If one has hundreds or thousands of regexes to match repeatedly (like a URL
+/// router for a complex web application or a user agent matcher), then a regex
+/// set can realize huge performance gains.
+///
+/// # Example
+///
+/// This shows how the above two regexes (for matching email addresses and
+/// domains) might work:
+///
+$(#[$doc_regexset_example])*
+///
+/// Note that it would be possible to adapt the above example to using `Regex`
+/// with an expression like:
+///
+/// ```text
+/// (?P<email>[a-z]+@(?P<email_domain>[a-z]+[.](com|org|net)))|(?P<domain>[a-z]+[.](com|org|net))
+/// ```
+///
+/// After a match, one could then inspect the capture groups to figure out
+/// which alternates matched. The problem is that it is hard to make this
+/// approach scale when there are many regexes since the overlap between each
+/// alternate isn't always obvious to reason about.
+///
+/// # Limitations
+///
+/// Regex sets are limited to answering the following two questions:
+///
+/// 1. Does any regex in the set match?
+/// 2. If so, which regexes in the set match?
+///
+/// As with the main `Regex` type, it is cheaper to ask (1) instead of (2)
+/// since the matching engines can stop after the first match is found.
+///
+/// Other features like finding the location of successive matches or their
+/// sub-captures aren't supported. If you need this functionality, the
+/// recommended approach is to compile each regex in the set independently and
+/// selectively match them based on which regexes in the set matched.
+///
+/// # Performance
+///
+/// A `RegexSet` has the same performance characteristics as `Regex`. Namely,
+/// search takes `O(mn)` time, where `m` is proportional to the size of the
+/// regex set and `n` is proportional to the length of the search text.
+#[derive(Clone)]
+pub struct RegexSet(Exec);
+
+impl RegexSet {
+    /// Create a new regex set with the given regular expressions.
+    ///
+    /// This takes an iterator of `S`, where `S` is something that can produce
+    /// a `&str`. If any of the strings in the iterator are not valid regular
+    /// expressions, then an error is returned.
+    ///
+    /// # Example
+    ///
+    /// Create a new regex set from an iterator of strings:
+    ///
+    /// ```rust
+    /// # use regex::RegexSet;
+    /// let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
+    /// assert!(set.is_match("foo"));
+    /// ```
+    pub fn new<I, S>(exprs: I) -> Result<RegexSet, Error>
+            where S: AsRef<str>, I: IntoIterator<Item=S> {
+        RegexSetBuilder::new(exprs).build()
+    }
+
+    /// Create a new empty regex set.
+    ///
+    /// # Example
+    ///
+    /// ```rust
+    /// # use regex::RegexSet;
+    /// let set = RegexSet::empty();
+    /// assert!(set.is_empty());
+    /// ```
+    pub fn empty() -> RegexSet {
+        RegexSetBuilder::new(&[""; 0]).build().unwrap()
+    }
+
+    /// Returns true if and only if one of the regexes in this set matches
+    /// the text given.
+    ///
+    /// This method should be preferred if you only need to test whether any
+    /// of the regexes in the set should match, but don't care about *which*
+    /// regexes matched. This is because the underlying matching engine will
+    /// quit immediately after seeing the first match instead of continuing to
+    /// find all matches.
+    ///
+    /// Note that as with searches using `Regex`, the expression is unanchored
+    /// by default. That is, if the regex does not start with `^` or `\A`, or
+    /// end with `$` or `\z`, then it is permitted to match anywhere in the
+    /// text.
+    ///
+    /// # Example
+    ///
+    /// Tests whether a set matches some text:
+    ///
+    /// ```rust
+    /// # use regex::RegexSet;
+    /// let set = RegexSet::new(&[r"\w+", r"\d+"]).unwrap();
+    /// assert!(set.is_match("foo"));
+    /// assert!(!set.is_match("☃"));
+    /// ```
+    pub fn is_match(&self, text: $text_ty) -> bool {
+        self.is_match_at(text, 0)
+    }
+
+    /// Returns the same as is_match, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    #[doc(hidden)]
+    pub fn is_match_at(&self, text: $text_ty, start: usize) -> bool {
+        self.0.searcher().is_match_at($as_bytes(text), start)
+    }
+
+    /// Returns the set of regular expressions that match in the given text.
+    ///
+    /// The set returned contains the index of each regular expression that
+    /// matches in the given text. The index is in correspondence with the
+    /// order of regular expressions given to `RegexSet`'s constructor.
+    ///
+    /// The set can also be used to iterate over the matched indices.
+    ///
+    /// Note that as with searches using `Regex`, the expression is unanchored
+    /// by default. That is, if the regex does not start with `^` or `\A`, or
+    /// end with `$` or `\z`, then it is permitted to match anywhere in the
+    /// text.
+    ///
+    /// # Example
+    ///
+    /// Tests which regular expressions match the given text:
+    ///
+    /// ```rust
+    /// # use regex::RegexSet;
+    /// let set = RegexSet::new(&[
+    ///     r"\w+",
+    ///     r"\d+",
+    ///     r"\pL+",
+    ///     r"foo",
+    ///     r"bar",
+    ///     r"barfoo",
+    ///     r"foobar",
+    /// ]).unwrap();
+    /// let matches: Vec<_> = set.matches("foobar").into_iter().collect();
+    /// assert_eq!(matches, vec![0, 2, 3, 4, 6]);
+    ///
+    /// // You can also test whether a particular regex matched:
+    /// let matches = set.matches("foobar");
+    /// assert!(!matches.matched(5));
+    /// assert!(matches.matched(6));
+    /// ```
+    pub fn matches(&self, text: $text_ty) -> SetMatches {
+        let mut matches = vec![false; self.0.regex_strings().len()];
+        let any = self.read_matches_at(&mut matches, text, 0);
+        SetMatches {
+            matched_any: any,
+            matches: matches,
+        }
+    }
+
+    /// Returns the same as matches, but starts the search at the given
+    /// offset and stores the matches into the slice given.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    ///
+    /// `matches` must have a length that is at least the number of regexes
+    /// in this set.
+    ///
+    /// This method returns true if and only if at least one member of
+    /// `matches` is true after executing the set against `text`.
+    #[doc(hidden)]
+    pub fn read_matches_at(
+        &self,
+        matches: &mut [bool],
+        text: $text_ty,
+        start: usize,
+    ) -> bool {
+        self.0.searcher().many_matches_at(matches, $as_bytes(text), start)
+    }
+
+    /// Returns the total number of regular expressions in this set.
+    pub fn len(&self) -> usize {
+        self.0.regex_strings().len()
+    }
+
+    /// Returns `true` if this set contains no regular expressions.
+    pub fn is_empty(&self) -> bool {
+        self.0.regex_strings().is_empty()
+    }
+
+    /// Returns the patterns that this set will match on.
+    ///
+    /// This function can be used to determine the pattern for a match. The
+    /// slice returned has exactly as many patterns givens to this regex set,
+    /// and the order of the slice is the same as the order of the patterns
+    /// provided to the set.
+    ///
+    /// # Example
+    ///
+    /// ```rust
+    /// # use regex::RegexSet;
+    /// let set = RegexSet::new(&[
+    ///     r"\w+",
+    ///     r"\d+",
+    ///     r"\pL+",
+    ///     r"foo",
+    ///     r"bar",
+    ///     r"barfoo",
+    ///     r"foobar",
+    /// ]).unwrap();
+    /// let matches: Vec<_> = set
+    ///     .matches("foobar")
+    ///     .into_iter()
+    ///     .map(|match_idx| &set.patterns()[match_idx])
+    ///     .collect();
+    /// assert_eq!(matches, vec![r"\w+", r"\pL+", r"foo", r"bar", r"foobar"]);
+    /// ```
+    pub fn patterns(&self) -> &[String] {
+        self.0.regex_strings()
+    }
+}
+
+/// A set of matches returned by a regex set.
+#[derive(Clone, Debug)]
+pub struct SetMatches {
+    matched_any: bool,
+    matches: Vec<bool>,
+}
+
+impl SetMatches {
+    /// Whether this set contains any matches.
+    pub fn matched_any(&self) -> bool {
+        self.matched_any
+    }
+
+    /// Whether the regex at the given index matched.
+    ///
+    /// The index for a regex is determined by its insertion order upon the
+    /// initial construction of a `RegexSet`, starting at `0`.
+    ///
+    /// # Panics
+    ///
+    /// If `regex_index` is greater than or equal to `self.len()`.
+    pub fn matched(&self, regex_index: usize) -> bool {
+        self.matches[regex_index]
+    }
+
+    /// The total number of regexes in the set that created these matches.
+    pub fn len(&self) -> usize {
+        self.matches.len()
+    }
+
+    /// Returns an iterator over indexes in the regex that matched.
+    ///
+    /// This will always produces matches in ascending order of index, where
+    /// the index corresponds to the index of the regex that matched with
+    /// respect to its position when initially building the set.
+    pub fn iter(&self) -> SetMatchesIter<'_> {
+        SetMatchesIter((&*self.matches).into_iter().enumerate())
+    }
+}
+
+impl IntoIterator for SetMatches {
+    type IntoIter = SetMatchesIntoIter;
+    type Item = usize;
+
+    fn into_iter(self) -> Self::IntoIter {
+        SetMatchesIntoIter(self.matches.into_iter().enumerate())
+    }
+}
+
+impl<'a> IntoIterator for &'a SetMatches {
+    type IntoIter = SetMatchesIter<'a>;
+    type Item = usize;
+
+    fn into_iter(self) -> Self::IntoIter {
+        self.iter()
+    }
+}
+
+/// An owned iterator over the set of matches from a regex set.
+///
+/// This will always produces matches in ascending order of index, where the
+/// index corresponds to the index of the regex that matched with respect to
+/// its position when initially building the set.
+#[derive(Debug)]
+pub struct SetMatchesIntoIter(iter::Enumerate<vec::IntoIter<bool>>);
+
+impl Iterator for SetMatchesIntoIter {
+    type Item = usize;
+
+    fn next(&mut self) -> Option<usize> {
+        loop {
+            match self.0.next() {
+                None => return None,
+                Some((_, false)) => {}
+                Some((i, true)) => return Some(i),
+            }
+        }
+    }
+
+    fn size_hint(&self) -> (usize, Option<usize>) {
+        self.0.size_hint()
+    }
+}
+
+impl DoubleEndedIterator for SetMatchesIntoIter {
+    fn next_back(&mut self) -> Option<usize> {
+        loop {
+            match self.0.next_back() {
+                None => return None,
+                Some((_, false)) => {}
+                Some((i, true)) => return Some(i),
+            }
+        }
+    }
+}
+
+impl iter::FusedIterator for SetMatchesIntoIter {}
+
+/// A borrowed iterator over the set of matches from a regex set.
+///
+/// The lifetime `'a` refers to the lifetime of a `SetMatches` value.
+///
+/// This will always produces matches in ascending order of index, where the
+/// index corresponds to the index of the regex that matched with respect to
+/// its position when initially building the set.
+#[derive(Clone, Debug)]
+pub struct SetMatchesIter<'a>(iter::Enumerate<slice::Iter<'a, bool>>);
+
+impl<'a> Iterator for SetMatchesIter<'a> {
+    type Item = usize;
+
+    fn next(&mut self) -> Option<usize> {
+        loop {
+            match self.0.next() {
+                None => return None,
+                Some((_, &false)) => {}
+                Some((i, &true)) => return Some(i),
+            }
+        }
+    }
+
+    fn size_hint(&self) -> (usize, Option<usize>) {
+        self.0.size_hint()
+    }
+}
+
+impl<'a> DoubleEndedIterator for SetMatchesIter<'a> {
+    fn next_back(&mut self) -> Option<usize> {
+        loop {
+            match self.0.next_back() {
+                None => return None,
+                Some((_, &false)) => {}
+                Some((i, &true)) => return Some(i),
+            }
+        }
+    }
+}
+
+impl<'a> iter::FusedIterator for SetMatchesIter<'a> {}
+
+#[doc(hidden)]
+impl From<Exec> for RegexSet {
+    fn from(exec: Exec) -> Self {
+        RegexSet(exec)
+    }
+}
+
+impl fmt::Debug for RegexSet {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        write!(f, "RegexSet({:?})", self.0.regex_strings())
+    }
+}
+
+#[allow(dead_code)] fn as_bytes_str(text: &str) -> &[u8] { text.as_bytes() }
+#[allow(dead_code)] fn as_bytes_bytes(text: &[u8]) -> &[u8] { text }
+        }
+    }
+}
+
+define_set! {
+    unicode,
+    set_unicode,
+    &str,
+    as_bytes_str,
+/// ```rust
+/// # use regex::RegexSet;
+/// let set = RegexSet::new(&[
+///     r"[a-z]+@[a-z]+\.(com|org|net)",
+///     r"[a-z]+\.(com|org|net)",
+/// ]).unwrap();
+///
+/// // Ask whether any regexes in the set match.
+/// assert!(set.is_match("foo@example.com"));
+///
+/// // Identify which regexes in the set match.
+/// let matches: Vec<_> = set.matches("foo@example.com").into_iter().collect();
+/// assert_eq!(vec![0, 1], matches);
+///
+/// // Try again, but with text that only matches one of the regexes.
+/// let matches: Vec<_> = set.matches("example.com").into_iter().collect();
+/// assert_eq!(vec![1], matches);
+///
+/// // Try again, but with text that doesn't match any regex in the set.
+/// let matches: Vec<_> = set.matches("example").into_iter().collect();
+/// assert!(matches.is_empty());
+/// ```
+}
+
+define_set! {
+    bytes,
+    set_bytes,
+    &[u8],
+    as_bytes_bytes,
+/// ```rust
+/// # use regex::bytes::RegexSet;
+/// let set = RegexSet::new(&[
+///     r"[a-z]+@[a-z]+\.(com|org|net)",
+///     r"[a-z]+\.(com|org|net)",
+/// ]).unwrap();
+///
+/// // Ask whether any regexes in the set match.
+/// assert!(set.is_match(b"foo@example.com"));
+///
+/// // Identify which regexes in the set match.
+/// let matches: Vec<_> = set.matches(b"foo@example.com").into_iter().collect();
+/// assert_eq!(vec![0, 1], matches);
+///
+/// // Try again, but with text that only matches one of the regexes.
+/// let matches: Vec<_> = set.matches(b"example.com").into_iter().collect();
+/// assert_eq!(vec![1], matches);
+///
+/// // Try again, but with text that doesn't match any regex in the set.
+/// let matches: Vec<_> = set.matches(b"example").into_iter().collect();
+/// assert!(matches.is_empty());
+/// ```
+}
diff --git a/vendor/regex/src/re_trait.rs b/vendor/regex/src/re_trait.rs
new file mode 100644
index 000000000..680aa5459
--- /dev/null
+++ b/vendor/regex/src/re_trait.rs
@@ -0,0 +1,283 @@
+use std::fmt;
+use std::iter::FusedIterator;
+
+/// Slot is a single saved capture location. Note that there are two slots for
+/// every capture in a regular expression (one slot each for the start and end
+/// of the capture).
+pub type Slot = Option<usize>;
+
+/// Locations represents the offsets of each capturing group in a regex for
+/// a single match.
+///
+/// Unlike `Captures`, a `Locations` value only stores offsets.
+#[doc(hidden)]
+#[derive(Clone, Debug)]
+pub struct Locations(Vec<Slot>);
+
+impl Locations {
+    /// Returns the start and end positions of the Nth capture group. Returns
+    /// `None` if `i` is not a valid capture group or if the capture group did
+    /// not match anything. The positions returned are *always* byte indices
+    /// with respect to the original string matched.
+    pub fn pos(&self, i: usize) -> Option<(usize, usize)> {
+        let (s, e) = (i * 2, i * 2 + 1);
+        match (self.0.get(s), self.0.get(e)) {
+            (Some(&Some(s)), Some(&Some(e))) => Some((s, e)),
+            _ => None,
+        }
+    }
+
+    /// Creates an iterator of all the capture group positions in order of
+    /// appearance in the regular expression. Positions are byte indices
+    /// in terms of the original string matched.
+    pub fn iter(&self) -> SubCapturesPosIter<'_> {
+        SubCapturesPosIter { idx: 0, locs: self }
+    }
+
+    /// Returns the total number of capturing groups.
+    ///
+    /// This is always at least `1` since every regex has at least `1`
+    /// capturing group that corresponds to the entire match.
+    pub fn len(&self) -> usize {
+        self.0.len() / 2
+    }
+
+    /// Return the individual slots as a slice.
+    pub(crate) fn as_slots(&mut self) -> &mut [Slot] {
+        &mut self.0
+    }
+}
+
+/// An iterator over capture group positions for a particular match of a
+/// regular expression.
+///
+/// Positions are byte indices in terms of the original string matched.
+///
+/// `'c` is the lifetime of the captures.
+#[derive(Clone, Debug)]
+pub struct SubCapturesPosIter<'c> {
+    idx: usize,
+    locs: &'c Locations,
+}
+
+impl<'c> Iterator for SubCapturesPosIter<'c> {
+    type Item = Option<(usize, usize)>;
+
+    fn next(&mut self) -> Option<Option<(usize, usize)>> {
+        if self.idx >= self.locs.len() {
+            return None;
+        }
+        let x = match self.locs.pos(self.idx) {
+            None => Some(None),
+            Some((s, e)) => Some(Some((s, e))),
+        };
+        self.idx += 1;
+        x
+    }
+}
+
+impl<'c> FusedIterator for SubCapturesPosIter<'c> {}
+
+/// `RegularExpression` describes types that can implement regex searching.
+///
+/// This trait is my attempt at reducing code duplication and to standardize
+/// the internal API. Specific duplication that is avoided are the `find`
+/// and `capture` iterators, which are slightly tricky.
+///
+/// It's not clear whether this trait is worth it, and it also isn't
+/// clear whether it's useful as a public trait or not. Methods like
+/// `next_after_empty` reak of bad design, but the rest of the methods seem
+/// somewhat reasonable. One particular thing this trait would expose would be
+/// the ability to start the search of a regex anywhere in a haystack, which
+/// isn't possible in the current public API.
+pub trait RegularExpression: Sized + fmt::Debug {
+    /// The type of the haystack.
+    type Text: ?Sized + fmt::Debug;
+
+    /// The number of capture slots in the compiled regular expression. This is
+    /// always two times the number of capture groups (two slots per group).
+    fn slots_len(&self) -> usize;
+
+    /// Allocates fresh space for all capturing groups in this regex.
+    fn locations(&self) -> Locations {
+        Locations(vec![None; self.slots_len()])
+    }
+
+    /// Returns the position of the next character after `i`.
+    ///
+    /// For example, a haystack with type `&[u8]` probably returns `i+1`,
+    /// whereas a haystack with type `&str` probably returns `i` plus the
+    /// length of the next UTF-8 sequence.
+    fn next_after_empty(&self, text: &Self::Text, i: usize) -> usize;
+
+    /// Returns the location of the shortest match.
+    fn shortest_match_at(
+        &self,
+        text: &Self::Text,
+        start: usize,
+    ) -> Option<usize>;
+
+    /// Returns whether the regex matches the text given.
+    fn is_match_at(&self, text: &Self::Text, start: usize) -> bool;
+
+    /// Returns the leftmost-first match location if one exists.
+    fn find_at(
+        &self,
+        text: &Self::Text,
+        start: usize,
+    ) -> Option<(usize, usize)>;
+
+    /// Returns the leftmost-first match location if one exists, and also
+    /// fills in any matching capture slot locations.
+    fn captures_read_at(
+        &self,
+        locs: &mut Locations,
+        text: &Self::Text,
+        start: usize,
+    ) -> Option<(usize, usize)>;
+
+    /// Returns an iterator over all non-overlapping successive leftmost-first
+    /// matches.
+    fn find_iter(self, text: &Self::Text) -> Matches<'_, Self> {
+        Matches { re: self, text: text, last_end: 0, last_match: None }
+    }
+
+    /// Returns an iterator over all non-overlapping successive leftmost-first
+    /// matches with captures.
+    fn captures_iter(self, text: &Self::Text) -> CaptureMatches<'_, Self> {
+        CaptureMatches(self.find_iter(text))
+    }
+}
+
+/// An iterator over all non-overlapping successive leftmost-first matches.
+#[derive(Debug)]
+pub struct Matches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't,
+{
+    re: R,
+    text: &'t R::Text,
+    last_end: usize,
+    last_match: Option<usize>,
+}
+
+impl<'t, R> Matches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't,
+{
+    /// Return the text being searched.
+    pub fn text(&self) -> &'t R::Text {
+        self.text
+    }
+
+    /// Return the underlying regex.
+    pub fn regex(&self) -> &R {
+        &self.re
+    }
+}
+
+impl<'t, R> Iterator for Matches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't + AsRef<[u8]>,
+{
+    type Item = (usize, usize);
+
+    fn next(&mut self) -> Option<(usize, usize)> {
+        if self.last_end > self.text.as_ref().len() {
+            return None;
+        }
+        let (s, e) = match self.re.find_at(self.text, self.last_end) {
+            None => return None,
+            Some((s, e)) => (s, e),
+        };
+        if s == e {
+            // This is an empty match. To ensure we make progress, start
+            // the next search at the smallest possible starting position
+            // of the next match following this one.
+            self.last_end = self.re.next_after_empty(self.text, e);
+            // Don't accept empty matches immediately following a match.
+            // Just move on to the next match.
+            if Some(e) == self.last_match {
+                return self.next();
+            }
+        } else {
+            self.last_end = e;
+        }
+        self.last_match = Some(e);
+        Some((s, e))
+    }
+}
+
+impl<'t, R> FusedIterator for Matches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't + AsRef<[u8]>,
+{
+}
+
+/// An iterator over all non-overlapping successive leftmost-first matches with
+/// captures.
+#[derive(Debug)]
+pub struct CaptureMatches<'t, R>(Matches<'t, R>)
+where
+    R: RegularExpression,
+    R::Text: 't;
+
+impl<'t, R> CaptureMatches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't,
+{
+    /// Return the text being searched.
+    pub fn text(&self) -> &'t R::Text {
+        self.0.text()
+    }
+
+    /// Return the underlying regex.
+    pub fn regex(&self) -> &R {
+        self.0.regex()
+    }
+}
+
+impl<'t, R> Iterator for CaptureMatches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't + AsRef<[u8]>,
+{
+    type Item = Locations;
+
+    fn next(&mut self) -> Option<Locations> {
+        if self.0.last_end > self.0.text.as_ref().len() {
+            return None;
+        }
+        let mut locs = self.0.re.locations();
+        let (s, e) = match self.0.re.captures_read_at(
+            &mut locs,
+            self.0.text,
+            self.0.last_end,
+        ) {
+            None => return None,
+            Some((s, e)) => (s, e),
+        };
+        if s == e {
+            self.0.last_end = self.0.re.next_after_empty(self.0.text, e);
+            if Some(e) == self.0.last_match {
+                return self.next();
+            }
+        } else {
+            self.0.last_end = e;
+        }
+        self.0.last_match = Some(e);
+        Some(locs)
+    }
+}
+
+impl<'t, R> FusedIterator for CaptureMatches<'t, R>
+where
+    R: RegularExpression,
+    R::Text: 't + AsRef<[u8]>,
+{
+}
diff --git a/vendor/regex/src/re_unicode.rs b/vendor/regex/src/re_unicode.rs
new file mode 100644
index 000000000..e4871a621
--- /dev/null
+++ b/vendor/regex/src/re_unicode.rs
@@ -0,0 +1,1301 @@
+use std::borrow::Cow;
+use std::collections::HashMap;
+use std::fmt;
+use std::iter::FusedIterator;
+use std::ops::{Index, Range};
+use std::str::FromStr;
+use std::sync::Arc;
+
+use crate::find_byte::find_byte;
+
+use crate::error::Error;
+use crate::exec::{Exec, ExecNoSyncStr};
+use crate::expand::expand_str;
+use crate::re_builder::unicode::RegexBuilder;
+use crate::re_trait::{self, RegularExpression, SubCapturesPosIter};
+
+/// Escapes all regular expression meta characters in `text`.
+///
+/// The string returned may be safely used as a literal in a regular
+/// expression.
+pub fn escape(text: &str) -> String {
+    regex_syntax::escape(text)
+}
+
+/// Match represents a single match of a regex in a haystack.
+///
+/// The lifetime parameter `'t` refers to the lifetime of the matched text.
+#[derive(Copy, Clone, Debug, Eq, PartialEq)]
+pub struct Match<'t> {
+    text: &'t str,
+    start: usize,
+    end: usize,
+}
+
+impl<'t> Match<'t> {
+    /// Returns the starting byte offset of the match in the haystack.
+    #[inline]
+    pub fn start(&self) -> usize {
+        self.start
+    }
+
+    /// Returns the ending byte offset of the match in the haystack.
+    #[inline]
+    pub fn end(&self) -> usize {
+        self.end
+    }
+
+    /// Returns the range over the starting and ending byte offsets of the
+    /// match in the haystack.
+    #[inline]
+    pub fn range(&self) -> Range<usize> {
+        self.start..self.end
+    }
+
+    /// Returns the matched text.
+    #[inline]
+    pub fn as_str(&self) -> &'t str {
+        &self.text[self.range()]
+    }
+
+    /// Creates a new match from the given haystack and byte offsets.
+    #[inline]
+    fn new(haystack: &'t str, start: usize, end: usize) -> Match<'t> {
+        Match { text: haystack, start: start, end: end }
+    }
+}
+
+impl<'t> From<Match<'t>> for &'t str {
+    fn from(m: Match<'t>) -> &'t str {
+        m.as_str()
+    }
+}
+
+impl<'t> From<Match<'t>> for Range<usize> {
+    fn from(m: Match<'t>) -> Range<usize> {
+        m.range()
+    }
+}
+
+/// A compiled regular expression for matching Unicode strings.
+///
+/// It is represented as either a sequence of bytecode instructions (dynamic)
+/// or as a specialized Rust function (native). It can be used to search, split
+/// or replace text. All searching is done with an implicit `.*?` at the
+/// beginning and end of an expression. To force an expression to match the
+/// whole string (or a prefix or a suffix), you must use an anchor like `^` or
+/// `$` (or `\A` and `\z`).
+///
+/// While this crate will handle Unicode strings (whether in the regular
+/// expression or in the search text), all positions returned are **byte
+/// indices**. Every byte index is guaranteed to be at a Unicode code point
+/// boundary.
+///
+/// The lifetimes `'r` and `'t` in this crate correspond to the lifetime of a
+/// compiled regular expression and text to search, respectively.
+///
+/// The only methods that allocate new strings are the string replacement
+/// methods. All other methods (searching and splitting) return borrowed
+/// pointers into the string given.
+///
+/// # Examples
+///
+/// Find the location of a US phone number:
+///
+/// ```rust
+/// # use regex::Regex;
+/// let re = Regex::new("[0-9]{3}-[0-9]{3}-[0-9]{4}").unwrap();
+/// let mat = re.find("phone: 111-222-3333").unwrap();
+/// assert_eq!((mat.start(), mat.end()), (7, 19));
+/// ```
+///
+/// # Using the `std::str::pattern` methods with `Regex`
+///
+/// > **Note**: This section requires that this crate is compiled with the
+/// > `pattern` Cargo feature enabled, which **requires nightly Rust**.
+///
+/// Since `Regex` implements `Pattern`, you can use regexes with methods
+/// defined on `&str`. For example, `is_match`, `find`, `find_iter`
+/// and `split` can be replaced with `str::contains`, `str::find`,
+/// `str::match_indices` and `str::split`.
+///
+/// Here are some examples:
+///
+/// ```rust,ignore
+/// # use regex::Regex;
+/// let re = Regex::new(r"\d+").unwrap();
+/// let haystack = "a111b222c";
+///
+/// assert!(haystack.contains(&re));
+/// assert_eq!(haystack.find(&re), Some(1));
+/// assert_eq!(haystack.match_indices(&re).collect::<Vec<_>>(),
+///            vec![(1, 4), (5, 8)]);
+/// assert_eq!(haystack.split(&re).collect::<Vec<_>>(), vec!["a", "b", "c"]);
+/// ```
+#[derive(Clone)]
+pub struct Regex(Exec);
+
+impl fmt::Display for Regex {
+    /// Shows the original regular expression.
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        write!(f, "{}", self.as_str())
+    }
+}
+
+impl fmt::Debug for Regex {
+    /// Shows the original regular expression.
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        fmt::Display::fmt(self, f)
+    }
+}
+
+#[doc(hidden)]
+impl From<Exec> for Regex {
+    fn from(exec: Exec) -> Regex {
+        Regex(exec)
+    }
+}
+
+impl FromStr for Regex {
+    type Err = Error;
+
+    /// Attempts to parse a string into a regular expression
+    fn from_str(s: &str) -> Result<Regex, Error> {
+        Regex::new(s)
+    }
+}
+
+/// Core regular expression methods.
+impl Regex {
+    /// Compiles a regular expression. Once compiled, it can be used repeatedly
+    /// to search, split or replace text in a string.
+    ///
+    /// If an invalid expression is given, then an error is returned.
+    pub fn new(re: &str) -> Result<Regex, Error> {
+        RegexBuilder::new(re).build()
+    }
+
+    /// Returns true if and only if there is a match for the regex in the
+    /// string given.
+    ///
+    /// It is recommended to use this method if all you need to do is test
+    /// a match, since the underlying matching engine may be able to do less
+    /// work.
+    ///
+    /// # Example
+    ///
+    /// Test if some text contains at least one word with exactly 13
+    /// Unicode word characters:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let text = "I categorically deny having triskaidekaphobia.";
+    /// assert!(Regex::new(r"\b\w{13}\b").unwrap().is_match(text));
+    /// # }
+    /// ```
+    pub fn is_match(&self, text: &str) -> bool {
+        self.is_match_at(text, 0)
+    }
+
+    /// Returns the start and end byte range of the leftmost-first match in
+    /// `text`. If no match exists, then `None` is returned.
+    ///
+    /// Note that this should only be used if you want to discover the position
+    /// of the match. Testing the existence of a match is faster if you use
+    /// `is_match`.
+    ///
+    /// # Example
+    ///
+    /// Find the start and end location of the first word with exactly 13
+    /// Unicode word characters:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let text = "I categorically deny having triskaidekaphobia.";
+    /// let mat = Regex::new(r"\b\w{13}\b").unwrap().find(text).unwrap();
+    /// assert_eq!(mat.start(), 2);
+    /// assert_eq!(mat.end(), 15);
+    /// # }
+    /// ```
+    pub fn find<'t>(&self, text: &'t str) -> Option<Match<'t>> {
+        self.find_at(text, 0)
+    }
+
+    /// Returns an iterator for each successive non-overlapping match in
+    /// `text`, returning the start and end byte indices with respect to
+    /// `text`.
+    ///
+    /// # Example
+    ///
+    /// Find the start and end location of every word with exactly 13 Unicode
+    /// word characters:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let text = "Retroactively relinquishing remunerations is reprehensible.";
+    /// for mat in Regex::new(r"\b\w{13}\b").unwrap().find_iter(text) {
+    ///     println!("{:?}", mat);
+    /// }
+    /// # }
+    /// ```
+    pub fn find_iter<'r, 't>(&'r self, text: &'t str) -> Matches<'r, 't> {
+        Matches(self.0.searcher_str().find_iter(text))
+    }
+
+    /// Returns the capture groups corresponding to the leftmost-first
+    /// match in `text`. Capture group `0` always corresponds to the entire
+    /// match. If no match is found, then `None` is returned.
+    ///
+    /// You should only use `captures` if you need access to the location of
+    /// capturing group matches. Otherwise, `find` is faster for discovering
+    /// the location of the overall match.
+    ///
+    /// # Examples
+    ///
+    /// Say you have some text with movie names and their release years,
+    /// like "'Citizen Kane' (1941)". It'd be nice if we could search for text
+    /// looking like that, while also extracting the movie name and its release
+    /// year separately.
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"'([^']+)'\s+\((\d{4})\)").unwrap();
+    /// let text = "Not my favorite movie: 'Citizen Kane' (1941).";
+    /// let caps = re.captures(text).unwrap();
+    /// assert_eq!(caps.get(1).unwrap().as_str(), "Citizen Kane");
+    /// assert_eq!(caps.get(2).unwrap().as_str(), "1941");
+    /// assert_eq!(caps.get(0).unwrap().as_str(), "'Citizen Kane' (1941)");
+    /// // You can also access the groups by index using the Index notation.
+    /// // Note that this will panic on an invalid index.
+    /// assert_eq!(&caps[1], "Citizen Kane");
+    /// assert_eq!(&caps[2], "1941");
+    /// assert_eq!(&caps[0], "'Citizen Kane' (1941)");
+    /// # }
+    /// ```
+    ///
+    /// Note that the full match is at capture group `0`. Each subsequent
+    /// capture group is indexed by the order of its opening `(`.
+    ///
+    /// We can make this example a bit clearer by using *named* capture groups:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
+    ///                .unwrap();
+    /// let text = "Not my favorite movie: 'Citizen Kane' (1941).";
+    /// let caps = re.captures(text).unwrap();
+    /// assert_eq!(caps.name("title").unwrap().as_str(), "Citizen Kane");
+    /// assert_eq!(caps.name("year").unwrap().as_str(), "1941");
+    /// assert_eq!(caps.get(0).unwrap().as_str(), "'Citizen Kane' (1941)");
+    /// // You can also access the groups by name using the Index notation.
+    /// // Note that this will panic on an invalid group name.
+    /// assert_eq!(&caps["title"], "Citizen Kane");
+    /// assert_eq!(&caps["year"], "1941");
+    /// assert_eq!(&caps[0], "'Citizen Kane' (1941)");
+    ///
+    /// # }
+    /// ```
+    ///
+    /// Here we name the capture groups, which we can access with the `name`
+    /// method or the `Index` notation with a `&str`. Note that the named
+    /// capture groups are still accessible with `get` or the `Index` notation
+    /// with a `usize`.
+    ///
+    /// The `0`th capture group is always unnamed, so it must always be
+    /// accessed with `get(0)` or `[0]`.
+    pub fn captures<'t>(&self, text: &'t str) -> Option<Captures<'t>> {
+        let mut locs = self.capture_locations();
+        self.captures_read_at(&mut locs, text, 0).map(move |_| Captures {
+            text: text,
+            locs: locs.0,
+            named_groups: self.0.capture_name_idx().clone(),
+        })
+    }
+
+    /// Returns an iterator over all the non-overlapping capture groups matched
+    /// in `text`. This is operationally the same as `find_iter`, except it
+    /// yields information about capturing group matches.
+    ///
+    /// # Example
+    ///
+    /// We can use this to find all movie titles and their release years in
+    /// some text, where the movie is formatted like "'Title' (xxxx)":
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)")
+    ///                .unwrap();
+    /// let text = "'Citizen Kane' (1941), 'The Wizard of Oz' (1939), 'M' (1931).";
+    /// for caps in re.captures_iter(text) {
+    ///     println!("Movie: {:?}, Released: {:?}",
+    ///              &caps["title"], &caps["year"]);
+    /// }
+    /// // Output:
+    /// // Movie: Citizen Kane, Released: 1941
+    /// // Movie: The Wizard of Oz, Released: 1939
+    /// // Movie: M, Released: 1931
+    /// # }
+    /// ```
+    pub fn captures_iter<'r, 't>(
+        &'r self,
+        text: &'t str,
+    ) -> CaptureMatches<'r, 't> {
+        CaptureMatches(self.0.searcher_str().captures_iter(text))
+    }
+
+    /// Returns an iterator of substrings of `text` delimited by a match of the
+    /// regular expression. Namely, each element of the iterator corresponds to
+    /// text that *isn't* matched by the regular expression.
+    ///
+    /// This method will *not* copy the text given.
+    ///
+    /// # Example
+    ///
+    /// To split a string delimited by arbitrary amounts of spaces or tabs:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"[ \t]+").unwrap();
+    /// let fields: Vec<&str> = re.split("a b \t  c\td    e").collect();
+    /// assert_eq!(fields, vec!["a", "b", "c", "d", "e"]);
+    /// # }
+    /// ```
+    pub fn split<'r, 't>(&'r self, text: &'t str) -> Split<'r, 't> {
+        Split { finder: self.find_iter(text), last: 0 }
+    }
+
+    /// Returns an iterator of at most `limit` substrings of `text` delimited
+    /// by a match of the regular expression. (A `limit` of `0` will return no
+    /// substrings.) Namely, each element of the iterator corresponds to text
+    /// that *isn't* matched by the regular expression. The remainder of the
+    /// string that is not split will be the last element in the iterator.
+    ///
+    /// This method will *not* copy the text given.
+    ///
+    /// # Example
+    ///
+    /// Get the first two words in some text:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"\W+").unwrap();
+    /// let fields: Vec<&str> = re.splitn("Hey! How are you?", 3).collect();
+    /// assert_eq!(fields, vec!("Hey", "How", "are you?"));
+    /// # }
+    /// ```
+    pub fn splitn<'r, 't>(
+        &'r self,
+        text: &'t str,
+        limit: usize,
+    ) -> SplitN<'r, 't> {
+        SplitN { splits: self.split(text), n: limit }
+    }
+
+    /// Replaces the leftmost-first match with the replacement provided.
+    /// The replacement can be a regular string (where `$N` and `$name` are
+    /// expanded to match capture groups) or a function that takes the matches'
+    /// `Captures` and returns the replaced string.
+    ///
+    /// If no match is found, then a copy of the string is returned unchanged.
+    ///
+    /// # Replacement string syntax
+    ///
+    /// All instances of `$name` in the replacement text is replaced with the
+    /// corresponding capture group `name`.
+    ///
+    /// `name` may be an integer corresponding to the index of the
+    /// capture group (counted by order of opening parenthesis where `0` is the
+    /// entire match) or it can be a name (consisting of letters, digits or
+    /// underscores) corresponding to a named capture group.
+    ///
+    /// If `name` isn't a valid capture group (whether the name doesn't exist
+    /// or isn't a valid index), then it is replaced with the empty string.
+    ///
+    /// The longest possible name is used. e.g., `$1a` looks up the capture
+    /// group named `1a` and not the capture group at index `1`. To exert more
+    /// precise control over the name, use braces, e.g., `${1}a`.
+    ///
+    /// To write a literal `$` use `$$`.
+    ///
+    /// # Examples
+    ///
+    /// Note that this function is polymorphic with respect to the replacement.
+    /// In typical usage, this can just be a normal string:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new("[^01]+").unwrap();
+    /// assert_eq!(re.replace("1078910", ""), "1010");
+    /// # }
+    /// ```
+    ///
+    /// But anything satisfying the `Replacer` trait will work. For example,
+    /// a closure of type `|&Captures| -> String` provides direct access to the
+    /// captures corresponding to a match. This allows one to access
+    /// capturing group matches easily:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # use regex::Captures; fn main() {
+    /// let re = Regex::new(r"([^,\s]+),\s+(\S+)").unwrap();
+    /// let result = re.replace("Springsteen, Bruce", |caps: &Captures| {
+    ///     format!("{} {}", &caps[2], &caps[1])
+    /// });
+    /// assert_eq!(result, "Bruce Springsteen");
+    /// # }
+    /// ```
+    ///
+    /// But this is a bit cumbersome to use all the time. Instead, a simple
+    /// syntax is supported that expands `$name` into the corresponding capture
+    /// group. Here's the last example, but using this expansion technique
+    /// with named capture groups:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(?P<first>\S+)").unwrap();
+    /// let result = re.replace("Springsteen, Bruce", "$first $last");
+    /// assert_eq!(result, "Bruce Springsteen");
+    /// # }
+    /// ```
+    ///
+    /// Note that using `$2` instead of `$first` or `$1` instead of `$last`
+    /// would produce the same result. To write a literal `$` use `$$`.
+    ///
+    /// Sometimes the replacement string requires use of curly braces to
+    /// delineate a capture group replacement and surrounding literal text.
+    /// For example, if we wanted to join two words together with an
+    /// underscore:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let re = Regex::new(r"(?P<first>\w+)\s+(?P<second>\w+)").unwrap();
+    /// let result = re.replace("deep fried", "${first}_$second");
+    /// assert_eq!(result, "deep_fried");
+    /// # }
+    /// ```
+    ///
+    /// Without the curly braces, the capture group name `first_` would be
+    /// used, and since it doesn't exist, it would be replaced with the empty
+    /// string.
+    ///
+    /// Finally, sometimes you just want to replace a literal string with no
+    /// regard for capturing group expansion. This can be done by wrapping a
+    /// byte string with `NoExpand`:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// use regex::NoExpand;
+    ///
+    /// let re = Regex::new(r"(?P<last>[^,\s]+),\s+(\S+)").unwrap();
+    /// let result = re.replace("Springsteen, Bruce", NoExpand("$2 $last"));
+    /// assert_eq!(result, "$2 $last");
+    /// # }
+    /// ```
+    pub fn replace<'t, R: Replacer>(
+        &self,
+        text: &'t str,
+        rep: R,
+    ) -> Cow<'t, str> {
+        self.replacen(text, 1, rep)
+    }
+
+    /// Replaces all non-overlapping matches in `text` with the replacement
+    /// provided. This is the same as calling `replacen` with `limit` set to
+    /// `0`.
+    ///
+    /// See the documentation for `replace` for details on how to access
+    /// capturing group matches in the replacement string.
+    pub fn replace_all<'t, R: Replacer>(
+        &self,
+        text: &'t str,
+        rep: R,
+    ) -> Cow<'t, str> {
+        self.replacen(text, 0, rep)
+    }
+
+    /// Replaces at most `limit` non-overlapping matches in `text` with the
+    /// replacement provided. If `limit` is 0, then all non-overlapping matches
+    /// are replaced.
+    ///
+    /// See the documentation for `replace` for details on how to access
+    /// capturing group matches in the replacement string.
+    pub fn replacen<'t, R: Replacer>(
+        &self,
+        text: &'t str,
+        limit: usize,
+        mut rep: R,
+    ) -> Cow<'t, str> {
+        // If we know that the replacement doesn't have any capture expansions,
+        // then we can use the fast path. The fast path can make a tremendous
+        // difference:
+        //
+        //   1) We use `find_iter` instead of `captures_iter`. Not asking for
+        //      captures generally makes the regex engines faster.
+        //   2) We don't need to look up all of the capture groups and do
+        //      replacements inside the replacement string. We just push it
+        //      at each match and be done with it.
+        if let Some(rep) = rep.no_expansion() {
+            let mut it = self.find_iter(text).enumerate().peekable();
+            if it.peek().is_none() {
+                return Cow::Borrowed(text);
+            }
+            let mut new = String::with_capacity(text.len());
+            let mut last_match = 0;
+            for (i, m) in it {
+                if limit > 0 && i >= limit {
+                    break;
+                }
+                new.push_str(&text[last_match..m.start()]);
+                new.push_str(&rep);
+                last_match = m.end();
+            }
+            new.push_str(&text[last_match..]);
+            return Cow::Owned(new);
+        }
+
+        // The slower path, which we use if the replacement needs access to
+        // capture groups.
+        let mut it = self.captures_iter(text).enumerate().peekable();
+        if it.peek().is_none() {
+            return Cow::Borrowed(text);
+        }
+        let mut new = String::with_capacity(text.len());
+        let mut last_match = 0;
+        for (i, cap) in it {
+            if limit > 0 && i >= limit {
+                break;
+            }
+            // unwrap on 0 is OK because captures only reports matches
+            let m = cap.get(0).unwrap();
+            new.push_str(&text[last_match..m.start()]);
+            rep.replace_append(&cap, &mut new);
+            last_match = m.end();
+        }
+        new.push_str(&text[last_match..]);
+        Cow::Owned(new)
+    }
+}
+
+/// Advanced or "lower level" search methods.
+impl Regex {
+    /// Returns the end location of a match in the text given.
+    ///
+    /// This method may have the same performance characteristics as
+    /// `is_match`, except it provides an end location for a match. In
+    /// particular, the location returned *may be shorter* than the proper end
+    /// of the leftmost-first match.
+    ///
+    /// # Example
+    ///
+    /// Typically, `a+` would match the entire first sequence of `a` in some
+    /// text, but `shortest_match` can give up as soon as it sees the first
+    /// `a`.
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// # fn main() {
+    /// let text = "aaaaa";
+    /// let pos = Regex::new(r"a+").unwrap().shortest_match(text);
+    /// assert_eq!(pos, Some(1));
+    /// # }
+    /// ```
+    pub fn shortest_match(&self, text: &str) -> Option<usize> {
+        self.shortest_match_at(text, 0)
+    }
+
+    /// Returns the same as shortest_match, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn shortest_match_at(
+        &self,
+        text: &str,
+        start: usize,
+    ) -> Option<usize> {
+        self.0.searcher_str().shortest_match_at(text, start)
+    }
+
+    /// Returns the same as is_match, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn is_match_at(&self, text: &str, start: usize) -> bool {
+        self.shortest_match_at(text, start).is_some()
+    }
+
+    /// Returns the same as find, but starts the search at the given
+    /// offset.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn find_at<'t>(
+        &self,
+        text: &'t str,
+        start: usize,
+    ) -> Option<Match<'t>> {
+        self.0
+            .searcher_str()
+            .find_at(text, start)
+            .map(|(s, e)| Match::new(text, s, e))
+    }
+
+    /// This is like `captures`, but uses
+    /// [`CaptureLocations`](struct.CaptureLocations.html)
+    /// instead of
+    /// [`Captures`](struct.Captures.html) in order to amortize allocations.
+    ///
+    /// To create a `CaptureLocations` value, use the
+    /// `Regex::capture_locations` method.
+    ///
+    /// This returns the overall match if this was successful, which is always
+    /// equivalence to the `0`th capture group.
+    pub fn captures_read<'t>(
+        &self,
+        locs: &mut CaptureLocations,
+        text: &'t str,
+    ) -> Option<Match<'t>> {
+        self.captures_read_at(locs, text, 0)
+    }
+
+    /// Returns the same as captures, but starts the search at the given
+    /// offset and populates the capture locations given.
+    ///
+    /// The significance of the starting point is that it takes the surrounding
+    /// context into consideration. For example, the `\A` anchor can only
+    /// match when `start == 0`.
+    pub fn captures_read_at<'t>(
+        &self,
+        locs: &mut CaptureLocations,
+        text: &'t str,
+        start: usize,
+    ) -> Option<Match<'t>> {
+        self.0
+            .searcher_str()
+            .captures_read_at(&mut locs.0, text, start)
+            .map(|(s, e)| Match::new(text, s, e))
+    }
+
+    /// An undocumented alias for `captures_read_at`.
+    ///
+    /// The `regex-capi` crate previously used this routine, so to avoid
+    /// breaking that crate, we continue to provide the name as an undocumented
+    /// alias.
+    #[doc(hidden)]
+    pub fn read_captures_at<'t>(
+        &self,
+        locs: &mut CaptureLocations,
+        text: &'t str,
+        start: usize,
+    ) -> Option<Match<'t>> {
+        self.captures_read_at(locs, text, start)
+    }
+}
+
+/// Auxiliary methods.
+impl Regex {
+    /// Returns the original string of this regex.
+    pub fn as_str(&self) -> &str {
+        &self.0.regex_strings()[0]
+    }
+
+    /// Returns an iterator over the capture names.
+    pub fn capture_names(&self) -> CaptureNames<'_> {
+        CaptureNames(self.0.capture_names().iter())
+    }
+
+    /// Returns the number of captures.
+    pub fn captures_len(&self) -> usize {
+        self.0.capture_names().len()
+    }
+
+    /// Returns an empty set of capture locations that can be reused in
+    /// multiple calls to `captures_read` or `captures_read_at`.
+    pub fn capture_locations(&self) -> CaptureLocations {
+        CaptureLocations(self.0.searcher_str().locations())
+    }
+
+    /// An alias for `capture_locations` to preserve backward compatibility.
+    ///
+    /// The `regex-capi` crate uses this method, so to avoid breaking that
+    /// crate, we continue to export it as an undocumented API.
+    #[doc(hidden)]
+    pub fn locations(&self) -> CaptureLocations {
+        CaptureLocations(self.0.searcher_str().locations())
+    }
+}
+
+/// An iterator over the names of all possible captures.
+///
+/// `None` indicates an unnamed capture; the first element (capture 0, the
+/// whole matched region) is always unnamed.
+///
+/// `'r` is the lifetime of the compiled regular expression.
+#[derive(Clone, Debug)]
+pub struct CaptureNames<'r>(::std::slice::Iter<'r, Option<String>>);
+
+impl<'r> Iterator for CaptureNames<'r> {
+    type Item = Option<&'r str>;
+
+    fn next(&mut self) -> Option<Option<&'r str>> {
+        self.0
+            .next()
+            .as_ref()
+            .map(|slot| slot.as_ref().map(|name| name.as_ref()))
+    }
+
+    fn size_hint(&self) -> (usize, Option<usize>) {
+        self.0.size_hint()
+    }
+
+    fn count(self) -> usize {
+        self.0.count()
+    }
+}
+
+impl<'r> ExactSizeIterator for CaptureNames<'r> {}
+
+impl<'r> FusedIterator for CaptureNames<'r> {}
+
+/// Yields all substrings delimited by a regular expression match.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the string being split.
+#[derive(Debug)]
+pub struct Split<'r, 't> {
+    finder: Matches<'r, 't>,
+    last: usize,
+}
+
+impl<'r, 't> Iterator for Split<'r, 't> {
+    type Item = &'t str;
+
+    fn next(&mut self) -> Option<&'t str> {
+        let text = self.finder.0.text();
+        match self.finder.next() {
+            None => {
+                if self.last > text.len() {
+                    None
+                } else {
+                    let s = &text[self.last..];
+                    self.last = text.len() + 1; // Next call will return None
+                    Some(s)
+                }
+            }
+            Some(m) => {
+                let matched = &text[self.last..m.start()];
+                self.last = m.end();
+                Some(matched)
+            }
+        }
+    }
+}
+
+impl<'r, 't> FusedIterator for Split<'r, 't> {}
+
+/// Yields at most `N` substrings delimited by a regular expression match.
+///
+/// The last substring will be whatever remains after splitting.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the string being split.
+#[derive(Debug)]
+pub struct SplitN<'r, 't> {
+    splits: Split<'r, 't>,
+    n: usize,
+}
+
+impl<'r, 't> Iterator for SplitN<'r, 't> {
+    type Item = &'t str;
+
+    fn next(&mut self) -> Option<&'t str> {
+        if self.n == 0 {
+            return None;
+        }
+
+        self.n -= 1;
+        if self.n > 0 {
+            return self.splits.next();
+        }
+
+        let text = self.splits.finder.0.text();
+        if self.splits.last > text.len() {
+            // We've already returned all substrings.
+            None
+        } else {
+            // self.n == 0, so future calls will return None immediately
+            Some(&text[self.splits.last..])
+        }
+    }
+
+    fn size_hint(&self) -> (usize, Option<usize>) {
+        (0, Some(self.n))
+    }
+}
+
+impl<'r, 't> FusedIterator for SplitN<'r, 't> {}
+
+/// CaptureLocations is a low level representation of the raw offsets of each
+/// submatch.
+///
+/// You can think of this as a lower level
+/// [`Captures`](struct.Captures.html), where this type does not support
+/// named capturing groups directly and it does not borrow the text that these
+/// offsets were matched on.
+///
+/// Primarily, this type is useful when using the lower level `Regex` APIs
+/// such as `read_captures`, which permits amortizing the allocation in which
+/// capture match locations are stored.
+///
+/// In order to build a value of this type, you'll need to call the
+/// `capture_locations` method on the `Regex` being used to execute the search.
+/// The value returned can then be reused in subsequent searches.
+#[derive(Clone, Debug)]
+pub struct CaptureLocations(re_trait::Locations);
+
+/// A type alias for `CaptureLocations` for backwards compatibility.
+///
+/// Previously, we exported `CaptureLocations` as `Locations` in an
+/// undocumented API. To prevent breaking that code (e.g., in `regex-capi`),
+/// we continue re-exporting the same undocumented API.
+#[doc(hidden)]
+pub type Locations = CaptureLocations;
+
+impl CaptureLocations {
+    /// Returns the start and end positions of the Nth capture group. Returns
+    /// `None` if `i` is not a valid capture group or if the capture group did
+    /// not match anything. The positions returned are *always* byte indices
+    /// with respect to the original string matched.
+    #[inline]
+    pub fn get(&self, i: usize) -> Option<(usize, usize)> {
+        self.0.pos(i)
+    }
+
+    /// Returns the total number of capturing groups.
+    ///
+    /// This is always at least `1` since every regex has at least `1`
+    /// capturing group that corresponds to the entire match.
+    #[inline]
+    pub fn len(&self) -> usize {
+        self.0.len()
+    }
+
+    /// An alias for the `get` method for backwards compatibility.
+    ///
+    /// Previously, we exported `get` as `pos` in an undocumented API. To
+    /// prevent breaking that code (e.g., in `regex-capi`), we continue
+    /// re-exporting the same undocumented API.
+    #[doc(hidden)]
+    #[inline]
+    pub fn pos(&self, i: usize) -> Option<(usize, usize)> {
+        self.get(i)
+    }
+}
+
+/// Captures represents a group of captured strings for a single match.
+///
+/// The 0th capture always corresponds to the entire match. Each subsequent
+/// index corresponds to the next capture group in the regex. If a capture
+/// group is named, then the matched string is *also* available via the `name`
+/// method. (Note that the 0th capture is always unnamed and so must be
+/// accessed with the `get` method.)
+///
+/// Positions returned from a capture group are always byte indices.
+///
+/// `'t` is the lifetime of the matched text.
+pub struct Captures<'t> {
+    text: &'t str,
+    locs: re_trait::Locations,
+    named_groups: Arc<HashMap<String, usize>>,
+}
+
+impl<'t> Captures<'t> {
+    /// Returns the match associated with the capture group at index `i`. If
+    /// `i` does not correspond to a capture group, or if the capture group
+    /// did not participate in the match, then `None` is returned.
+    ///
+    /// # Examples
+    ///
+    /// Get the text of the match with a default of an empty string if this
+    /// group didn't participate in the match:
+    ///
+    /// ```rust
+    /// # use regex::Regex;
+    /// let re = Regex::new(r"[a-z]+(?:([0-9]+)|([A-Z]+))").unwrap();
+    /// let caps = re.captures("abc123").unwrap();
+    ///
+    /// let text1 = caps.get(1).map_or("", |m| m.as_str());
+    /// let text2 = caps.get(2).map_or("", |m| m.as_str());
+    /// assert_eq!(text1, "123");
+    /// assert_eq!(text2, "");
+    /// ```
+    pub fn get(&self, i: usize) -> Option<Match<'t>> {
+        self.locs.pos(i).map(|(s, e)| Match::new(self.text, s, e))
+    }
+
+    /// Returns the match for the capture group named `name`. If `name` isn't a
+    /// valid capture group or didn't match anything, then `None` is returned.
+    pub fn name(&self, name: &str) -> Option<Match<'t>> {
+        self.named_groups.get(name).and_then(|&i| self.get(i))
+    }
+
+    /// An iterator that yields all capturing matches in the order in which
+    /// they appear in the regex. If a particular capture group didn't
+    /// participate in the match, then `None` is yielded for that capture.
+    ///
+    /// The first match always corresponds to the overall match of the regex.
+    pub fn iter<'c>(&'c self) -> SubCaptureMatches<'c, 't> {
+        SubCaptureMatches { caps: self, it: self.locs.iter() }
+    }
+
+    /// Expands all instances of `$name` in `replacement` to the corresponding
+    /// capture group `name`, and writes them to the `dst` buffer given.
+    ///
+    /// `name` may be an integer corresponding to the index of the capture
+    /// group (counted by order of opening parenthesis where `0` is the
+    /// entire match) or it can be a name (consisting of letters, digits or
+    /// underscores) corresponding to a named capture group.
+    ///
+    /// If `name` isn't a valid capture group (whether the name doesn't exist
+    /// or isn't a valid index), then it is replaced with the empty string.
+    ///
+    /// The longest possible name consisting of the characters `[_0-9A-Za-z]`
+    /// is used. e.g., `$1a` looks up the capture group named `1a` and not the
+    /// capture group at index `1`. To exert more precise control over the
+    /// name, or to refer to a capture group name that uses characters outside
+    /// of `[_0-9A-Za-z]`, use braces, e.g., `${1}a` or `${foo[bar].baz}`. When
+    /// using braces, any sequence of characters is permitted. If the sequence
+    /// does not refer to a capture group name in the corresponding regex, then
+    /// it is replaced with an empty string.
+    ///
+    /// To write a literal `$` use `$$`.
+    pub fn expand(&self, replacement: &str, dst: &mut String) {
+        expand_str(self, replacement, dst)
+    }
+
+    /// Returns the number of captured groups.
+    ///
+    /// This is always at least `1`, since every regex has at least one capture
+    /// group that corresponds to the full match.
+    #[inline]
+    pub fn len(&self) -> usize {
+        self.locs.len()
+    }
+}
+
+impl<'t> fmt::Debug for Captures<'t> {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        f.debug_tuple("Captures").field(&CapturesDebug(self)).finish()
+    }
+}
+
+struct CapturesDebug<'c, 't>(&'c Captures<'t>);
+
+impl<'c, 't> fmt::Debug for CapturesDebug<'c, 't> {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        // We'd like to show something nice here, even if it means an
+        // allocation to build a reverse index.
+        let slot_to_name: HashMap<&usize, &String> =
+            self.0.named_groups.iter().map(|(a, b)| (b, a)).collect();
+        let mut map = f.debug_map();
+        for (slot, m) in self.0.locs.iter().enumerate() {
+            let m = m.map(|(s, e)| &self.0.text[s..e]);
+            if let Some(name) = slot_to_name.get(&slot) {
+                map.entry(&name, &m);
+            } else {
+                map.entry(&slot, &m);
+            }
+        }
+        map.finish()
+    }
+}
+
+/// Get a group by index.
+///
+/// `'t` is the lifetime of the matched text.
+///
+/// The text can't outlive the `Captures` object if this method is
+/// used, because of how `Index` is defined (normally `a[i]` is part
+/// of `a` and can't outlive it); to do that, use `get()` instead.
+///
+/// # Panics
+///
+/// If there is no group at the given index.
+impl<'t> Index<usize> for Captures<'t> {
+    type Output = str;
+
+    fn index(&self, i: usize) -> &str {
+        self.get(i)
+            .map(|m| m.as_str())
+            .unwrap_or_else(|| panic!("no group at index '{}'", i))
+    }
+}
+
+/// Get a group by name.
+///
+/// `'t` is the lifetime of the matched text and `'i` is the lifetime
+/// of the group name (the index).
+///
+/// The text can't outlive the `Captures` object if this method is
+/// used, because of how `Index` is defined (normally `a[i]` is part
+/// of `a` and can't outlive it); to do that, use `name` instead.
+///
+/// # Panics
+///
+/// If there is no group named by the given value.
+impl<'t, 'i> Index<&'i str> for Captures<'t> {
+    type Output = str;
+
+    fn index<'a>(&'a self, name: &'i str) -> &'a str {
+        self.name(name)
+            .map(|m| m.as_str())
+            .unwrap_or_else(|| panic!("no group named '{}'", name))
+    }
+}
+
+/// An iterator that yields all capturing matches in the order in which they
+/// appear in the regex.
+///
+/// If a particular capture group didn't participate in the match, then `None`
+/// is yielded for that capture. The first match always corresponds to the
+/// overall match of the regex.
+///
+/// The lifetime `'c` corresponds to the lifetime of the `Captures` value, and
+/// the lifetime `'t` corresponds to the originally matched text.
+#[derive(Clone, Debug)]
+pub struct SubCaptureMatches<'c, 't> {
+    caps: &'c Captures<'t>,
+    it: SubCapturesPosIter<'c>,
+}
+
+impl<'c, 't> Iterator for SubCaptureMatches<'c, 't> {
+    type Item = Option<Match<'t>>;
+
+    fn next(&mut self) -> Option<Option<Match<'t>>> {
+        self.it
+            .next()
+            .map(|cap| cap.map(|(s, e)| Match::new(self.caps.text, s, e)))
+    }
+}
+
+impl<'c, 't> FusedIterator for SubCaptureMatches<'c, 't> {}
+
+/// An iterator that yields all non-overlapping capture groups matching a
+/// particular regular expression.
+///
+/// The iterator stops when no more matches can be found.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the matched string.
+#[derive(Debug)]
+pub struct CaptureMatches<'r, 't>(
+    re_trait::CaptureMatches<'t, ExecNoSyncStr<'r>>,
+);
+
+impl<'r, 't> Iterator for CaptureMatches<'r, 't> {
+    type Item = Captures<'t>;
+
+    fn next(&mut self) -> Option<Captures<'t>> {
+        self.0.next().map(|locs| Captures {
+            text: self.0.text(),
+            locs: locs,
+            named_groups: self.0.regex().capture_name_idx().clone(),
+        })
+    }
+}
+
+impl<'r, 't> FusedIterator for CaptureMatches<'r, 't> {}
+
+/// An iterator over all non-overlapping matches for a particular string.
+///
+/// The iterator yields a `Match` value. The iterator stops when no more
+/// matches can be found.
+///
+/// `'r` is the lifetime of the compiled regular expression and `'t` is the
+/// lifetime of the matched string.
+#[derive(Debug)]
+pub struct Matches<'r, 't>(re_trait::Matches<'t, ExecNoSyncStr<'r>>);
+
+impl<'r, 't> Iterator for Matches<'r, 't> {
+    type Item = Match<'t>;
+
+    fn next(&mut self) -> Option<Match<'t>> {
+        let text = self.0.text();
+        self.0.next().map(|(s, e)| Match::new(text, s, e))
+    }
+}
+
+impl<'r, 't> FusedIterator for Matches<'r, 't> {}
+
+/// Replacer describes types that can be used to replace matches in a string.
+///
+/// In general, users of this crate shouldn't need to implement this trait,
+/// since implementations are already provided for `&str` along with other
+/// variants of string types and `FnMut(&Captures) -> String` (or any
+/// `FnMut(&Captures) -> T` where `T: AsRef<str>`), which covers most use cases.
+pub trait Replacer {
+    /// Appends text to `dst` to replace the current match.
+    ///
+    /// The current match is represented by `caps`, which is guaranteed to
+    /// have a match at capture group `0`.
+    ///
+    /// For example, a no-op replacement would be
+    /// `dst.push_str(caps.get(0).unwrap().as_str())`.
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String);
+
+    /// Return a fixed unchanging replacement string.
+    ///
+    /// When doing replacements, if access to `Captures` is not needed (e.g.,
+    /// the replacement byte string does not need `$` expansion), then it can
+    /// be beneficial to avoid finding sub-captures.
+    ///
+    /// In general, this is called once for every call to `replacen`.
+    fn no_expansion<'r>(&'r mut self) -> Option<Cow<'r, str>> {
+        None
+    }
+
+    /// Return a `Replacer` that borrows and wraps this `Replacer`.
+    ///
+    /// This is useful when you want to take a generic `Replacer` (which might
+    /// not be cloneable) and use it without consuming it, so it can be used
+    /// more than once.
+    ///
+    /// # Example
+    ///
+    /// ```
+    /// use regex::{Regex, Replacer};
+    ///
+    /// fn replace_all_twice<R: Replacer>(
+    ///     re: Regex,
+    ///     src: &str,
+    ///     mut rep: R,
+    /// ) -> String {
+    ///     let dst = re.replace_all(src, rep.by_ref());
+    ///     let dst = re.replace_all(&dst, rep.by_ref());
+    ///     dst.into_owned()
+    /// }
+    /// ```
+    fn by_ref<'r>(&'r mut self) -> ReplacerRef<'r, Self> {
+        ReplacerRef(self)
+    }
+}
+
+/// By-reference adaptor for a `Replacer`
+///
+/// Returned by [`Replacer::by_ref`](trait.Replacer.html#method.by_ref).
+#[derive(Debug)]
+pub struct ReplacerRef<'a, R: ?Sized>(&'a mut R);
+
+impl<'a, R: Replacer + ?Sized + 'a> Replacer for ReplacerRef<'a, R> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        self.0.replace_append(caps, dst)
+    }
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        self.0.no_expansion()
+    }
+}
+
+impl<'a> Replacer for &'a str {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        caps.expand(*self, dst);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        no_expansion(self)
+    }
+}
+
+impl<'a> Replacer for &'a String {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        self.as_str().replace_append(caps, dst)
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        no_expansion(self)
+    }
+}
+
+impl Replacer for String {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        self.as_str().replace_append(caps, dst)
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        no_expansion(self)
+    }
+}
+
+impl<'a> Replacer for Cow<'a, str> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        self.as_ref().replace_append(caps, dst)
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        no_expansion(self)
+    }
+}
+
+impl<'a> Replacer for &'a Cow<'a, str> {
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        self.as_ref().replace_append(caps, dst)
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        no_expansion(self)
+    }
+}
+
+fn no_expansion<T: AsRef<str>>(t: &T) -> Option<Cow<'_, str>> {
+    let s = t.as_ref();
+    match find_byte(b'$', s.as_bytes()) {
+        Some(_) => None,
+        None => Some(Cow::Borrowed(s)),
+    }
+}
+
+impl<F, T> Replacer for F
+where
+    F: FnMut(&Captures<'_>) -> T,
+    T: AsRef<str>,
+{
+    fn replace_append(&mut self, caps: &Captures<'_>, dst: &mut String) {
+        dst.push_str((*self)(caps).as_ref());
+    }
+}
+
+/// `NoExpand` indicates literal string replacement.
+///
+/// It can be used with `replace` and `replace_all` to do a literal string
+/// replacement without expanding `$name` to their corresponding capture
+/// groups. This can be both convenient (to avoid escaping `$`, for example)
+/// and performant (since capture groups don't need to be found).
+///
+/// `'t` is the lifetime of the literal text.
+#[derive(Clone, Debug)]
+pub struct NoExpand<'t>(pub &'t str);
+
+impl<'t> Replacer for NoExpand<'t> {
+    fn replace_append(&mut self, _: &Captures<'_>, dst: &mut String) {
+        dst.push_str(self.0);
+    }
+
+    fn no_expansion(&mut self) -> Option<Cow<'_, str>> {
+        Some(Cow::Borrowed(self.0))
+    }
+}
diff --git a/vendor/regex/src/sparse.rs b/vendor/regex/src/sparse.rs
new file mode 100644
index 000000000..98b726613
--- /dev/null
+++ b/vendor/regex/src/sparse.rs
@@ -0,0 +1,84 @@
+use std::fmt;
+use std::ops::Deref;
+use std::slice;
+
+/// A sparse set used for representing ordered NFA states.
+///
+/// This supports constant time addition and membership testing. Clearing an
+/// entire set can also be done in constant time. Iteration yields elements
+/// in the order in which they were inserted.
+///
+/// The data structure is based on: https://research.swtch.com/sparse
+/// Note though that we don't actually use uninitialized memory. We generally
+/// reuse allocations, so the initial allocation cost is bareable. However,
+/// its other properties listed above are extremely useful.
+#[derive(Clone)]
+pub struct SparseSet {
+    /// Dense contains the instruction pointers in the order in which they
+    /// were inserted.
+    dense: Vec<usize>,
+    /// Sparse maps instruction pointers to their location in dense.
+    ///
+    /// An instruction pointer is in the set if and only if
+    /// sparse[ip] < dense.len() && ip == dense[sparse[ip]].
+    sparse: Box<[usize]>,
+}
+
+impl SparseSet {
+    pub fn new(size: usize) -> SparseSet {
+        SparseSet {
+            dense: Vec::with_capacity(size),
+            sparse: vec![0; size].into_boxed_slice(),
+        }
+    }
+
+    pub fn len(&self) -> usize {
+        self.dense.len()
+    }
+
+    pub fn is_empty(&self) -> bool {
+        self.dense.is_empty()
+    }
+
+    pub fn capacity(&self) -> usize {
+        self.dense.capacity()
+    }
+
+    pub fn insert(&mut self, value: usize) {
+        let i = self.len();
+        assert!(i < self.capacity());
+        self.dense.push(value);
+        self.sparse[value] = i;
+    }
+
+    pub fn contains(&self, value: usize) -> bool {
+        let i = self.sparse[value];
+        self.dense.get(i) == Some(&value)
+    }
+
+    pub fn clear(&mut self) {
+        self.dense.clear();
+    }
+}
+
+impl fmt::Debug for SparseSet {
+    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
+        write!(f, "SparseSet({:?})", self.dense)
+    }
+}
+
+impl Deref for SparseSet {
+    type Target = [usize];
+
+    fn deref(&self) -> &Self::Target {
+        &self.dense
+    }
+}
+
+impl<'a> IntoIterator for &'a SparseSet {
+    type Item = &'a usize;
+    type IntoIter = slice::Iter<'a, usize>;
+    fn into_iter(self) -> Self::IntoIter {
+        self.iter()
+    }
+}
diff --git a/vendor/regex/src/testdata/LICENSE b/vendor/regex/src/testdata/LICENSE
new file mode 100644
index 000000000..f47dbf4c4
--- /dev/null
+++ b/vendor/regex/src/testdata/LICENSE
@@ -0,0 +1,19 @@
+The following license covers testregex.c and all associated test data.
+
+Permission is hereby granted, free of charge, to any person obtaining a
+copy of THIS SOFTWARE FILE (the "Software"), to deal in the Software
+without restriction, including without limitation the rights to use,
+copy, modify, merge, publish, distribute, and/or sell copies of the
+Software, and to permit persons to whom the Software is furnished to do
+so, subject to the following disclaimer:
+
+THIS SOFTWARE IS PROVIDED BY AT&T ``AS IS'' AND ANY EXPRESS OR IMPLIED
+WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
+IN NO EVENT SHALL AT&T BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
diff --git a/vendor/regex/src/testdata/README b/vendor/regex/src/testdata/README
new file mode 100644
index 000000000..6efc2dad3
--- /dev/null
+++ b/vendor/regex/src/testdata/README
@@ -0,0 +1,17 @@
+Test data was taken from the Go distribution, which was in turn taken from the
+testregex test suite:
+
+  http://www2.research.att.com/~astopen/testregex/testregex.html
+
+The LICENSE in this directory corresponds to the LICENSE that the data was
+released under.
+
+The tests themselves were modified for RE2/Go. A couple were modified further
+by me (Andrew Gallant) (only in repetition.dat) so that RE2/Go would pass them.
+(Yes, it seems like RE2/Go includes failing test cases.) This may or may not
+have been a bad idea, but I think being consistent with an established Regex
+library is worth something.
+
+Note that these files are read by 'scripts/regex-match-tests.py' and turned
+into Rust tests found in 'regex_macros/tests/matches.rs'.
+
diff --git a/vendor/regex/src/testdata/basic.dat b/vendor/regex/src/testdata/basic.dat
new file mode 100644
index 000000000..632e1bb41
--- /dev/null
+++ b/vendor/regex/src/testdata/basic.dat
@@ -0,0 +1,221 @@
+NOTE	all standard compliant implementations should pass these : 2002-05-31
+
+BE	abracadabra$	abracadabracadabra	(7,18)
+BE	a...b		abababbb		(2,7)
+BE	XXXXXX		..XXXXXX		(2,8)
+E	\)		()	(1,2)
+BE	a]		a]a	(0,2)
+B	}		}	(0,1)
+E	\}		}	(0,1)
+BE	\]		]	(0,1)
+B	]		]	(0,1)
+E	]		]	(0,1)
+B	{		{	(0,1)
+B	}		}	(0,1)
+BE	^a		ax	(0,1)
+BE	\^a		a^a	(1,3)
+BE	a\^		a^	(0,2)
+BE	a$		aa	(1,2)
+BE	a\$		a$	(0,2)
+BE	^$		NULL	(0,0)
+E	$^		NULL	(0,0)
+E	a($)		aa	(1,2)(2,2)
+E	a*(^a)		aa	(0,1)(0,1)
+E	(..)*(...)*		a	(0,0)
+E	(..)*(...)*		abcd	(0,4)(2,4)
+E	(ab|a)(bc|c)		abc	(0,3)(0,2)(2,3)
+E	(ab)c|abc		abc	(0,3)(0,2)
+E	a{0}b		ab			(1,2)
+E	(a*)(b?)(b+)b{3}	aaabbbbbbb	(0,10)(0,3)(3,4)(4,7)
+E	(a*)(b{0,1})(b{1,})b{3}	aaabbbbbbb	(0,10)(0,3)(3,4)(4,7)
+E	a{9876543210}	NULL	BADBR
+E	((a|a)|a)			a	(0,1)(0,1)(0,1)
+E	(a*)(a|aa)			aaaa	(0,4)(0,3)(3,4)
+E	a*(a.|aa)			aaaa	(0,4)(2,4)
+E	a(b)|c(d)|a(e)f			aef	(0,3)(?,?)(?,?)(1,2)
+E	(a|b)?.*			b	(0,1)(0,1)
+E	(a|b)c|a(b|c)			ac	(0,2)(0,1)
+E	(a|b)c|a(b|c)			ab	(0,2)(?,?)(1,2)
+E	(a|b)*c|(a|ab)*c		abc	(0,3)(1,2)
+E	(a|b)*c|(a|ab)*c		xc	(1,2)
+E	(.a|.b).*|.*(.a|.b)		xa	(0,2)(0,2)
+E	a?(ab|ba)ab			abab	(0,4)(0,2)
+E	a?(ac{0}b|ba)ab			abab	(0,4)(0,2)
+E	ab|abab				abbabab	(0,2)
+E	aba|bab|bba			baaabbbaba	(5,8)
+E	aba|bab				baaabbbaba	(6,9)
+E	(aa|aaa)*|(a|aaaaa)		aa	(0,2)(0,2)
+E	(a.|.a.)*|(a|.a...)		aa	(0,2)(0,2)
+E	ab|a				xabc	(1,3)
+E	ab|a				xxabc	(2,4)
+Ei	(?-u)(Ab|cD)*			aBcD	(0,4)(2,4)
+BE	[^-]			--a		(2,3)
+BE	[a-]*			--a		(0,3)
+BE	[a-m-]*			--amoma--	(0,4)
+E	:::1:::0:|:::1:1:0:	:::0:::1:::1:::0:	(8,17)
+E	:::1:::0:|:::1:1:1:	:::0:::1:::1:::0:	(8,17)
+{E	[[:upper:]]		A		(0,1)	[[<element>]] not supported
+E	[[:lower:]]+		`az{		(1,3)
+E	[[:upper:]]+		@AZ[		(1,3)
+# No collation in Go
+#BE	[[-]]			[[-]]		(2,4)
+#BE	[[.NIL.]]	NULL	ECOLLATE
+#BE	[[=aleph=]]	NULL	ECOLLATE
+}
+BE$	\n		\n	(0,1)
+BEn$	\n		\n	(0,1)
+BE$	[^a]		\n	(0,1)
+BE$	\na		\na	(0,2)
+E	(a)(b)(c)	abc	(0,3)(0,1)(1,2)(2,3)
+BE	xxx		xxx	(0,3)
+E1	(^|[ (,;])((([Ff]eb[^ ]* *|0*2/|\* */?)0*[6-7]))([^0-9]|$)	feb 6,	(0,6)
+E1	(^|[ (,;])((([Ff]eb[^ ]* *|0*2/|\* */?)0*[6-7]))([^0-9]|$)	2/7	(0,3)
+E1	(^|[ (,;])((([Ff]eb[^ ]* *|0*2/|\* */?)0*[6-7]))([^0-9]|$)	feb 1,Feb 6	(5,11)
+E3	((((((((((((((((((((((((((((((x))))))))))))))))))))))))))))))	x	(0,1)(0,1)(0,1)
+E3	((((((((((((((((((((((((((((((x))))))))))))))))))))))))))))))*	xx	(0,2)(1,2)(1,2)
+E	a?(ab|ba)*	ababababababababababababababababababababababababababababababababababababababababa	(0,81)(79,81)
+E	abaa|abbaa|abbbaa|abbbbaa	ababbabbbabbbabbbbabbbbaa	(18,25)
+E	abaa|abbaa|abbbaa|abbbbaa	ababbabbbabbbabbbbabaa	(18,22)
+E	aaac|aabc|abac|abbc|baac|babc|bbac|bbbc	baaabbbabac	(7,11)
+BE$	.*			\x01\x7f	(0,2)
+E	aaaa|bbbb|cccc|ddddd|eeeeee|fffffff|gggg|hhhh|iiiii|jjjjj|kkkkk|llll		XaaaXbbbXcccXdddXeeeXfffXgggXhhhXiiiXjjjXkkkXlllXcbaXaaaa	(53,57)
+L	aaaa\nbbbb\ncccc\nddddd\neeeeee\nfffffff\ngggg\nhhhh\niiiii\njjjjj\nkkkkk\nllll		XaaaXbbbXcccXdddXeeeXfffXgggXhhhXiiiXjjjXkkkXlllXcbaXaaaa	NOMATCH
+E	a*a*a*a*a*b		aaaaaaaaab	(0,10)
+BE	^			NULL		(0,0)
+BE	$			NULL		(0,0)
+BE	^$			NULL		(0,0)
+BE	^a$			a		(0,1)
+BE	abc			abc		(0,3)
+BE	abc			xabcy		(1,4)
+BE	abc			ababc		(2,5)
+BE	ab*c			abc		(0,3)
+BE	ab*bc			abc		(0,3)
+BE	ab*bc			abbc		(0,4)
+BE	ab*bc			abbbbc		(0,6)
+E	ab+bc			abbc		(0,4)
+E	ab+bc			abbbbc		(0,6)
+E	ab?bc			abbc		(0,4)
+E	ab?bc			abc		(0,3)
+E	ab?c			abc		(0,3)
+BE	^abc$			abc		(0,3)
+BE	^abc			abcc		(0,3)
+BE	abc$			aabc		(1,4)
+BE	^			abc		(0,0)
+BE	$			abc		(3,3)
+BE	a.c			abc		(0,3)
+BE	a.c			axc		(0,3)
+BE	a.*c			axyzc		(0,5)
+BE	a[bc]d			abd		(0,3)
+BE	a[b-d]e			ace		(0,3)
+BE	a[b-d]			aac		(1,3)
+BE	a[-b]			a-		(0,2)
+BE	a[b-]			a-		(0,2)
+BE	a]			a]		(0,2)
+BE	a[]]b			a]b		(0,3)
+BE	a[^bc]d			aed		(0,3)
+BE	a[^-b]c			adc		(0,3)
+BE	a[^]b]c			adc		(0,3)
+E	ab|cd			abc		(0,2)
+E	ab|cd			abcd		(0,2)
+E	a\(b			a(b		(0,3)
+E	a\(*b			ab		(0,2)
+E	a\(*b			a((b		(0,4)
+E	((a))			abc		(0,1)(0,1)(0,1)
+E	(a)b(c)			abc		(0,3)(0,1)(2,3)
+E	a+b+c			aabbabc		(4,7)
+E	a*			aaa		(0,3)
+#E	(a*)*			-		(0,0)(0,0)
+E	(a*)*			-		(0,0)(?,?)	RE2/Go
+E	(a*)+			-		(0,0)(0,0)
+#E	(a*|b)*			-		(0,0)(0,0)
+E	(a*|b)*			-		(0,0)(?,?)	RE2/Go
+E	(a+|b)*			ab		(0,2)(1,2)
+E	(a+|b)+			ab		(0,2)(1,2)
+E	(a+|b)?			ab		(0,1)(0,1)
+BE	[^ab]*			cde		(0,3)
+#E	(^)*			-		(0,0)(0,0)
+E	(^)*			-		(0,0)(?,?)	RE2/Go
+BE	a*			NULL		(0,0)
+E	([abc])*d		abbbcd		(0,6)(4,5)
+E	([abc])*bcd		abcd		(0,4)(0,1)
+E	a|b|c|d|e		e		(0,1)
+E	(a|b|c|d|e)f		ef		(0,2)(0,1)
+#E	((a*|b))*		-		(0,0)(0,0)(0,0)
+E	((a*|b))*		-		(0,0)(?,?)(?,?)	RE2/Go
+BE	abcd*efg		abcdefg		(0,7)
+BE	ab*			xabyabbbz	(1,3)
+BE	ab*			xayabbbz	(1,2)
+E	(ab|cd)e		abcde		(2,5)(2,4)
+BE	[abhgefdc]ij		hij		(0,3)
+E	(a|b)c*d		abcd		(1,4)(1,2)
+E	(ab|ab*)bc		abc		(0,3)(0,1)
+E	a([bc]*)c*		abc		(0,3)(1,3)
+E	a([bc]*)(c*d)		abcd		(0,4)(1,3)(3,4)
+E	a([bc]+)(c*d)		abcd		(0,4)(1,3)(3,4)
+E	a([bc]*)(c+d)		abcd		(0,4)(1,2)(2,4)
+E	a[bcd]*dcdcde		adcdcde		(0,7)
+E	(ab|a)b*c		abc		(0,3)(0,2)
+E	((a)(b)c)(d)		abcd		(0,4)(0,3)(0,1)(1,2)(3,4)
+BE	[A-Za-z_][A-Za-z0-9_]*	alpha		(0,5)
+E	^a(bc+|b[eh])g|.h$	abh		(1,3)
+E	(bc+d$|ef*g.|h?i(j|k))	effgz		(0,5)(0,5)
+E	(bc+d$|ef*g.|h?i(j|k))	ij		(0,2)(0,2)(1,2)
+E	(bc+d$|ef*g.|h?i(j|k))	reffgz		(1,6)(1,6)
+E	(((((((((a)))))))))	a		(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)(0,1)
+BE	multiple words		multiple words yeah	(0,14)
+E	(.*)c(.*)		abcde		(0,5)(0,2)(3,5)
+BE	abcd			abcd		(0,4)
+E	a(bc)d			abcd		(0,4)(1,3)
+E	a[
-]?c		ac		(0,3)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Qaddafi	(0,15)(?,?)(10,12)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Mo'ammar Gadhafi	(0,16)(?,?)(11,13)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Kaddafi	(0,15)(?,?)(10,12)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Qadhafi	(0,15)(?,?)(10,12)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Gadafi	(0,14)(?,?)(10,11)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Mu'ammar Qadafi	(0,15)(?,?)(11,12)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Moamar Gaddafi	(0,14)(?,?)(9,11)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Mu'ammar Qadhdhafi	(0,18)(?,?)(13,15)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Khaddafi	(0,16)(?,?)(11,13)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Ghaddafy	(0,16)(?,?)(11,13)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Ghadafi	(0,15)(?,?)(11,12)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Ghaddafi	(0,16)(?,?)(11,13)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muamar Kaddafi	(0,14)(?,?)(9,11)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Quathafi	(0,16)(?,?)(11,13)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Muammar Gheddafi	(0,16)(?,?)(11,13)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Moammar Khadafy	(0,15)(?,?)(11,12)
+E	M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]	Moammar Qudhafi	(0,15)(?,?)(10,12)
+E	a+(b|c)*d+		aabcdd			(0,6)(3,4)
+E	^.+$			vivi			(0,4)
+E	^(.+)$			vivi			(0,4)(0,4)
+E	^([^!.]+).att.com!(.+)$	gryphon.att.com!eby	(0,19)(0,7)(16,19)
+E	^([^!]+!)?([^!]+)$	bas			(0,3)(?,?)(0,3)
+E	^([^!]+!)?([^!]+)$	bar!bas			(0,7)(0,4)(4,7)
+E	^([^!]+!)?([^!]+)$	foo!bas			(0,7)(0,4)(4,7)
+E	^.+!([^!]+!)([^!]+)$	foo!bar!bas		(0,11)(4,8)(8,11)
+E	((foo)|(bar))!bas	bar!bas			(0,7)(0,3)(?,?)(0,3)
+E	((foo)|(bar))!bas	foo!bar!bas		(4,11)(4,7)(?,?)(4,7)
+E	((foo)|(bar))!bas	foo!bas			(0,7)(0,3)(0,3)
+E	((foo)|bar)!bas		bar!bas			(0,7)(0,3)
+E	((foo)|bar)!bas		foo!bar!bas		(4,11)(4,7)
+E	((foo)|bar)!bas		foo!bas			(0,7)(0,3)(0,3)
+E	(foo|(bar))!bas		bar!bas			(0,7)(0,3)(0,3)
+E	(foo|(bar))!bas		foo!bar!bas		(4,11)(4,7)(4,7)
+E	(foo|(bar))!bas		foo!bas			(0,7)(0,3)
+E	(foo|bar)!bas		bar!bas			(0,7)(0,3)
+E	(foo|bar)!bas		foo!bar!bas		(4,11)(4,7)
+E	(foo|bar)!bas		foo!bas			(0,7)(0,3)
+E	^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$	foo!bar!bas	(0,11)(0,11)(?,?)(?,?)(4,8)(8,11)
+E	^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$	bas		(0,3)(?,?)(0,3)
+E	^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$	bar!bas		(0,7)(0,4)(4,7)
+E	^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$	foo!bar!bas	(0,11)(?,?)(?,?)(4,8)(8,11)
+E	^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$	foo!bas		(0,7)(0,4)(4,7)
+E	^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$	bas		(0,3)(0,3)(?,?)(0,3)
+E	^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$	bar!bas		(0,7)(0,7)(0,4)(4,7)
+E	^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$	foo!bar!bas	(0,11)(0,11)(?,?)(?,?)(4,8)(8,11)
+E	^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$	foo!bas		(0,7)(0,7)(0,4)(4,7)
+E	.*(/XXX).*			/XXX			(0,4)(0,4)
+E	.*(\\XXX).*			\XXX			(0,4)(0,4)
+E	\\XXX				\XXX			(0,4)
+E	.*(/000).*			/000			(0,4)(0,4)
+E	.*(\\000).*			\000			(0,4)(0,4)
+E	\\000				\000			(0,4)
diff --git a/vendor/regex/src/testdata/nullsubexpr.dat b/vendor/regex/src/testdata/nullsubexpr.dat
new file mode 100644
index 000000000..2e18fbb91
--- /dev/null
+++ b/vendor/regex/src/testdata/nullsubexpr.dat
@@ -0,0 +1,79 @@
+NOTE	null subexpression matches : 2002-06-06
+
+E	(a*)*		a		(0,1)(0,1)
+#E	SAME		x		(0,0)(0,0)
+E	SAME		x		(0,0)(?,?)	RE2/Go
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaax		(0,6)(0,6)
+E	(a*)+		a		(0,1)(0,1)
+E	SAME		x		(0,0)(0,0)
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaax		(0,6)(0,6)
+E	(a+)*		a		(0,1)(0,1)
+E	SAME		x		(0,0)
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaax		(0,6)(0,6)
+E	(a+)+		a		(0,1)(0,1)
+E	SAME		x		NOMATCH
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaax		(0,6)(0,6)
+
+E	([a]*)*		a		(0,1)(0,1)
+#E	SAME		x		(0,0)(0,0)
+E	SAME		x		(0,0)(?,?)	RE2/Go
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaax		(0,6)(0,6)
+E	([a]*)+		a		(0,1)(0,1)
+E	SAME		x		(0,0)(0,0)
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaax		(0,6)(0,6)
+E	([^b]*)*	a		(0,1)(0,1)
+#E	SAME		b		(0,0)(0,0)
+E	SAME		b		(0,0)(?,?)	RE2/Go
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		aaaaaab		(0,6)(0,6)
+E	([ab]*)*	a		(0,1)(0,1)
+E	SAME		aaaaaa		(0,6)(0,6)
+E	SAME		ababab		(0,6)(0,6)
+E	SAME		bababa		(0,6)(0,6)
+E	SAME		b		(0,1)(0,1)
+E	SAME		bbbbbb		(0,6)(0,6)
+E	SAME		aaaabcde	(0,5)(0,5)
+E	([^a]*)*	b		(0,1)(0,1)
+E	SAME		bbbbbb		(0,6)(0,6)
+#E	SAME		aaaaaa		(0,0)(0,0)
+E	SAME		aaaaaa		(0,0)(?,?)	RE2/Go
+E	([^ab]*)*	ccccxx		(0,6)(0,6)
+#E	SAME		ababab		(0,0)(0,0)
+E	SAME		ababab		(0,0)(?,?)	RE2/Go
+
+E	((z)+|a)*	zabcde		(0,2)(1,2)
+
+#{E	a+?		aaaaaa		(0,1)	no *? +? mimimal match ops
+#E	(a)		aaa		(0,1)(0,1)
+#E	(a*?)		aaa		(0,0)(0,0)
+#E	(a)*?		aaa		(0,0)
+#E	(a*?)*?		aaa		(0,0)
+#}
+
+B	\(a*\)*\(x\)		x	(0,1)(0,0)(0,1)
+B	\(a*\)*\(x\)		ax	(0,2)(0,1)(1,2)
+B	\(a*\)*\(x\)		axa	(0,2)(0,1)(1,2)
+B	\(a*\)*\(x\)\(\1\)	x	(0,1)(0,0)(0,1)(1,1)
+B	\(a*\)*\(x\)\(\1\)	ax	(0,2)(1,1)(1,2)(2,2)
+B	\(a*\)*\(x\)\(\1\)	axa	(0,3)(0,1)(1,2)(2,3)
+B	\(a*\)*\(x\)\(\1\)\(x\)	axax	(0,4)(0,1)(1,2)(2,3)(3,4)
+B	\(a*\)*\(x\)\(\1\)\(x\)	axxa	(0,3)(1,1)(1,2)(2,2)(2,3)
+
+#E	(a*)*(x)		x	(0,1)(0,0)(0,1)
+E	(a*)*(x)		x	(0,1)(?,?)(0,1)	RE2/Go
+E	(a*)*(x)		ax	(0,2)(0,1)(1,2)
+E	(a*)*(x)		axa	(0,2)(0,1)(1,2)
+
+E	(a*)+(x)		x	(0,1)(0,0)(0,1)
+E	(a*)+(x)		ax	(0,2)(0,1)(1,2)
+E	(a*)+(x)		axa	(0,2)(0,1)(1,2)
+
+E	(a*){2}(x)		x	(0,1)(0,0)(0,1)
+E	(a*){2}(x)		ax	(0,2)(1,1)(1,2)
+E	(a*){2}(x)		axa	(0,2)(1,1)(1,2)
diff --git a/vendor/regex/src/testdata/repetition.dat b/vendor/regex/src/testdata/repetition.dat
new file mode 100644
index 000000000..3bb212118
--- /dev/null
+++ b/vendor/regex/src/testdata/repetition.dat
@@ -0,0 +1,163 @@
+NOTE	implicit vs. explicit repetitions : 2009-02-02
+
+# Glenn Fowler <gsf@research.att.com>
+# conforming matches (column 4) must match one of the following BREs
+#	NOMATCH
+#	(0,.)\((\(.\),\(.\))(?,?)(\2,\3)\)*
+#	(0,.)\((\(.\),\(.\))(\2,\3)(?,?)\)*
+# i.e., each 3-tuple has two identical elements and one (?,?)
+
+E	((..)|(.))				NULL		NOMATCH
+E	((..)|(.))((..)|(.))			NULL		NOMATCH
+E	((..)|(.))((..)|(.))((..)|(.))		NULL		NOMATCH
+
+E	((..)|(.)){1}				NULL		NOMATCH
+E	((..)|(.)){2}				NULL		NOMATCH
+E	((..)|(.)){3}				NULL		NOMATCH
+
+E	((..)|(.))*				NULL		(0,0)
+
+E	((..)|(.))				a		(0,1)(0,1)(?,?)(0,1)
+E	((..)|(.))((..)|(.))			a		NOMATCH
+E	((..)|(.))((..)|(.))((..)|(.))		a		NOMATCH
+
+E	((..)|(.)){1}				a		(0,1)(0,1)(?,?)(0,1)
+E	((..)|(.)){2}				a		NOMATCH
+E	((..)|(.)){3}				a		NOMATCH
+
+E	((..)|(.))*				a		(0,1)(0,1)(?,?)(0,1)
+
+E	((..)|(.))				aa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.))((..)|(.))			aa		(0,2)(0,1)(?,?)(0,1)(1,2)(?,?)(1,2)
+E	((..)|(.))((..)|(.))((..)|(.))		aa		NOMATCH
+
+E	((..)|(.)){1}				aa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.)){2}				aa		(0,2)(1,2)(?,?)(1,2)
+E	((..)|(.)){3}				aa		NOMATCH
+
+E	((..)|(.))*				aa		(0,2)(0,2)(0,2)(?,?)
+
+E	((..)|(.))				aaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.))((..)|(.))			aaa		(0,3)(0,2)(0,2)(?,?)(2,3)(?,?)(2,3)
+E	((..)|(.))((..)|(.))((..)|(.))		aaa		(0,3)(0,1)(?,?)(0,1)(1,2)(?,?)(1,2)(2,3)(?,?)(2,3)
+
+E	((..)|(.)){1}				aaa		(0,2)(0,2)(0,2)(?,?)
+#E	((..)|(.)){2}				aaa		(0,3)(2,3)(?,?)(2,3)
+E	((..)|(.)){2}				aaa		(0,3)(2,3)(0,2)(2,3)	RE2/Go
+E	((..)|(.)){3}				aaa		(0,3)(2,3)(?,?)(2,3)
+
+#E	((..)|(.))*				aaa		(0,3)(2,3)(?,?)(2,3)
+E	((..)|(.))*				aaa		(0,3)(2,3)(0,2)(2,3)	RE2/Go
+
+E	((..)|(.))				aaaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.))((..)|(.))			aaaa		(0,4)(0,2)(0,2)(?,?)(2,4)(2,4)(?,?)
+E	((..)|(.))((..)|(.))((..)|(.))		aaaa		(0,4)(0,2)(0,2)(?,?)(2,3)(?,?)(2,3)(3,4)(?,?)(3,4)
+
+E	((..)|(.)){1}				aaaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.)){2}				aaaa		(0,4)(2,4)(2,4)(?,?)
+#E	((..)|(.)){3}				aaaa		(0,4)(3,4)(?,?)(3,4)
+E	((..)|(.)){3}				aaaa		(0,4)(3,4)(0,2)(3,4)	RE2/Go
+
+E	((..)|(.))*				aaaa		(0,4)(2,4)(2,4)(?,?)
+
+E	((..)|(.))				aaaaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.))((..)|(.))			aaaaa		(0,4)(0,2)(0,2)(?,?)(2,4)(2,4)(?,?)
+E	((..)|(.))((..)|(.))((..)|(.))		aaaaa		(0,5)(0,2)(0,2)(?,?)(2,4)(2,4)(?,?)(4,5)(?,?)(4,5)
+
+E	((..)|(.)){1}				aaaaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.)){2}				aaaaa		(0,4)(2,4)(2,4)(?,?)
+#E	((..)|(.)){3}				aaaaa		(0,5)(4,5)(?,?)(4,5)
+E	((..)|(.)){3}				aaaaa		(0,5)(4,5)(2,4)(4,5)	RE2/Go
+
+#E	((..)|(.))*				aaaaa		(0,5)(4,5)(?,?)(4,5)
+E	((..)|(.))*				aaaaa		(0,5)(4,5)(2,4)(4,5)	RE2/Go
+
+E	((..)|(.))				aaaaaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.))((..)|(.))			aaaaaa		(0,4)(0,2)(0,2)(?,?)(2,4)(2,4)(?,?)
+E	((..)|(.))((..)|(.))((..)|(.))		aaaaaa		(0,6)(0,2)(0,2)(?,?)(2,4)(2,4)(?,?)(4,6)(4,6)(?,?)
+
+E	((..)|(.)){1}				aaaaaa		(0,2)(0,2)(0,2)(?,?)
+E	((..)|(.)){2}				aaaaaa		(0,4)(2,4)(2,4)(?,?)
+E	((..)|(.)){3}				aaaaaa		(0,6)(4,6)(4,6)(?,?)
+
+E	((..)|(.))*				aaaaaa		(0,6)(4,6)(4,6)(?,?)
+
+NOTE	additional repetition tests graciously provided by Chris Kuklewicz www.haskell.org 2009-02-02
+
+# These test a bug in OS X / FreeBSD / NetBSD, and libtree. 
+# Linux/GLIBC gets the {8,} and {8,8} wrong.
+
+:HA#100:E	X(.?){0,}Y	X1234567Y	(0,9)(7,8)
+:HA#101:E	X(.?){1,}Y	X1234567Y	(0,9)(7,8)
+:HA#102:E	X(.?){2,}Y	X1234567Y	(0,9)(7,8)
+:HA#103:E	X(.?){3,}Y	X1234567Y	(0,9)(7,8)
+:HA#104:E	X(.?){4,}Y	X1234567Y	(0,9)(7,8)
+:HA#105:E	X(.?){5,}Y	X1234567Y	(0,9)(7,8)
+:HA#106:E	X(.?){6,}Y	X1234567Y	(0,9)(7,8)
+:HA#107:E	X(.?){7,}Y	X1234567Y	(0,9)(7,8)
+:HA#108:E	X(.?){8,}Y	X1234567Y	(0,9)(8,8)
+#:HA#110:E	X(.?){0,8}Y	X1234567Y	(0,9)(7,8)
+:HA#110:E	X(.?){0,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#111:E	X(.?){1,8}Y	X1234567Y	(0,9)(7,8)
+:HA#111:E	X(.?){1,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#112:E	X(.?){2,8}Y	X1234567Y	(0,9)(7,8)
+:HA#112:E	X(.?){2,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#113:E	X(.?){3,8}Y	X1234567Y	(0,9)(7,8)
+:HA#113:E	X(.?){3,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#114:E	X(.?){4,8}Y	X1234567Y	(0,9)(7,8)
+:HA#114:E	X(.?){4,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#115:E	X(.?){5,8}Y	X1234567Y	(0,9)(7,8)
+:HA#115:E	X(.?){5,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#116:E	X(.?){6,8}Y	X1234567Y	(0,9)(7,8)
+:HA#116:E	X(.?){6,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+#:HA#117:E	X(.?){7,8}Y	X1234567Y	(0,9)(7,8)
+:HA#117:E	X(.?){7,8}Y	X1234567Y	(0,9)(8,8)	RE2/Go
+:HA#118:E	X(.?){8,8}Y	X1234567Y	(0,9)(8,8)
+
+# These test a fixed bug in my regex-tdfa that did not keep the expanded
+# form properly grouped, so right association did the wrong thing with
+# these ambiguous patterns (crafted just to test my code when I became
+# suspicious of my implementation).  The first subexpression should use
+# "ab" then "a" then "bcd".
+
+# OS X / FreeBSD / NetBSD badly fail many of these, with impossible
+# results like (0,6)(4,5)(6,6).
+
+:HA#260:E	(a|ab|c|bcd){0,}(d*)	ababcd	(0,1)(0,1)(1,1)
+:HA#261:E	(a|ab|c|bcd){1,}(d*)	ababcd	(0,1)(0,1)(1,1)
+:HA#262:E	(a|ab|c|bcd){2,}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#263:E	(a|ab|c|bcd){3,}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#264:E	(a|ab|c|bcd){4,}(d*)	ababcd	NOMATCH
+:HA#265:E	(a|ab|c|bcd){0,10}(d*)	ababcd	(0,1)(0,1)(1,1)
+:HA#266:E	(a|ab|c|bcd){1,10}(d*)	ababcd	(0,1)(0,1)(1,1)
+:HA#267:E	(a|ab|c|bcd){2,10}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#268:E	(a|ab|c|bcd){3,10}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#269:E	(a|ab|c|bcd){4,10}(d*)	ababcd	NOMATCH
+:HA#270:E	(a|ab|c|bcd)*(d*)	ababcd	(0,1)(0,1)(1,1)
+:HA#271:E	(a|ab|c|bcd)+(d*)	ababcd	(0,1)(0,1)(1,1)
+
+# The above worked on Linux/GLIBC but the following often fail.
+# They also trip up OS X / FreeBSD / NetBSD:
+
+#:HA#280:E	(ab|a|c|bcd){0,}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#280:E	(ab|a|c|bcd){0,}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#281:E	(ab|a|c|bcd){1,}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#281:E	(ab|a|c|bcd){1,}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#282:E	(ab|a|c|bcd){2,}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#282:E	(ab|a|c|bcd){2,}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#283:E	(ab|a|c|bcd){3,}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#283:E	(ab|a|c|bcd){3,}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+:HA#284:E	(ab|a|c|bcd){4,}(d*)	ababcd	NOMATCH
+#:HA#285:E	(ab|a|c|bcd){0,10}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#285:E	(ab|a|c|bcd){0,10}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#286:E	(ab|a|c|bcd){1,10}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#286:E	(ab|a|c|bcd){1,10}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#287:E	(ab|a|c|bcd){2,10}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#287:E	(ab|a|c|bcd){2,10}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#288:E	(ab|a|c|bcd){3,10}(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#288:E	(ab|a|c|bcd){3,10}(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+:HA#289:E	(ab|a|c|bcd){4,10}(d*)	ababcd	NOMATCH
+#:HA#290:E	(ab|a|c|bcd)*(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#290:E	(ab|a|c|bcd)*(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
+#:HA#291:E	(ab|a|c|bcd)+(d*)	ababcd	(0,6)(3,6)(6,6)
+:HA#291:E	(ab|a|c|bcd)+(d*)	ababcd	(0,6)(4,5)(5,6)	RE2/Go
diff --git a/vendor/regex/src/utf8.rs b/vendor/regex/src/utf8.rs
new file mode 100644
index 000000000..6e0608fdb
--- /dev/null
+++ b/vendor/regex/src/utf8.rs
@@ -0,0 +1,264 @@
+/// A few elementary UTF-8 encoding and decoding functions used by the matching
+/// engines.
+///
+/// In an ideal world, the matching engines operate on `&str` and we can just
+/// lean on the standard library for all our UTF-8 needs. However, to support
+/// byte based regexes (that can match on arbitrary bytes which may contain
+/// UTF-8), we need to be capable of searching and decoding UTF-8 on a `&[u8]`.
+/// The standard library doesn't really recognize this use case, so we have
+/// to build it out ourselves.
+///
+/// Should this be factored out into a separate crate? It seems independently
+/// useful. There are other crates that already exist (e.g., `utf-8`) that have
+/// overlapping use cases. Not sure what to do.
+use std::char;
+
+const TAG_CONT: u8 = 0b1000_0000;
+const TAG_TWO: u8 = 0b1100_0000;
+const TAG_THREE: u8 = 0b1110_0000;
+const TAG_FOUR: u8 = 0b1111_0000;
+
+/// Returns the smallest possible index of the next valid UTF-8 sequence
+/// starting after `i`.
+pub fn next_utf8(text: &[u8], i: usize) -> usize {
+    let b = match text.get(i) {
+        None => return i + 1,
+        Some(&b) => b,
+    };
+    let inc = if b <= 0x7F {
+        1
+    } else if b <= 0b110_11111 {
+        2
+    } else if b <= 0b1110_1111 {
+        3
+    } else {
+        4
+    };
+    i + inc
+}
+
+/// Decode a single UTF-8 sequence into a single Unicode codepoint from `src`.
+///
+/// If no valid UTF-8 sequence could be found, then `None` is returned.
+/// Otherwise, the decoded codepoint and the number of bytes read is returned.
+/// The number of bytes read (for a valid UTF-8 sequence) is guaranteed to be
+/// 1, 2, 3 or 4.
+///
+/// Note that a UTF-8 sequence is invalid if it is incorrect UTF-8, encodes a
+/// codepoint that is out of range (surrogate codepoints are out of range) or
+/// is not the shortest possible UTF-8 sequence for that codepoint.
+#[inline]
+pub fn decode_utf8(src: &[u8]) -> Option<(char, usize)> {
+    let b0 = match src.get(0) {
+        None => return None,
+        Some(&b) if b <= 0x7F => return Some((b as char, 1)),
+        Some(&b) => b,
+    };
+    match b0 {
+        0b110_00000..=0b110_11111 => {
+            if src.len() < 2 {
+                return None;
+            }
+            let b1 = src[1];
+            if 0b11_000000 & b1 != TAG_CONT {
+                return None;
+            }
+            let cp = ((b0 & !TAG_TWO) as u32) << 6 | ((b1 & !TAG_CONT) as u32);
+            match cp {
+                0x80..=0x7FF => char::from_u32(cp).map(|cp| (cp, 2)),
+                _ => None,
+            }
+        }
+        0b1110_0000..=0b1110_1111 => {
+            if src.len() < 3 {
+                return None;
+            }
+            let (b1, b2) = (src[1], src[2]);
+            if 0b11_000000 & b1 != TAG_CONT {
+                return None;
+            }
+            if 0b11_000000 & b2 != TAG_CONT {
+                return None;
+            }
+            let cp = ((b0 & !TAG_THREE) as u32) << 12
+                | ((b1 & !TAG_CONT) as u32) << 6
+                | ((b2 & !TAG_CONT) as u32);
+            match cp {
+                // char::from_u32 will disallow surrogate codepoints.
+                0x800..=0xFFFF => char::from_u32(cp).map(|cp| (cp, 3)),
+                _ => None,
+            }
+        }
+        0b11110_000..=0b11110_111 => {
+            if src.len() < 4 {
+                return None;
+            }
+            let (b1, b2, b3) = (src[1], src[2], src[3]);
+            if 0b11_000000 & b1 != TAG_CONT {
+                return None;
+            }
+            if 0b11_000000 & b2 != TAG_CONT {
+                return None;
+            }
+            if 0b11_000000 & b3 != TAG_CONT {
+                return None;
+            }
+            let cp = ((b0 & !TAG_FOUR) as u32) << 18
+                | ((b1 & !TAG_CONT) as u32) << 12
+                | ((b2 & !TAG_CONT) as u32) << 6
+                | ((b3 & !TAG_CONT) as u32);
+            match cp {
+                0x10000..=0x10FFFF => char::from_u32(cp).map(|cp| (cp, 4)),
+                _ => None,
+            }
+        }
+        _ => None,
+    }
+}
+
+/// Like `decode_utf8`, but decodes the last UTF-8 sequence in `src` instead
+/// of the first.
+pub fn decode_last_utf8(src: &[u8]) -> Option<(char, usize)> {
+    if src.is_empty() {
+        return None;
+    }
+    let mut start = src.len() - 1;
+    if src[start] <= 0x7F {
+        return Some((src[start] as char, 1));
+    }
+    while start > src.len().saturating_sub(4) {
+        start -= 1;
+        if is_start_byte(src[start]) {
+            break;
+        }
+    }
+    match decode_utf8(&src[start..]) {
+        None => None,
+        Some((_, n)) if n < src.len() - start => None,
+        Some((cp, n)) => Some((cp, n)),
+    }
+}
+
+fn is_start_byte(b: u8) -> bool {
+    b & 0b11_000000 != 0b1_0000000
+}
+
+#[cfg(test)]
+mod tests {
+    use std::str;
+
+    use quickcheck::quickcheck;
+
+    use super::{
+        decode_last_utf8, decode_utf8, TAG_CONT, TAG_FOUR, TAG_THREE, TAG_TWO,
+    };
+
+    #[test]
+    fn prop_roundtrip() {
+        fn p(given_cp: char) -> bool {
+            let mut tmp = [0; 4];
+            let encoded_len = given_cp.encode_utf8(&mut tmp).len();
+            let (got_cp, got_len) = decode_utf8(&tmp[..encoded_len]).unwrap();
+            encoded_len == got_len && given_cp == got_cp
+        }
+        quickcheck(p as fn(char) -> bool)
+    }
+
+    #[test]
+    fn prop_roundtrip_last() {
+        fn p(given_cp: char) -> bool {
+            let mut tmp = [0; 4];
+            let encoded_len = given_cp.encode_utf8(&mut tmp).len();
+            let (got_cp, got_len) =
+                decode_last_utf8(&tmp[..encoded_len]).unwrap();
+            encoded_len == got_len && given_cp == got_cp
+        }
+        quickcheck(p as fn(char) -> bool)
+    }
+
+    #[test]
+    fn prop_encode_matches_std() {
+        fn p(cp: char) -> bool {
+            let mut got = [0; 4];
+            let n = cp.encode_utf8(&mut got).len();
+            let expected = cp.to_string();
+            &got[..n] == expected.as_bytes()
+        }
+        quickcheck(p as fn(char) -> bool)
+    }
+
+    #[test]
+    fn prop_decode_matches_std() {
+        fn p(given_cp: char) -> bool {
+            let mut tmp = [0; 4];
+            let n = given_cp.encode_utf8(&mut tmp).len();
+            let (got_cp, _) = decode_utf8(&tmp[..n]).unwrap();
+            let expected_cp =
+                str::from_utf8(&tmp[..n]).unwrap().chars().next().unwrap();
+            got_cp == expected_cp
+        }
+        quickcheck(p as fn(char) -> bool)
+    }
+
+    #[test]
+    fn prop_decode_last_matches_std() {
+        fn p(given_cp: char) -> bool {
+            let mut tmp = [0; 4];
+            let n = given_cp.encode_utf8(&mut tmp).len();
+            let (got_cp, _) = decode_last_utf8(&tmp[..n]).unwrap();
+            let expected_cp = str::from_utf8(&tmp[..n])
+                .unwrap()
+                .chars()
+                .rev()
+                .next()
+                .unwrap();
+            got_cp == expected_cp
+        }
+        quickcheck(p as fn(char) -> bool)
+    }
+
+    #[test]
+    fn reject_invalid() {
+        // Invalid start byte
+        assert_eq!(decode_utf8(&[0xFF]), None);
+        // Surrogate pair
+        assert_eq!(decode_utf8(&[0xED, 0xA0, 0x81]), None);
+        // Invalid continuation byte.
+        assert_eq!(decode_utf8(&[0xD4, 0xC2]), None);
+        // Bad lengths
+        assert_eq!(decode_utf8(&[0xC3]), None); // 2 bytes
+        assert_eq!(decode_utf8(&[0xEF, 0xBF]), None); // 3 bytes
+        assert_eq!(decode_utf8(&[0xF4, 0x8F, 0xBF]), None); // 4 bytes
+                                                            // Not a minimal UTF-8 sequence
+        assert_eq!(decode_utf8(&[TAG_TWO, TAG_CONT | b'a']), None);
+        assert_eq!(decode_utf8(&[TAG_THREE, TAG_CONT, TAG_CONT | b'a']), None);
+        assert_eq!(
+            decode_utf8(&[TAG_FOUR, TAG_CONT, TAG_CONT, TAG_CONT | b'a',]),
+            None
+        );
+    }
+
+    #[test]
+    fn reject_invalid_last() {
+        // Invalid start byte
+        assert_eq!(decode_last_utf8(&[0xFF]), None);
+        // Surrogate pair
+        assert_eq!(decode_last_utf8(&[0xED, 0xA0, 0x81]), None);
+        // Bad lengths
+        assert_eq!(decode_last_utf8(&[0xC3]), None); // 2 bytes
+        assert_eq!(decode_last_utf8(&[0xEF, 0xBF]), None); // 3 bytes
+        assert_eq!(decode_last_utf8(&[0xF4, 0x8F, 0xBF]), None); // 4 bytes
+                                                                 // Not a minimal UTF-8 sequence
+        assert_eq!(decode_last_utf8(&[TAG_TWO, TAG_CONT | b'a']), None);
+        assert_eq!(
+            decode_last_utf8(&[TAG_THREE, TAG_CONT, TAG_CONT | b'a',]),
+            None
+        );
+        assert_eq!(
+            decode_last_utf8(
+                &[TAG_FOUR, TAG_CONT, TAG_CONT, TAG_CONT | b'a',]
+            ),
+            None
+        );
+    }
+}
diff --git a/vendor/regex/test b/vendor/regex/test
new file mode 100755
index 000000000..b10564f12
--- /dev/null
+++ b/vendor/regex/test
@@ -0,0 +1,30 @@
+#!/bin/bash
+
+set -e
+
+# This is a convenience script for running a broad swath of tests across
+# features. We don't test the complete space, since the complete space is quite
+# large. Hopefully once we migrate the test suite to better infrastructure
+# (like regex-automata), we'll be able to test more of the space.
+echo "===== DEFAULT FEATURES ==="
+cargo test
+
+echo "===== DOC TESTS ==="
+cargo test --doc
+
+features=(
+    "std"
+    "std unicode"
+    "std unicode-perl"
+    "std perf"
+    "std perf-cache"
+    "std perf-dfa"
+    "std perf-inline"
+    "std perf-literal"
+)
+for f in "${features[@]}"; do
+    echo "===== FEATURE: $f (default) ==="
+    cargo test --test default --no-default-features --features "$f"
+    echo "===== FEATURE: $f (default-bytes) ==="
+    cargo test --test default-bytes --no-default-features --features "$f"
+done
diff --git a/vendor/regex/tests/api.rs b/vendor/regex/tests/api.rs
new file mode 100644
index 000000000..c7250a8a3
--- /dev/null
+++ b/vendor/regex/tests/api.rs
@@ -0,0 +1,234 @@
+#[test]
+fn empty_regex_empty_match() {
+    let re = regex!("");
+    assert_eq!(vec![(0, 0)], findall!(re, ""));
+}
+
+#[test]
+fn empty_regex_nonempty_match() {
+    let re = regex!("");
+    assert_eq!(vec![(0, 0), (1, 1), (2, 2), (3, 3)], findall!(re, "abc"));
+}
+
+#[test]
+fn one_zero_length_match() {
+    let re = regex!(r"[0-9]*");
+    assert_eq!(vec![(0, 0), (1, 2), (3, 4)], findall!(re, "a1b2"));
+}
+
+#[test]
+fn many_zero_length_match() {
+    let re = regex!(r"[0-9]*");
+    assert_eq!(
+        vec![(0, 0), (1, 2), (3, 3), (4, 4), (5, 6)],
+        findall!(re, "a1bbb2")
+    );
+}
+
+#[test]
+fn many_sequential_zero_length_match() {
+    let re = regex!(r"[0-9]?");
+    assert_eq!(
+        vec![(0, 0), (1, 2), (2, 3), (4, 5), (6, 6)],
+        findall!(re, "a12b3c")
+    );
+}
+
+#[test]
+fn quoted_bracket_set() {
+    let re = regex!(r"([\x{5b}\x{5d}])");
+    assert_eq!(vec![(0, 1), (1, 2)], findall!(re, "[]"));
+    let re = regex!(r"([\[\]])");
+    assert_eq!(vec![(0, 1), (1, 2)], findall!(re, "[]"));
+}
+
+#[test]
+fn first_range_starts_with_left_bracket() {
+    let re = regex!(r"([\[-z])");
+    assert_eq!(vec![(0, 1), (1, 2)], findall!(re, "[]"));
+}
+
+#[test]
+fn range_ends_with_escape() {
+    let re = regex!(r"([\[-\x{5d}])");
+    assert_eq!(vec![(0, 1), (1, 2)], findall!(re, "[]"));
+}
+
+#[test]
+fn empty_match_find_iter() {
+    let re = regex!(r".*?");
+    assert_eq!(vec![(0, 0), (1, 1), (2, 2), (3, 3)], findall!(re, "abc"));
+}
+
+#[test]
+fn empty_match_captures_iter() {
+    let re = regex!(r".*?");
+    let ms: Vec<_> = re
+        .captures_iter(text!("abc"))
+        .map(|c| c.get(0).unwrap())
+        .map(|m| (m.start(), m.end()))
+        .collect();
+    assert_eq!(ms, vec![(0, 0), (1, 1), (2, 2), (3, 3)]);
+}
+
+#[test]
+fn capture_names() {
+    let re = regex!(r"(.)(?P<a>.)");
+    assert_eq!(3, re.captures_len());
+    assert_eq!((3, Some(3)), re.capture_names().size_hint());
+    assert_eq!(
+        vec![None, None, Some("a")],
+        re.capture_names().collect::<Vec<_>>()
+    );
+}
+
+#[test]
+fn regex_string() {
+    assert_eq!(r"[a-zA-Z0-9]+", regex!(r"[a-zA-Z0-9]+").as_str());
+    assert_eq!(r"[a-zA-Z0-9]+", &format!("{}", regex!(r"[a-zA-Z0-9]+")));
+    assert_eq!(r"[a-zA-Z0-9]+", &format!("{:?}", regex!(r"[a-zA-Z0-9]+")));
+}
+
+#[test]
+fn capture_index() {
+    let re = regex!(r"^(?P<name>.+)$");
+    let cap = re.captures(t!("abc")).unwrap();
+    assert_eq!(&cap[0], t!("abc"));
+    assert_eq!(&cap[1], t!("abc"));
+    assert_eq!(&cap["name"], t!("abc"));
+}
+
+#[test]
+#[should_panic]
+#[cfg_attr(all(target_env = "msvc", target_pointer_width = "32"), ignore)]
+fn capture_index_panic_usize() {
+    let re = regex!(r"^(?P<name>.+)$");
+    let cap = re.captures(t!("abc")).unwrap();
+    let _ = cap[2];
+}
+
+#[test]
+#[should_panic]
+#[cfg_attr(all(target_env = "msvc", target_pointer_width = "32"), ignore)]
+fn capture_index_panic_name() {
+    let re = regex!(r"^(?P<name>.+)$");
+    let cap = re.captures(t!("abc")).unwrap();
+    let _ = cap["bad name"];
+}
+
+#[test]
+fn capture_index_lifetime() {
+    // This is a test of whether the types on `caps["..."]` are general
+    // enough. If not, this will fail to typecheck.
+    fn inner(s: &str) -> usize {
+        let re = regex!(r"(?P<number>[0-9]+)");
+        let caps = re.captures(t!(s)).unwrap();
+        caps["number"].len()
+    }
+    assert_eq!(3, inner("123"));
+}
+
+#[test]
+fn capture_misc() {
+    let re = regex!(r"(.)(?P<a>a)?(.)(?P<b>.)");
+    let cap = re.captures(t!("abc")).unwrap();
+
+    assert_eq!(5, cap.len());
+
+    assert_eq!((0, 3), {
+        let m = cap.get(0).unwrap();
+        (m.start(), m.end())
+    });
+    assert_eq!(None, cap.get(2));
+    assert_eq!((2, 3), {
+        let m = cap.get(4).unwrap();
+        (m.start(), m.end())
+    });
+
+    assert_eq!(t!("abc"), match_text!(cap.get(0).unwrap()));
+    assert_eq!(None, cap.get(2));
+    assert_eq!(t!("c"), match_text!(cap.get(4).unwrap()));
+
+    assert_eq!(None, cap.name("a"));
+    assert_eq!(t!("c"), match_text!(cap.name("b").unwrap()));
+}
+
+#[test]
+fn sub_capture_matches() {
+    let re = regex!(r"([a-z])(([a-z])|([0-9]))");
+    let cap = re.captures(t!("a5")).unwrap();
+    let subs: Vec<_> = cap.iter().collect();
+
+    assert_eq!(5, subs.len());
+    assert!(subs[0].is_some());
+    assert!(subs[1].is_some());
+    assert!(subs[2].is_some());
+    assert!(subs[3].is_none());
+    assert!(subs[4].is_some());
+
+    assert_eq!(t!("a5"), match_text!(subs[0].unwrap()));
+    assert_eq!(t!("a"), match_text!(subs[1].unwrap()));
+    assert_eq!(t!("5"), match_text!(subs[2].unwrap()));
+    assert_eq!(t!("5"), match_text!(subs[4].unwrap()));
+}
+
+expand!(expand1, r"(?-u)(?P<foo>\w+)", "abc", "$foo", "abc");
+expand!(expand2, r"(?-u)(?P<foo>\w+)", "abc", "$0", "abc");
+expand!(expand3, r"(?-u)(?P<foo>\w+)", "abc", "$1", "abc");
+expand!(expand4, r"(?-u)(?P<foo>\w+)", "abc", "$$1", "$1");
+expand!(expand5, r"(?-u)(?P<foo>\w+)", "abc", "$$foo", "$foo");
+expand!(expand6, r"(?-u)(?P<a>\w+)\s+(?P<b>\d+)", "abc 123", "$b$a", "123abc");
+expand!(expand7, r"(?-u)(?P<a>\w+)\s+(?P<b>\d+)", "abc 123", "z$bz$az", "z");
+expand!(
+    expand8,
+    r"(?-u)(?P<a>\w+)\s+(?P<b>\d+)",
+    "abc 123",
+    ".$b.$a.",
+    ".123.abc."
+);
+expand!(
+    expand9,
+    r"(?-u)(?P<a>\w+)\s+(?P<b>\d+)",
+    "abc 123",
+    " $b $a ",
+    " 123 abc "
+);
+expand!(expand10, r"(?-u)(?P<a>\w+)\s+(?P<b>\d+)", "abc 123", "$bz$az", "");
+
+expand!(expand_name1, r"%(?P<Z>[a-z]+)", "%abc", "$Z%", "abc%");
+expand!(expand_name2, r"\[(?P<Z>[a-z]+)", "[abc", "$Z[", "abc[");
+expand!(expand_name3, r"\{(?P<Z>[a-z]+)", "{abc", "$Z{", "abc{");
+expand!(expand_name4, r"\}(?P<Z>[a-z]+)", "}abc", "$Z}", "abc}");
+expand!(expand_name5, r"%([a-z]+)", "%abc", "$1a%", "%");
+expand!(expand_name6, r"%([a-z]+)", "%abc", "${1}a%", "abca%");
+expand!(expand_name7, r"\[(?P<Z[>[a-z]+)", "[abc", "${Z[}[", "abc[");
+expand!(expand_name8, r"\[(?P<Z[>[a-z]+)", "[abc", "${foo}[", "[");
+expand!(expand_name9, r"\[(?P<Z[>[a-z]+)", "[abc", "${1a}[", "[");
+expand!(expand_name10, r"\[(?P<Z[>[a-z]+)", "[abc", "${#}[", "[");
+expand!(expand_name11, r"\[(?P<Z[>[a-z]+)", "[abc", "${$$}[", "[");
+
+split!(
+    split1,
+    r"(?-u)\s+",
+    "a b\nc\td\n\t e",
+    &[t!("a"), t!("b"), t!("c"), t!("d"), t!("e")]
+);
+split!(
+    split2,
+    r"(?-u)\b",
+    "a b c",
+    &[t!(""), t!("a"), t!(" "), t!("b"), t!(" "), t!("c"), t!("")]
+);
+split!(split3, r"a$", "a", &[t!(""), t!("")]);
+split!(split_none, r"-", r"a", &[t!("a")]);
+split!(split_trailing_blank, r"-", r"a-", &[t!("a"), t!("")]);
+split!(split_trailing_blanks, r"-", r"a--", &[t!("a"), t!(""), t!("")]);
+split!(split_empty, r"-", r"", &[t!("")]);
+
+splitn!(splitn_below_limit, r"-", r"a", 2, &[t!("a")]);
+splitn!(splitn_at_limit, r"-", r"a-b", 2, &[t!("a"), t!("b")]);
+splitn!(splitn_above_limit, r"-", r"a-b-c", 2, &[t!("a"), t!("b-c")]);
+splitn!(splitn_zero_limit, r"-", r"a-b", 0, empty_vec!());
+splitn!(splitn_trailing_blank, r"-", r"a-", 2, &[t!("a"), t!("")]);
+splitn!(splitn_trailing_separator, r"-", r"a--", 2, &[t!("a"), t!("-")]);
+splitn!(splitn_empty, r"-", r"", 1, &[t!("")]);
diff --git a/vendor/regex/tests/api_str.rs b/vendor/regex/tests/api_str.rs
new file mode 100644
index 000000000..480116da7
--- /dev/null
+++ b/vendor/regex/tests/api_str.rs
@@ -0,0 +1,34 @@
+// These tests don't really make sense with the bytes API, so we only test them
+// on the Unicode API.
+
+#[test]
+fn empty_match_unicode_find_iter() {
+    // Tests that we still yield byte ranges at valid UTF-8 sequence boundaries
+    // even when we're susceptible to empty width matches.
+    let re = regex!(r".*?");
+    assert_eq!(
+        vec![(0, 0), (3, 3), (4, 4), (7, 7), (8, 8)],
+        findall!(re, "Ⅰ1Ⅱ2")
+    );
+}
+
+#[test]
+fn empty_match_unicode_captures_iter() {
+    // Same as empty_match_unicode_find_iter, but tests capture iteration.
+    let re = regex!(r".*?");
+    let ms: Vec<_> = re
+        .captures_iter(text!("Ⅰ1Ⅱ2"))
+        .map(|c| c.get(0).unwrap())
+        .map(|m| (m.start(), m.end()))
+        .collect();
+    assert_eq!(vec![(0, 0), (3, 3), (4, 4), (7, 7), (8, 8)], ms);
+}
+
+#[test]
+fn match_as_str() {
+    let re = regex!(r"fo+");
+    let caps = re.captures("barfoobar").unwrap();
+    assert_eq!(caps.get(0).map(|m| m.as_str()), Some("foo"));
+    assert_eq!(caps.get(0).map(From::from), Some("foo"));
+    assert_eq!(caps.get(0).map(Into::into), Some("foo"));
+}
diff --git a/vendor/regex/tests/bytes.rs b/vendor/regex/tests/bytes.rs
new file mode 100644
index 000000000..d05f138ed
--- /dev/null
+++ b/vendor/regex/tests/bytes.rs
@@ -0,0 +1,107 @@
+// These are tests specifically crafted for regexes that can match arbitrary
+// bytes.
+
+// A silly wrapper to make it possible to write and match raw bytes.
+struct R<'a>(&'a [u8]);
+impl<'a> R<'a> {
+    fn as_bytes(&self) -> &'a [u8] {
+        self.0
+    }
+}
+
+mat!(word_boundary, r"(?-u) \b", " δ", None);
+#[cfg(feature = "unicode-perl")]
+mat!(word_boundary_unicode, r" \b", " δ", Some((0, 1)));
+mat!(word_not_boundary, r"(?-u) \B", " δ", Some((0, 1)));
+#[cfg(feature = "unicode-perl")]
+mat!(word_not_boundary_unicode, r" \B", " δ", None);
+
+mat!(perl_w_ascii, r"(?-u)\w+", "aδ", Some((0, 1)));
+#[cfg(feature = "unicode-perl")]
+mat!(perl_w_unicode, r"\w+", "aδ", Some((0, 3)));
+mat!(perl_d_ascii, r"(?-u)\d+", "1२३9", Some((0, 1)));
+#[cfg(feature = "unicode-perl")]
+mat!(perl_d_unicode, r"\d+", "1२३9", Some((0, 8)));
+mat!(perl_s_ascii, r"(?-u)\s+", " \u{1680}", Some((0, 1)));
+#[cfg(feature = "unicode-perl")]
+mat!(perl_s_unicode, r"\s+", " \u{1680}", Some((0, 4)));
+
+// The first `(.+)` matches two Unicode codepoints, but can't match the 5th
+// byte, which isn't valid UTF-8. The second (byte based) `(.+)` takes over and
+// matches.
+mat!(
+    mixed1,
+    r"(.+)(?-u)(.+)",
+    R(b"\xCE\x93\xCE\x94\xFF"),
+    Some((0, 5)),
+    Some((0, 4)),
+    Some((4, 5))
+);
+
+mat!(case_ascii_one, r"(?i-u)a", "A", Some((0, 1)));
+mat!(case_ascii_class, r"(?i-u)[a-z]+", "AaAaA", Some((0, 5)));
+#[cfg(feature = "unicode-case")]
+mat!(case_unicode, r"(?i)[a-z]+", "aA\u{212A}aA", Some((0, 7)));
+mat!(case_not_unicode, r"(?i-u)[a-z]+", "aA\u{212A}aA", Some((0, 2)));
+
+mat!(negate_unicode, r"[^a]", "δ", Some((0, 2)));
+mat!(negate_not_unicode, r"(?-u)[^a]", "δ", Some((0, 1)));
+
+// This doesn't match in a normal Unicode regex because the implicit preceding
+// `.*?` is Unicode aware.
+mat!(dotstar_prefix_not_unicode1, r"(?-u)a", R(b"\xFFa"), Some((1, 2)));
+mat!(dotstar_prefix_not_unicode2, r"a", R(b"\xFFa"), Some((1, 2)));
+
+// Have fun with null bytes.
+mat!(
+    null_bytes,
+    r"(?-u)(?P<cstr>[^\x00]+)\x00",
+    R(b"foo\x00"),
+    Some((0, 4)),
+    Some((0, 3))
+);
+
+// Test that lookahead operators work properly in the face of invalid UTF-8.
+// See: https://github.com/rust-lang/regex/issues/277
+matiter!(
+    invalidutf8_anchor1,
+    r"(?-u)\xcc?^",
+    R(b"\x8d#;\x1a\xa4s3\x05foobarX\\\x0f0t\xe4\x9b\xa4"),
+    (0, 0)
+);
+matiter!(
+    invalidutf8_anchor2,
+    r"(?-u)^\xf7|4\xff\d\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a##########[] d\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a\x8a##########\[] #####\x80\S7|$",
+    R(b"\x8d#;\x1a\xa4s3\x05foobarX\\\x0f0t\xe4\x9b\xa4"),
+    (22, 22)
+);
+matiter!(
+    invalidutf8_anchor3,
+    r"(?-u)^|ddp\xff\xffdddddlQd@\x80",
+    R(b"\x8d#;\x1a\xa4s3\x05foobarX\\\x0f0t\xe4\x9b\xa4"),
+    (0, 0)
+);
+
+// See https://github.com/rust-lang/regex/issues/303
+#[test]
+fn negated_full_byte_range() {
+    assert!(::regex::bytes::Regex::new(r#"(?-u)[^\x00-\xff]"#).is_err());
+}
+
+matiter!(word_boundary_ascii1, r"(?-u:\B)x(?-u:\B)", "áxβ");
+matiter!(
+    word_boundary_ascii2,
+    r"(?-u:\B)",
+    "0\u{7EF5E}",
+    (2, 2),
+    (3, 3),
+    (4, 4),
+    (5, 5)
+);
+
+// See: https://github.com/rust-lang/regex/issues/264
+mat!(ascii_boundary_no_capture, r"(?-u)\B", "\u{28f3e}", Some((0, 0)));
+mat!(ascii_boundary_capture, r"(?-u)(\B)", "\u{28f3e}", Some((0, 0)));
+
+// See: https://github.com/rust-lang/regex/issues/271
+mat!(end_not_wb, r"$(?-u:\B)", "\u{5c124}\u{b576c}", Some((8, 8)));
diff --git a/vendor/regex/tests/consistent.rs b/vendor/regex/tests/consistent.rs
new file mode 100644
index 000000000..722f2a51a
--- /dev/null
+++ b/vendor/regex/tests/consistent.rs
@@ -0,0 +1,238 @@
+use regex::internal::ExecBuilder;
+
+/// Given a regex, check if all of the backends produce the same
+/// results on a number of different inputs.
+///
+/// For now this just throws quickcheck at the problem, which
+/// is not very good because it only really tests half of the
+/// problem space. It is pretty unlikely that a random string
+/// will match any given regex, so this will probably just
+/// be checking that the different backends fail in the same
+/// way. This is still worthwhile to test, but is definitely not
+/// the whole story.
+///
+/// TODO(ethan): In order to cover the other half of the problem
+/// space, we should generate a random matching string by inspecting
+/// the AST of the input regex. The right way to do this probably
+/// involves adding a custom Arbitrary instance around a couple
+/// of newtypes. That way we can respect the quickcheck size hinting
+/// and shrinking and whatnot.
+pub fn backends_are_consistent(re: &str) -> Result<u64, String> {
+    let standard_backends = vec![
+        (
+            "bounded_backtracking_re",
+            ExecBuilder::new(re)
+                .bounded_backtracking()
+                .build()
+                .map(|exec| exec.into_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+        (
+            "pikevm_re",
+            ExecBuilder::new(re)
+                .nfa()
+                .build()
+                .map(|exec| exec.into_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+        (
+            "default_re",
+            ExecBuilder::new(re)
+                .build()
+                .map(|exec| exec.into_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+    ];
+
+    let utf8bytes_backends = vec![
+        (
+            "bounded_backtracking_utf8bytes_re",
+            ExecBuilder::new(re)
+                .bounded_backtracking()
+                .bytes(true)
+                .build()
+                .map(|exec| exec.into_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+        (
+            "pikevm_utf8bytes_re",
+            ExecBuilder::new(re)
+                .nfa()
+                .bytes(true)
+                .build()
+                .map(|exec| exec.into_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+        (
+            "default_utf8bytes_re",
+            ExecBuilder::new(re)
+                .bytes(true)
+                .build()
+                .map(|exec| exec.into_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+    ];
+
+    let bytes_backends = vec![
+        (
+            "bounded_backtracking_bytes_re",
+            ExecBuilder::new(re)
+                .bounded_backtracking()
+                .only_utf8(false)
+                .build()
+                .map(|exec| exec.into_byte_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+        (
+            "pikevm_bytes_re",
+            ExecBuilder::new(re)
+                .nfa()
+                .only_utf8(false)
+                .build()
+                .map(|exec| exec.into_byte_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+        (
+            "default_bytes_re",
+            ExecBuilder::new(re)
+                .only_utf8(false)
+                .build()
+                .map(|exec| exec.into_byte_regex())
+                .map_err(|err| format!("{}", err))?,
+        ),
+    ];
+
+    Ok(string_checker::check_backends(&standard_backends)?
+        + string_checker::check_backends(&utf8bytes_backends)?
+        + bytes_checker::check_backends(&bytes_backends)?)
+}
+
+//
+// A consistency checker parameterized by the input type (&str or &[u8]).
+//
+
+macro_rules! checker {
+    ($module_name:ident, $regex_type:path, $mk_input:expr) => {
+        mod $module_name {
+            use quickcheck;
+            use quickcheck::{Arbitrary, TestResult};
+
+            pub fn check_backends(
+                backends: &[(&str, $regex_type)],
+            ) -> Result<u64, String> {
+                let mut total_passed = 0;
+                for regex in backends[1..].iter() {
+                    total_passed += quickcheck_regex_eq(&backends[0], regex)?;
+                }
+
+                Ok(total_passed)
+            }
+
+            fn quickcheck_regex_eq(
+                &(name1, ref re1): &(&str, $regex_type),
+                &(name2, ref re2): &(&str, $regex_type),
+            ) -> Result<u64, String> {
+                quickcheck::QuickCheck::new()
+                    .quicktest(RegexEqualityTest::new(
+                        re1.clone(),
+                        re2.clone(),
+                    ))
+                    .map_err(|err| {
+                        format!(
+                            "{}(/{}/) and {}(/{}/) are inconsistent.\
+                             QuickCheck Err: {:?}",
+                            name1, re1, name2, re2, err
+                        )
+                    })
+            }
+
+            struct RegexEqualityTest {
+                re1: $regex_type,
+                re2: $regex_type,
+            }
+            impl RegexEqualityTest {
+                fn new(re1: $regex_type, re2: $regex_type) -> Self {
+                    RegexEqualityTest { re1: re1, re2: re2 }
+                }
+            }
+
+            impl quickcheck::Testable for RegexEqualityTest {
+                fn result(&self, gen: &mut quickcheck::Gen) -> TestResult {
+                    let input = $mk_input(gen);
+                    let input = &input;
+
+                    if self.re1.find(&input) != self.re2.find(input) {
+                        return TestResult::error(format!(
+                            "find mismatch input={:?}",
+                            input
+                        ));
+                    }
+
+                    let cap1 = self.re1.captures(input);
+                    let cap2 = self.re2.captures(input);
+                    match (cap1, cap2) {
+                        (None, None) => {}
+                        (Some(cap1), Some(cap2)) => {
+                            for (c1, c2) in cap1.iter().zip(cap2.iter()) {
+                                if c1 != c2 {
+                                    return TestResult::error(format!(
+                                        "captures mismatch input={:?}",
+                                        input
+                                    ));
+                                }
+                            }
+                        }
+                        _ => {
+                            return TestResult::error(format!(
+                                "captures mismatch input={:?}",
+                                input
+                            ))
+                        }
+                    }
+
+                    let fi1 = self.re1.find_iter(input);
+                    let fi2 = self.re2.find_iter(input);
+                    for (m1, m2) in fi1.zip(fi2) {
+                        if m1 != m2 {
+                            return TestResult::error(format!(
+                                "find_iter mismatch input={:?}",
+                                input
+                            ));
+                        }
+                    }
+
+                    let ci1 = self.re1.captures_iter(input);
+                    let ci2 = self.re2.captures_iter(input);
+                    for (cap1, cap2) in ci1.zip(ci2) {
+                        for (c1, c2) in cap1.iter().zip(cap2.iter()) {
+                            if c1 != c2 {
+                                return TestResult::error(format!(
+                                    "captures_iter mismatch input={:?}",
+                                    input
+                                ));
+                            }
+                        }
+                    }
+
+                    let s1 = self.re1.split(input);
+                    let s2 = self.re2.split(input);
+                    for (chunk1, chunk2) in s1.zip(s2) {
+                        if chunk1 != chunk2 {
+                            return TestResult::error(format!(
+                                "split mismatch input={:?}",
+                                input
+                            ));
+                        }
+                    }
+
+                    TestResult::from_bool(true)
+                }
+            }
+        } // mod
+    }; // rule case
+} // macro_rules!
+
+checker!(string_checker, ::regex::Regex, |gen| String::arbitrary(gen));
+checker!(bytes_checker, ::regex::bytes::Regex, |gen| Vec::<u8>::arbitrary(
+    gen
+));
diff --git a/vendor/regex/tests/crates_regex.rs b/vendor/regex/tests/crates_regex.rs
new file mode 100644
index 000000000..200ec27b2
--- /dev/null
+++ b/vendor/regex/tests/crates_regex.rs
@@ -0,0 +1,3287 @@
+// DO NOT EDIT. Automatically generated by 'scripts/scrape_crates_io.py'
+// on 2018-06-20 09:56:32.820354.
+
+// autoshutdown-0.1.0: r"\s*(\d+)(\w)\s*"
+consistent!(autoshutdown_0, r"\s*(\d+)(\w)\s*");
+
+// epub-1.1.1: r"/"
+consistent!(epub_0, r"/");
+
+// rpi-info-0.2.0: "^Revision\t+: ([0-9a-fA-F]+)"
+consistent!(rpi_info_0, "^Revision\t+: ([0-9a-fA-F]+)");
+
+// rpi-info-0.2.0: "Serial\t+: ([0-9a-fA-F]+)"
+consistent!(rpi_info_1, "Serial\t+: ([0-9a-fA-F]+)");
+
+// pnet_macros-0.21.0: r"^u([0-9]+)(be|le|he)?$"
+consistent!(pnet_macros_0, r"^u([0-9]+)(be|le|he)?$");
+
+// iban_validate-1.0.3: r"^[A-Z]{2}\d{2}[A-Z\d]{1,30}$"
+consistent!(iban_validate_0, r"^[A-Z]{2}\d{2}[A-Z\d]{1,30}$");
+
+// markifier-0.1.0: r".*\[(?P<percent>.+)%.*\].*"
+consistent!(markifier_0, r".*\[(?P<percent>.+)%.*\].*");
+
+// mallumo-0.3.0: r"(#include) (\S*)(.*)"
+consistent!(mallumo_0, r"(#include) (\S*)(.*)");
+
+// mallumo-0.3.0: r"(ERROR: \d+:)(\d+)(: )(.+)"
+consistent!(mallumo_1, r"(ERROR: \d+:)(\d+)(: )(.+)");
+
+// mallumo-0.3.0: r"(\d+\()(\d+)(?:\) : )(.+)"
+consistent!(mallumo_2, r"(\d+\()(\d+)(?:\) : )(.+)");
+
+// magnet_more-0.0.1: r"(.+?)(\[.*?\])?"
+consistent!(magnet_more_0, r"(.+?)(\[.*?\])?");
+
+// magnet_app-0.0.1: r":(?P<k>[a-zA-Z_]+)"
+consistent!(magnet_app_0, r":(?P<k>[a-zA-Z_]+)");
+
+// yubibomb-0.2.0: r"^\d{6}(?:\s*,\s*\d{6})*$"
+consistent!(yubibomb_0, r"^\d{6}(?:\s*,\s*\d{6})*$");
+
+// multirust-rs-0.0.4: r"[\\/]([^\\/?]+)(\?.*)?$"
+consistent!(multirust_rs_0, r"[\\/]([^\\/?]+)(\?.*)?$");
+
+// hueclient-0.3.2: "\"[a-z]*\":null"
+consistent!(hueclient_0, "\"[a-z]*\":null");
+
+// hueclient-0.3.2: ",+"
+consistent!(hueclient_1, ",+");
+
+// hueclient-0.3.2: ",\\}"
+consistent!(hueclient_2, ",\\}");
+
+// hueclient-0.3.2: "\\{,"
+consistent!(hueclient_3, "\\{,");
+
+// aerial-0.1.0: r"[a-zA-Z_\$][a-zA-Z_0-9]*"
+consistent!(aerial_0, r"[a-zA-Z_\$][a-zA-Z_0-9]*");
+
+// aerial-0.1.0: r"thi[sng]+"
+consistent!(aerial_1, r"thi[sng]+");
+
+// rvue-0.1.0: r"(.+)\s+\((.+?)\)"
+consistent!(rvue_0, r"(.+)\s+\((.+?)\)");
+
+// rvue-0.1.0: r"([\d\.]+)\s*out\s*of\s*([\d\.]+)"
+consistent!(rvue_1, r"([\d\.]+)\s*out\s*of\s*([\d\.]+)");
+
+// rvue-0.1.0: r"^([\d\.]+)\s*(?:\(\))?$"
+consistent!(rvue_2, r"^([\d\.]+)\s*(?:\(\))?$");
+
+// rvue-0.1.0: r"([\d\.]+)\s*Points\s*Possible"
+consistent!(rvue_3, r"([\d\.]+)\s*Points\s*Possible");
+
+// rvue-0.1.0: r"([\d\.]+)\s*/\s*([\d\.]+)"
+consistent!(rvue_4, r"([\d\.]+)\s*/\s*([\d\.]+)");
+
+// rvsim-0.1.0: r"_?([_a-z0-9]+)\s*:\s*([_a-z0-9]+)\s*[,)]"
+consistent!(rvsim_0, r"_?([_a-z0-9]+)\s*:\s*([_a-z0-9]+)\s*[,)]");
+
+// nereon-0.1.4: "(.*[^\\\\])\\{\\}(.*)"
+consistent!(nereon_0, "(.*[^\\\\])\\{\\}(.*)");
+
+// next_episode-0.3.0: r"((?i)^(.+).s(\d+)e(\d+).*)$"
+consistent!(next_episode_0, r"((?i)^(.+).s(\d+)e(\d+).*)$");
+
+// migrant_lib-0.19.2: r"[^a-z0-9-]+"
+consistent!(migrant_lib_0, r"[^a-z0-9-]+");
+
+// migrant_lib-0.19.2: r"[0-9]{14}_[a-z0-9-]+"
+consistent!(migrant_lib_1, r"[0-9]{14}_[a-z0-9-]+");
+
+// migrant_lib-0.19.2: r"([0-9]{14}_)?[a-z0-9-]+"
+consistent!(migrant_lib_2, r"([0-9]{14}_)?[a-z0-9-]+");
+
+// minipre-0.2.0: "$_"
+consistent!(minipre_0, "$_");
+
+// minifier-0.0.13: r">\s+<"
+consistent!(minifier_0, r">\s+<");
+
+// minifier-0.0.13: r"\s{2,}|[\r\n]"
+consistent!(minifier_1, r"\s{2,}|[\r\n]");
+
+// minifier-0.0.13: r"<(style|script)[\w|\s].*?>"
+consistent!(minifier_2, r"<(style|script)[\w|\s].*?>");
+
+// minifier-0.0.13: "<!--(.|\n)*?-->"
+consistent!(minifier_3, "<!--(.|\n)*?-->");
+
+// minifier-0.0.13: r"<\w.*?>"
+consistent!(minifier_4, r"<\w.*?>");
+
+// minifier-0.0.13: r" \s+|\s +"
+consistent!(minifier_5, r" \s+|\s +");
+
+// minifier-0.0.13: r"\w\s+\w"
+consistent!(minifier_6, r"\w\s+\w");
+
+// minifier-0.0.13: r"'\s+>"
+consistent!(minifier_7, r"'\s+>");
+
+// minifier-0.0.13: r"\d\s+>"
+consistent!(minifier_8, r"\d\s+>");
+
+// ggp-rs-0.1.2: r"(?P<relation>\([^)]+\))|(?P<prop>[a-zA-Z0-9_]+)"
+consistent!(ggp_rs_0, r"(?P<relation>\([^)]+\))|(?P<prop>[a-zA-Z0-9_]+)");
+
+// ggp-rs-0.1.2: r"\((.*)\)."
+consistent!(ggp_rs_1, r"\((.*)\).");
+
+// poe-superfilter-0.2.0: "[A-Za-z0-9_]"
+consistent!(poe_superfilter_0, "[A-Za-z0-9_]");
+
+// poke-a-mango-0.5.0: r"(\d+)x(\d+)"
+consistent!(poke_a_mango_0, r"(\d+)x(\d+)");
+
+// pop3-rs-0.1.0: r"(?P<nmsg>\d+) (?P<size>\d+)"
+consistent!(pop3_rs_0, r"(?P<nmsg>\d+) (?P<size>\d+)");
+
+// pop3-rs-0.1.0: r"(?P<msgid>\d+) (?P<uidl>[\x21-\x7E]{1,70})"
+consistent!(pop3_rs_1, r"(?P<msgid>\d+) (?P<uidl>[\x21-\x7E]{1,70})");
+
+// pop3-rs-0.1.0: r"(<.*>)\r\n$"
+consistent!(pop3_rs_2, r"(<.*>)\r\n$");
+
+// pop3-rs-0.1.0: r"^(?P<status>\+OK|-ERR) (?P<statustext>.*)"
+consistent!(pop3_rs_3, r"^(?P<status>\+OK|-ERR) (?P<statustext>.*)");
+
+// pop3-1.0.6: r"^\.\r\n$"
+consistent!(pop3_0, r"^\.\r\n$");
+
+// pop3-1.0.6: r"\+OK(.*)"
+consistent!(pop3_1, r"\+OK(.*)");
+
+// pop3-1.0.6: r"-ERR(.*)"
+consistent!(pop3_2, r"-ERR(.*)");
+
+// pop3-1.0.6: r"\+OK (\d+) (\d+)\r\n"
+consistent!(pop3_3, r"\+OK (\d+) (\d+)\r\n");
+
+// pop3-1.0.6: r"(\d+) ([\x21-\x7e]+)\r\n"
+consistent!(pop3_4, r"(\d+) ([\x21-\x7e]+)\r\n");
+
+// pop3-1.0.6: r"\+OK (\d+) ([\x21-\x7e]+)\r\n"
+consistent!(pop3_5, r"\+OK (\d+) ([\x21-\x7e]+)\r\n");
+
+// pop3-1.0.6: r"(\d+) (\d+)\r\n"
+consistent!(pop3_6, r"(\d+) (\d+)\r\n");
+
+// pop3-1.0.6: r"\+OK (\d+) (\d+)\r\n"
+consistent!(pop3_7, r"\+OK (\d+) (\d+)\r\n");
+
+// polk-1.1.3: "github:(\\w+)/?(\\w+)?"
+consistent!(polk_0, "github:(\\w+)/?(\\w+)?");
+
+// geochunk-0.1.5: "^[0-9]{5}"
+consistent!(geochunk_0, "^[0-9]{5}");
+
+// generic-dns-update-1.1.4: r"((?:(?:0|1[\d]{0,2}|2(?:[0-4]\d?|5[0-5]?|[6-9])?|[3-9]\d?)\.){3}(?:0|1[\d]{0,2}|2(?:[0-4]\d?|5[0-5]?|[6-9])?|[3-9]\d?))"
+consistent!(generic_dns_update_0, r"((?:(?:0|1[\d]{0,2}|2(?:[0-4]\d?|5[0-5]?|[6-9])?|[3-9]\d?)\.){3}(?:0|1[\d]{0,2}|2(?:[0-4]\d?|5[0-5]?|[6-9])?|[3-9]\d?))");
+
+// generic-dns-update-1.1.4: r"((([0-9A-Fa-f]{1,4}:){7}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){6}:[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){5}:([0-9A-Fa-f]{1,4}:)?[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){4}:([0-9A-Fa-f]{1,4}:){0,2}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){3}:([0-9A-Fa-f]{1,4}:){0,3}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){2}:([0-9A-Fa-f]{1,4}:){0,4}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){6}((\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d)\.){3}(\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d))|(([0-9A-Fa-f]{1,4}:){0,5}:((\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d)\.){3}(\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d))|(::([0-9A-Fa-f]{1,4}:){0,5}((\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d)\.){3}(\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d))|([0-9A-Fa-f]{1,4}::([0-9A-Fa-f]{1,4}:){0,5}[0-9A-Fa-f]{1,4})|(::([0-9A-Fa-f]{1,4}:){0,6}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){1,7}:))"
+consistent!(generic_dns_update_1, r"((([0-9A-Fa-f]{1,4}:){7}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){6}:[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){5}:([0-9A-Fa-f]{1,4}:)?[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){4}:([0-9A-Fa-f]{1,4}:){0,2}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){3}:([0-9A-Fa-f]{1,4}:){0,3}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){2}:([0-9A-Fa-f]{1,4}:){0,4}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){6}((\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d)\.){3}(\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d))|(([0-9A-Fa-f]{1,4}:){0,5}:((\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d)\.){3}(\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d))|(::([0-9A-Fa-f]{1,4}:){0,5}((\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d)\.){3}(\d((25[0-5])|(1\d{2})|(2[0-4]\d)|(\d{1,2}))\d))|([0-9A-Fa-f]{1,4}::([0-9A-Fa-f]{1,4}:){0,5}[0-9A-Fa-f]{1,4})|(::([0-9A-Fa-f]{1,4}:){0,6}[0-9A-Fa-f]{1,4})|(([0-9A-Fa-f]{1,4}:){1,7}:))");
+
+// generic-dns-update-1.1.4: r"<value><string>([0-9.]*)</string></value>"
+consistent!(
+    generic_dns_update_2,
+    r"<value><string>([0-9.]*)</string></value>"
+);
+
+// generic-dns-update-1.1.4: r"<int>([0-9]+)</int>"
+consistent!(generic_dns_update_3, r"<int>([0-9]+)</int>");
+
+// generic-dns-update-1.1.4: r"<int>([0-9]+)</int>"
+consistent!(generic_dns_update_4, r"<int>([0-9]+)</int>");
+
+// generic-dns-update-1.1.4: r"<boolean>([0-1]*)</boolean>"
+consistent!(generic_dns_update_5, r"<boolean>([0-1]*)</boolean>");
+
+// generate-nix-pkg-0.3.0: r"(\d*)\.(\d*)\.(\d*)(-(\S*))?"
+consistent!(generate_nix_pkg_0, r"(\d*)\.(\d*)\.(\d*)(-(\S*))?");
+
+// generate-nix-pkg-0.3.0: r"^(\S*) (\d*)\.(\d*)\.(\d*)(-(\S*))?"
+consistent!(generate_nix_pkg_1, r"^(\S*) (\d*)\.(\d*)\.(\d*)(-(\S*))?");
+
+// genact-0.6.0: r"arch/([a-z0-9_])+/"
+consistent!(genact_0, r"arch/([a-z0-9_])+/");
+
+// genact-0.6.0: r"arch/([a-z0-9_])+/"
+consistent!(genact_1, r"arch/([a-z0-9_])+/");
+
+// cron_rs-0.1.6: r"^\s*((\*(/\d+)?)|[0-9-,/]+)(\s+((\*(/\d+)?)|[0-9-,/]+)){4,5}\s*$"
+consistent!(
+    cron_rs_0,
+    r"^\s*((\*(/\d+)?)|[0-9-,/]+)(\s+((\*(/\d+)?)|[0-9-,/]+)){4,5}\s*$"
+);
+
+// systemfd-0.3.0: r"^([a-zA-Z]+)::(.+)$"
+consistent!(systemfd_0, r"^([a-zA-Z]+)::(.+)$");
+
+// symbolic-debuginfo-5.0.2: "__?hidden#\\d+_"
+consistent!(symbolic_debuginfo_0, "__?hidden#\\d+_");
+
+// symbolic-minidump-5.0.2: r"^Linux ([^ ]+) (.*) \w+(?: GNU/Linux)?$"
+consistent!(symbolic_minidump_0, r"^Linux ([^ ]+) (.*) \w+(?: GNU/Linux)?$");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\#)(?u:[\t-\r - \u{85}-\u{85}\u{a0}-\u{a0}\u{1680}-\u{1680}\u{2000}-\u{200a}\u{2028}-\u{2029}\u{202f}-\u{202f}\u{205f}-\u{205f}\u{3000}-\u{3000}])*(?u:.)+"
+consistent!(graphql_idl_parser_0, "^(?u:\\#)(?u:[\t-\r - \u{85}-\u{85}\u{a0}-\u{a0}\u{1680}-\u{1680}\u{2000}-\u{200a}\u{2028}-\u{2029}\u{202f}-\u{202f}\u{205f}-\u{205f}\u{3000}-\u{3000}])*(?u:.)+");
+
+// graphql-idl-parser-0.1.1: "^(?u:=)(?u:[\t-\r - \u{85}-\u{85}\u{a0}-\u{a0}\u{1680}-\u{1680}\u{2000}-\u{200a}\u{2028}-\u{2029}\u{202f}-\u{202f}\u{205f}-\u{205f}\u{3000}-\u{3000}])*(?u:.)+"
+consistent!(graphql_idl_parser_1, "^(?u:=)(?u:[\t-\r - \u{85}-\u{85}\u{a0}-\u{a0}\u{1680}-\u{1680}\u{2000}-\u{200a}\u{2028}-\u{2029}\u{202f}-\u{202f}\u{205f}-\u{205f}\u{3000}-\u{3000}])*(?u:.)+");
+
+// graphql-idl-parser-0.1.1: "^(?u:[A-Z_-_a-z])(?u:[0-9A-Z_-_a-z])*"
+consistent!(graphql_idl_parser_2, "^(?u:[A-Z_-_a-z])(?u:[0-9A-Z_-_a-z])*");
+
+// graphql-idl-parser-0.1.1: "^(?u:!)"
+consistent!(graphql_idl_parser_3, "^(?u:!)");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\()"
+consistent!(graphql_idl_parser_4, "^(?u:\\()");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\))"
+consistent!(graphql_idl_parser_5, "^(?u:\\))");
+
+// graphql-idl-parser-0.1.1: "^(?u:,)"
+consistent!(graphql_idl_parser_6, "^(?u:,)");
+
+// graphql-idl-parser-0.1.1: "^(?u::)"
+consistent!(graphql_idl_parser_7, "^(?u::)");
+
+// graphql-idl-parser-0.1.1: "^(?u:@)"
+consistent!(graphql_idl_parser_8, "^(?u:@)");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\[)"
+consistent!(graphql_idl_parser_9, "^(?u:\\[)");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\])"
+consistent!(graphql_idl_parser_10, "^(?u:\\])");
+
+// graphql-idl-parser-0.1.1: "^(?u:enum)"
+consistent!(graphql_idl_parser_11, "^(?u:enum)");
+
+// graphql-idl-parser-0.1.1: "^(?u:implements)"
+consistent!(graphql_idl_parser_12, "^(?u:implements)");
+
+// graphql-idl-parser-0.1.1: "^(?u:input)"
+consistent!(graphql_idl_parser_13, "^(?u:input)");
+
+// graphql-idl-parser-0.1.1: "^(?u:interface)"
+consistent!(graphql_idl_parser_14, "^(?u:interface)");
+
+// graphql-idl-parser-0.1.1: "^(?u:scalar)"
+consistent!(graphql_idl_parser_15, "^(?u:scalar)");
+
+// graphql-idl-parser-0.1.1: "^(?u:type)"
+consistent!(graphql_idl_parser_16, "^(?u:type)");
+
+// graphql-idl-parser-0.1.1: "^(?u:union)"
+consistent!(graphql_idl_parser_17, "^(?u:union)");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\{)"
+consistent!(graphql_idl_parser_18, "^(?u:\\{)");
+
+// graphql-idl-parser-0.1.1: "^(?u:\\})"
+consistent!(graphql_idl_parser_19, "^(?u:\\})");
+
+// grimoire-0.1.0: r"(?s)/\*(?P<config>.*?)\*/"
+consistent!(grimoire_0, r"(?s)/\*(?P<config>.*?)\*/");
+
+// phonenumber-0.2.0+8.9.0: r"[\d]+(?:[~\x{2053}\x{223C}\x{FF5E}][\d]+)?"
+consistent!(phonenumber_0, r"[\d]+(?:[~\x{2053}\x{223C}\x{FF5E}][\d]+)?");
+
+// phonenumber-0.2.0+8.9.0: r"[, \[\]]"
+consistent!(phonenumber_1, r"[, \[\]]");
+
+// phonenumber-0.2.0+8.9.0: r"[\\/] *x"
+consistent!(phonenumber_2, r"[\\/] *x");
+
+// phonenumber-0.2.0+8.9.0: r"[[\P{N}&&\P{L}]&&[^#]]+$"
+consistent!(phonenumber_3, r"[[\P{N}&&\P{L}]&&[^#]]+$");
+
+// phonenumber-0.2.0+8.9.0: r"(?:.*?[A-Za-z]){3}.*"
+consistent!(phonenumber_4, r"(?:.*?[A-Za-z]){3}.*");
+
+// phonenumber-0.2.0+8.9.0: r"(\D+)"
+consistent!(phonenumber_5, r"(\D+)");
+
+// phonenumber-0.2.0+8.9.0: r"(\$\d)"
+consistent!(phonenumber_6, r"(\$\d)");
+
+// phonenumber-0.2.0+8.9.0: r"\(?\$1\)?"
+consistent!(phonenumber_7, r"\(?\$1\)?");
+
+// phone_number-0.1.0: r"\D"
+consistent!(phone_number_0, r"\D");
+
+// phone_number-0.1.0: r"^0+"
+consistent!(phone_number_1, r"^0+");
+
+// phone_number-0.1.0: r"^89"
+consistent!(phone_number_2, r"^89");
+
+// phone_number-0.1.0: r"^8+"
+consistent!(phone_number_3, r"^8+");
+
+// phile-0.1.4: r"^ *(\^_*\^) *$"
+consistent!(phile_0, r"^ *(\^_*\^) *$");
+
+// phile-0.1.4: r"^[_\p{XID_Start}]$"
+consistent!(phile_1, r"^[_\p{XID_Start}]$");
+
+// phile-0.1.4: r"^\p{XID_Continue}$"
+consistent!(phile_2, r"^\p{XID_Continue}$");
+
+// uritemplate-0.1.2: "%25(?P<hex>[0-9a-fA-F][0-9a-fA-F])"
+consistent!(uritemplate_0, "%25(?P<hex>[0-9a-fA-F][0-9a-fA-F])");
+
+// urdf-rs-0.4.2: "^package://(\\w+)/"
+consistent!(urdf_rs_0, "^package://(\\w+)/");
+
+// url-match-0.1.7: r"(?P<key>[?&.])"
+consistent!(url_match_0, r"(?P<key>[?&.])");
+
+// url-match-0.1.7: r":(?P<key>[a-zA-Z0-9_-]+)"
+consistent!(url_match_1, r":(?P<key>[a-zA-Z0-9_-]+)");
+
+// tsm-sys-0.1.0: r"hello world"
+consistent!(tsm_sys_0, r"hello world");
+
+// deb-version-0.1.0: "^(?:(?:(?:\\d+:).+)|(?:[^:]+))$"
+consistent!(deb_version_0, "^(?:(?:(?:\\d+:).+)|(?:[^:]+))$");
+
+// debcargo-2.1.0: r"^(?i)(a|an|the)\s+"
+consistent!(debcargo_0, r"^(?i)(a|an|the)\s+");
+
+// debcargo-2.1.0: r"^(?i)(rust\s+)?(implementation|library|tool|crate)\s+(of|to|for)\s+"
+consistent!(
+    debcargo_1,
+    r"^(?i)(rust\s+)?(implementation|library|tool|crate)\s+(of|to|for)\s+"
+);
+
+// feaders-0.2.0: r"^.*\.h$"
+consistent!(feaders_0, r"^.*\.h$");
+
+// feaders-0.2.0: r"^.*\.c$"
+consistent!(feaders_1, r"^.*\.c$");
+
+// feaders-0.2.0: r"^.*\.hpp$"
+consistent!(feaders_2, r"^.*\.hpp$");
+
+// feaders-0.2.0: r"^.*\.cc$"
+consistent!(feaders_3, r"^.*\.cc$");
+
+// feaders-0.2.0: r"^.*\.cpp$"
+consistent!(feaders_4, r"^.*\.cpp$");
+
+// hyperscan-0.1.6: r"CPtr\(\w+\)"
+consistent!(hyperscan_0, r"CPtr\(\w+\)");
+
+// hyperscan-0.1.6: r"^Version:\s(\d\.\d\.\d)\sFeatures:\s+(\w+)?\sMode:\s(\w+)$"
+consistent!(
+    hyperscan_1,
+    r"^Version:\s(\d\.\d\.\d)\sFeatures:\s+(\w+)?\sMode:\s(\w+)$"
+);
+
+// hyperscan-0.1.6: r"RawDatabase<Block>\{db: \w+\}"
+consistent!(hyperscan_2, r"RawDatabase<Block>\{db: \w+\}");
+
+// hyperscan-0.1.6: r"RawSerializedDatabase\{p: \w+, len: \d+\}"
+consistent!(hyperscan_3, r"RawSerializedDatabase\{p: \w+, len: \d+\}");
+
+// ucd-parse-0.1.1: r"[0-9A-F]+"
+consistent!(ucd_parse_0, r"[0-9A-F]+");
+
+// afsort-0.2.0: r".*"
+consistent!(afsort_0, r".*");
+
+// afsort-0.2.0: r".*"
+consistent!(afsort_1, r".*");
+
+// afsort-0.2.0: r".*"
+consistent!(afsort_2, r".*");
+
+// afsort-0.2.0: r".*"
+consistent!(afsort_3, r".*");
+
+// afsort-0.2.0: r".*"
+consistent!(afsort_4, r".*");
+
+// afsort-0.2.0: r".*"
+consistent!(afsort_5, r".*");
+
+// afsort-0.2.0: r"^[a-z]+$"
+consistent!(afsort_6, r"^[a-z]+$");
+
+// afsort-0.2.0: r"^[a-z]+$"
+consistent!(afsort_7, r"^[a-z]+$");
+
+// tin-summer-1.21.4: r"(\.git|\.pijul|_darcs|\.hg)$"
+consistent!(tin_summer_0, r"(\.git|\.pijul|_darcs|\.hg)$");
+
+// tin-drummer-1.0.1: r".*?\.(a|la|lo|o|ll|keter|bc|dyn_o|d|rlib|crate|min\.js|hi|dyn_hi|S|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$"
+consistent!(tin_drummer_0, r".*?\.(a|la|lo|o|ll|keter|bc|dyn_o|d|rlib|crate|min\.js|hi|dyn_hi|S|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$");
+
+// tin-drummer-1.0.1: r".*?\.(stats|conf|h|out|cache.*|dat|pc|info|\.js)$"
+consistent!(
+    tin_drummer_1,
+    r".*?\.(stats|conf|h|out|cache.*|dat|pc|info|\.js)$"
+);
+
+// tin-drummer-1.0.1: r".*?\.(exe|a|la|o|ll|keter|bc|dyn_o|d|rlib|crate|min\.js|hi|dyn_hi|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$"
+consistent!(tin_drummer_2, r".*?\.(exe|a|la|o|ll|keter|bc|dyn_o|d|rlib|crate|min\.js|hi|dyn_hi|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$");
+
+// tin-drummer-1.0.1: r".*?\.(stats|conf|h|out|cache.*|\.js)$"
+consistent!(tin_drummer_3, r".*?\.(stats|conf|h|out|cache.*|\.js)$");
+
+// tin-drummer-1.0.1: r"(\.git|\.pijul|_darcs|\.hg)$"
+consistent!(tin_drummer_4, r"(\.git|\.pijul|_darcs|\.hg)$");
+
+// tin-drummer-1.0.1: r".*?\.(dyn_o|out|d|hi|dyn_hi|dump-.*|p_hi|p_o|prof|tix)$"
+consistent!(
+    tin_drummer_5,
+    r".*?\.(dyn_o|out|d|hi|dyn_hi|dump-.*|p_hi|p_o|prof|tix)$"
+);
+
+// tin-drummer-1.0.1: r".*?\.(ibc)$"
+consistent!(tin_drummer_6, r".*?\.(ibc)$");
+
+// tin-drummer-1.0.1: r"\.stack-work|dist-newstyle"
+consistent!(tin_drummer_7, r"\.stack-work|dist-newstyle");
+
+// timmy-0.3.0: r"_NET_WM_PID\(CARDINAL\) = (\d+)"
+consistent!(timmy_0, r"_NET_WM_PID\(CARDINAL\) = (\d+)");
+
+// timmy-0.3.0: r"today|yesterday|now"
+consistent!(timmy_1, r"today|yesterday|now");
+
+// timmy-0.3.0: r"(?P<day>\d{1,2})/(?P<month>\d{1,2})(/(?P<year>\d{4}|\d{2}))?"
+consistent!(
+    timmy_2,
+    r"(?P<day>\d{1,2})/(?P<month>\d{1,2})(/(?P<year>\d{4}|\d{2}))?"
+);
+
+// timmy-0.3.0: r"(?P<n>\d+) (days?|ds?)(?P<ago>( ago)?)"
+consistent!(timmy_3, r"(?P<n>\d+) (days?|ds?)(?P<ago>( ago)?)");
+
+// timmy-0.3.0: r"(?P<hr>\d{2}):(?P<mins>\d{2})"
+consistent!(timmy_4, r"(?P<hr>\d{2}):(?P<mins>\d{2})");
+
+// tinfo-0.5.0: r"^(\d+): \d+ windows \(.*\) \[\d+x\d+\]( \(attached\))?"
+consistent!(
+    tinfo_0,
+    r"^(\d+): \d+ windows \(.*\) \[\d+x\d+\]( \(attached\))?"
+);
+
+// tinfo-0.5.0: r"^(\d+):(\d+): (.*) \((\d+) panes\) \[(\d+)x(\d+)\]"
+consistent!(tinfo_1, r"^(\d+):(\d+): (.*) \((\d+) panes\) \[(\d+)x(\d+)\]");
+
+// timespan-0.0.4: r"(?:\\\{start\\\}|\\\{end\\\})"
+consistent!(timespan_0, r"(?:\\\{start\\\}|\\\{end\\\})");
+
+// timespan-0.0.4: r"(.*)\s+-\s+(.*)"
+consistent!(timespan_1, r"(.*)\s+-\s+(.*)");
+
+// timespan-0.0.4: r"(.*)\s+(\w+)$"
+consistent!(timespan_2, r"(.*)\s+(\w+)$");
+
+// timespan-0.0.4: r"(.*)\s+(\w+)$"
+consistent!(timespan_3, r"(.*)\s+(\w+)$");
+
+// timespan-0.0.4: r"(.*)\s+-\s+(.*)"
+consistent!(timespan_4, r"(.*)\s+-\s+(.*)");
+
+// titlecase-0.10.0: r"[[:lower:]]"
+consistent!(titlecase_0, r"[[:lower:]]");
+
+// tight-0.1.3: r"^\d+ (day|week|month|year)s?$"
+consistent!(tight_0, r"^\d+ (day|week|month|year)s?$");
+
+// tight-0.1.3: r"^\d+ (day|week|month|year)s?$"
+consistent!(tight_1, r"^\d+ (day|week|month|year)s?$");
+
+// yaml-0.2.1: r"^[-+]?(0|[1-9][0-9_]*)$"
+consistent!(yaml_0, r"^[-+]?(0|[1-9][0-9_]*)$");
+
+// yaml-0.2.1: r"^([-+]?)0o?([0-7_]+)$"
+consistent!(yaml_1, r"^([-+]?)0o?([0-7_]+)$");
+
+// yaml-0.2.1: r"^([-+]?)0x([0-9a-fA-F_]+)$"
+consistent!(yaml_2, r"^([-+]?)0x([0-9a-fA-F_]+)$");
+
+// yaml-0.2.1: r"^([-+]?)0b([0-1_]+)$"
+consistent!(yaml_3, r"^([-+]?)0b([0-1_]+)$");
+
+// yaml-0.2.1: r"^([-+]?)(\.[0-9]+|[0-9]+(\.[0-9]*)?([eE][-+]?[0-9]+)?)$"
+consistent!(
+    yaml_4,
+    r"^([-+]?)(\.[0-9]+|[0-9]+(\.[0-9]*)?([eE][-+]?[0-9]+)?)$"
+);
+
+// yaml-0.2.1: r"^[+]?(\.inf|\.Inf|\.INF)$"
+consistent!(yaml_5, r"^[+]?(\.inf|\.Inf|\.INF)$");
+
+// yaml-0.2.1: r"^-(\.inf|\.Inf|\.INF)$"
+consistent!(yaml_6, r"^-(\.inf|\.Inf|\.INF)$");
+
+// yaml-0.2.1: r"^(\.nan|\.NaN|\.NAN)$"
+consistent!(yaml_7, r"^(\.nan|\.NaN|\.NAN)$");
+
+// yaml-0.2.1: r"^(null|Null|NULL|~)$"
+consistent!(yaml_8, r"^(null|Null|NULL|~)$");
+
+// yaml-0.2.1: r"^(true|True|TRUE|yes|Yes|YES)$"
+consistent!(yaml_9, r"^(true|True|TRUE|yes|Yes|YES)$");
+
+// yaml-0.2.1: r"^(false|False|FALSE|no|No|NO)$"
+consistent!(yaml_10, r"^(false|False|FALSE|no|No|NO)$");
+
+// kefia-0.1.0: r"(?m)^(\S+)/(\S+) (\S+)(?: \((.*)\))?$"
+consistent!(kefia_0, r"(?m)^(\S+)/(\S+) (\S+)(?: \((.*)\))?$");
+
+// risp-0.7.0: "^(\\s+|;.*?(\n|$))+"
+consistent!(risp_0, "^(\\s+|;.*?(\n|$))+");
+
+// risp-0.7.0: "^\".*?\""
+consistent!(risp_1, "^\".*?\"");
+
+// risp-0.7.0: r"^[^\s\{\}()\[\]]+"
+consistent!(risp_2, r"^[^\s\{\}()\[\]]+");
+
+// risp-0.7.0: r"^-?\d+"
+consistent!(risp_3, r"^-?\d+");
+
+// ripgrep-0.8.1: "^([0-9]+)([KMG])?$"
+consistent!(ripgrep_0, "^([0-9]+)([KMG])?$");
+
+// riquid-0.0.1: r"^\w+"
+consistent!(riquid_0, r"^\w+");
+
+// riquid-0.0.1: r"^\d+"
+consistent!(riquid_1, r"^\d+");
+
+// recursive_disassembler-2.1.2: r"\A(0x)?([a-fA-F0-9]+)\z"
+consistent!(recursive_disassembler_0, r"\A(0x)?([a-fA-F0-9]+)\z");
+
+// remake-0.1.0: r"^[a-zA-Z_][a-zA-Z0-9_]*"
+consistent!(remake_0, r"^[a-zA-Z_][a-zA-Z0-9_]*");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_0, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_1, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_2, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_3, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_4, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_5, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{2})\)"
+consistent!(regex_decode_6, r"'(?P<title>[^']+)'\s+\((?P<year>\d{2})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_7, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)"
+consistent!(regex_decode_8, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)"
+consistent!(regex_decode_9, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)"
+consistent!(regex_decode_10, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)"
+consistent!(regex_decode_11, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)"
+consistent!(regex_decode_12, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)");
+
+// regex-decode-0.1.0: r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)"
+consistent!(regex_decode_13, r"'(?P<title>[^']+)'\s+\((?P<year>\d{4})?\)");
+
+// regex-cache-0.2.0: "[0-9]{3}-[0-9]{3}-[0-9]{4}"
+consistent!(regex_cache_0, "[0-9]{3}-[0-9]{3}-[0-9]{4}");
+
+// regex-cache-0.2.0: r"^\d+$"
+consistent!(regex_cache_1, r"^\d+$");
+
+// regex-cache-0.2.0: r"^[a-z]+$"
+consistent!(regex_cache_2, r"^[a-z]+$");
+
+// regex-cache-0.2.0: r"^\d+$"
+consistent!(regex_cache_3, r"^\d+$");
+
+// regex-cache-0.2.0: r"^\d+$"
+consistent!(regex_cache_4, r"^\d+$");
+
+// regex_dfa-0.5.0: r"\d{4}-\d{2}-\d{2}"
+consistent!(regex_dfa_0, r"\d{4}-\d{2}-\d{2}");
+
+// reaper-2.0.0: r"^[0-9\p{L} _\\.]{3,16}$"
+consistent!(reaper_0, r"^[0-9\p{L} _\\.]{3,16}$");
+
+// retdec-0.1.0: r"^attachment; filename=(.+)$"
+consistent!(retdec_0, r"^attachment; filename=(.+)$");
+
+// renvsubst-0.1.2: r"(\\)(?P<head>\$[0-9A-Za-z_{])"
+consistent!(renvsubst_0, r"(\\)(?P<head>\$[0-9A-Za-z_{])");
+
+// renvsubst-0.1.2: r"\$([[:word:]]+)"
+consistent!(renvsubst_1, r"\$([[:word:]]+)");
+
+// renvsubst-0.1.2: r"\$\{([[:word:]]+)\}"
+consistent!(renvsubst_2, r"\$\{([[:word:]]+)\}");
+
+// rexpect-0.3.0: r"'[a-z]+'"
+consistent!(rexpect_0, r"'[a-z]+'");
+
+// rexpect-0.3.0: r"^\d{4}-\d{2}-\d{2}$"
+consistent!(rexpect_1, r"^\d{4}-\d{2}-\d{2}$");
+
+// rexpect-0.3.0: r"-\d{2}-"
+consistent!(rexpect_2, r"-\d{2}-");
+
+// luther-0.1.0: "^a(b|c)c*$"
+consistent!(luther_0, "^a(b|c)c*$");
+
+// little_boxes-1.6.0: r"(\x9B|\x1B\[)[0-?]*[ -/]*[@-~]"
+consistent!(little_boxes_0, r"(\x9B|\x1B\[)[0-?]*[ -/]*[@-~]");
+
+// libimagentrytag-0.8.0: "^[a-zA-Z]([a-zA-Z0-9_-]*)$"
+consistent!(libimagentrytag_0, "^[a-zA-Z]([a-zA-Z0-9_-]*)$");
+
+// libimaginteraction-0.8.0: r"^[Yy](\n?)$"
+consistent!(libimaginteraction_0, r"^[Yy](\n?)$");
+
+// libimaginteraction-0.8.0: r"^[Nn](\n?)$"
+consistent!(libimaginteraction_1, r"^[Nn](\n?)$");
+
+// libimagutil-0.8.0: "^(?P<KEY>([^=]*))=(.*)$"
+consistent!(libimagutil_0, "^(?P<KEY>([^=]*))=(.*)$");
+
+// libimagutil-0.8.0: "(.*)=(\"(?P<QVALUE>([^\"]*))\"|(?P<VALUE>(.*)))$"
+consistent!(libimagutil_1, "(.*)=(\"(?P<QVALUE>([^\"]*))\"|(?P<VALUE>(.*)))$");
+
+// linux_ip-0.1.0: r"\s+"
+consistent!(linux_ip_0, r"\s+");
+
+// linux_ip-0.1.0: r"\s*[\n\r]+\s*"
+consistent!(linux_ip_1, r"\s*[\n\r]+\s*");
+
+// linux_ip-0.1.0: r"^([0-9a-fA-F\.:/]+)\s+dev\s+([a-z0-9\.]+)\s*(.*)$"
+consistent!(linux_ip_2, r"^([0-9a-fA-F\.:/]+)\s+dev\s+([a-z0-9\.]+)\s*(.*)$");
+
+// linux_ip-0.1.0: r"^([0-9a-fA-F\.:/]+|default)\s+via\s+([a-z0-9\.:]+)\s+dev\s+([a-z0-9\.]+)\s*(.*)$"
+consistent!(linux_ip_3, r"^([0-9a-fA-F\.:/]+|default)\s+via\s+([a-z0-9\.:]+)\s+dev\s+([a-z0-9\.]+)\s*(.*)$");
+
+// linux_ip-0.1.0: r"^(blackhole)\s+([0-9a-fA-F\.:/]+)$"
+consistent!(linux_ip_4, r"^(blackhole)\s+([0-9a-fA-F\.:/]+)$");
+
+// linux_ip-0.1.0: r"^(unreachable)\s+([0-9a-fA-F\.:/]+)\s+dev\s+([a-z0-9\.]+)\s+(.*)$"
+consistent!(
+    linux_ip_5,
+    r"^(unreachable)\s+([0-9a-fA-F\.:/]+)\s+dev\s+([a-z0-9\.]+)\s+(.*)$"
+);
+
+// linux_ip-0.1.0: r"\s*[\n\r]+\s*"
+consistent!(linux_ip_6, r"\s*[\n\r]+\s*");
+
+// linux_ip-0.1.0: r"^\d+:\s+([a-zA-Z0-9\.-]+)(@\S+)*:\s+(.*)$"
+consistent!(linux_ip_7, r"^\d+:\s+([a-zA-Z0-9\.-]+)(@\S+)*:\s+(.*)$");
+
+// linux_ip-0.1.0: r"\s*link/ether\s+([a-f0-9:]+)\s+.*"
+consistent!(linux_ip_8, r"\s*link/ether\s+([a-f0-9:]+)\s+.*");
+
+// linux_ip-0.1.0: r"\s*inet[6]*\s+([0-9a-f:\./]+)\s+.*"
+consistent!(linux_ip_9, r"\s*inet[6]*\s+([0-9a-f:\./]+)\s+.*");
+
+// linky-0.1.4: r"[^\w -]"
+consistent!(linky_0, r"[^\w -]");
+
+// linky-0.1.4: r"^(.*):(\d+): [^ ]* ([^ ]*)$"
+consistent!(linky_1, r"^(.*):(\d+): [^ ]* ([^ ]*)$");
+
+// limonite-0.2.1: r"^(\d{4}-\d{2}-\d{2})-(\d{3})-(.+)$"
+consistent!(limonite_0, r"^(\d{4}-\d{2}-\d{2})-(\d{3})-(.+)$");
+
+// process-queue-0.1.1: r"^[a-zA-Z]+$"
+consistent!(process_queue_0, r"^[a-zA-Z]+$");
+
+// pronghorn-0.1.2: r"^\{([a-zA-Z_]+)\}$"
+consistent!(pronghorn_0, r"^\{([a-zA-Z_]+)\}$");
+
+// protocol-ftp-client-0.1.1: "(?m:^(\\d{3}) (.+)\r$)"
+consistent!(protocol_ftp_client_0, "(?m:^(\\d{3}) (.+)\r$)");
+
+// protocol-ftp-client-0.1.1: "\"(.+)\""
+consistent!(protocol_ftp_client_1, "\"(.+)\"");
+
+// protocol-ftp-client-0.1.1: "(\\w+) [Tt]ype: (\\w+)"
+consistent!(protocol_ftp_client_2, "(\\w+) [Tt]ype: (\\w+)");
+
+// protocol-ftp-client-0.1.1: "(?m:^(\\d{3})-.+\r$)"
+consistent!(protocol_ftp_client_3, "(?m:^(\\d{3})-.+\r$)");
+
+// protocol-ftp-client-0.1.1: "Entering Passive Mode \\((\\d+),(\\d+),(\\d+),(\\d+),(\\d+),(\\d+)\\)"
+consistent!(
+    protocol_ftp_client_4,
+    "Entering Passive Mode \\((\\d+),(\\d+),(\\d+),(\\d+),(\\d+),(\\d+)\\)"
+);
+
+// protocol-ftp-client-0.1.1: "(?m:^(.+)\r$)"
+consistent!(protocol_ftp_client_5, "(?m:^(.+)\r$)");
+
+// protocol-ftp-client-0.1.1: "^([d-])(?:[rwx-]{3}){3} +\\d+ +\\w+ +\\w+ +(\\d+) +(.+) +(.+)$"
+consistent!(
+    protocol_ftp_client_6,
+    "^([d-])(?:[rwx-]{3}){3} +\\d+ +\\w+ +\\w+ +(\\d+) +(.+) +(.+)$"
+);
+
+// article-date-extractor-0.1.1: r"([\./\-_]{0,1}(19|20)\d{2})[\./\-_]{0,1}(([0-3]{0,1}[0-9][\./\-_])|(\w{3,5}[\./\-_]))([0-3]{0,1}[0-9][\./\-]{0,1})"
+consistent!(article_date_extractor_0, r"([\./\-_]{0,1}(19|20)\d{2})[\./\-_]{0,1}(([0-3]{0,1}[0-9][\./\-_])|(\w{3,5}[\./\-_]))([0-3]{0,1}[0-9][\./\-]{0,1})");
+
+// article-date-extractor-0.1.1: r"(?i)publishdate|pubdate|timestamp|article_date|articledate|date"
+consistent!(
+    article_date_extractor_1,
+    r"(?i)publishdate|pubdate|timestamp|article_date|articledate|date"
+);
+
+// arthas_plugin-0.1.1: r"type\((.*)\)"
+consistent!(arthas_plugin_0, r"type\((.*)\)");
+
+// arthas_plugin-0.1.1: r"Vec<(.*)>"
+consistent!(arthas_plugin_1, r"Vec<(.*)>");
+
+// arthas_plugin-0.1.1: r"Option<(.*)>"
+consistent!(arthas_plugin_2, r"Option<(.*)>");
+
+// arthas_plugin-0.1.1: r"HashMap<[a-z0-9A-Z]+, *(.*)>"
+consistent!(arthas_plugin_3, r"HashMap<[a-z0-9A-Z]+, *(.*)>");
+
+// arthas_derive-0.1.0: "Vec *< *(.*) *>"
+consistent!(arthas_derive_0, "Vec *< *(.*) *>");
+
+// arthas_derive-0.1.0: r"Option *< *(.*) *>"
+consistent!(arthas_derive_1, r"Option *< *(.*) *>");
+
+// arthas_derive-0.1.0: r"HashMap *< *[a-z0-9A-Z]+ *, *(.*) *>"
+consistent!(arthas_derive_2, r"HashMap *< *[a-z0-9A-Z]+ *, *(.*) *>");
+
+// arpabet-0.2.0: r"^([\w\-\(\)\.']+)\s+([^\s].*)\s*$"
+consistent!(arpabet_0, r"^([\w\-\(\)\.']+)\s+([^\s].*)\s*$");
+
+// arpabet-0.2.0: r"^;;;\s+"
+consistent!(arpabet_1, r"^;;;\s+");
+
+// glossy_codegen-0.2.0: r"/\*.*?\*/|//.*"
+consistent!(glossy_codegen_0, r"/\*.*?\*/|//.*");
+
+// glossy_codegen-0.2.0: "^\\s*#\\s*include\\s+<([:print:]+)>\\s*$"
+consistent!(glossy_codegen_1, "^\\s*#\\s*include\\s+<([:print:]+)>\\s*$");
+
+// glossy_codegen-0.2.0: "^\\s*#\\s*include\\s+\"([:print:]+)\"\\s*$"
+consistent!(glossy_codegen_2, "^\\s*#\\s*include\\s+\"([:print:]+)\"\\s*$");
+
+// glossy_codegen-0.2.0: r"^\s*#\s*version\s+(\d+)"
+consistent!(glossy_codegen_3, r"^\s*#\s*version\s+(\d+)");
+
+// glossy_codegen-0.2.0: r"^\s*$"
+consistent!(glossy_codegen_4, r"^\s*$");
+
+// gluster-1.0.1: r"(?P<addr>via \S+)"
+consistent!(gluster_0, r"(?P<addr>via \S+)");
+
+// gluster-1.0.1: r"(?P<src>src \S+)"
+consistent!(gluster_1, r"(?P<src>src \S+)");
+
+// gl_helpers-0.1.7: r"(.*)\[\d+\]"
+consistent!(gl_helpers_0, r"(.*)\[\d+\]");
+
+// gl_helpers-0.1.7: r"(\d+).(\d+)"
+consistent!(gl_helpers_1, r"(\d+).(\d+)");
+
+// glr-parser-0.0.1: r"(?P<c>[\\\.\+\*\?\(\)\|\[\]\{\}\^\$])"
+consistent!(glr_parser_0, r"(?P<c>[\\\.\+\*\?\(\)\|\[\]\{\}\^\$])");
+
+// glr-parser-0.0.1: r"^\w+$"
+consistent!(glr_parser_1, r"^\w+$");
+
+// glr-parser-0.0.1: "'[^']+'"
+consistent!(glr_parser_2, "'[^']+'");
+
+// hoodlum-0.5.0: r"(?m)//.*"
+consistent!(hoodlum_0, r"(?m)//.*");
+
+// form-checker-0.2.2: r"^1\d{10}$"
+consistent!(form_checker_0, r"^1\d{10}$");
+
+// form-checker-0.2.2: r"(?i)^[\w.%+-]+@(?:[A-Z0-9-]+\.)+[A-Z]{2,4}$"
+consistent!(form_checker_1, r"(?i)^[\w.%+-]+@(?:[A-Z0-9-]+\.)+[A-Z]{2,4}$");
+
+// wikibase-0.2.0: r"(?P<user_agent>[a-zA-Z0-9-_]+/[0-9\.]+)"
+consistent!(wikibase_0, r"(?P<user_agent>[a-zA-Z0-9-_]+/[0-9\.]+)");
+
+// wifiscanner-0.3.6: r"Cell [0-9]{2,} - Address:"
+consistent!(wifiscanner_0, r"Cell [0-9]{2,} - Address:");
+
+// wifiscanner-0.3.6: r"([0-9a-zA-Z]{1}[0-9a-zA-Z]{1}[:]{1}){5}[0-9a-zA-Z]{1}[0-9a-zA-Z]{1}"
+consistent!(
+    wifiscanner_1,
+    r"([0-9a-zA-Z]{1}[0-9a-zA-Z]{1}[:]{1}){5}[0-9a-zA-Z]{1}[0-9a-zA-Z]{1}"
+);
+
+// wifiscanner-0.3.6: r"Signal level=(\d+)/100"
+consistent!(wifiscanner_2, r"Signal level=(\d+)/100");
+
+// bbcode-1.0.2: r"(?s)\[b\](.*?)\[/b\]"
+consistent!(bbcode_0, r"(?s)\[b\](.*?)\[/b\]");
+
+// bbcode-1.0.2: r"(?s)\[i\](.*?)\[/i\]"
+consistent!(bbcode_1, r"(?s)\[i\](.*?)\[/i\]");
+
+// bbcode-1.0.2: r"(?s)\[u\](.*?)\[/u\]"
+consistent!(bbcode_2, r"(?s)\[u\](.*?)\[/u\]");
+
+// bbcode-1.0.2: r"(?s)\[s\](.*?)\[/s\]"
+consistent!(bbcode_3, r"(?s)\[s\](.*?)\[/s\]");
+
+// bbcode-1.0.2: r"(?s)\[size=(\d+)](.*?)\[/size\]"
+consistent!(bbcode_4, r"(?s)\[size=(\d+)](.*?)\[/size\]");
+
+// bbcode-1.0.2: r"(?s)\[color=(.+)](.*?)\[/color\]"
+consistent!(bbcode_5, r"(?s)\[color=(.+)](.*?)\[/color\]");
+
+// bbcode-1.0.2: r"(?s)\[center\](.*?)\[/center\]"
+consistent!(bbcode_6, r"(?s)\[center\](.*?)\[/center\]");
+
+// bbcode-1.0.2: r"(?s)\[left\](.*?)\[/left\]"
+consistent!(bbcode_7, r"(?s)\[left\](.*?)\[/left\]");
+
+// bbcode-1.0.2: r"(?s)\[right\](.*?)\[/right\]"
+consistent!(bbcode_8, r"(?s)\[right\](.*?)\[/right\]");
+
+// bbcode-1.0.2: r"(?s)\[table\](.*?)\[/table\]"
+consistent!(bbcode_9, r"(?s)\[table\](.*?)\[/table\]");
+
+// bbcode-1.0.2: r"(?s)\[td\](.*?)\[/td\]"
+consistent!(bbcode_10, r"(?s)\[td\](.*?)\[/td\]");
+
+// bbcode-1.0.2: r"(?s)\[tr\](.*?)\[/tr\]"
+consistent!(bbcode_11, r"(?s)\[tr\](.*?)\[/tr\]");
+
+// bbcode-1.0.2: r"(?s)\[th\](.*?)\[/th\]"
+consistent!(bbcode_12, r"(?s)\[th\](.*?)\[/th\]");
+
+// bbcode-1.0.2: r"(?s)\[url\](.*?)\[/url\]"
+consistent!(bbcode_13, r"(?s)\[url\](.*?)\[/url\]");
+
+// bbcode-1.0.2: r"(?s)\[url=(.+)\](.*?)\[/url\]"
+consistent!(bbcode_14, r"(?s)\[url=(.+)\](.*?)\[/url\]");
+
+// bbcode-1.0.2: r"(?s)\[quote\](.*?)\[/quote\]"
+consistent!(bbcode_15, r"(?s)\[quote\](.*?)\[/quote\]");
+
+// bbcode-1.0.2: r"(?s)\[quote=(.+)\](.*?)\[/quote\]"
+consistent!(bbcode_16, r"(?s)\[quote=(.+)\](.*?)\[/quote\]");
+
+// bbcode-1.0.2: r"(?s)\[img=(\d+)x(\d+)(\b.*)?\](.*?)\[/img\]"
+consistent!(bbcode_17, r"(?s)\[img=(\d+)x(\d+)(\b.*)?\](.*?)\[/img\]");
+
+// bbcode-1.0.2: r"(?s)\[img=(.+)(\b.*)?\](.*?)\[/img\]"
+consistent!(bbcode_18, r"(?s)\[img=(.+)(\b.*)?\](.*?)\[/img\]");
+
+// bbcode-1.0.2: r"(?s)\[img(\b.*)?\](.*?)\[/img\]"
+consistent!(bbcode_19, r"(?s)\[img(\b.*)?\](.*?)\[/img\]");
+
+// bbcode-1.0.2: r"(?s)\[ol\](.*?)\[/ol\]"
+consistent!(bbcode_20, r"(?s)\[ol\](.*?)\[/ol\]");
+
+// bbcode-1.0.2: r"(?s)\[ul\](.*?)\[/ul\]"
+consistent!(bbcode_21, r"(?s)\[ul\](.*?)\[/ul\]");
+
+// bbcode-1.0.2: r"(?s)\[list\](.*?)\[/list\]"
+consistent!(bbcode_22, r"(?s)\[list\](.*?)\[/list\]");
+
+// bbcode-1.0.2: r"(?s)\[youtube\](.*?)\[/youtube\]"
+consistent!(bbcode_23, r"(?s)\[youtube\](.*?)\[/youtube\]");
+
+// bbcode-1.0.2: r"(?s)\[youtube=(\d+)x(\d+)\](.*?)\[/youtube\]"
+consistent!(bbcode_24, r"(?s)\[youtube=(\d+)x(\d+)\](.*?)\[/youtube\]");
+
+// bbcode-1.0.2: r"(?s)\[li\](.*?)\[/li\]"
+consistent!(bbcode_25, r"(?s)\[li\](.*?)\[/li\]");
+
+// block-utils-0.5.0: r"loop\d+"
+consistent!(block_utils_0, r"loop\d+");
+
+// block-utils-0.5.0: r"ram\d+"
+consistent!(block_utils_1, r"ram\d+");
+
+// block-utils-0.5.0: r"md\d+"
+consistent!(block_utils_2, r"md\d+");
+
+// kvvliveapi-0.1.0: r"^([1-9]) min$"
+consistent!(kvvliveapi_0, r"^([1-9]) min$");
+
+// rfc822_sanitizer-0.3.3: r"(\d{2}):(\d{2}):(\d{2})"
+consistent!(rfc822_sanitizer_0, r"(\d{2}):(\d{2}):(\d{2})");
+
+// rfc822_sanitizer-0.3.3: r"(\d{1,2}):(\d{1,2}):(\d{1,2})"
+consistent!(rfc822_sanitizer_1, r"(\d{1,2}):(\d{1,2}):(\d{1,2})");
+
+// faker-0.0.4: r"[2-9]"
+consistent!(faker_0, r"[2-9]");
+
+// faker-0.0.4: r"[1-9]"
+consistent!(faker_1, r"[1-9]");
+
+// faker-0.0.4: r"[0-9]"
+consistent!(faker_2, r"[0-9]");
+
+// faker-0.0.4: r"\d{10}"
+consistent!(faker_3, r"\d{10}");
+
+// faker-0.0.4: r"\d{1}"
+consistent!(faker_4, r"\d{1}");
+
+// faker-0.0.4: r"^\w+"
+consistent!(faker_5, r"^\w+");
+
+// faker-0.0.4: r"^\w+"
+consistent!(faker_6, r"^\w+");
+
+// faker-0.0.4: r"^(\w+\.? ?){2,3}$"
+consistent!(faker_7, r"^(\w+\.? ?){2,3}$");
+
+// faker-0.0.4: r"^[A-Z][a-z]+\.?$"
+consistent!(faker_8, r"^[A-Z][a-z]+\.?$");
+
+// faker-0.0.4: r"^[A-Z][A-Za-z]*\.?$"
+consistent!(faker_9, r"^[A-Z][A-Za-z]*\.?$");
+
+// faker-0.0.4: r"http://lorempixel.com/100/100/\w+"
+consistent!(faker_10, r"http://lorempixel.com/100/100/\w+");
+
+// faker-0.0.4: r"http://lorempixel.com/100/100/cats"
+consistent!(faker_11, r"http://lorempixel.com/100/100/cats");
+
+// fancy-regex-0.1.0: "(?i:ß)"
+consistent!(fancy_regex_0, "(?i:ß)");
+
+// fancy-regex-0.1.0: "(?i:\\x{0587})"
+consistent!(fancy_regex_1, "(?i:\\x{0587})");
+
+// fancy-regex-0.1.0: "^\\\\([!-/:-@\\[-`\\{-~aftnrv]|[0-7]{1,3}|x[0-9a-fA-F]{2}|x\\{[0-9a-fA-F]{1,6}\\})"
+consistent!(fancy_regex_2, "^\\\\([!-/:-@\\[-`\\{-~aftnrv]|[0-7]{1,3}|x[0-9a-fA-F]{2}|x\\{[0-9a-fA-F]{1,6}\\})");
+
+// fancy-prompt-0.1.5: r"/([^/])[^/]+/"
+consistent!(fancy_prompt_0, r"/([^/])[^/]+/");
+
+// fancy-prompt-0.1.5: r"^([^:]+):.*?(?::([^:]+))?$"
+consistent!(fancy_prompt_1, r"^([^:]+):.*?(?::([^:]+))?$");
+
+// fanta-0.2.0: r"^(/?__\w+__)/(.*)"
+consistent!(fanta_0, r"^(/?__\w+__)/(.*)");
+
+// fanta-cli-0.1.1: r"(.)([A-Z])"
+consistent!(fanta_cli_0, r"(.)([A-Z])");
+
+// fanta-cli-0.1.1: "\\{:[^\\s]+\\}"
+consistent!(fanta_cli_1, "\\{:[^\\s]+\\}");
+
+// amethyst_tools-0.7.1: "(?P<last>[^\r])\n"
+consistent!(amethyst_tools_0, "(?P<last>[^\r])\n");
+
+// amigo-0.3.1: r"^-?\d+(\.\d)?"
+consistent!(amigo_0, r"^-?\d+(\.\d)?");
+
+// amigo-0.3.1: r"^[a-zA-Z_]+[\w-]*[!?_]?"
+consistent!(amigo_1, r"^[a-zA-Z_]+[\w-]*[!?_]?");
+
+// amigo-0.3.1: r"^\("
+consistent!(amigo_2, r"^\(");
+
+// amigo-0.3.1: r"^\)"
+consistent!(amigo_3, r"^\)");
+
+// amigo-0.3.1: r"^\s+"
+consistent!(amigo_4, r"^\s+");
+
+// ethcore-logger-1.12.0: "\x1b\\[[^m]+m"
+consistent!(ethcore_logger_0, "\x1b\\[[^m]+m");
+
+// dash2html-1.0.1: r"__.*?__"
+consistent!(dash2html_0, r"__.*?__");
+
+// dash2html-1.0.1: r"(?i)@(?:time|clipboard|cursor|date)"
+consistent!(dash2html_1, r"(?i)@(?:time|clipboard|cursor|date)");
+
+// os_type-2.0.0: r"^Microsoft Windows \[Version\s(\d+\.\d+\.\d+)\]$"
+consistent!(os_type_0, r"^Microsoft Windows \[Version\s(\d+\.\d+\.\d+)\]$");
+
+// os_type-2.0.0: r"ProductName:\s([\w\s]+)\n"
+consistent!(os_type_1, r"ProductName:\s([\w\s]+)\n");
+
+// os_type-2.0.0: r"ProductVersion:\s(\w+\.\w+\.\w+)"
+consistent!(os_type_2, r"ProductVersion:\s(\w+\.\w+\.\w+)");
+
+// os_type-2.0.0: r"BuildVersion:\s(\w+)"
+consistent!(os_type_3, r"BuildVersion:\s(\w+)");
+
+// os_type-2.0.0: r"(\w+) Linux release"
+consistent!(os_type_4, r"(\w+) Linux release");
+
+// os_type-2.0.0: r"release\s([\w\.]+)"
+consistent!(os_type_5, r"release\s([\w\.]+)");
+
+// os_type-2.0.0: r"Distributor ID:\s(\w+)"
+consistent!(os_type_6, r"Distributor ID:\s(\w+)");
+
+// os_type-2.0.0: r"Release:\s([\w\.]+)"
+consistent!(os_type_7, r"Release:\s([\w\.]+)");
+
+// bindgen-0.37.0: r"typename type\-parameter\-\d+\-\d+::.+"
+consistent!(bindgen_0, r"typename type\-parameter\-\d+\-\d+::.+");
+
+// imap-0.8.1: "^+(.*)\r\n"
+consistent!(imap_0, "^+(.*)\r\n");
+
+// image-base64-0.1.0: r"^ffd8ffe0"
+consistent!(image_base64_0, r"^ffd8ffe0");
+
+// image-base64-0.1.0: r"^89504e47"
+consistent!(image_base64_1, r"^89504e47");
+
+// image-base64-0.1.0: r"^47494638"
+consistent!(image_base64_2, r"^47494638");
+
+// json-pointer-0.3.2: "^(/([^/~]|~[01])*)*$"
+consistent!(json_pointer_0, "^(/([^/~]|~[01])*)*$");
+
+// json-pointer-0.3.2: "^#(/([^/~%]|~[01]|%[0-9a-fA-F]{2})*)*$"
+consistent!(json_pointer_1, "^#(/([^/~%]|~[01]|%[0-9a-fA-F]{2})*)*$");
+
+// mysql_common-0.7.0: r"^5.5.5-(\d{1,2})\.(\d{1,2})\.(\d{1,3})-MariaDB"
+consistent!(mysql_common_0, r"^5.5.5-(\d{1,2})\.(\d{1,2})\.(\d{1,3})-MariaDB");
+
+// mysql_common-0.7.0: r"^(\d{1,2})\.(\d{1,2})\.(\d{1,3})(.*)"
+consistent!(mysql_common_1, r"^(\d{1,2})\.(\d{1,2})\.(\d{1,3})(.*)");
+
+// government_id-0.1.0: r"^[0-9]{4}[0-9A-Z]{2}[0-9]{3}$"
+consistent!(government_id_0, r"^[0-9]{4}[0-9A-Z]{2}[0-9]{3}$");
+
+// ohmers-0.1.1: r"UniqueIndexViolation: (\w+)"
+consistent!(ohmers_0, r"UniqueIndexViolation: (\w+)");
+
+// eliza-1.0.0: r"(.*) you are (.*)"
+consistent!(eliza_0, r"(.*) you are (.*)");
+
+// eliza-1.0.0: r"(.*) you are (.*)"
+consistent!(eliza_1, r"(.*) you are (.*)");
+
+// eliza-1.0.0: r"(.*) you are (.*)"
+consistent!(eliza_2, r"(.*) you are (.*)");
+
+// chema-0.0.5: "^\\s*\\*"
+consistent!(chema_0, "^\\s*\\*");
+
+// chema-0.0.5: "^\\s*@(\\w+)\\s+(.*)"
+consistent!(chema_1, "^\\s*@(\\w+)\\s+(.*)");
+
+// chord3-0.3.0: r"^\s*#"
+consistent!(chord3_0, r"^\s*#");
+
+// chord3-0.3.0: r"\{(?P<cmd>\w+)(?::?\s*(?P<arg>.*))?\}"
+consistent!(chord3_1, r"\{(?P<cmd>\w+)(?::?\s*(?P<arg>.*))?\}");
+
+// chord3-0.3.0: r"\{(eot|end_of_tab):?\s*"
+consistent!(chord3_2, r"\{(eot|end_of_tab):?\s*");
+
+// chord3-0.3.0: r"([^\[]*)(?:\[([^\]]*)\])?"
+consistent!(chord3_3, r"([^\[]*)(?:\[([^\]]*)\])?");
+
+// checkmail-0.1.1: "^[a-zA-Z0-9.!#$%&'*+/=?^_`{|}~-]+@[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)*$"
+consistent!(checkmail_0, "^[a-zA-Z0-9.!#$%&'*+/=?^_`{|}~-]+@[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?(?:\\.[a-zA-Z0-9](?:[a-zA-Z0-9-]{0,61}[a-zA-Z0-9])?)*$");
+
+// cntk-0.2.1: r"\b\w\w+\b"
+consistent!(cntk_0, r"\b\w\w+\b");
+
+// cntk-0.2.1: r"\b\w\w+\b"
+consistent!(cntk_1, r"\b\w\w+\b");
+
+// cniguru-0.1.0: r"\(id: (\d+)\)"
+consistent!(cniguru_0, r"\(id: (\d+)\)");
+
+// upm_lib-0.3.0: r"^(\d+)\.(\d+)\.(\d+)(?:-([\dA-Za-z-]+(?:\.[\dA-Za-z-]+)*))?(?:\+([\dA-Za-z-]+(?:\.[\dA-Za-z-]+)*))?$"
+consistent!(upm_lib_0, r"^(\d+)\.(\d+)\.(\d+)(?:-([\dA-Za-z-]+(?:\.[\dA-Za-z-]+)*))?(?:\+([\dA-Za-z-]+(?:\.[\dA-Za-z-]+)*))?$");
+
+// avro-0.2.1: r"^\s*(\*+(\s+))?"
+consistent!(avro_0, r"^\s*(\*+(\s+))?");
+
+// avro-0.2.1: r"^\s*(\*+)?"
+consistent!(avro_1, r"^\s*(\*+)?");
+
+// nomi-0.0.2: "[0-9]+"
+consistent!(nomi_0, "[0-9]+");
+
+// nodes-0.1.0: "([0-9]+)@(?:nodes|n)?:([^@]+)?"
+consistent!(nodes_0, "([0-9]+)@(?:nodes|n)?:([^@]+)?");
+
+// not-stakkr-1.0.0: r"(?i)in (\d+) (second|minute|hour|day|week)s?"
+consistent!(not_stakkr_0, r"(?i)in (\d+) (second|minute|hour|day|week)s?");
+
+// notetxt-0.0.1: "^([A-Za-z0-9 -_:]+)\n-+\n"
+consistent!(notetxt_0, "^([A-Za-z0-9 -_:]+)\n-+\n");
+
+// nail-0.1.0-pre.0: r"^-?[0-9]+(\.[0-9]+)?([eE]-?[0-9]+)?$"
+consistent!(nail_0, r"^-?[0-9]+(\.[0-9]+)?([eE]-?[0-9]+)?$");
+
+// nail-0.1.0-pre.0: r"^-?[0-9]+$"
+consistent!(nail_1, r"^-?[0-9]+$");
+
+// askalono-0.2.0: r"[^\w\s\pP]+"
+consistent!(askalono_0, r"[^\w\s\pP]+");
+
+// askalono-0.2.0: r"(?x)[ \t\p{Zs} \\ / \| \x2044 ]+"
+consistent!(askalono_1, r"(?x)[ \t\p{Zs} \\ / \| \x2044 ]+");
+
+// askalono-0.2.0: r"\p{Pd}+"
+consistent!(askalono_2, r"\p{Pd}+");
+
+// askalono-0.2.0: r"\p{Ps}+"
+consistent!(askalono_3, r"\p{Ps}+");
+
+// askalono-0.2.0: r"\p{Pe}+"
+consistent!(askalono_4, r"\p{Pe}+");
+
+// askalono-0.2.0: r"\p{Pc}+"
+consistent!(askalono_5, r"\p{Pc}+");
+
+// askalono-0.2.0: r"[©Ⓒⓒ]"
+consistent!(askalono_6, r"[©Ⓒⓒ]");
+
+// askalono-0.2.0: r"[\r\n\v\f]"
+consistent!(askalono_7, r"[\r\n\v\f]");
+
+// askalono-0.2.0: r"\n{3,}"
+consistent!(askalono_8, r"\n{3,}");
+
+// askalono-0.2.0: r"[^\w\s]+"
+consistent!(askalono_9, r"[^\w\s]+");
+
+// askalono-0.2.0: r"\s+"
+consistent!(askalono_10, r"\s+");
+
+// assembunny_plus-0.0.3: r"[^0-9a-zA-Z_]"
+consistent!(assembunny_plus_0, r"[^0-9a-zA-Z_]");
+
+// assembunny_plus-0.0.3: r"[0-9]"
+consistent!(assembunny_plus_1, r"[0-9]");
+
+// salt-compressor-0.4.0: r"(?m)^Minion (\S*) did not respond\. No job will be sent\.$"
+consistent!(
+    salt_compressor_0,
+    r"(?m)^Minion (\S*) did not respond\. No job will be sent\.$"
+);
+
+// sabisabi-0.4.1: r"</?[^>]+?>"
+consistent!(sabisabi_0, r"</?[^>]+?>");
+
+// sabisabi-0.4.1: r"\([^)]*\)"
+consistent!(sabisabi_1, r"\([^)]*\)");
+
+// sassers-0.13.5-h28: "@import \"([^\"]*)\";"
+consistent!(sassers_0, "@import \"([^\"]*)\";");
+
+// shadowsocks-0.6.2: r"[A-Za-z\d-]{1,63}$"
+consistent!(shadowsocks_0, r"[A-Za-z\d-]{1,63}$");
+
+// shkeleton-0.1.5: "[abc]+"
+consistent!(shkeleton_0, "[abc]+");
+
+// shellwords-0.1.0: r"([^A-Za-z0-9_\-.,:/@\n])"
+consistent!(shellwords_0, r"([^A-Za-z0-9_\-.,:/@\n])");
+
+// shellwords-0.1.0: r"\n"
+consistent!(shellwords_1, r"\n");
+
+// shush-0.1.5: "(?P<num>[0-9]+)(?P<units>[dhms])"
+consistent!(shush_0, "(?P<num>[0-9]+)(?P<units>[dhms])");
+
+// woothee-0.8.0: r"(?:Chrome|CrMo|CriOS)/([.0-9]+)"
+consistent!(woothee_0, r"(?:Chrome|CrMo|CriOS)/([.0-9]+)");
+
+// woothee-0.8.0: r"Vivaldi/([.0-9]+)"
+consistent!(woothee_1, r"Vivaldi/([.0-9]+)");
+
+// woothee-0.8.0: r"Firefox/([.0-9]+)"
+consistent!(woothee_2, r"Firefox/([.0-9]+)");
+
+// woothee-0.8.0: r"^Mozilla/[.0-9]+ \((?:Mobile|Tablet);(?:.*;)? rv:([.0-9]+)\) Gecko/[.0-9]+ Firefox/[.0-9]+$"
+consistent!(woothee_3, r"^Mozilla/[.0-9]+ \((?:Mobile|Tablet);(?:.*;)? rv:([.0-9]+)\) Gecko/[.0-9]+ Firefox/[.0-9]+$");
+
+// woothee-0.8.0: r"FxiOS/([.0-9]+)"
+consistent!(woothee_4, r"FxiOS/([.0-9]+)");
+
+// woothee-0.8.0: r"\(([^;)]+);FOMA;"
+consistent!(woothee_5, r"\(([^;)]+);FOMA;");
+
+// woothee-0.8.0: r"jig browser[^;]+; ([^);]+)"
+consistent!(woothee_6, r"jig browser[^;]+; ([^);]+)");
+
+// woothee-0.8.0: r"(?i)rss(?:reader|bar|[-_ /;()]|[ +]*/)"
+consistent!(woothee_7, r"(?i)rss(?:reader|bar|[-_ /;()]|[ +]*/)");
+
+// woothee-0.8.0: r"(?i)(?:bot|crawler|spider)(?:[-_ ./;@()]|$)"
+consistent!(woothee_8, r"(?i)(?:bot|crawler|spider)(?:[-_ ./;@()]|$)");
+
+// woothee-0.8.0: r"(?i)(?:feed|web) ?parser"
+consistent!(woothee_9, r"(?i)(?:feed|web) ?parser");
+
+// woothee-0.8.0: r"(?i)watch ?dog"
+consistent!(woothee_10, r"(?i)watch ?dog");
+
+// woothee-0.8.0: r"Edge/([.0-9]+)"
+consistent!(woothee_11, r"Edge/([.0-9]+)");
+
+// woothee-0.8.0: r"MSIE ([.0-9]+);"
+consistent!(woothee_12, r"MSIE ([.0-9]+);");
+
+// woothee-0.8.0: r"Version/([.0-9]+)"
+consistent!(woothee_13, r"Version/([.0-9]+)");
+
+// woothee-0.8.0: r"Opera[/ ]([.0-9]+)"
+consistent!(woothee_14, r"Opera[/ ]([.0-9]+)");
+
+// woothee-0.8.0: r"OPR/([.0-9]+)"
+consistent!(woothee_15, r"OPR/([.0-9]+)");
+
+// woothee-0.8.0: r"Version/([.0-9]+)"
+consistent!(woothee_16, r"Version/([.0-9]+)");
+
+// woothee-0.8.0: r"(?:SoftBank|Vodafone|J-PHONE)/[.0-9]+/([^ /;()]+)"
+consistent!(woothee_17, r"(?:SoftBank|Vodafone|J-PHONE)/[.0-9]+/([^ /;()]+)");
+
+// woothee-0.8.0: r"Trident/([.0-9]+);"
+consistent!(woothee_18, r"Trident/([.0-9]+);");
+
+// woothee-0.8.0: r" rv:([.0-9]+)"
+consistent!(woothee_19, r" rv:([.0-9]+)");
+
+// woothee-0.8.0: r"IEMobile/([.0-9]+);"
+consistent!(woothee_20, r"IEMobile/([.0-9]+);");
+
+// woothee-0.8.0: r"(?:WILLCOM|DDIPOCKET);[^/]+/([^ /;()]+)"
+consistent!(woothee_21, r"(?:WILLCOM|DDIPOCKET);[^/]+/([^ /;()]+)");
+
+// woothee-0.8.0: r"Windows ([ .a-zA-Z0-9]+)[;\\)]"
+consistent!(woothee_22, r"Windows ([ .a-zA-Z0-9]+)[;\\)]");
+
+// woothee-0.8.0: r"^Phone(?: OS)? ([.0-9]+)"
+consistent!(woothee_23, r"^Phone(?: OS)? ([.0-9]+)");
+
+// woothee-0.8.0: r"iP(hone;|ad;|od) .*like Mac OS X"
+consistent!(woothee_24, r"iP(hone;|ad;|od) .*like Mac OS X");
+
+// woothee-0.8.0: r"Version/([.0-9]+)"
+consistent!(woothee_25, r"Version/([.0-9]+)");
+
+// woothee-0.8.0: r"rv:(\d+\.\d+\.\d+)"
+consistent!(woothee_26, r"rv:(\d+\.\d+\.\d+)");
+
+// woothee-0.8.0: r"FreeBSD ([^;\)]+);"
+consistent!(woothee_27, r"FreeBSD ([^;\)]+);");
+
+// woothee-0.8.0: r"CrOS ([^\)]+)\)"
+consistent!(woothee_28, r"CrOS ([^\)]+)\)");
+
+// woothee-0.8.0: r"Android[- ](\d+\.\d+(?:\.\d+)?)"
+consistent!(woothee_29, r"Android[- ](\d+\.\d+(?:\.\d+)?)");
+
+// woothee-0.8.0: r"PSP \(PlayStation Portable\); ([.0-9]+)\)"
+consistent!(woothee_30, r"PSP \(PlayStation Portable\); ([.0-9]+)\)");
+
+// woothee-0.8.0: r"PLAYSTATION 3;? ([.0-9]+)\)"
+consistent!(woothee_31, r"PLAYSTATION 3;? ([.0-9]+)\)");
+
+// woothee-0.8.0: r"PlayStation Vita ([.0-9]+)\)"
+consistent!(woothee_32, r"PlayStation Vita ([.0-9]+)\)");
+
+// woothee-0.8.0: r"PlayStation 4 ([.0-9]+)\)"
+consistent!(woothee_33, r"PlayStation 4 ([.0-9]+)\)");
+
+// woothee-0.8.0: r"BB10(?:.+)Version/([.0-9]+) "
+consistent!(woothee_34, r"BB10(?:.+)Version/([.0-9]+) ");
+
+// woothee-0.8.0: r"BlackBerry(?:\d+)/([.0-9]+) "
+consistent!(woothee_35, r"BlackBerry(?:\d+)/([.0-9]+) ");
+
+// woothee-0.8.0: r"; CPU(?: iPhone)? OS (\d+_\d+(?:_\d+)?) like Mac OS X"
+consistent!(
+    woothee_36,
+    r"; CPU(?: iPhone)? OS (\d+_\d+(?:_\d+)?) like Mac OS X"
+);
+
+// woothee-0.8.0: r"Mac OS X (10[._]\d+(?:[._]\d+)?)(?:\)|;)"
+consistent!(woothee_37, r"Mac OS X (10[._]\d+(?:[._]\d+)?)(?:\)|;)");
+
+// woothee-0.8.0: r"^(?:Apache-HttpClient/|Jakarta Commons-HttpClient/|Java/)"
+consistent!(
+    woothee_38,
+    r"^(?:Apache-HttpClient/|Jakarta Commons-HttpClient/|Java/)"
+);
+
+// woothee-0.8.0: r"[- ]HttpClient(/|$)"
+consistent!(woothee_39, r"[- ]HttpClient(/|$)");
+
+// woothee-0.8.0: r"^(?:PHP|WordPress|CakePHP|PukiWiki|PECL::HTTP)(?:/| |$)"
+consistent!(
+    woothee_40,
+    r"^(?:PHP|WordPress|CakePHP|PukiWiki|PECL::HTTP)(?:/| |$)"
+);
+
+// woothee-0.8.0: r"(?:PEAR HTTP_Request|HTTP_Request)(?: class|2)"
+consistent!(woothee_41, r"(?:PEAR HTTP_Request|HTTP_Request)(?: class|2)");
+
+// woothee-0.8.0: r"(?:Rome Client |UnwindFetchor/|ia_archiver |Summify |PostRank/)"
+consistent!(
+    woothee_42,
+    r"(?:Rome Client |UnwindFetchor/|ia_archiver |Summify |PostRank/)"
+);
+
+// woothee-0.8.0: r"Sleipnir/([.0-9]+)"
+consistent!(woothee_43, r"Sleipnir/([.0-9]+)");
+
+// word_replace-0.0.3: r"@@[a-z|A-Z|\d]+@@"
+consistent!(word_replace_0, r"@@[a-z|A-Z|\d]+@@");
+
+// wordcount-0.1.0: r"\w+"
+consistent!(wordcount_0, r"\w+");
+
+// just-0.3.12: "^([^=]+)=(.*)$"
+consistent!(just_0, "^([^=]+)=(.*)$");
+
+// emote-0.1.0: r":[a-zA-Z_]+?:"
+consistent!(emote_0, r":[a-zA-Z_]+?:");
+
+// emojicons-1.0.1: r":([a-zA-Z0-9_+-]+):"
+consistent!(emojicons_0, r":([a-zA-Z0-9_+-]+):");
+
+// git2_codecommit-0.1.2: r"git-codecommit\.([a-z0-9-]+)\.amazonaws\.com"
+consistent!(
+    git2_codecommit_0,
+    r"git-codecommit\.([a-z0-9-]+)\.amazonaws\.com"
+);
+
+// git-workarea-3.1.2: r"^submodule\.(?P<name>.*)\.(?P<key>[^=]*)=(?P<value>.*)$"
+consistent!(
+    git_workarea_0,
+    r"^submodule\.(?P<name>.*)\.(?P<key>[^=]*)=(?P<value>.*)$"
+);
+
+// git-shell-enforce-directory-1.0.0: r"^(?P<command>git-(?:receive|upload)-pack) '(?P<path>.+)'$"
+consistent!(
+    git_shell_enforce_directory_0,
+    r"^(?P<command>git-(?:receive|upload)-pack) '(?P<path>.+)'$"
+);
+
+// git-journal-1.6.3: r"[ \n]:(.*?):"
+consistent!(git_journal_0, r"[ \n]:(.*?):");
+
+// git-find-0.3.2: r"^git@(?P<host>[[:alnum:]\._-]+):(?P<path>[[:alnum:]\._\-/]+).git$"
+consistent!(
+    git_find_0,
+    r"^git@(?P<host>[[:alnum:]\._-]+):(?P<path>[[:alnum:]\._\-/]+).git$"
+);
+
+// gitlab-api-0.6.0: r"private_token=\w{20}"
+consistent!(gitlab_api_0, r"private_token=\w{20}");
+
+// td-client-0.7.0: "^(http://|https://)"
+consistent!(td_client_0, "^(http://|https://)");
+
+// karaconv-0.3.0: r"--(?P<type>[a-zA-Z]+)-- (?P<contents>.*)"
+consistent!(karaconv_0, r"--(?P<type>[a-zA-Z]+)-- (?P<contents>.*)");
+
+// katana-1.0.2: r"(?P<comp>et al\.)(?:\.)"
+consistent!(katana_0, r"(?P<comp>et al\.)(?:\.)");
+
+// katana-1.0.2: r"\.{3}"
+consistent!(katana_1, r"\.{3}");
+
+// katana-1.0.2: r"(?P<number>[0-9]+)\.(?P<decimal>[0-9]+)"
+consistent!(katana_2, r"(?P<number>[0-9]+)\.(?P<decimal>[0-9]+)");
+
+// katana-1.0.2: r"\s\.(?P<nums>[0-9]+)"
+consistent!(katana_3, r"\s\.(?P<nums>[0-9]+)");
+
+// katana-1.0.2: r"(?:[A-Za-z]\.){2,}"
+consistent!(katana_4, r"(?:[A-Za-z]\.){2,}");
+
+// katana-1.0.2: r"(?P<init>[A-Z])(?P<point>\.)"
+consistent!(katana_5, r"(?P<init>[A-Z])(?P<point>\.)");
+
+// katana-1.0.2: r"(?P<title>[A-Z][a-z]{1,3})(\.)"
+consistent!(katana_6, r"(?P<title>[A-Z][a-z]{1,3})(\.)");
+
+// katana-1.0.2: r"&==&(?P<p>[.!?])"
+consistent!(katana_7, r"&==&(?P<p>[.!?])");
+
+// katana-1.0.2: r"&\^&(?P<p>[.!?])"
+consistent!(katana_8, r"&\^&(?P<p>[.!?])");
+
+// katana-1.0.2: r"&\*\*&(?P<p>[.!?])"
+consistent!(katana_9, r"&\*\*&(?P<p>[.!?])");
+
+// katana-1.0.2: r"&=&(?P<p>[.!?])"
+consistent!(katana_10, r"&=&(?P<p>[.!?])");
+
+// katana-1.0.2: r"&##&(?P<p>[.!?])"
+consistent!(katana_11, r"&##&(?P<p>[.!?])");
+
+// katana-1.0.2: r"&\$&(?P<p>[.!?])"
+consistent!(katana_12, r"&\$&(?P<p>[.!?])");
+
+// kailua_syntax-1.1.0: r"@(?:_|\d+(?:/\d+(?:-\d+)?)?)"
+consistent!(kailua_syntax_0, r"@(?:_|\d+(?:/\d+(?:-\d+)?)?)");
+
+// kailua_syntax-1.1.0: r"<(\d+)>"
+consistent!(kailua_syntax_1, r"<(\d+)>");
+
+// ftp-3.0.1: r"\((\d+),(\d+),(\d+),(\d+),(\d+),(\d+)\)"
+consistent!(ftp_0, r"\((\d+),(\d+),(\d+),(\d+),(\d+),(\d+)\)");
+
+// ftp-3.0.1: r"\b(\d{4})(\d{2})(\d{2})(\d{2})(\d{2})(\d{2})\b"
+consistent!(ftp_1, r"\b(\d{4})(\d{2})(\d{2})(\d{2})(\d{2})(\d{2})\b");
+
+// ftp-3.0.1: r"\s+(\d+)\s*$"
+consistent!(ftp_2, r"\s+(\d+)\s*$");
+
+// vat-0.1.0: r"<countryCode>(.*?)</countryCode>"
+consistent!(vat_0, r"<countryCode>(.*?)</countryCode>");
+
+// vat-0.1.0: r"<vatNumber>(.*?)</vatNumber>"
+consistent!(vat_1, r"<vatNumber>(.*?)</vatNumber>");
+
+// vat-0.1.0: r"<name>(.*?)</name>"
+consistent!(vat_2, r"<name>(.*?)</name>");
+
+// vat-0.1.0: r"<address>(?s)(.*?)(?-s)</address>"
+consistent!(vat_3, r"<address>(?s)(.*?)(?-s)</address>");
+
+// vat-0.1.0: r"<valid>(true|false)</valid>"
+consistent!(vat_4, r"<valid>(true|false)</valid>");
+
+// vat-0.1.0: r"^ATU\d{8}$"
+consistent!(vat_5, r"^ATU\d{8}$");
+
+// vat-0.1.0: r"^BE0?\d{9, 10}$"
+consistent!(vat_6, r"^BE0?\d{9, 10}$");
+
+// vat-0.1.0: r"^BG\d{9,10}$"
+consistent!(vat_7, r"^BG\d{9,10}$");
+
+// vat-0.1.0: r"^HR\d{11}$"
+consistent!(vat_8, r"^HR\d{11}$");
+
+// vat-0.1.0: r"^CY\d{8}[A-Z]$"
+consistent!(vat_9, r"^CY\d{8}[A-Z]$");
+
+// vat-0.1.0: r"^CZ\d{8,10}$"
+consistent!(vat_10, r"^CZ\d{8,10}$");
+
+// vat-0.1.0: r"^DK\d{8}$"
+consistent!(vat_11, r"^DK\d{8}$");
+
+// vat-0.1.0: r"^EE\d{9}$"
+consistent!(vat_12, r"^EE\d{9}$");
+
+// vat-0.1.0: r"^FI\d{8}$"
+consistent!(vat_13, r"^FI\d{8}$");
+
+// vat-0.1.0: r"^FR[A-HJ-NP-Z0-9][A-HJ-NP-Z0-9]\d{9}$"
+consistent!(vat_14, r"^FR[A-HJ-NP-Z0-9][A-HJ-NP-Z0-9]\d{9}$");
+
+// vat-0.1.0: r"^DE\d{9}$"
+consistent!(vat_15, r"^DE\d{9}$");
+
+// vat-0.1.0: r"^EL\d{9}$"
+consistent!(vat_16, r"^EL\d{9}$");
+
+// vat-0.1.0: r"^HU\d{8}$"
+consistent!(vat_17, r"^HU\d{8}$");
+
+// vat-0.1.0: r"^IE\d[A-Z0-9\+\*]\d{5}[A-Z]{1,2}$"
+consistent!(vat_18, r"^IE\d[A-Z0-9\+\*]\d{5}[A-Z]{1,2}$");
+
+// vat-0.1.0: r"^IT\d{11}$"
+consistent!(vat_19, r"^IT\d{11}$");
+
+// vat-0.1.0: r"^LV\d{11}$"
+consistent!(vat_20, r"^LV\d{11}$");
+
+// vat-0.1.0: r"^LT(\d{9}|\d{12})$"
+consistent!(vat_21, r"^LT(\d{9}|\d{12})$");
+
+// vat-0.1.0: r"^LU\d{8}$"
+consistent!(vat_22, r"^LU\d{8}$");
+
+// vat-0.1.0: r"^MT\d{8}$"
+consistent!(vat_23, r"^MT\d{8}$");
+
+// vat-0.1.0: r"^NL\d{9}B\d{2}$"
+consistent!(vat_24, r"^NL\d{9}B\d{2}$");
+
+// vat-0.1.0: r"^PL\d{10}$"
+consistent!(vat_25, r"^PL\d{10}$");
+
+// vat-0.1.0: r"^PT\d{9}$"
+consistent!(vat_26, r"^PT\d{9}$");
+
+// vat-0.1.0: r"^RO\d{2,10}$"
+consistent!(vat_27, r"^RO\d{2,10}$");
+
+// vat-0.1.0: r"^SK\d{10}$"
+consistent!(vat_28, r"^SK\d{10}$");
+
+// vat-0.1.0: r"^SI\d{8}$"
+consistent!(vat_29, r"^SI\d{8}$");
+
+// vat-0.1.0: r"^ES[A-Z0-9]\d{7}[A-Z0-9]$"
+consistent!(vat_30, r"^ES[A-Z0-9]\d{7}[A-Z0-9]$");
+
+// vat-0.1.0: r"^SE\d{10}01$"
+consistent!(vat_31, r"^SE\d{10}01$");
+
+// vat-0.1.0: r"^(GB(GD|HA)\d{3}|GB\d{9}|GB\d{12})$"
+consistent!(vat_32, r"^(GB(GD|HA)\d{3}|GB\d{9}|GB\d{12})$");
+
+// eve-0.1.1: r"\{\{(.*)\}\}"
+consistent!(eve_0, r"\{\{(.*)\}\}");
+
+// egc-0.1.2: "^mio"
+consistent!(egc_0, "^mio");
+
+// pew-0.2.3: ""
+consistent!(pew_0, "");
+
+// pew-0.2.3: ""
+consistent!(pew_1, "");
+
+// mob-0.4.3: "y"
+consistent!(mob_0, "y");
+
+// lit-0.2.8: "@([a-z]+)"
+consistent!(lit_0, "@([a-z]+)");
+
+// lit-0.2.8: "([A-Z-]+):(.*)"
+consistent!(lit_1, "([A-Z-]+):(.*)");
+
+// lit-0.2.8: "^[a-zA-Z_][a-zA-Z0-9_]*$"
+consistent!(lit_2, "^[a-zA-Z_][a-zA-Z0-9_]*$");
+
+// avm-1.0.1: r"\d+\.\d+\.\d+"
+consistent!(avm_0, r"\d+\.\d+\.\d+");
+
+// avm-1.0.1: r"\d+\.\d+\.\d+"
+consistent!(avm_1, r"\d+\.\d+\.\d+");
+
+// orm-0.2.0: r"^Vec<(.+)>$"
+consistent!(orm_0, r"^Vec<(.+)>$");
+
+// sgf-0.1.5: r"\\(\r\n|\n\r|\n|\r)"
+consistent!(sgf_0, r"\\(\r\n|\n\r|\n|\r)");
+
+// sgf-0.1.5: r"\\(.)"
+consistent!(sgf_1, r"\\(.)");
+
+// sgf-0.1.5: r"\r\n|\n\r|\n|\r"
+consistent!(sgf_2, r"\r\n|\n\r|\n|\r");
+
+// sgf-0.1.5: r"([\]\\:])"
+consistent!(sgf_3, r"([\]\\:])");
+
+// dok-0.2.0: "^Bearer realm=\"(.+?)\",service=\"(.+?)\",scope=\"(.+?)\"$"
+consistent!(
+    dok_0,
+    "^Bearer realm=\"(.+?)\",service=\"(.+?)\",scope=\"(.+?)\"$"
+);
+
+// d20-0.1.0: r"([+-]?\s*\d+[dD]\d+|[+-]?\s*\d+)"
+consistent!(d20_0, r"([+-]?\s*\d+[dD]\d+|[+-]?\s*\d+)");
+
+// dvb-0.3.0: "E"
+consistent!(dvb_0, "E");
+
+// dvb-0.3.0: "^F"
+consistent!(dvb_1, "^F");
+
+// dvb-0.3.0: "^S"
+consistent!(dvb_2, "^S");
+
+// ger-0.2.0: r"Change-Id: (I[a-f0-9]{40})$"
+consistent!(ger_0, r"Change-Id: (I[a-f0-9]{40})$");
+
+// ger-0.2.0: r"(refs|ref|fix|fixes|close|closes)\s+([A-Z]{2,5}-[0-9]{1,5})$"
+consistent!(
+    ger_1,
+    r"(refs|ref|fix|fixes|close|closes)\s+([A-Z]{2,5}-[0-9]{1,5})$"
+);
+
+// n5-0.2.1: r"(\d+)(\.(\d+))?(\.(\d+))?(.*)"
+consistent!(n5_0, r"(\d+)(\.(\d+))?(\.(\d+))?(.*)");
+
+// po-0.1.4: r"[A-Za-z0-9]"
+consistent!(po_0, r"[A-Za-z0-9]");
+
+// carnix-0.8.5: "path is (‘|')?([^’'\n]*)(’|')?"
+consistent!(carnix_0, "path is (‘|')?([^’'\n]*)(’|')?");
+
+// carnix-0.8.5: r"^(\S*) (\d*)\.(\d*)\.(\d*)(-(\S*))?(.*)?"
+consistent!(carnix_1, r"^(\S*) (\d*)\.(\d*)\.(\d*)(-(\S*))?(.*)?");
+
+// carnix-0.8.5: r"(\d*)\.(\d*)\.(\d*)(-(\S*))?"
+consistent!(carnix_2, r"(\d*)\.(\d*)\.(\d*)(-(\S*))?");
+
+// carnix-0.8.5: r"(\S*)-(\d*)\.(\d*)\.(\d*)(-(\S*))?"
+consistent!(carnix_3, r"(\S*)-(\d*)\.(\d*)\.(\d*)(-(\S*))?");
+
+// caseless-0.2.1: r"^# CaseFolding-(\d+)\.(\d+)\.(\d+).txt$"
+consistent!(caseless_0, r"^# CaseFolding-(\d+)\.(\d+)\.(\d+).txt$");
+
+// caseless-0.2.1: r"^([0-9A-F]+); [CF]; ([0-9A-F ]+);"
+consistent!(caseless_1, r"^([0-9A-F]+); [CF]; ([0-9A-F ]+);");
+
+// cabot-0.2.0: "\r?\n\r?\n"
+consistent!(cabot_0, "\r?\n\r?\n");
+
+// cabot-0.2.0: "\r?\n"
+consistent!(cabot_1, "\r?\n");
+
+// card-validate-2.2.1: r"^600"
+consistent!(card_validate_0, r"^600");
+
+// card-validate-2.2.1: r"^5019"
+consistent!(card_validate_1, r"^5019");
+
+// card-validate-2.2.1: r"^4"
+consistent!(card_validate_2, r"^4");
+
+// card-validate-2.2.1: r"^(5[1-5]|2[2-7])"
+consistent!(card_validate_3, r"^(5[1-5]|2[2-7])");
+
+// card-validate-2.2.1: r"^3[47]"
+consistent!(card_validate_4, r"^3[47]");
+
+// card-validate-2.2.1: r"^3[0689]"
+consistent!(card_validate_5, r"^3[0689]");
+
+// card-validate-2.2.1: r"^6([045]|22)"
+consistent!(card_validate_6, r"^6([045]|22)");
+
+// card-validate-2.2.1: r"^(62|88)"
+consistent!(card_validate_7, r"^(62|88)");
+
+// card-validate-2.2.1: r"^35"
+consistent!(card_validate_8, r"^35");
+
+// card-validate-2.2.1: r"^[0-9]+$"
+consistent!(card_validate_9, r"^[0-9]+$");
+
+// cargo-testify-0.3.0: r"\d{1,} passed.*filtered out"
+consistent!(cargo_testify_0, r"\d{1,} passed.*filtered out");
+
+// cargo-testify-0.3.0: r"error(:|\[).*"
+consistent!(cargo_testify_1, r"error(:|\[).*");
+
+// cargo-wix-0.0.5: r"<(.*?)>"
+consistent!(cargo_wix_0, r"<(.*?)>");
+
+// cargo-wix-0.0.5: r"<(.*?)>"
+consistent!(cargo_wix_1, r"<(.*?)>");
+
+// cargo-wix-0.0.5: r"<(.*?)>"
+consistent!(cargo_wix_2, r"<(.*?)>");
+
+// cargo-wix-0.0.5: r"<(.*?)>"
+consistent!(cargo_wix_3, r"<(.*?)>");
+
+// cargo-incremental-0.1.23: r"(?m)^incremental: re-using (\d+) out of (\d+) modules$"
+consistent!(
+    cargo_incremental_0,
+    r"(?m)^incremental: re-using (\d+) out of (\d+) modules$"
+);
+
+// cargo-incremental-0.1.23: "(?m)(warning|error): (.*)\n  --> ([^:]:\\d+:\\d+)$"
+consistent!(
+    cargo_incremental_1,
+    "(?m)(warning|error): (.*)\n  --> ([^:]:\\d+:\\d+)$"
+);
+
+// cargo-incremental-0.1.23: r"(?m)^test (.*) \.\.\. (\w+)"
+consistent!(cargo_incremental_2, r"(?m)^test (.*) \.\.\. (\w+)");
+
+// cargo-incremental-0.1.23: r"(?m)(\d+) passed; (\d+) failed; (\d+) ignored; \d+ measured"
+consistent!(
+    cargo_incremental_3,
+    r"(?m)(\d+) passed; (\d+) failed; (\d+) ignored; \d+ measured"
+);
+
+// cargo-testjs-0.1.2: r"^[^-]+-[0-9a-f]+\.js$"
+consistent!(cargo_testjs_0, r"^[^-]+-[0-9a-f]+\.js$");
+
+// cargo-tarpaulin-0.6.2: r"\s*//"
+consistent!(cargo_tarpaulin_0, r"\s*//");
+
+// cargo-tarpaulin-0.6.2: r"/\*"
+consistent!(cargo_tarpaulin_1, r"/\*");
+
+// cargo-tarpaulin-0.6.2: r"\*/"
+consistent!(cargo_tarpaulin_2, r"\*/");
+
+// cargo-culture-kit-0.1.0: r"^fo"
+consistent!(cargo_culture_kit_0, r"^fo");
+
+// cargo-screeps-0.1.3: "\\s+"
+consistent!(cargo_screeps_0, "\\s+");
+
+// cargo-brew-0.1.4: r"`(\S+) v([0-9.]+)"
+consistent!(cargo_brew_0, r"`(\S+) v([0-9.]+)");
+
+// cargo-release-0.10.2: "^\\[.+\\]"
+consistent!(cargo_release_0, "^\\[.+\\]");
+
+// cargo-release-0.10.2: "^\\[\\[.+\\]\\]"
+consistent!(cargo_release_1, "^\\[\\[.+\\]\\]");
+
+// cargo-edit-0.3.0-beta.1: r"^https://github.com/([-_0-9a-zA-Z]+)/([-_0-9a-zA-Z]+)(/|.git)?$"
+consistent!(
+    cargo_edit_0,
+    r"^https://github.com/([-_0-9a-zA-Z]+)/([-_0-9a-zA-Z]+)(/|.git)?$"
+);
+
+// cargo-edit-0.3.0-beta.1: r"^https://gitlab.com/([-_0-9a-zA-Z]+)/([-_0-9a-zA-Z]+)(/|.git)?$"
+consistent!(
+    cargo_edit_1,
+    r"^https://gitlab.com/([-_0-9a-zA-Z]+)/([-_0-9a-zA-Z]+)(/|.git)?$"
+);
+
+// cargo-disassemble-0.1.1: ".*"
+consistent!(cargo_disassemble_0, ".*");
+
+// cargo-demangle-0.1.2: r"(?m)(?P<symbol>_ZN[0-9]+.*E)"
+consistent!(cargo_demangle_0, r"(?m)(?P<symbol>_ZN[0-9]+.*E)");
+
+// cargo-coverage-annotations-0.1.5: r"^\s*\}(?:\)*;?|\s*else\s*\{)$"
+consistent!(cargo_coverage_annotations_0, r"^\s*\}(?:\)*;?|\s*else\s*\{)$");
+
+// cargo-urlcrate-1.0.1: "[\u{001b}\u{009b}][\\[()#;?]*(?:[0-9]{1,4}(?:;[0-9]{0,4})*)?[0-9A-PRZcf-nqry=><]"
+consistent!(cargo_urlcrate_0, "[\u{001b}\u{009b}][\\[()#;?]*(?:[0-9]{1,4}(?:;[0-9]{0,4})*)?[0-9A-PRZcf-nqry=><]");
+
+// cargo-script-0.2.8: r"^\s*\*( |$)"
+consistent!(cargo_script_0, r"^\s*\*( |$)");
+
+// cargo-script-0.2.8: r"^(\s+)"
+consistent!(cargo_script_1, r"^(\s+)");
+
+// cargo-script-0.2.8: r"/\*|\*/"
+consistent!(cargo_script_2, r"/\*|\*/");
+
+// cargo-script-0.2.8: r"^\s*//!"
+consistent!(cargo_script_3, r"^\s*//!");
+
+// cargo-script-0.2.8: r"^#![^\[].*?(\r\n|\n)"
+consistent!(cargo_script_4, r"^#![^\[].*?(\r\n|\n)");
+
+// cargo-update-1.5.2: r"cargo-install-update\.exe-v.+"
+consistent!(cargo_update_0, r"cargo-install-update\.exe-v.+");
+
+// canteen-0.4.1: r"^<(?:(int|uint|str|float|path):)?([\w_][a-zA-Z0-9_]*)>$"
+consistent!(
+    canteen_0,
+    r"^<(?:(int|uint|str|float|path):)?([\w_][a-zA-Z0-9_]*)>$"
+);
+
+// thruster-cli-0.1.3: r"(.)([A-Z])"
+consistent!(thruster_cli_0, r"(.)([A-Z])");
+
+// thieves-cant-0.1.0: "([Z]+)$"
+consistent!(thieves_cant_0, "([Z]+)$");
+
+// codeowners-0.1.3: r"^@\S+/\S+"
+consistent!(codeowners_0, r"^@\S+/\S+");
+
+// codeowners-0.1.3: r"^@\S+"
+consistent!(codeowners_1, r"^@\S+");
+
+// codeowners-0.1.3: r"^\S+@\S+"
+consistent!(codeowners_2, r"^\S+@\S+");
+
+// conserve-0.4.2: r"^b0000 {21} complete   20[-0-9T:+]+\s +\d+s\n$"
+consistent!(conserve_0, r"^b0000 {21} complete   20[-0-9T:+]+\s +\d+s\n$");
+
+// commodore-0.3.0: r"(?P<greeting>\S+?) (?P<name>\S+?)$"
+consistent!(commodore_0, r"(?P<greeting>\S+?) (?P<name>\S+?)$");
+
+// corollary-0.3.0: r"([ \t]*)```haskell([\s\S]*?)```"
+consistent!(corollary_0, r"([ \t]*)```haskell([\s\S]*?)```");
+
+// corollary-0.3.0: r"\b((?:a|b|t)\d*)\b"
+consistent!(corollary_1, r"\b((?:a|b|t)\d*)\b");
+
+// colorizex-0.1.3: "NB"
+consistent!(colorizex_0, "NB");
+
+// colorstring-0.0.1: r"(?i)\[[a-z0-9_-]+\]"
+consistent!(colorstring_0, r"(?i)\[[a-z0-9_-]+\]");
+
+// colorstring-0.0.1: r"^(?i)(\[[a-z0-9_-]+\])+"
+consistent!(colorstring_1, r"^(?i)(\[[a-z0-9_-]+\])+");
+
+// cosmogony-0.3.0: "name:(.+)"
+consistent!(cosmogony_0, "name:(.+)");
+
+// cobalt-bin-0.12.1: r"(?m:^ {0,3}\[[^\]]+\]:.+$)"
+consistent!(cobalt_bin_0, r"(?m:^ {0,3}\[[^\]]+\]:.+$)");
+
+// comrak-0.2.12: r"[^\p{L}\p{M}\p{N}\p{Pc} -]"
+consistent!(comrak_0, r"[^\p{L}\p{M}\p{N}\p{Pc} -]");
+
+// content-blocker-0.2.3: ""
+consistent!(content_blocker_0, "");
+
+// content-blocker-0.2.3: "(?i)hi"
+consistent!(content_blocker_1, "(?i)hi");
+
+// content-blocker-0.2.3: "http[s]?://domain.org"
+consistent!(content_blocker_2, "http[s]?://domain.org");
+
+// content-blocker-0.2.3: "(?i)http[s]?://domain.org"
+consistent!(content_blocker_3, "(?i)http[s]?://domain.org");
+
+// content-blocker-0.2.3: "http://domain.org"
+consistent!(content_blocker_4, "http://domain.org");
+
+// content-blocker-0.2.3: "http://domain.org"
+consistent!(content_blocker_5, "http://domain.org");
+
+// content-blocker-0.2.3: "ad.html"
+consistent!(content_blocker_6, "ad.html");
+
+// content-blocker-0.2.3: "ad.html"
+consistent!(content_blocker_7, "ad.html");
+
+// content-blocker-0.2.3: "http://domain.org"
+consistent!(content_blocker_8, "http://domain.org");
+
+// content-blocker-0.2.3: "http://domain.org/nocookies.sjs"
+consistent!(content_blocker_9, "http://domain.org/nocookies.sjs");
+
+// content-blocker-0.2.3: "http://domain.org/nocookies.sjs"
+consistent!(content_blocker_10, "http://domain.org/nocookies.sjs");
+
+// content-blocker-0.2.3: "http://domain.org/hideme.jpg"
+consistent!(content_blocker_11, "http://domain.org/hideme.jpg");
+
+// content-blocker-0.2.3: "http://domain.org/ok.html"
+consistent!(content_blocker_12, "http://domain.org/ok.html");
+
+// content-blocker-0.2.3: "http://domain.org/ok.html\\?except_this=1"
+consistent!(content_blocker_13, "http://domain.org/ok.html\\?except_this=1");
+
+// victoria-dom-0.1.2: "[A-Za-z0-9=]"
+consistent!(victoria_dom_0, "[A-Za-z0-9=]");
+
+// numbat-1.0.0: r"^nsq://"
+consistent!(numbat_0, r"^nsq://");
+
+// airkorea-0.1.2: r"[\s\t\r\n]"
+consistent!(airkorea_0, r"[\s\t\r\n]");
+
+// airkorea-0.1.2: r"([\{\[,])|([\}\]])"
+consistent!(airkorea_1, r"([\{\[,])|([\}\]])");
+
+// airkorea-0.1.2: r"[^.\d]+$"
+consistent!(airkorea_2, r"[^.\d]+$");
+
+// rofl-0.0.1: r"\b"
+// consistent!(rofl_0, r"\b");
+
+// rogcat-0.2.15: r"--------- beginning of.*"
+consistent!(rogcat_0, r"--------- beginning of.*");
+
+// rogcat-0.2.15: r"a|e|i|o|u"
+consistent!(rogcat_1, r"a|e|i|o|u");
+
+// rogcat-0.2.15: r"^(\d+)([kMG])$"
+consistent!(rogcat_2, r"^(\d+)([kMG])$");
+
+// media_filename-0.1.4: "\\.([A-Za-z0-9]{2,4})$"
+consistent!(media_filename_0, "\\.([A-Za-z0-9]{2,4})$");
+
+// media_filename-0.1.4: "([0-9]{3,4}p|[0-9]{3,4}x[0-9]{3,4})"
+consistent!(media_filename_1, "([0-9]{3,4}p|[0-9]{3,4}x[0-9]{3,4})");
+
+// media_filename-0.1.4: "(?:^\\[([^]]+)\\]|- ?([^-]+)$)"
+consistent!(media_filename_2, "(?:^\\[([^]]+)\\]|- ?([^-]+)$)");
+
+// media_filename-0.1.4: "(?:[eE]([0-9]{2,3})|[^0-9A-Za-z]([0-9]{2,3})(?:v[0-9])?[^0-9A-Za-z])"
+consistent!(
+    media_filename_3,
+    "(?:[eE]([0-9]{2,3})|[^0-9A-Za-z]([0-9]{2,3})(?:v[0-9])?[^0-9A-Za-z])"
+);
+
+// media_filename-0.1.4: "[sS]([0-9]{1,2})"
+consistent!(media_filename_4, "[sS]([0-9]{1,2})");
+
+// media_filename-0.1.4: "((?i)(?:PPV.)?[HP]DTV|(?:HD)?CAM|BRRIP|[^a-z]TS[^a-z]|(?:PPV )?WEB.?DL(?: DVDRip)?|HDRip|DVDRip|CamRip|W[EB]BRip|BluRay|BD|DVD|DvDScr|hdtv)"
+consistent!(media_filename_5, "((?i)(?:PPV.)?[HP]DTV|(?:HD)?CAM|BRRIP|[^a-z]TS[^a-z]|(?:PPV )?WEB.?DL(?: DVDRip)?|HDRip|DVDRip|CamRip|W[EB]BRip|BluRay|BD|DVD|DvDScr|hdtv)");
+
+// media_filename-0.1.4: "((19[0-9]|20[01])[0-9])"
+consistent!(media_filename_6, "((19[0-9]|20[01])[0-9])");
+
+// media_filename-0.1.4: "((?i)xvid|x264|h\\.?264)"
+consistent!(media_filename_7, "((?i)xvid|x264|h\\.?264)");
+
+// media_filename-0.1.4: "((?i)MP3|DD5\\.?1|Dual[- ]Audio|LiNE|DTS|AAC(?:\\.?2\\.0)?|AC3(?:\\.5\\.1)?)"
+consistent!(media_filename_8, "((?i)MP3|DD5\\.?1|Dual[- ]Audio|LiNE|DTS|AAC(?:\\.?2\\.0)?|AC3(?:\\.5\\.1)?)");
+
+// media_filename-0.1.4: "\\[([0-9A-F]{8})\\]"
+consistent!(media_filename_9, "\\[([0-9A-F]{8})\\]");
+
+// termimage-0.3.2: r"(\d+)[xX](\d+)"
+consistent!(termimage_0, r"(\d+)[xX](\d+)");
+
+// teensy-0.1.0: r".*(\d{4}-\d{2}-\d{2}).*"
+consistent!(teensy_0, r".*(\d{4}-\d{2}-\d{2}).*");
+
+// telescreen-0.1.3: r"<@(.+)>"
+consistent!(telescreen_0, r"<@(.+)>");
+
+// tempus_fugit-0.4.4: r"^(\d+)"
+consistent!(tempus_fugit_0, r"^(\d+)");
+
+// fselect-0.4.1: "(\\?|\\.|\\*|\\[|\\]|\\(|\\)|\\^|\\$)"
+consistent!(fselect_0, "(\\?|\\.|\\*|\\[|\\]|\\(|\\)|\\^|\\$)");
+
+// fselect-0.4.1: "(%|_|\\?|\\.|\\*|\\[|\\]|\\(|\\)|\\^|\\$)"
+consistent!(fselect_1, "(%|_|\\?|\\.|\\*|\\[|\\]|\\(|\\)|\\^|\\$)");
+
+// fs_eventbridge-0.1.0: r"^([A-Z]+)(?:\s(.+))?\s*"
+consistent!(fs_eventbridge_0, r"^([A-Z]+)(?:\s(.+))?\s*");
+
+// joseki-0.0.1: r"(\w{1,2})\[(.+?)\]"
+consistent!(joseki_0, r"(\w{1,2})\[(.+?)\]");
+
+// tweetr-0.2.1: r"(?i)in (\d+) (second|minute|hour|day|week)s?"
+consistent!(tweetr_0, r"(?i)in (\d+) (second|minute|hour|day|week)s?");
+
+// bullet_core-0.1.1: "^(?u:[0-9])+"
+consistent!(bullet_core_0, "^(?u:[0-9])+");
+
+// bullet_core-0.1.1: "^(?u:[0-9])+(?u:\\.)(?u:[0-9])+"
+consistent!(bullet_core_1, "^(?u:[0-9])+(?u:\\.)(?u:[0-9])+");
+
+// bullet_core-0.1.1: "^(?u:[A-Za-zª-ªµ-µº-ºÀ-ÖØ-öø-ˁˆ-ˑˠ-ˤˬ-ˬˮ-ˮͰ-ʹͶ-ͷͺ-ͽͿ-ͿΆ-ΆΈ-ΊΌ-ΌΎ-ΡΣ-ϵϷ-ҁҊ-ԯԱ-Ֆՙ-ՙա-ևא-תװ-ײؠ-يٮ-ٯٱ-ۓە-ەۥ-ۦۮ-ۯۺ-ۼۿ-ۿܐ-ܐܒ-ܯݍ-ޥޱ-ޱߊ-ߪߴ-ߵߺ-ߺࠀ-ࠕࠚ-ࠚࠤ-ࠤࠨ-ࠨࡀ-ࡘࢠ-ࢴऄ-हऽ-ऽॐ-ॐक़-ॡॱ-ঀঅ-ঌএ-ঐও-নপ-রল-লশ-হঽ-ঽৎ-ৎড়-ঢ়য়-ৡৰ-ৱਅ-ਊਏ-ਐਓ-ਨਪ-ਰਲ-ਲ਼ਵ-ਸ਼ਸ-ਹਖ਼-ੜਫ਼-ਫ਼ੲ-ੴઅ-ઍએ-ઑઓ-નપ-રલ-ળવ-હઽ-ઽૐ-ૐૠ-ૡૹ-ૹଅ-ଌଏ-ଐଓ-ନପ-ରଲ-ଳଵ-ହଽ-ଽଡ଼-ଢ଼ୟ-ୡୱ-ୱஃ-ஃஅ-ஊஎ-ஐஒ-கங-சஜ-ஜஞ-டண-தந-பம-ஹௐ-ௐఅ-ఌఎ-ఐఒ-నప-హఽ-ఽౘ-ౚౠ-ౡಅ-ಌಎ-ಐಒ-ನಪ-ಳವ-ಹಽ-ಽೞ-ೞೠ-ೡೱ-ೲഅ-ഌഎ-ഐഒ-ഺഽ-ഽൎ-ൎൟ-ൡൺ-ൿඅ-ඖක-නඳ-රල-ලව-ෆก-ะา-ำเ-ๆກ-ຂຄ-ຄງ-ຈຊ-ຊຍ-ຍດ-ທນ-ຟມ-ຣລ-ລວ-ວສ-ຫອ-ະາ-ຳຽ-ຽເ-ໄໆ-ໆໜ-ໟༀ-ༀཀ-ཇཉ-ཬྈ-ྌက-ဪဿ-ဿၐ-ၕၚ-ၝၡ-ၡၥ-ၦၮ-ၰၵ-ႁႎ-ႎႠ-ჅჇ-ჇჍ-Ⴭა-ჺჼ-ቈቊ-ቍቐ-ቖቘ-ቘቚ-ቝበ-ኈኊ-ኍነ-ኰኲ-ኵኸ-ኾዀ-ዀዂ-ዅወ-ዖዘ-ጐጒ-ጕጘ-ፚᎀ-ᎏᎠ-Ᏽᏸ-ᏽᐁ-ᙬᙯ-ᙿᚁ-ᚚᚠ-ᛪᛱ-ᛸᜀ-ᜌᜎ-ᜑᜠ-ᜱᝀ-ᝑᝠ-ᝬᝮ-ᝰក-ឳៗ-ៗៜ-ៜᠠ-ᡷᢀ-ᢨᢪ-ᢪᢰ-ᣵᤀ-ᤞᥐ-ᥭᥰ-ᥴᦀ-ᦫᦰ-ᧉᨀ-ᨖᨠ-ᩔᪧ-ᪧᬅ-ᬳᭅ-ᭋᮃ-ᮠᮮ-ᮯᮺ-ᯥᰀ-ᰣᱍ-ᱏᱚ-ᱽᳩ-ᳬᳮ-ᳱᳵ-ᳶᴀ-ᶿḀ-ἕἘ-Ἕἠ-ὅὈ-Ὅὐ-ὗὙ-ὙὛ-ὛὝ-ὝὟ-ώᾀ-ᾴᾶ-ᾼι-ιῂ-ῄῆ-ῌῐ-ΐῖ-Ίῠ-Ῥῲ-ῴῶ-ῼⁱ-ⁱⁿ-ⁿₐ-ₜℂ-ℂℇ-ℇℊ-ℓℕ-ℕℙ-ℝℤ-ℤΩ-Ωℨ-ℨK-ℭℯ-ℹℼ-ℿⅅ-ⅉⅎ-ⅎↃ-ↄⰀ-Ⱞⰰ-ⱞⱠ-ⳤⳫ-ⳮⳲ-ⳳⴀ-ⴥⴧ-ⴧⴭ-ⴭⴰ-ⵧⵯ-ⵯⶀ-ⶖⶠ-ⶦⶨ-ⶮⶰ-ⶶⶸ-ⶾⷀ-ⷆⷈ-ⷎⷐ-ⷖⷘ-ⷞⸯ-ⸯ々-〆〱-〵〻-〼ぁ-ゖゝ-ゟァ-ヺー-ヿㄅ-ㄭㄱ-ㆎㆠ-ㆺㇰ-ㇿ㐀-䶵一-鿕ꀀ-ꒌꓐ-ꓽꔀ-ꘌꘐ-ꘟꘪ-ꘫꙀ-ꙮꙿ-ꚝꚠ-ꛥꜗ-ꜟꜢ-ꞈꞋ-ꞭꞰ-ꞷꟷ-ꠁꠃ-ꠅꠇ-ꠊꠌ-ꠢꡀ-ꡳꢂ-ꢳꣲ-ꣷꣻ-ꣻꣽ-ꣽꤊ-ꤥꤰ-ꥆꥠ-ꥼꦄ-ꦲꧏ-ꧏꧠ-ꧤꧦ-ꧯꧺ-ꧾꨀ-ꨨꩀ-ꩂꩄ-ꩋꩠ-ꩶꩺ-ꩺꩾ-ꪯꪱ-ꪱꪵ-ꪶꪹ-ꪽꫀ-ꫀꫂ-ꫂꫛ-ꫝꫠ-ꫪꫲ-ꫴꬁ-ꬆꬉ-ꬎꬑ-ꬖꬠ-ꬦꬨ-ꬮꬰ-ꭚꭜ-ꭥꭰ-ꯢ가-힣ힰ-ퟆퟋ-ퟻ豈-舘並-龎ff-stﬓ-ﬗיִ-יִײַ-ﬨשׁ-זּטּ-לּמּ-מּנּ-סּףּ-פּצּ-ﮱﯓ-ﴽﵐ-ﶏﶒ-ﷇﷰ-ﷻﹰ-ﹴﹶ-ﻼＡ-Ｚａ-ｚｦ-ﾾￂ-ￇￊ-ￏￒ-ￗￚ-ￜ𐀀-𐀋𐀍-𐀦𐀨-𐀺𐀼-𐀽𐀿-𐁍𐁐-𐁝𐂀-𐃺𐊀-𐊜𐊠-𐋐𐌀-𐌟𐌰-𐍀𐍂-𐍉𐍐-𐍵𐎀-𐎝𐎠-𐏃𐏈-𐏏𐐀-𐒝𐔀-𐔧𐔰-𐕣𐘀-𐜶𐝀-𐝕𐝠-𐝧𐠀-𐠅𐠈-𐠈𐠊-𐠵𐠷-𐠸𐠼-𐠼𐠿-𐡕𐡠-𐡶𐢀-𐢞𐣠-𐣲𐣴-𐣵𐤀-𐤕𐤠-𐤹𐦀-𐦷𐦾-𐦿𐨀-𐨀𐨐-𐨓𐨕-𐨗𐨙-𐨳𐩠-𐩼𐪀-𐪜𐫀-𐫇𐫉-𐫤𐬀-𐬵𐭀-𐭕𐭠-𐭲𐮀-𐮑𐰀-𐱈𐲀-𐲲𐳀-𐳲𑀃-𑀷𑂃-𑂯𑃐-𑃨𑄃-𑄦𑅐-𑅲𑅶-𑅶𑆃-𑆲𑇁-𑇄𑇚-𑇚𑇜-𑇜𑈀-𑈑𑈓-𑈫𑊀-𑊆𑊈-𑊈𑊊-𑊍𑊏-𑊝𑊟-𑊨𑊰-𑋞𑌅-𑌌𑌏-𑌐𑌓-𑌨𑌪-𑌰𑌲-𑌳𑌵-𑌹𑌽-𑌽𑍐-𑍐𑍝-𑍡𑒀-𑒯𑓄-𑓅𑓇-𑓇𑖀-𑖮𑗘-𑗛𑘀-𑘯𑙄-𑙄𑚀-𑚪𑜀-𑜙𑢠-𑣟𑣿-𑣿𑫀-𑫸𒀀-𒎙𒒀-𒕃𓀀-𓐮𔐀-𔙆𖠀-𖨸𖩀-𖩞𖫐-𖫭𖬀-𖬯𖭀-𖭃𖭣-𖭷𖭽-𖮏𖼀-𖽄𖽐-𖽐𖾓-𖾟𛀀-𛀁𛰀-𛱪𛱰-𛱼𛲀-𛲈𛲐-𛲙𝐀-𝑔𝑖-𝒜𝒞-𝒟𝒢-𝒢𝒥-𝒦𝒩-𝒬𝒮-𝒹𝒻-𝒻𝒽-𝓃𝓅-𝔅𝔇-𝔊𝔍-𝔔𝔖-𝔜𝔞-𝔹𝔻-𝔾𝕀-𝕄𝕆-𝕆𝕊-𝕐𝕒-𝚥𝚨-𝛀𝛂-𝛚𝛜-𝛺𝛼-𝜔𝜖-𝜴𝜶-𝝎𝝐-𝝮𝝰-𝞈𝞊-𝞨𝞪-𝟂𝟄-𝟋𞠀-𞣄𞸀-𞸃𞸅-𞸟𞸡-𞸢𞸤-𞸤𞸧-𞸧𞸩-𞸲𞸴-𞸷𞸹-𞸹𞸻-𞸻𞹂-𞹂𞹇-𞹇𞹉-𞹉𞹋-𞹋𞹍-𞹏𞹑-𞹒𞹔-𞹔𞹗-𞹗𞹙-𞹙𞹛-𞹛𞹝-𞹝𞹟-𞹟𞹡-𞹢𞹤-𞹤𞹧-𞹪𞹬-𞹲𞹴-𞹷𞹹-𞹼𞹾-𞹾𞺀-𞺉𞺋-𞺛𞺡-𞺣𞺥-𞺩𞺫-𞺻𠀀-𪛖𪜀-𫜴𫝀-𫠝𫠠-𬺡丽-𪘀])+"
+consistent!(bullet_core_2, "^(?u:[A-Za-zª-ªµ-µº-ºÀ-ÖØ-öø-ˁˆ-ˑˠ-ˤˬ-ˬˮ-ˮͰ-ʹͶ-ͷͺ-ͽͿ-ͿΆ-ΆΈ-ΊΌ-ΌΎ-ΡΣ-ϵϷ-ҁҊ-ԯԱ-Ֆՙ-ՙա-ևא-תװ-ײؠ-يٮ-ٯٱ-ۓە-ەۥ-ۦۮ-ۯۺ-ۼۿ-ۿܐ-ܐܒ-ܯݍ-ޥޱ-ޱߊ-ߪߴ-ߵߺ-ߺࠀ-ࠕࠚ-ࠚࠤ-ࠤࠨ-ࠨࡀ-ࡘࢠ-ࢴऄ-हऽ-ऽॐ-ॐक़-ॡॱ-ঀঅ-ঌএ-ঐও-নপ-রল-লশ-হঽ-ঽৎ-ৎড়-ঢ়য়-ৡৰ-ৱਅ-ਊਏ-ਐਓ-ਨਪ-ਰਲ-ਲ਼ਵ-ਸ਼ਸ-ਹਖ਼-ੜਫ਼-ਫ਼ੲ-ੴઅ-ઍએ-ઑઓ-નપ-રલ-ળવ-હઽ-ઽૐ-ૐૠ-ૡૹ-ૹଅ-ଌଏ-ଐଓ-ନପ-ରଲ-ଳଵ-ହଽ-ଽଡ଼-ଢ଼ୟ-ୡୱ-ୱஃ-ஃஅ-ஊஎ-ஐஒ-கங-சஜ-ஜஞ-டண-தந-பம-ஹௐ-ௐఅ-ఌఎ-ఐఒ-నప-హఽ-ఽౘ-ౚౠ-ౡಅ-ಌಎ-ಐಒ-ನಪ-ಳವ-ಹಽ-ಽೞ-ೞೠ-ೡೱ-ೲഅ-ഌഎ-ഐഒ-ഺഽ-ഽൎ-ൎൟ-ൡൺ-ൿඅ-ඖක-නඳ-රල-ලව-ෆก-ะา-ำเ-ๆກ-ຂຄ-ຄງ-ຈຊ-ຊຍ-ຍດ-ທນ-ຟມ-ຣລ-ລວ-ວສ-ຫອ-ະາ-ຳຽ-ຽເ-ໄໆ-ໆໜ-ໟༀ-ༀཀ-ཇཉ-ཬྈ-ྌက-ဪဿ-ဿၐ-ၕၚ-ၝၡ-ၡၥ-ၦၮ-ၰၵ-ႁႎ-ႎႠ-ჅჇ-ჇჍ-Ⴭა-ჺჼ-ቈቊ-ቍቐ-ቖቘ-ቘቚ-ቝበ-ኈኊ-ኍነ-ኰኲ-ኵኸ-ኾዀ-ዀዂ-ዅወ-ዖዘ-ጐጒ-ጕጘ-ፚᎀ-ᎏᎠ-Ᏽᏸ-ᏽᐁ-ᙬᙯ-ᙿᚁ-ᚚᚠ-ᛪᛱ-ᛸᜀ-ᜌᜎ-ᜑᜠ-ᜱᝀ-ᝑᝠ-ᝬᝮ-ᝰក-ឳៗ-ៗៜ-ៜᠠ-ᡷᢀ-ᢨᢪ-ᢪᢰ-ᣵᤀ-ᤞᥐ-ᥭᥰ-ᥴᦀ-ᦫᦰ-ᧉᨀ-ᨖᨠ-ᩔᪧ-ᪧᬅ-ᬳᭅ-ᭋᮃ-ᮠᮮ-ᮯᮺ-ᯥᰀ-ᰣᱍ-ᱏᱚ-ᱽᳩ-ᳬᳮ-ᳱᳵ-ᳶᴀ-ᶿḀ-ἕἘ-Ἕἠ-ὅὈ-Ὅὐ-ὗὙ-ὙὛ-ὛὝ-ὝὟ-ώᾀ-ᾴᾶ-ᾼι-ιῂ-ῄῆ-ῌῐ-ΐῖ-Ίῠ-Ῥῲ-ῴῶ-ῼⁱ-ⁱⁿ-ⁿₐ-ₜℂ-ℂℇ-ℇℊ-ℓℕ-ℕℙ-ℝℤ-ℤΩ-Ωℨ-ℨK-ℭℯ-ℹℼ-ℿⅅ-ⅉⅎ-ⅎↃ-ↄⰀ-Ⱞⰰ-ⱞⱠ-ⳤⳫ-ⳮⳲ-ⳳⴀ-ⴥⴧ-ⴧⴭ-ⴭⴰ-ⵧⵯ-ⵯⶀ-ⶖⶠ-ⶦⶨ-ⶮⶰ-ⶶⶸ-ⶾⷀ-ⷆⷈ-ⷎⷐ-ⷖⷘ-ⷞⸯ-ⸯ々-〆〱-〵〻-〼ぁ-ゖゝ-ゟァ-ヺー-ヿㄅ-ㄭㄱ-ㆎㆠ-ㆺㇰ-ㇿ㐀-䶵一-鿕ꀀ-ꒌꓐ-ꓽꔀ-ꘌꘐ-ꘟꘪ-ꘫꙀ-ꙮꙿ-ꚝꚠ-ꛥꜗ-ꜟꜢ-ꞈꞋ-ꞭꞰ-ꞷꟷ-ꠁꠃ-ꠅꠇ-ꠊꠌ-ꠢꡀ-ꡳꢂ-ꢳꣲ-ꣷꣻ-ꣻꣽ-ꣽꤊ-ꤥꤰ-ꥆꥠ-ꥼꦄ-ꦲꧏ-ꧏꧠ-ꧤꧦ-ꧯꧺ-ꧾꨀ-ꨨꩀ-ꩂꩄ-ꩋꩠ-ꩶꩺ-ꩺꩾ-ꪯꪱ-ꪱꪵ-ꪶꪹ-ꪽꫀ-ꫀꫂ-ꫂꫛ-ꫝꫠ-ꫪꫲ-ꫴꬁ-ꬆꬉ-ꬎꬑ-ꬖꬠ-ꬦꬨ-ꬮꬰ-ꭚꭜ-ꭥꭰ-ꯢ가-힣ힰ-ퟆퟋ-ퟻ豈-舘並-龎ff-stﬓ-ﬗיִ-יִײַ-ﬨשׁ-זּטּ-לּמּ-מּנּ-סּףּ-פּצּ-ﮱﯓ-ﴽﵐ-ﶏﶒ-ﷇﷰ-ﷻﹰ-ﹴﹶ-ﻼＡ-Ｚａ-ｚｦ-ﾾￂ-ￇￊ-ￏￒ-ￗￚ-ￜ𐀀-𐀋𐀍-𐀦𐀨-𐀺𐀼-𐀽𐀿-𐁍𐁐-𐁝𐂀-𐃺𐊀-𐊜𐊠-𐋐𐌀-𐌟𐌰-𐍀𐍂-𐍉𐍐-𐍵𐎀-𐎝𐎠-𐏃𐏈-𐏏𐐀-𐒝𐔀-𐔧𐔰-𐕣𐘀-𐜶𐝀-𐝕𐝠-𐝧𐠀-𐠅𐠈-𐠈𐠊-𐠵𐠷-𐠸𐠼-𐠼𐠿-𐡕𐡠-𐡶𐢀-𐢞𐣠-𐣲𐣴-𐣵𐤀-𐤕𐤠-𐤹𐦀-𐦷𐦾-𐦿𐨀-𐨀𐨐-𐨓𐨕-𐨗𐨙-𐨳𐩠-𐩼𐪀-𐪜𐫀-𐫇𐫉-𐫤𐬀-𐬵𐭀-𐭕𐭠-𐭲𐮀-𐮑𐰀-𐱈𐲀-𐲲𐳀-𐳲𑀃-𑀷𑂃-𑂯𑃐-𑃨𑄃-𑄦𑅐-𑅲𑅶-𑅶𑆃-𑆲𑇁-𑇄𑇚-𑇚𑇜-𑇜𑈀-𑈑𑈓-𑈫𑊀-𑊆𑊈-𑊈𑊊-𑊍𑊏-𑊝𑊟-𑊨𑊰-𑋞𑌅-𑌌𑌏-𑌐𑌓-𑌨𑌪-𑌰𑌲-𑌳𑌵-𑌹𑌽-𑌽𑍐-𑍐𑍝-𑍡𑒀-𑒯𑓄-𑓅𑓇-𑓇𑖀-𑖮𑗘-𑗛𑘀-𑘯𑙄-𑙄𑚀-𑚪𑜀-𑜙𑢠-𑣟𑣿-𑣿𑫀-𑫸𒀀-𒎙𒒀-𒕃𓀀-𓐮𔐀-𔙆𖠀-𖨸𖩀-𖩞𖫐-𖫭𖬀-𖬯𖭀-𖭃𖭣-𖭷𖭽-𖮏𖼀-𖽄𖽐-𖽐𖾓-𖾟𛀀-𛀁𛰀-𛱪𛱰-𛱼𛲀-𛲈𛲐-𛲙𝐀-𝑔𝑖-𝒜𝒞-𝒟𝒢-𝒢𝒥-𝒦𝒩-𝒬𝒮-𝒹𝒻-𝒻𝒽-𝓃𝓅-𝔅𝔇-𝔊𝔍-𝔔𝔖-𝔜𝔞-𝔹𝔻-𝔾𝕀-𝕄𝕆-𝕆𝕊-𝕐𝕒-𝚥𝚨-𝛀𝛂-𝛚𝛜-𝛺𝛼-𝜔𝜖-𝜴𝜶-𝝎𝝐-𝝮𝝰-𝞈𝞊-𝞨𝞪-𝟂𝟄-𝟋𞠀-𞣄𞸀-𞸃𞸅-𞸟𞸡-𞸢𞸤-𞸤𞸧-𞸧𞸩-𞸲𞸴-𞸷𞸹-𞸹𞸻-𞸻𞹂-𞹂𞹇-𞹇𞹉-𞹉𞹋-𞹋𞹍-𞹏𞹑-𞹒𞹔-𞹔𞹗-𞹗𞹙-𞹙𞹛-𞹛𞹝-𞹝𞹟-𞹟𞹡-𞹢𞹤-𞹤𞹧-𞹪𞹬-𞹲𞹴-𞹷𞹹-𞹼𞹾-𞹾𞺀-𞺉𞺋-𞺛𞺡-𞺣𞺥-𞺩𞺫-𞺻𠀀-𪛖𪜀-𫜴𫝀-𫠝𫠠-𬺡丽-𪘀])+");
+
+// bullet_core-0.1.1: "^(?u:d/d)((?u:[A-Za-zª-ªµ-µº-ºÀ-ÖØ-öø-ˁˆ-ˑˠ-ˤˬ-ˬˮ-ˮͰ-ʹͶ-ͷͺ-ͽͿ-ͿΆ-ΆΈ-ΊΌ-ΌΎ-ΡΣ-ϵϷ-ҁҊ-ԯԱ-Ֆՙ-ՙա-ևא-תװ-ײؠ-يٮ-ٯٱ-ۓە-ەۥ-ۦۮ-ۯۺ-ۼۿ-ۿܐ-ܐܒ-ܯݍ-ޥޱ-ޱߊ-ߪߴ-ߵߺ-ߺࠀ-ࠕࠚ-ࠚࠤ-ࠤࠨ-ࠨࡀ-ࡘࢠ-ࢴऄ-हऽ-ऽॐ-ॐक़-ॡॱ-ঀঅ-ঌএ-ঐও-নপ-রল-লশ-হঽ-ঽৎ-ৎড়-ঢ়য়-ৡৰ-ৱਅ-ਊਏ-ਐਓ-ਨਪ-ਰਲ-ਲ਼ਵ-ਸ਼ਸ-ਹਖ਼-ੜਫ਼-ਫ਼ੲ-ੴઅ-ઍએ-ઑઓ-નપ-રલ-ળવ-હઽ-ઽૐ-ૐૠ-ૡૹ-ૹଅ-ଌଏ-ଐଓ-ନପ-ରଲ-ଳଵ-ହଽ-ଽଡ଼-ଢ଼ୟ-ୡୱ-ୱஃ-ஃஅ-ஊஎ-ஐஒ-கங-சஜ-ஜஞ-டண-தந-பம-ஹௐ-ௐఅ-ఌఎ-ఐఒ-నప-హఽ-ఽౘ-ౚౠ-ౡಅ-ಌಎ-ಐಒ-ನಪ-ಳವ-ಹಽ-ಽೞ-ೞೠ-ೡೱ-ೲഅ-ഌഎ-ഐഒ-ഺഽ-ഽൎ-ൎൟ-ൡൺ-ൿඅ-ඖක-නඳ-රල-ලව-ෆก-ะา-ำเ-ๆກ-ຂຄ-ຄງ-ຈຊ-ຊຍ-ຍດ-ທນ-ຟມ-ຣລ-ລວ-ວສ-ຫອ-ະາ-ຳຽ-ຽເ-ໄໆ-ໆໜ-ໟༀ-ༀཀ-ཇཉ-ཬྈ-ྌက-ဪဿ-ဿၐ-ၕၚ-ၝၡ-ၡၥ-ၦၮ-ၰၵ-ႁႎ-ႎႠ-ჅჇ-ჇჍ-Ⴭა-ჺჼ-ቈቊ-ቍቐ-ቖቘ-ቘቚ-ቝበ-ኈኊ-ኍነ-ኰኲ-ኵኸ-ኾዀ-ዀዂ-ዅወ-ዖዘ-ጐጒ-ጕጘ-ፚᎀ-ᎏᎠ-Ᏽᏸ-ᏽᐁ-ᙬᙯ-ᙿᚁ-ᚚᚠ-ᛪᛱ-ᛸᜀ-ᜌᜎ-ᜑᜠ-ᜱᝀ-ᝑᝠ-ᝬᝮ-ᝰក-ឳៗ-ៗៜ-ៜᠠ-ᡷᢀ-ᢨᢪ-ᢪᢰ-ᣵᤀ-ᤞᥐ-ᥭᥰ-ᥴᦀ-ᦫᦰ-ᧉᨀ-ᨖᨠ-ᩔᪧ-ᪧᬅ-ᬳᭅ-ᭋᮃ-ᮠᮮ-ᮯᮺ-ᯥᰀ-ᰣᱍ-ᱏᱚ-ᱽᳩ-ᳬᳮ-ᳱᳵ-ᳶᴀ-ᶿḀ-ἕἘ-Ἕἠ-ὅὈ-Ὅὐ-ὗὙ-ὙὛ-ὛὝ-ὝὟ-ώᾀ-ᾴᾶ-ᾼι-ιῂ-ῄῆ-ῌῐ-ΐῖ-Ίῠ-Ῥῲ-ῴῶ-ῼⁱ-ⁱⁿ-ⁿₐ-ₜℂ-ℂℇ-ℇℊ-ℓℕ-ℕℙ-ℝℤ-ℤΩ-Ωℨ-ℨK-ℭℯ-ℹℼ-ℿⅅ-ⅉⅎ-ⅎↃ-ↄⰀ-Ⱞⰰ-ⱞⱠ-ⳤⳫ-ⳮⳲ-ⳳⴀ-ⴥⴧ-ⴧⴭ-ⴭⴰ-ⵧⵯ-ⵯⶀ-ⶖⶠ-ⶦⶨ-ⶮⶰ-ⶶⶸ-ⶾⷀ-ⷆⷈ-ⷎⷐ-ⷖⷘ-ⷞⸯ-ⸯ々-〆〱-〵〻-〼ぁ-ゖゝ-ゟァ-ヺー-ヿㄅ-ㄭㄱ-ㆎㆠ-ㆺㇰ-ㇿ㐀-䶵一-鿕ꀀ-ꒌꓐ-ꓽꔀ-ꘌꘐ-ꘟꘪ-ꘫꙀ-ꙮꙿ-ꚝꚠ-ꛥꜗ-ꜟꜢ-ꞈꞋ-ꞭꞰ-ꞷꟷ-ꠁꠃ-ꠅꠇ-ꠊꠌ-ꠢꡀ-ꡳꢂ-ꢳꣲ-ꣷꣻ-ꣻꣽ-ꣽꤊ-ꤥꤰ-ꥆꥠ-ꥼꦄ-ꦲꧏ-ꧏꧠ-ꧤꧦ-ꧯꧺ-ꧾꨀ-ꨨꩀ-ꩂꩄ-ꩋꩠ-ꩶꩺ-ꩺꩾ-ꪯꪱ-ꪱꪵ-ꪶꪹ-ꪽꫀ-ꫀꫂ-ꫂꫛ-ꫝꫠ-ꫪꫲ-ꫴꬁ-ꬆꬉ-ꬎꬑ-ꬖꬠ-ꬦꬨ-ꬮꬰ-ꭚꭜ-ꭥꭰ-ꯢ가-힣ힰ-ퟆퟋ-ퟻ豈-舘並-龎ff-stﬓ-ﬗיִ-יִײַ-ﬨשׁ-זּטּ-לּמּ-מּנּ-סּףּ-פּצּ-ﮱﯓ-ﴽﵐ-ﶏﶒ-ﷇﷰ-ﷻﹰ-ﹴﹶ-ﻼＡ-Ｚａ-ｚｦ-ﾾￂ-ￇￊ-ￏￒ-ￗￚ-ￜ𐀀-𐀋𐀍-𐀦𐀨-𐀺𐀼-𐀽𐀿-𐁍𐁐-𐁝𐂀-𐃺𐊀-𐊜𐊠-𐋐𐌀-𐌟𐌰-𐍀𐍂-𐍉𐍐-𐍵𐎀-𐎝𐎠-𐏃𐏈-𐏏𐐀-𐒝𐔀-𐔧𐔰-𐕣𐘀-𐜶𐝀-𐝕𐝠-𐝧𐠀-𐠅𐠈-𐠈𐠊-𐠵𐠷-𐠸𐠼-𐠼𐠿-𐡕𐡠-𐡶𐢀-𐢞𐣠-𐣲𐣴-𐣵𐤀-𐤕𐤠-𐤹𐦀-𐦷𐦾-𐦿𐨀-𐨀𐨐-𐨓𐨕-𐨗𐨙-𐨳𐩠-𐩼𐪀-𐪜𐫀-𐫇𐫉-𐫤𐬀-𐬵𐭀-𐭕𐭠-𐭲𐮀-𐮑𐰀-𐱈𐲀-𐲲𐳀-𐳲𑀃-𑀷𑂃-𑂯𑃐-𑃨𑄃-𑄦𑅐-𑅲𑅶-𑅶𑆃-𑆲𑇁-𑇄𑇚-𑇚𑇜-𑇜𑈀-𑈑𑈓-𑈫𑊀-𑊆𑊈-𑊈𑊊-𑊍𑊏-𑊝𑊟-𑊨𑊰-𑋞𑌅-𑌌𑌏-𑌐𑌓-𑌨𑌪-𑌰𑌲-𑌳𑌵-𑌹𑌽-𑌽𑍐-𑍐𑍝-𑍡𑒀-𑒯𑓄-𑓅𑓇-𑓇𑖀-𑖮𑗘-𑗛𑘀-𑘯𑙄-𑙄𑚀-𑚪𑜀-𑜙𑢠-𑣟𑣿-𑣿𑫀-𑫸𒀀-𒎙𒒀-𒕃𓀀-𓐮𔐀-𔙆𖠀-𖨸𖩀-𖩞𖫐-𖫭𖬀-𖬯𖭀-𖭃𖭣-𖭷𖭽-𖮏𖼀-𖽄𖽐-𖽐𖾓-𖾟𛀀-𛀁𛰀-𛱪𛱰-𛱼𛲀-𛲈𛲐-𛲙𝐀-𝑔𝑖-𝒜𝒞-𝒟𝒢-𝒢𝒥-𝒦𝒩-𝒬𝒮-𝒹𝒻-𝒻𝒽-𝓃𝓅-𝔅𝔇-𝔊𝔍-𝔔𝔖-𝔜𝔞-𝔹𝔻-𝔾𝕀-𝕄𝕆-𝕆𝕊-𝕐𝕒-𝚥𝚨-𝛀𝛂-𝛚𝛜-𝛺𝛼-𝜔𝜖-𝜴𝜶-𝝎𝝐-𝝮𝝰-𝞈𝞊-𝞨𝞪-𝟂𝟄-𝟋𞠀-𞣄𞸀-𞸃𞸅-𞸟𞸡-𞸢𞸤-𞸤𞸧-𞸧𞸩-𞸲𞸴-𞸷𞸹-𞸹𞸻-𞸻𞹂-𞹂𞹇-𞹇𞹉-𞹉𞹋-𞹋𞹍-𞹏𞹑-𞹒𞹔-𞹔𞹗-𞹗𞹙-𞹙𞹛-𞹛𞹝-𞹝𞹟-𞹟𞹡-𞹢𞹤-𞹤𞹧-𞹪𞹬-𞹲𞹴-𞹷𞹹-𞹼𞹾-𞹾𞺀-𞺉𞺋-𞺛𞺡-𞺣𞺥-𞺩𞺫-𞺻𠀀-𪛖𪜀-𫜴𫝀-𫠝𫠠-𬺡丽-𪘀])+)"
+consistent!(bullet_core_3, "^(?u:d/d)((?u:[A-Za-zª-ªµ-µº-ºÀ-ÖØ-öø-ˁˆ-ˑˠ-ˤˬ-ˬˮ-ˮͰ-ʹͶ-ͷͺ-ͽͿ-ͿΆ-ΆΈ-ΊΌ-ΌΎ-ΡΣ-ϵϷ-ҁҊ-ԯԱ-Ֆՙ-ՙա-ևא-תװ-ײؠ-يٮ-ٯٱ-ۓە-ەۥ-ۦۮ-ۯۺ-ۼۿ-ۿܐ-ܐܒ-ܯݍ-ޥޱ-ޱߊ-ߪߴ-ߵߺ-ߺࠀ-ࠕࠚ-ࠚࠤ-ࠤࠨ-ࠨࡀ-ࡘࢠ-ࢴऄ-हऽ-ऽॐ-ॐक़-ॡॱ-ঀঅ-ঌএ-ঐও-নপ-রল-লশ-হঽ-ঽৎ-ৎড়-ঢ়য়-ৡৰ-ৱਅ-ਊਏ-ਐਓ-ਨਪ-ਰਲ-ਲ਼ਵ-ਸ਼ਸ-ਹਖ਼-ੜਫ਼-ਫ਼ੲ-ੴઅ-ઍએ-ઑઓ-નપ-રલ-ળવ-હઽ-ઽૐ-ૐૠ-ૡૹ-ૹଅ-ଌଏ-ଐଓ-ନପ-ରଲ-ଳଵ-ହଽ-ଽଡ଼-ଢ଼ୟ-ୡୱ-ୱஃ-ஃஅ-ஊஎ-ஐஒ-கங-சஜ-ஜஞ-டண-தந-பம-ஹௐ-ௐఅ-ఌఎ-ఐఒ-నప-హఽ-ఽౘ-ౚౠ-ౡಅ-ಌಎ-ಐಒ-ನಪ-ಳವ-ಹಽ-ಽೞ-ೞೠ-ೡೱ-ೲഅ-ഌഎ-ഐഒ-ഺഽ-ഽൎ-ൎൟ-ൡൺ-ൿඅ-ඖක-නඳ-රල-ලව-ෆก-ะา-ำเ-ๆກ-ຂຄ-ຄງ-ຈຊ-ຊຍ-ຍດ-ທນ-ຟມ-ຣລ-ລວ-ວສ-ຫອ-ະາ-ຳຽ-ຽເ-ໄໆ-ໆໜ-ໟༀ-ༀཀ-ཇཉ-ཬྈ-ྌက-ဪဿ-ဿၐ-ၕၚ-ၝၡ-ၡၥ-ၦၮ-ၰၵ-ႁႎ-ႎႠ-ჅჇ-ჇჍ-Ⴭა-ჺჼ-ቈቊ-ቍቐ-ቖቘ-ቘቚ-ቝበ-ኈኊ-ኍነ-ኰኲ-ኵኸ-ኾዀ-ዀዂ-ዅወ-ዖዘ-ጐጒ-ጕጘ-ፚᎀ-ᎏᎠ-Ᏽᏸ-ᏽᐁ-ᙬᙯ-ᙿᚁ-ᚚᚠ-ᛪᛱ-ᛸᜀ-ᜌᜎ-ᜑᜠ-ᜱᝀ-ᝑᝠ-ᝬᝮ-ᝰក-ឳៗ-ៗៜ-ៜᠠ-ᡷᢀ-ᢨᢪ-ᢪᢰ-ᣵᤀ-ᤞᥐ-ᥭᥰ-ᥴᦀ-ᦫᦰ-ᧉᨀ-ᨖᨠ-ᩔᪧ-ᪧᬅ-ᬳᭅ-ᭋᮃ-ᮠᮮ-ᮯᮺ-ᯥᰀ-ᰣᱍ-ᱏᱚ-ᱽᳩ-ᳬᳮ-ᳱᳵ-ᳶᴀ-ᶿḀ-ἕἘ-Ἕἠ-ὅὈ-Ὅὐ-ὗὙ-ὙὛ-ὛὝ-ὝὟ-ώᾀ-ᾴᾶ-ᾼι-ιῂ-ῄῆ-ῌῐ-ΐῖ-Ίῠ-Ῥῲ-ῴῶ-ῼⁱ-ⁱⁿ-ⁿₐ-ₜℂ-ℂℇ-ℇℊ-ℓℕ-ℕℙ-ℝℤ-ℤΩ-Ωℨ-ℨK-ℭℯ-ℹℼ-ℿⅅ-ⅉⅎ-ⅎↃ-ↄⰀ-Ⱞⰰ-ⱞⱠ-ⳤⳫ-ⳮⳲ-ⳳⴀ-ⴥⴧ-ⴧⴭ-ⴭⴰ-ⵧⵯ-ⵯⶀ-ⶖⶠ-ⶦⶨ-ⶮⶰ-ⶶⶸ-ⶾⷀ-ⷆⷈ-ⷎⷐ-ⷖⷘ-ⷞⸯ-ⸯ々-〆〱-〵〻-〼ぁ-ゖゝ-ゟァ-ヺー-ヿㄅ-ㄭㄱ-ㆎㆠ-ㆺㇰ-ㇿ㐀-䶵一-鿕ꀀ-ꒌꓐ-ꓽꔀ-ꘌꘐ-ꘟꘪ-ꘫꙀ-ꙮꙿ-ꚝꚠ-ꛥꜗ-ꜟꜢ-ꞈꞋ-ꞭꞰ-ꞷꟷ-ꠁꠃ-ꠅꠇ-ꠊꠌ-ꠢꡀ-ꡳꢂ-ꢳꣲ-ꣷꣻ-ꣻꣽ-ꣽꤊ-ꤥꤰ-ꥆꥠ-ꥼꦄ-ꦲꧏ-ꧏꧠ-ꧤꧦ-ꧯꧺ-ꧾꨀ-ꨨꩀ-ꩂꩄ-ꩋꩠ-ꩶꩺ-ꩺꩾ-ꪯꪱ-ꪱꪵ-ꪶꪹ-ꪽꫀ-ꫀꫂ-ꫂꫛ-ꫝꫠ-ꫪꫲ-ꫴꬁ-ꬆꬉ-ꬎꬑ-ꬖꬠ-ꬦꬨ-ꬮꬰ-ꭚꭜ-ꭥꭰ-ꯢ가-힣ힰ-ퟆퟋ-ퟻ豈-舘並-龎ff-stﬓ-ﬗיִ-יִײַ-ﬨשׁ-זּטּ-לּמּ-מּנּ-סּףּ-פּצּ-ﮱﯓ-ﴽﵐ-ﶏﶒ-ﷇﷰ-ﷻﹰ-ﹴﹶ-ﻼＡ-Ｚａ-ｚｦ-ﾾￂ-ￇￊ-ￏￒ-ￗￚ-ￜ𐀀-𐀋𐀍-𐀦𐀨-𐀺𐀼-𐀽𐀿-𐁍𐁐-𐁝𐂀-𐃺𐊀-𐊜𐊠-𐋐𐌀-𐌟𐌰-𐍀𐍂-𐍉𐍐-𐍵𐎀-𐎝𐎠-𐏃𐏈-𐏏𐐀-𐒝𐔀-𐔧𐔰-𐕣𐘀-𐜶𐝀-𐝕𐝠-𐝧𐠀-𐠅𐠈-𐠈𐠊-𐠵𐠷-𐠸𐠼-𐠼𐠿-𐡕𐡠-𐡶𐢀-𐢞𐣠-𐣲𐣴-𐣵𐤀-𐤕𐤠-𐤹𐦀-𐦷𐦾-𐦿𐨀-𐨀𐨐-𐨓𐨕-𐨗𐨙-𐨳𐩠-𐩼𐪀-𐪜𐫀-𐫇𐫉-𐫤𐬀-𐬵𐭀-𐭕𐭠-𐭲𐮀-𐮑𐰀-𐱈𐲀-𐲲𐳀-𐳲𑀃-𑀷𑂃-𑂯𑃐-𑃨𑄃-𑄦𑅐-𑅲𑅶-𑅶𑆃-𑆲𑇁-𑇄𑇚-𑇚𑇜-𑇜𑈀-𑈑𑈓-𑈫𑊀-𑊆𑊈-𑊈𑊊-𑊍𑊏-𑊝𑊟-𑊨𑊰-𑋞𑌅-𑌌𑌏-𑌐𑌓-𑌨𑌪-𑌰𑌲-𑌳𑌵-𑌹𑌽-𑌽𑍐-𑍐𑍝-𑍡𑒀-𑒯𑓄-𑓅𑓇-𑓇𑖀-𑖮𑗘-𑗛𑘀-𑘯𑙄-𑙄𑚀-𑚪𑜀-𑜙𑢠-𑣟𑣿-𑣿𑫀-𑫸𒀀-𒎙𒒀-𒕃𓀀-𓐮𔐀-𔙆𖠀-𖨸𖩀-𖩞𖫐-𖫭𖬀-𖬯𖭀-𖭃𖭣-𖭷𖭽-𖮏𖼀-𖽄𖽐-𖽐𖾓-𖾟𛀀-𛀁𛰀-𛱪𛱰-𛱼𛲀-𛲈𛲐-𛲙𝐀-𝑔𝑖-𝒜𝒞-𝒟𝒢-𝒢𝒥-𝒦𝒩-𝒬𝒮-𝒹𝒻-𝒻𝒽-𝓃𝓅-𝔅𝔇-𝔊𝔍-𝔔𝔖-𝔜𝔞-𝔹𝔻-𝔾𝕀-𝕄𝕆-𝕆𝕊-𝕐𝕒-𝚥𝚨-𝛀𝛂-𝛚𝛜-𝛺𝛼-𝜔𝜖-𝜴𝜶-𝝎𝝐-𝝮𝝰-𝞈𝞊-𝞨𝞪-𝟂𝟄-𝟋𞠀-𞣄𞸀-𞸃𞸅-𞸟𞸡-𞸢𞸤-𞸤𞸧-𞸧𞸩-𞸲𞸴-𞸷𞸹-𞸹𞸻-𞸻𞹂-𞹂𞹇-𞹇𞹉-𞹉𞹋-𞹋𞹍-𞹏𞹑-𞹒𞹔-𞹔𞹗-𞹗𞹙-𞹙𞹛-𞹛𞹝-𞹝𞹟-𞹟𞹡-𞹢𞹤-𞹤𞹧-𞹪𞹬-𞹲𞹴-𞹷𞹹-𞹼𞹾-𞹾𞺀-𞺉𞺋-𞺛𞺡-𞺣𞺥-𞺩𞺫-𞺻𠀀-𪛖𪜀-𫜴𫝀-𫠝𫠠-𬺡丽-𪘀])+)");
+
+// bullet_core-0.1.1: "^(?u:\\()"
+consistent!(bullet_core_4, "^(?u:\\()");
+
+// bullet_core-0.1.1: "^(?u:\\))"
+consistent!(bullet_core_5, "^(?u:\\))");
+
+// bullet_core-0.1.1: "^(?u:\\*)"
+consistent!(bullet_core_6, "^(?u:\\*)");
+
+// bullet_core-0.1.1: "^(?u:\\+)"
+consistent!(bullet_core_7, "^(?u:\\+)");
+
+// bullet_core-0.1.1: "^(?u:,)"
+consistent!(bullet_core_8, "^(?u:,)");
+
+// bullet_core-0.1.1: "^(?u:\\-)"
+consistent!(bullet_core_9, "^(?u:\\-)");
+
+// bullet_core-0.1.1: "^(?u:/)"
+consistent!(bullet_core_10, "^(?u:/)");
+
+// bullet_core-0.1.1: "^(?u:\\[)"
+consistent!(bullet_core_11, "^(?u:\\[)");
+
+// bullet_core-0.1.1: "^(?u:\\])"
+consistent!(bullet_core_12, "^(?u:\\])");
+
+// bullet_core-0.1.1: "^(?u:\\^)"
+consistent!(bullet_core_13, "^(?u:\\^)");
+
+// bullet_core-0.1.1: "^(?u:·)"
+consistent!(bullet_core_14, "^(?u:·)");
+
+// actix-web-0.6.13: "//+"
+consistent!(actix_web_0, "//+");
+
+// actix-web-0.6.13: "//+"
+consistent!(actix_web_1, "//+");
+
+// althea_kernel_interface-0.1.0: r"(\S*) .* (\S*) (REACHABLE|STALE|DELAY)"
+consistent!(
+    althea_kernel_interface_0,
+    r"(\S*) .* (\S*) (REACHABLE|STALE|DELAY)"
+);
+
+// althea_kernel_interface-0.1.0: r"-s (.*) --ip6-dst (.*)/.* bcnt = (.*)"
+consistent!(
+    althea_kernel_interface_1,
+    r"-s (.*) --ip6-dst (.*)/.* bcnt = (.*)"
+);
+
+// alcibiades-0.3.0: r"\buci(?:\s|$)"
+consistent!(alcibiades_0, r"\buci(?:\s|$)");
+
+// ruma-identifiers-0.11.0: r"\A[a-z0-9._=-]+\z"
+consistent!(ruma_identifiers_0, r"\A[a-z0-9._=-]+\z");
+
+// rusqbin-0.2.3: r"/rusqbins/((?i)[A-F0-9]{8}\-[A-F0-9]{4}\-4[A-F0-9]{3}\-[89AB][A-F0-9]{3}\-[A-F0-9]{12})$"
+consistent!(rusqbin_0, r"/rusqbins/((?i)[A-F0-9]{8}\-[A-F0-9]{4}\-4[A-F0-9]{3}\-[89AB][A-F0-9]{3}\-[A-F0-9]{12})$");
+
+// rusqbin-0.2.3: r"/rusqbins/((?i)[A-F0-9]{8}\-[A-F0-9]{4}\-4[A-F0-9]{3}\-[89AB][A-F0-9]{3}\-[A-F0-9]{12})/requests/?$"
+consistent!(rusqbin_1, r"/rusqbins/((?i)[A-F0-9]{8}\-[A-F0-9]{4}\-4[A-F0-9]{3}\-[89AB][A-F0-9]{3}\-[A-F0-9]{12})/requests/?$");
+
+// rust-install-0.0.4: r"^(nightly|beta|stable)(?:-(\d{4}-\d{2}-\d{2}))?$"
+consistent!(
+    rust_install_0,
+    r"^(nightly|beta|stable)(?:-(\d{4}-\d{2}-\d{2}))?$"
+);
+
+// rust_inbox-0.0.5: "^+(.*)\r\n"
+consistent!(rust_inbox_0, "^+(.*)\r\n");
+
+// rust_inbox-0.0.5: r"^\* CAPABILITY (.*)\r\n"
+consistent!(rust_inbox_1, r"^\* CAPABILITY (.*)\r\n");
+
+// rust_inbox-0.0.5: r"^([a-zA-Z0-9]+) (OK|NO|BAD)(.*)"
+consistent!(rust_inbox_2, r"^([a-zA-Z0-9]+) (OK|NO|BAD)(.*)");
+
+// rust_inbox-0.0.5: r"^\* (\d+) EXISTS\r\n"
+consistent!(rust_inbox_3, r"^\* (\d+) EXISTS\r\n");
+
+// rust_inbox-0.0.5: r"^\* (\d+) RECENT\r\n"
+consistent!(rust_inbox_4, r"^\* (\d+) RECENT\r\n");
+
+// rust_inbox-0.0.5: r"^\* FLAGS (.+)\r\n"
+consistent!(rust_inbox_5, r"^\* FLAGS (.+)\r\n");
+
+// rust_inbox-0.0.5: r"^\* OK \[UNSEEN (\d+)\](.*)\r\n"
+consistent!(rust_inbox_6, r"^\* OK \[UNSEEN (\d+)\](.*)\r\n");
+
+// rust_inbox-0.0.5: r"^\* OK \[UIDVALIDITY (\d+)\](.*)\r\n"
+consistent!(rust_inbox_7, r"^\* OK \[UIDVALIDITY (\d+)\](.*)\r\n");
+
+// rust_inbox-0.0.5: r"^\* OK \[UIDNEXT (\d+)\](.*)\r\n"
+consistent!(rust_inbox_8, r"^\* OK \[UIDNEXT (\d+)\](.*)\r\n");
+
+// rust_inbox-0.0.5: r"^\* OK \[PERMANENTFLAGS (.+)\](.*)\r\n"
+consistent!(rust_inbox_9, r"^\* OK \[PERMANENTFLAGS (.+)\](.*)\r\n");
+
+// rustml-0.0.7: r"^[a-z]+ (\d+)$"
+consistent!(rustml_0, r"^[a-z]+ (\d+)$");
+
+// rustml-0.0.7: r"^[a-z]+ (\d+)$"
+consistent!(rustml_1, r"^[a-z]+ (\d+)$");
+
+// rustml-0.0.7: r"^[a-z]+ (\d+)$"
+consistent!(rustml_2, r"^[a-z]+ (\d+)$");
+
+// rustfmt-0.10.0: r"([^\\](\\\\)*)\\[\n\r][[:space:]]*"
+consistent!(rustfmt_0, r"([^\\](\\\\)*)\\[\n\r][[:space:]]*");
+
+// rustfmt-core-0.4.0: r"(^\s*$)|(^\s*//\s*rustfmt-[^:]+:\s*\S+)"
+consistent!(rustfmt_core_0, r"(^\s*$)|(^\s*//\s*rustfmt-[^:]+:\s*\S+)");
+
+// rustfmt-core-0.4.0: r"^## `([^`]+)`"
+consistent!(rustfmt_core_1, r"^## `([^`]+)`");
+
+// rustfmt-core-0.4.0: r"([^\\](\\\\)*)\\[\n\r][[:space:]]*"
+consistent!(rustfmt_core_2, r"([^\\](\\\\)*)\\[\n\r][[:space:]]*");
+
+// rustfmt-core-0.4.0: r"\s;"
+consistent!(rustfmt_core_3, r"\s;");
+
+// rust-enum-derive-0.4.0: r"^(0x)?([:digit:]+)$"
+consistent!(rust_enum_derive_0, r"^(0x)?([:digit:]+)$");
+
+// rust-enum-derive-0.4.0: r"^([:digit:]+)[:space:]*<<[:space:]*([:digit:]+)$"
+consistent!(
+    rust_enum_derive_1,
+    r"^([:digit:]+)[:space:]*<<[:space:]*([:digit:]+)$"
+);
+
+// rust-enum-derive-0.4.0: r"^[:space:]*([[:alnum:]_]+)([:space:]*=[:space:]*([:graph:]+))?[:space:]*,"
+consistent!(rust_enum_derive_2, r"^[:space:]*([[:alnum:]_]+)([:space:]*=[:space:]*([:graph:]+))?[:space:]*,");
+
+// rust-enum-derive-0.4.0: r"^#define[:space:]+([:graph:]+)[:space:]+([:graph:]+)"
+consistent!(
+    rust_enum_derive_3,
+    r"^#define[:space:]+([:graph:]+)[:space:]+([:graph:]+)"
+);
+
+// rustsourcebundler-0.2.0: r"^\s*pub mod (.+);$"
+consistent!(rustsourcebundler_0, r"^\s*pub mod (.+);$");
+
+// rustsourcebundler-0.2.0: r"^\s*pub mod (.+);$"
+consistent!(rustsourcebundler_1, r"^\s*pub mod (.+);$");
+
+// rustfmt-nightly-0.8.2: r"([^\\](\\\\)*)\\[\n\r][[:space:]]*"
+consistent!(rustfmt_nightly_0, r"([^\\](\\\\)*)\\[\n\r][[:space:]]*");
+
+// rustfmt-nightly-0.8.2: r"\s;"
+consistent!(rustfmt_nightly_1, r"\s;");
+
+// rustache-0.1.0: r"(?s)(.*?)([ \t\r\n]*)(\{\{(\{?\S?\s*?[\w\.\s]*.*?\s*?\}?)\}\})([ \t\r\n]*)"
+consistent!(rustache_0, r"(?s)(.*?)([ \t\r\n]*)(\{\{(\{?\S?\s*?[\w\.\s]*.*?\s*?\}?)\}\})([ \t\r\n]*)");
+
+// rustfilt-0.2.0: r"_ZN[\$\._[:alnum:]]*"
+consistent!(rustfilt_0, r"_ZN[\$\._[:alnum:]]*");
+
+// rustache-lists-0.1.2: r"(?s)(.*?)([ \t\r\n]*)(\{\{(\{?\S?\s*?[\w\.\s]*.*?\s*?\}?)\}\})([ \t\r\n]*)"
+consistent!(rustache_lists_0, r"(?s)(.*?)([ \t\r\n]*)(\{\{(\{?\S?\s*?[\w\.\s]*.*?\s*?\}?)\}\})([ \t\r\n]*)");
+
+// rural-0.7.3: "(.+)=(.+)"
+consistent!(rural_0, "(.+)=(.+)");
+
+// rural-0.7.3: "(.*):(.+)"
+consistent!(rural_1, "(.*):(.+)");
+
+// rural-0.7.3: "(.+):=(.+)"
+consistent!(rural_2, "(.+):=(.+)");
+
+// rural-0.7.3: "(.*)==(.+)"
+consistent!(rural_3, "(.*)==(.+)");
+
+// rusoto_credential-0.11.0: r"^\[([^\]]+)\]$"
+consistent!(rusoto_credential_0, r"^\[([^\]]+)\]$");
+
+// rumblebars-0.3.0: "([:blank:]*)$"
+consistent!(rumblebars_0, "([:blank:]*)$");
+
+// rumblebars-0.3.0: "(\r?\n)[:blank:]*(\\{\\{~?[#!/](?:\\}?[^}])*\\}\\})[:blank:]*(:?\r?\n)?\\z"
+consistent!(rumblebars_1, "(\r?\n)[:blank:]*(\\{\\{~?[#!/](?:\\}?[^}])*\\}\\})[:blank:]*(:?\r?\n)?\\z");
+
+// rumblebars-0.3.0: "(\r?\n[:blank:]*)(\\{\\{~?>(?:\\}?[^}])*\\}\\})[:blank:]*(:?\r?\n)?\\z"
+consistent!(
+    rumblebars_2,
+    "(\r?\n[:blank:]*)(\\{\\{~?>(?:\\}?[^}])*\\}\\})[:blank:]*(:?\r?\n)?\\z"
+);
+
+// rumblebars-0.3.0: "((?:[:blank:]|\r?\n)*)(\r?\n)[:blank:]*$"
+consistent!(rumblebars_3, "((?:[:blank:]|\r?\n)*)(\r?\n)[:blank:]*$");
+
+// rumblebars-0.3.0: "^([:blank:]*\r?\n)(.*)"
+consistent!(rumblebars_4, "^([:blank:]*\r?\n)(.*)");
+
+// diesel_cli-1.3.1: r"(?P<stamp>[\d-]*)_hello"
+consistent!(diesel_cli_0, r"(?P<stamp>[\d-]*)_hello");
+
+// dishub-0.1.1: r"(\d+)s"
+consistent!(dishub_0, r"(\d+)s");
+
+// spreadsheet_textconv-0.1.0: r"\n"
+consistent!(spreadsheet_textconv_0, r"\n");
+
+// spreadsheet_textconv-0.1.0: r"\r"
+consistent!(spreadsheet_textconv_1, r"\r");
+
+// spreadsheet_textconv-0.1.0: r"\t"
+consistent!(spreadsheet_textconv_2, r"\t");
+
+// split_aud-0.1.0: r"DELAY (-?\d+)ms"
+consistent!(split_aud_0, r"DELAY (-?\d+)ms");
+
+// split_aud-0.1.0: r"Trim\((\d+), ?(\d+)\)"
+consistent!(split_aud_1, r"Trim\((\d+), ?(\d+)\)");
+
+// spotrust-0.0.5: r"spotify:[a-z]+:[a-zA-Z0-9]+"
+consistent!(spotrust_0, r"spotify:[a-z]+:[a-zA-Z0-9]+");
+
+// spaceslugs-0.1.0: r"[^\x00-\x7F]"
+consistent!(spaceslugs_0, r"[^\x00-\x7F]");
+
+// spaceslugs-0.1.0: r"[']+"
+consistent!(spaceslugs_1, r"[']+");
+
+// spaceslugs-0.1.0: r"\W+"
+consistent!(spaceslugs_2, r"\W+");
+
+// spaceslugs-0.1.0: r"[ ]+"
+consistent!(spaceslugs_3, r"[ ]+");
+
+// space_email_api-0.1.1: "PHPSESSID=([0-9a-f]+)"
+consistent!(space_email_api_0, "PHPSESSID=([0-9a-f]+)");
+
+// lorikeet-0.7.0: "[^0-9.,]"
+consistent!(lorikeet_0, "[^0-9.,]");
+
+// claude-0.3.0: r"^(?:\b|(-)?)(\p{Currency_Symbol})?((?:(?:\d{1,3}[\.,])+\d{3})|\d+)(?:[\.,](\d{2}))?\b$"
+consistent!(claude_0, r"^(?:\b|(-)?)(\p{Currency_Symbol})?((?:(?:\d{1,3}[\.,])+\d{3})|\d+)(?:[\.,](\d{2}))?\b$");
+
+// clam-0.1.6: r"<%=\s*(.+?)\s*%>"
+consistent!(clam_0, r"<%=\s*(.+?)\s*%>");
+
+// classifier-0.0.3: r"(\s)"
+consistent!(classifier_0, r"(\s)");
+
+// click-0.3.2: r"(-----BEGIN .*-----\n)((?:(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)*\n)+)(-----END .*-----)"
+consistent!(click_0, r"(-----BEGIN .*-----\n)((?:(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)*\n)+)(-----END .*-----)");
+
+// click-0.3.2: r"-----BEGIN PRIVATE KEY-----"
+consistent!(click_1, r"-----BEGIN PRIVATE KEY-----");
+
+// ultrastar-txt-0.1.2: r"#([A-Z3a-z]*):(.*)"
+consistent!(ultrastar_txt_0, r"#([A-Z3a-z]*):(.*)");
+
+// ultrastar-txt-0.1.2: "^-\\s?(-?[0-9]+)\\s*$"
+consistent!(ultrastar_txt_1, "^-\\s?(-?[0-9]+)\\s*$");
+
+// ultrastar-txt-0.1.2: "^-\\s?(-?[0-9]+)\\s+(-?[0-9]+)"
+consistent!(ultrastar_txt_2, "^-\\s?(-?[0-9]+)\\s+(-?[0-9]+)");
+
+// ultrastar-txt-0.1.2: "^(.)\\s*(-?[0-9]+)\\s+(-?[0-9]+)\\s+(-?[0-9]+)\\s?(.*)"
+consistent!(
+    ultrastar_txt_3,
+    "^(.)\\s*(-?[0-9]+)\\s+(-?[0-9]+)\\s+(-?[0-9]+)\\s?(.*)"
+);
+
+// ultrastar-txt-0.1.2: "^P\\s?(-?[0-9]+)"
+consistent!(ultrastar_txt_4, "^P\\s?(-?[0-9]+)");
+
+// db-accelerate-2.0.0: r"^template\.add($|\..+$)"
+consistent!(db_accelerate_0, r"^template\.add($|\..+$)");
+
+// db-accelerate-2.0.0: r"^template\.sub($|\..+$)"
+consistent!(db_accelerate_1, r"^template\.sub($|\..+$)");
+
+// sterling-0.3.0: r"(\d+)([cegps])"
+consistent!(sterling_0, r"(\d+)([cegps])");
+
+// stache-0.2.0: r"[^\w]"
+consistent!(stache_0, r"[^\w]");
+
+// strukt-0.1.0: "\"([<>]?)([xcbB\\?hHiIlLqQfdspP]*)\""
+consistent!(strukt_0, "\"([<>]?)([xcbB\\?hHiIlLqQfdspP]*)\"");
+
+// steamid-ng-0.3.1: r"^STEAM_([0-4]):([0-1]):([0-9]{1,10})$"
+consistent!(steamid_ng_0, r"^STEAM_([0-4]):([0-1]):([0-9]{1,10})$");
+
+// steamid-ng-0.3.1: r"^\[([AGMPCgcLTIUai]):([0-4]):([0-9]{1,10})(:([0-9]+))?\]$"
+consistent!(
+    steamid_ng_1,
+    r"^\[([AGMPCgcLTIUai]):([0-4]):([0-9]{1,10})(:([0-9]+))?\]$"
+);
+
+// strscan-0.1.1: r"^\w+"
+consistent!(strscan_0, r"^\w+");
+
+// strscan-0.1.1: r"^\s+"
+consistent!(strscan_1, r"^\s+");
+
+// strscan-0.1.1: r"^\w+"
+consistent!(strscan_2, r"^\w+");
+
+// strscan-0.1.1: r"^\s+"
+consistent!(strscan_3, r"^\s+");
+
+// strscan-0.1.1: r"^(\w+)\s+"
+consistent!(strscan_4, r"^(\w+)\s+");
+
+// tk-carbon-0.2.0: r"^([a-zA-Z0-9\.-]+)(?:\s+(\d+))$"
+consistent!(tk_carbon_0, r"^([a-zA-Z0-9\.-]+)(?:\s+(\d+))$");
+
+// tk-carbon-0.2.0: r"^([a-zA-Z0-9\.-]+)(?:\s+(\d+))$"
+consistent!(tk_carbon_1, r"^([a-zA-Z0-9\.-]+)(?:\s+(\d+))$");
+
+// evalrs-0.0.10: r"extern\s+crate\s+([a-z0-9_]+)\s*;(\s*//(.+))?"
+consistent!(evalrs_0, r"extern\s+crate\s+([a-z0-9_]+)\s*;(\s*//(.+))?");
+
+// evalrs-0.0.10: r"(?m)^# "
+consistent!(evalrs_1, r"(?m)^# ");
+
+// evalrs-0.0.10: r"(?m)^\s*fn +main *\( *\)"
+consistent!(evalrs_2, r"(?m)^\s*fn +main *\( *\)");
+
+// evalrs-0.0.10: r"(extern\s+crate\s+[a-z0-9_]+\s*;)"
+consistent!(evalrs_3, r"(extern\s+crate\s+[a-z0-9_]+\s*;)");
+
+// gate_build-0.5.0: "(.*)_t([0-9]+)"
+consistent!(gate_build_0, "(.*)_t([0-9]+)");
+
+// rake-0.1.1: r"[^\P{P}-]|\s+-\s+"
+consistent!(rake_0, r"[^\P{P}-]|\s+-\s+");
+
+// rafy-0.2.1: r"^.*(?:(?:youtu\.be/|v/|vi/|u/w/|embed/)|(?:(?:watch)?\?v(?:i)?=|\&v(?:i)?=))([^#\&\?]*).*"
+consistent!(rafy_0, r"^.*(?:(?:youtu\.be/|v/|vi/|u/w/|embed/)|(?:(?:watch)?\?v(?:i)?=|\&v(?:i)?=))([^#\&\?]*).*");
+
+// raven-0.2.1: r"^(?P<protocol>.*?)://(?P<public_key>.*?):(?P<secret_key>.*?)@(?P<host>.*?)/(?P<path>.*/)?(?P<project_id>.*)$"
+consistent!(raven_0, r"^(?P<protocol>.*?)://(?P<public_key>.*?):(?P<secret_key>.*?)@(?P<host>.*?)/(?P<path>.*/)?(?P<project_id>.*)$");
+
+// rargs-0.2.0: r"\{[[:space:]]*[^{}]*[[:space:]]*\}"
+consistent!(rargs_0, r"\{[[:space:]]*[^{}]*[[:space:]]*\}");
+
+// rargs-0.2.0: r"^\{[[:space:]]*(?P<name>[[:word:]]*)[[:space:]]*\}$"
+consistent!(rargs_1, r"^\{[[:space:]]*(?P<name>[[:word:]]*)[[:space:]]*\}$");
+
+// rargs-0.2.0: r"^\{[[:space:]]*(?P<num>-?\d+)[[:space:]]*\}$"
+consistent!(rargs_2, r"^\{[[:space:]]*(?P<num>-?\d+)[[:space:]]*\}$");
+
+// rargs-0.2.0: r"^\{(?P<left>-?\d*)?\.\.(?P<right>-?\d*)?(?::(?P<sep>.*))?\}$"
+consistent!(
+    rargs_3,
+    r"^\{(?P<left>-?\d*)?\.\.(?P<right>-?\d*)?(?::(?P<sep>.*))?\}$"
+);
+
+// rargs-0.2.0: r"(.*?)[[:space:]]+|(.*?)$"
+consistent!(rargs_4, r"(.*?)[[:space:]]+|(.*?)$");
+
+// indradb-lib-0.15.0: r"[a-zA-Z0-9]{8}"
+consistent!(indradb_lib_0, r"[a-zA-Z0-9]{8}");
+
+// fungi-lang-0.1.50: r"::"
+consistent!(fungi_lang_0, r"::");
+
+// nickel-0.10.1: "/hello/(?P<name>[a-zA-Z]+)"
+consistent!(nickel_0, "/hello/(?P<name>[a-zA-Z]+)");
+
+// nickel-0.10.1: "/hello/(?P<name>[a-zA-Z]+)"
+consistent!(nickel_1, "/hello/(?P<name>[a-zA-Z]+)");
+
+// pact_verifier-0.4.0: r"\{(\w+)\}"
+consistent!(pact_verifier_0, r"\{(\w+)\}");
+
+// pact_matching-0.4.1: "application/.*json"
+consistent!(pact_matching_0, "application/.*json");
+
+// pact_matching-0.4.1: "application/json.*"
+consistent!(pact_matching_1, "application/json.*");
+
+// pact_matching-0.4.1: "application/.*xml"
+consistent!(pact_matching_2, "application/.*xml");
+
+// pangu-0.2.0: "([\"'\\(\\[\\{{<\u{201c}])(\\s*)(.+?)(\\s*)([\"'\\)\\]\\}}>\u{201d}])"
+consistent!(
+    pangu_0,
+    "([\"'\\(\\[\\{{<\u{201c}])(\\s*)(.+?)(\\s*)([\"'\\)\\]\\}}>\u{201d}])"
+);
+
+// pangu-0.2.0: "([\\(\\[\\{{<\u{201c}]+)(\\s*)(.+?)(\\s*)([\\)\\]\\}}>\u{201d}]+)"
+consistent!(
+    pangu_1,
+    "([\\(\\[\\{{<\u{201c}]+)(\\s*)(.+?)(\\s*)([\\)\\]\\}}>\u{201d}]+)"
+);
+
+// parser-haskell-0.2.0: r"\{-[\s\S]*?-\}"
+consistent!(parser_haskell_0, r"\{-[\s\S]*?-\}");
+
+// parser-haskell-0.2.0: r"(?m);+\s*$"
+consistent!(parser_haskell_1, r"(?m);+\s*$");
+
+// parser-haskell-0.2.0: r"(?m)^#(if|ifn?def|endif|else|include|elif).*"
+consistent!(parser_haskell_2, r"(?m)^#(if|ifn?def|endif|else|include|elif).*");
+
+// parser-haskell-0.2.0: r"'([^'\\]|\\[A-Z]{1,3}|\\.)'"
+consistent!(parser_haskell_3, r"'([^'\\]|\\[A-Z]{1,3}|\\.)'");
+
+// parser-haskell-0.2.0: r"forall\s+(.*?)\."
+consistent!(parser_haskell_4, r"forall\s+(.*?)\.");
+
+// html2md-0.2.1: "\\s{2,}"
+consistent!(html2md_0, "\\s{2,}");
+
+// html2md-0.2.1: "\\n{2,}"
+consistent!(html2md_1, "\\n{2,}");
+
+// html2md-0.2.1: "(?m)(\\S) $"
+consistent!(html2md_2, "(?m)(\\S) $");
+
+// html2md-0.2.1: "(?m)^[-*] "
+consistent!(html2md_3, "(?m)^[-*] ");
+
+// ovpnfile-0.1.2: r"#.*$"
+consistent!(ovpnfile_0, r"#.*$");
+
+// ovpnfile-0.1.2: r"^<(\S+)>"
+consistent!(ovpnfile_1, r"^<(\S+)>");
+
+// ovpnfile-0.1.2: r"^</(\S+)>"
+consistent!(ovpnfile_2, r"^</(\S+)>");
+
+// screenruster-saver-fractal-0.1.1: r"#([:xdigit:]{2})([:xdigit:]{2})([:xdigit:]{2})"
+consistent!(
+    screenruster_saver_fractal_0,
+    r"#([:xdigit:]{2})([:xdigit:]{2})([:xdigit:]{2})"
+);
+
+// scarlet-0.2.2: r"rgb\((?: *(\d{1,3}),)(?: *(\d{1,3}),)(?: *(\d{1,3}))\)"
+consistent!(
+    scarlet_0,
+    r"rgb\((?: *(\d{1,3}),)(?: *(\d{1,3}),)(?: *(\d{1,3}))\)"
+);
+
+// cpp_to_rust_generator-0.2.0: r"^([\w:]+)<(.+)>$"
+consistent!(cpp_to_rust_generator_0, r"^([\w:]+)<(.+)>$");
+
+// cpp_to_rust_generator-0.2.0: r"^type-parameter-(\d+)-(\d+)$"
+consistent!(cpp_to_rust_generator_1, r"^type-parameter-(\d+)-(\d+)$");
+
+// cpp_to_rust_generator-0.2.0: r"^([\w~]+)<[^<>]+>$"
+consistent!(cpp_to_rust_generator_2, r"^([\w~]+)<[^<>]+>$");
+
+// cpp_to_rust_generator-0.2.0: r"(signals|Q_SIGNALS)\s*:"
+consistent!(cpp_to_rust_generator_3, r"(signals|Q_SIGNALS)\s*:");
+
+// cpp_to_rust_generator-0.2.0: r"(slots|Q_SLOTS)\s*:"
+consistent!(cpp_to_rust_generator_4, r"(slots|Q_SLOTS)\s*:");
+
+// cpp_to_rust_generator-0.2.0: r"(public|protected|private)\s*:"
+consistent!(cpp_to_rust_generator_5, r"(public|protected|private)\s*:");
+
+// cpp_to_rust-0.5.3: r"^([\w:]+)<(.+)>$"
+consistent!(cpp_to_rust_0, r"^([\w:]+)<(.+)>$");
+
+// cpp_to_rust-0.5.3: r"^type-parameter-(\d+)-(\d+)$"
+consistent!(cpp_to_rust_1, r"^type-parameter-(\d+)-(\d+)$");
+
+// cpp_to_rust-0.5.3: r"^([\w~]+)<[^<>]+>$"
+consistent!(cpp_to_rust_2, r"^([\w~]+)<[^<>]+>$");
+
+// cpp_to_rust-0.5.3: r"(signals|Q_SIGNALS)\s*:"
+consistent!(cpp_to_rust_3, r"(signals|Q_SIGNALS)\s*:");
+
+// cpp_to_rust-0.5.3: r"(slots|Q_SLOTS)\s*:"
+consistent!(cpp_to_rust_4, r"(slots|Q_SLOTS)\s*:");
+
+// cpp_to_rust-0.5.3: r"(public|protected|private)\s*:"
+consistent!(cpp_to_rust_5, r"(public|protected|private)\s*:");
+
+// fritzbox_logs-0.2.0: "(\\d{2}\\.\\d{2}\\.\\d{2}) (\\d{2}:\\d{2}:\\d{2}) (.*)"
+consistent!(
+    fritzbox_logs_0,
+    "(\\d{2}\\.\\d{2}\\.\\d{2}) (\\d{2}:\\d{2}:\\d{2}) (.*)"
+);
+
+// fractal-matrix-api-3.29.0: r"mxc://(?P<server>[^/]+)/(?P<media>.+)"
+consistent!(fractal_matrix_api_0, r"mxc://(?P<server>[^/]+)/(?P<media>.+)");
+
+// smtp2go-0.1.4: r"^api-[a-zA-Z0-9]{32}$"
+consistent!(smtp2go_0, r"^api-[a-zA-Z0-9]{32}$");
+
+// pusher-0.3.1: r"^[-a-zA-Z0-9_=@,.;]+$"
+consistent!(pusher_0, r"^[-a-zA-Z0-9_=@,.;]+$");
+
+// pusher-0.3.1: r"\A\d+\.\d+\z"
+consistent!(pusher_1, r"\A\d+\.\d+\z");
+
+// bakervm-0.9.0: r"^\.(.+?) +?(.+)$"
+consistent!(bakervm_0, r"^\.(.+?) +?(.+)$");
+
+// bakervm-0.9.0: r"^\.([^\s]+)$"
+consistent!(bakervm_1, r"^\.([^\s]+)$");
+
+// bakervm-0.9.0: r"^include! +([^\s]+)$"
+consistent!(bakervm_2, r"^include! +([^\s]+)$");
+
+// bakervm-0.9.0: r"^@(\d+)$"
+consistent!(bakervm_3, r"^@(\d+)$");
+
+// bakervm-0.9.0: r"^true|false$"
+consistent!(bakervm_4, r"^true|false$");
+
+// bakervm-0.9.0: r"^(-?\d+)?\.[0-9]+$"
+consistent!(bakervm_5, r"^(-?\d+)?\.[0-9]+$");
+
+// bakervm-0.9.0: r"^(-?\d+)?$"
+consistent!(bakervm_6, r"^(-?\d+)?$");
+
+// bakervm-0.9.0: r"^#([0-9abcdefABCDEF]{6})$"
+consistent!(bakervm_7, r"^#([0-9abcdefABCDEF]{6})$");
+
+// bakervm-0.9.0: r"^'(.)'$"
+consistent!(bakervm_8, r"^'(.)'$");
+
+// bakervm-0.9.0: r"^\$vi\((\d+)\)$"
+consistent!(bakervm_9, r"^\$vi\((\d+)\)$");
+
+// bakervm-0.9.0: r"^\$key\((\d+)\)$"
+consistent!(bakervm_10, r"^\$key\((\d+)\)$");
+
+// banana-0.0.2: "(?P<type>[A-Z^']+) (?P<route>[^']+) HTTP/(?P<http>[^']+)"
+consistent!(
+    banana_0,
+    "(?P<type>[A-Z^']+) (?P<route>[^']+) HTTP/(?P<http>[^']+)"
+);
+
+// serial-key-2.0.0: r"[A-F0-9]{8}"
+consistent!(serial_key_0, r"[A-F0-9]{8}");
+
+// serde-hjson-0.8.1: "[\\\\\"\x00-\x1f\x7f-\u{9f}\u{00ad}\u{0600}-\u{0604}\u{070f}\u{17b4}\u{17b5}\u{200c}-\u{200f}\u{2028}-\u{202f}\u{2060}-\u{206f}\u{feff}\u{fff0}-\u{ffff}]"
+consistent!(serde_hjson_0, "[\\\\\"\x00-\x1f\x7f-\u{9f}\u{00ad}\u{0600}-\u{0604}\u{070f}\u{17b4}\u{17b5}\u{200c}-\u{200f}\u{2028}-\u{202f}\u{2060}-\u{206f}\u{feff}\u{fff0}-\u{ffff}]");
+
+// serde-hjson-0.8.1: "[\x00-\x1f\x7f-\u{9f}\u{00ad}\u{0600}-\u{0604}\u{070f}\u{17b4}\u{17b5}\u{200c}-\u{200f}\u{2028}-\u{202f}\u{2060}-\u{206f}\u{feff}\u{fff0}-\u{ffff}]"
+consistent!(serde_hjson_1, "[\x00-\x1f\x7f-\u{9f}\u{00ad}\u{0600}-\u{0604}\u{070f}\u{17b4}\u{17b5}\u{200c}-\u{200f}\u{2028}-\u{202f}\u{2060}-\u{206f}\u{feff}\u{fff0}-\u{ffff}]");
+
+// serde-hjson-0.8.1: "'''|[\x00-\x09\x0b\x0c\x0e-\x1f\x7f-\u{9f}\u{00ad}\u{0600}-\u{0604}\u{070f}\u{17b4}\u{17b5}\u{200c}-\u{200f}\u{2028}-\u{202f}\u{2060}-\u{206f}\u{feff}\u{fff0}-\u{ffff}]"
+consistent!(serde_hjson_2, "'''|[\x00-\x09\x0b\x0c\x0e-\x1f\x7f-\u{9f}\u{00ad}\u{0600}-\u{0604}\u{070f}\u{17b4}\u{17b5}\u{200c}-\u{200f}\u{2028}-\u{202f}\u{2060}-\u{206f}\u{feff}\u{fff0}-\u{ffff}]");
+
+// serde-odbc-0.1.0: r"/todos/(?P<id>\d+)"
+consistent!(serde_odbc_0, r"/todos/(?P<id>\d+)");
+
+// sentry-0.6.0: r"^(?:_<)?([a-zA-Z0-9_]+?)(?:\.\.|::)"
+consistent!(sentry_0, r"^(?:_<)?([a-zA-Z0-9_]+?)(?:\.\.|::)");
+
+// sentiment-0.1.1: r"[^a-zA-Z0 -]+"
+consistent!(sentiment_0, r"[^a-zA-Z0 -]+");
+
+// sentiment-0.1.1: r" {2,}"
+consistent!(sentiment_1, r" {2,}");
+
+// verilog-0.0.1: r"(?m)//.*"
+consistent!(verilog_0, r"(?m)//.*");
+
+// verex-0.2.2: "(?P<robot>C3PO)"
+consistent!(verex_0, "(?P<robot>C3PO)");
+
+// handlebars-0.32.4: ">|<|\"|&"
+consistent!(handlebars_0, ">|<|\"|&");
+
+// haikunator-0.1.2: r"^\w+-\w+-[0123456789]{4}$"
+consistent!(haikunator_0, r"^\w+-\w+-[0123456789]{4}$");
+
+// haikunator-0.1.2: r"^\w+@\w+@[0123456789]{4}$"
+consistent!(haikunator_1, r"^\w+@\w+@[0123456789]{4}$");
+
+// haikunator-0.1.2: r"^\w+-\w+-[0123456789abcdef]{4}$"
+consistent!(haikunator_2, r"^\w+-\w+-[0123456789abcdef]{4}$");
+
+// haikunator-0.1.2: r"^\w+-\w+-[0123456789忠犬ハチ公]{10}$"
+consistent!(haikunator_3, r"^\w+-\w+-[0123456789忠犬ハチ公]{10}$");
+
+// haikunator-0.1.2: r"^\w+-\w+$"
+consistent!(haikunator_4, r"^\w+-\w+$");
+
+// haikunator-0.1.2: r"^\w+-\w+-[foo]{4}$"
+consistent!(haikunator_5, r"^\w+-\w+-[foo]{4}$");
+
+// haikunator-0.1.2: r"^\w+-\w+-[0123456789忠犬ハチ公]{5}$"
+consistent!(haikunator_6, r"^\w+-\w+-[0123456789忠犬ハチ公]{5}$");
+
+// bobbin-cli-0.8.3: r"(.*)"
+consistent!(bobbin_cli_0, r"(.*)");
+
+// bobbin-cli-0.8.3: r"rustc (.*)"
+consistent!(bobbin_cli_1, r"rustc (.*)");
+
+// bobbin-cli-0.8.3: r"cargo (.*)"
+consistent!(bobbin_cli_2, r"cargo (.*)");
+
+// bobbin-cli-0.8.3: r"xargo (.*)\n"
+consistent!(bobbin_cli_3, r"xargo (.*)\n");
+
+// bobbin-cli-0.8.3: r"Open On-Chip Debugger (.*)"
+consistent!(bobbin_cli_4, r"Open On-Chip Debugger (.*)");
+
+// bobbin-cli-0.8.3: r"arm-none-eabi-gcc \(GNU Tools for ARM Embedded Processors[^\)]*\) (.*)"
+consistent!(
+    bobbin_cli_5,
+    r"arm-none-eabi-gcc \(GNU Tools for ARM Embedded Processors[^\)]*\) (.*)"
+);
+
+// bobbin-cli-0.8.3: r"(?m).*\nBasic Open Source SAM-BA Application \(BOSSA\) Version (.*)\n"
+consistent!(
+    bobbin_cli_6,
+    r"(?m).*\nBasic Open Source SAM-BA Application \(BOSSA\) Version (.*)\n"
+);
+
+// bobbin-cli-0.8.3: r"(?m)SEGGER J-Link Commander (.*)\n"
+consistent!(bobbin_cli_7, r"(?m)SEGGER J-Link Commander (.*)\n");
+
+// bobbin-cli-0.8.3: r"(?m)Teensy Loader, Command Line, Version (.*)\n"
+consistent!(bobbin_cli_8, r"(?m)Teensy Loader, Command Line, Version (.*)\n");
+
+// bobbin-cli-0.8.3: r"dfu-util (.*)\n"
+consistent!(bobbin_cli_9, r"dfu-util (.*)\n");
+
+// borsholder-0.9.1: r"^/static/[\w.]+$"
+consistent!(borsholder_0, r"^/static/[\w.]+$");
+
+// borsholder-0.9.1: r"^/timeline/([0-9]+)$"
+consistent!(borsholder_1, r"^/timeline/([0-9]+)$");
+
+// fblog-1.0.1: "\u{001B}\\[[\\d;]*[^\\d;]"
+consistent!(fblog_0, "\u{001B}\\[[\\d;]*[^\\d;]");
+
+// fblog-1.0.1: "\u{001B}\\[[\\d;]*[^\\d;]"
+consistent!(fblog_1, "\u{001B}\\[[\\d;]*[^\\d;]");
+
+// toml-query-0.6.0: r"^\[\d+\]$"
+consistent!(toml_query_0, r"^\[\d+\]$");
+
+// todo-txt-1.1.0: r" (?P<key>[^\s]+):(?P<value>[^\s^/]+)"
+consistent!(todo_txt_0, r" (?P<key>[^\s]+):(?P<value>[^\s^/]+)");
+
+// findr-0.1.5: r"\band\b"
+consistent!(findr_0, r"\band\b");
+
+// findr-0.1.5: r"\bor\b"
+consistent!(findr_1, r"\bor\b");
+
+// findr-0.1.5: r"\bnot\b"
+consistent!(findr_2, r"\bnot\b");
+
+// file-sniffer-3.0.1: r".*?\.(a|la|lo|o|ll|keter|bc|dyn_o|out|d|rlib|crate|min\.js|hi|dyn_hi|S|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$"
+consistent!(file_sniffer_0, r".*?\.(a|la|lo|o|ll|keter|bc|dyn_o|out|d|rlib|crate|min\.js|hi|dyn_hi|S|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$");
+
+// file-sniffer-3.0.1: r".*?\.(stats|conf|h|cache.*|dat|pc|info)$"
+consistent!(file_sniffer_1, r".*?\.(stats|conf|h|cache.*|dat|pc|info)$");
+
+// file-sniffer-3.0.1: r".*?\.(exe|a|la|o|ll|keter|bc|dyn_o|out|d|rlib|crate|min\.js|hi|dyn_hi|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$"
+consistent!(file_sniffer_2, r".*?\.(exe|a|la|o|ll|keter|bc|dyn_o|out|d|rlib|crate|min\.js|hi|dyn_hi|jsexe|webapp|js\.externs|ibc|toc|aux|fdb_latexmk|fls|egg-info|whl|js_a|js_hi|jld|ji|js_o|so.*|dump-.*|vmb|crx|orig|elmo|elmi|pyc|mod|p_hi|p_o|prof|tix)$");
+
+// file-sniffer-3.0.1: r".*?\.(stats|conf|h|cache.*)$"
+consistent!(file_sniffer_3, r".*?\.(stats|conf|h|cache.*)$");
+
+// file-sniffer-3.0.1: r"(\.git|\.pijul|_darcs|\.hg)$"
+consistent!(file_sniffer_4, r"(\.git|\.pijul|_darcs|\.hg)$");
+
+// file_logger-0.1.0: "test"
+consistent!(file_logger_0, "test");
+
+// file_scanner-0.2.0: r"foo"
+consistent!(file_scanner_0, r"foo");
+
+// file_scanner-0.2.0: r"a+b"
+consistent!(file_scanner_1, r"a+b");
+
+// file_scanner-0.2.0: r"a[ab]*b"
+consistent!(file_scanner_2, r"a[ab]*b");
+
+// file_scanner-0.2.0: r"\s+"
+consistent!(file_scanner_3, r"\s+");
+
+// file_scanner-0.2.0: r"\s+"
+consistent!(file_scanner_4, r"\s+");
+
+// cellsplit-0.2.1: r"^\s*([^\s]+) %cellsplit<\d+>$"
+consistent!(cellsplit_0, r"^\s*([^\s]+) %cellsplit<\d+>$");
+
+// cellsplit-0.2.1: r"^\s*([^\s]+) %cellsplit<\d+>$"
+consistent!(cellsplit_1, r"^\s*([^\s]+) %cellsplit<\d+>$");
+
+// aterm-0.20.0: r"^[+\-]?[0-9]+"
+consistent!(aterm_0, r"^[+\-]?[0-9]+");
+
+// aterm-0.20.0: r"^[+\-]?[0-9]+\.[0-9]*([eE][+\-]?[0-9]+)?"
+consistent!(aterm_1, r"^[+\-]?[0-9]+\.[0-9]*([eE][+\-]?[0-9]+)?");
+
+// atarashii_imap-0.3.0: r"^[*] OK"
+consistent!(atarashii_imap_0, r"^[*] OK");
+
+// atarashii_imap-0.3.0: r"FLAGS\s\((.+)\)"
+consistent!(atarashii_imap_1, r"FLAGS\s\((.+)\)");
+
+// atarashii_imap-0.3.0: r"\[PERMANENTFLAGS\s\((.+)\)\]"
+consistent!(atarashii_imap_2, r"\[PERMANENTFLAGS\s\((.+)\)\]");
+
+// atarashii_imap-0.3.0: r"\[UIDVALIDITY\s(\d+)\]"
+consistent!(atarashii_imap_3, r"\[UIDVALIDITY\s(\d+)\]");
+
+// atarashii_imap-0.3.0: r"(\d+)\sEXISTS"
+consistent!(atarashii_imap_4, r"(\d+)\sEXISTS");
+
+// atarashii_imap-0.3.0: r"(\d+)\sRECENT"
+consistent!(atarashii_imap_5, r"(\d+)\sRECENT");
+
+// atarashii_imap-0.3.0: r"\[UNSEEN\s(\d+)\]"
+consistent!(atarashii_imap_6, r"\[UNSEEN\s(\d+)\]");
+
+// atarashii_imap-0.3.0: r"\[UIDNEXT\s(\d+)\]"
+consistent!(atarashii_imap_7, r"\[UIDNEXT\s(\d+)\]");
+
+// editorconfig-1.0.0: r"\\(\{|\})"
+consistent!(editorconfig_0, r"\\(\{|\})");
+
+// editorconfig-1.0.0: r"(^|[^\\])\\\|"
+consistent!(editorconfig_1, r"(^|[^\\])\\\|");
+
+// editorconfig-1.0.0: r"\[([^\]]*)$"
+consistent!(editorconfig_2, r"\[([^\]]*)$");
+
+// editorconfig-1.0.0: r"\[(.*/.*)\]"
+consistent!(editorconfig_3, r"\[(.*/.*)\]");
+
+// editorconfig-1.0.0: r"\{(-?\d+\\\.\\\.-?\d+)\}"
+consistent!(editorconfig_4, r"\{(-?\d+\\\.\\\.-?\d+)\}");
+
+// editorconfig-1.0.0: r"\{([^,]+)\}"
+consistent!(editorconfig_5, r"\{([^,]+)\}");
+
+// editorconfig-1.0.0: r"\{(([^\}].*)?(,|\|)(.*[^\\])?)\}"
+consistent!(editorconfig_6, r"\{(([^\}].*)?(,|\|)(.*[^\\])?)\}");
+
+// editorconfig-1.0.0: r"^/"
+consistent!(editorconfig_7, r"^/");
+
+// editorconfig-1.0.0: r"(^|[^\\])(\{|\})"
+consistent!(editorconfig_8, r"(^|[^\\])(\{|\})");
+
+// edmunge-1.0.0: "^#!.*\n"
+consistent!(edmunge_0, "^#!.*\n");
+
+// unicode_names2_macros-0.2.0: r"\\N\{(.*?)(?:\}|$)"
+consistent!(unicode_names2_macros_0, r"\\N\{(.*?)(?:\}|$)");
+
+// unidiff-0.2.1: r"^--- (?P<filename>[^\t\n]+)(?:\t(?P<timestamp>[^\n]+))?"
+consistent!(
+    unidiff_0,
+    r"^--- (?P<filename>[^\t\n]+)(?:\t(?P<timestamp>[^\n]+))?"
+);
+
+// unidiff-0.2.1: r"^\+\+\+ (?P<filename>[^\t\n]+)(?:\t(?P<timestamp>[^\n]+))?"
+consistent!(
+    unidiff_1,
+    r"^\+\+\+ (?P<filename>[^\t\n]+)(?:\t(?P<timestamp>[^\n]+))?"
+);
+
+// unidiff-0.2.1: r"^@@ -(\d+)(?:,(\d+))? \+(\d+)(?:,(\d+))? @@[ ]?(.*)"
+consistent!(unidiff_2, r"^@@ -(\d+)(?:,(\d+))? \+(\d+)(?:,(\d+))? @@[ ]?(.*)");
+
+// unidiff-0.2.1: r"^(?P<line_type>[- \n\+\\]?)(?P<value>.*)"
+consistent!(unidiff_3, r"^(?P<line_type>[- \n\+\\]?)(?P<value>.*)");
+
+// slippy-map-tiles-0.13.1: "/?(?P<zoom>[0-9]?[0-9])/(?P<x>[0-9]{1,10})/(?P<y>[0-9]{1,10})(\\.[a-zA-Z]{3,4})?$"
+consistent!(slippy_map_tiles_0, "/?(?P<zoom>[0-9]?[0-9])/(?P<x>[0-9]{1,10})/(?P<y>[0-9]{1,10})(\\.[a-zA-Z]{3,4})?$");
+
+// slippy-map-tiles-0.13.1: r"^(?P<minlon>-?[0-9]{1,3}(\.[0-9]{1,10})?) (?P<minlat>-?[0-9]{1,3}(\.[0-9]{1,10})?) (?P<maxlon>-?[0-9]{1,3}(\.[0-9]{1,10})?) (?P<maxlat>-?[0-9]{1,3}(\.[0-9]{1,10})?)$"
+consistent!(slippy_map_tiles_1, r"^(?P<minlon>-?[0-9]{1,3}(\.[0-9]{1,10})?) (?P<minlat>-?[0-9]{1,3}(\.[0-9]{1,10})?) (?P<maxlon>-?[0-9]{1,3}(\.[0-9]{1,10})?) (?P<maxlat>-?[0-9]{1,3}(\.[0-9]{1,10})?)$");
+
+// slippy-map-tiles-0.13.1: r"^(?P<minlon>-?[0-9]{1,3}(\.[0-9]{1,10})?),(?P<minlat>-?[0-9]{1,3}(\.[0-9]{1,10})?),(?P<maxlon>-?[0-9]{1,3}(\.[0-9]{1,10})?),(?P<maxlat>-?[0-9]{1,3}(\.[0-9]{1,10})?)$"
+consistent!(slippy_map_tiles_2, r"^(?P<minlon>-?[0-9]{1,3}(\.[0-9]{1,10})?),(?P<minlat>-?[0-9]{1,3}(\.[0-9]{1,10})?),(?P<maxlon>-?[0-9]{1,3}(\.[0-9]{1,10})?),(?P<maxlat>-?[0-9]{1,3}(\.[0-9]{1,10})?)$");
+
+// sonos-0.1.2: r"^https?://(.+?):1400/xml"
+consistent!(sonos_0, r"^https?://(.+?):1400/xml");
+
+// validator_derive-0.7.0: r"^[a-z]{2}$"
+consistent!(validator_derive_0, r"^[a-z]{2}$");
+
+// validator_derive-0.7.0: r"[a-z]{2}"
+consistent!(validator_derive_1, r"[a-z]{2}");
+
+// validator_derive-0.7.0: r"[a-z]{2}"
+consistent!(validator_derive_2, r"[a-z]{2}");
+
+// nginx-config-0.8.0: r"one of \d+ options"
+consistent!(nginx_config_0, r"one of \d+ options");
+
+// waltz-0.4.0: r"[\s,]"
+consistent!(waltz_0, r"[\s,]");
+
+// warheadhateus-0.2.1: r"^aws_access_key_id = (.*)"
+consistent!(warheadhateus_0, r"^aws_access_key_id = (.*)");
+
+// warheadhateus-0.2.1: r"^aws_secret_access_key = (.*)"
+consistent!(warheadhateus_1, r"^aws_secret_access_key = (.*)");
+
+// warheadhateus-0.2.1: r"^aws_access_key_id = (.*)"
+consistent!(warheadhateus_2, r"^aws_access_key_id = (.*)");
+
+// warheadhateus-0.2.1: r"^aws_secret_access_key = (.*)"
+consistent!(warheadhateus_3, r"^aws_secret_access_key = (.*)");
+
+// jieba-rs-0.2.2: r"([\u{4E00}-\u{9FD5}a-zA-Z0-9+#&\._%]+)"
+consistent!(jieba_rs_0, r"([\u{4E00}-\u{9FD5}a-zA-Z0-9+#&\._%]+)");
+
+// jieba-rs-0.2.2: r"(\r\n|\s)"
+consistent!(jieba_rs_1, r"(\r\n|\s)");
+
+// jieba-rs-0.2.2: "([\u{4E00}-\u{9FD5}]+)"
+consistent!(jieba_rs_2, "([\u{4E00}-\u{9FD5}]+)");
+
+// jieba-rs-0.2.2: r"[^a-zA-Z0-9+#\n]"
+consistent!(jieba_rs_3, r"[^a-zA-Z0-9+#\n]");
+
+// jieba-rs-0.2.2: r"([\u{4E00}-\u{9FD5}]+)"
+consistent!(jieba_rs_4, r"([\u{4E00}-\u{9FD5}]+)");
+
+// jieba-rs-0.2.2: r"([a-zA-Z0-9]+(?:.\d+)?%?)"
+consistent!(jieba_rs_5, r"([a-zA-Z0-9]+(?:.\d+)?%?)");
+
+// lalrpop-0.15.2: r"Span\([0-9 ,]*\)"
+consistent!(lalrpop_0, r"Span\([0-9 ,]*\)");
+
+// lalrpop-snap-0.15.2: r"Span\([0-9 ,]*\)"
+consistent!(lalrpop_snap_0, r"Span\([0-9 ,]*\)");
+
+// nlp-tokenize-0.1.0: r"[\S]+"
+consistent!(nlp_tokenize_0, r"[\S]+");
+
+// kbgpg-0.1.2: "[[:xdigit:]][70]"
+consistent!(kbgpg_0, "[[:xdigit:]][70]");
+
+// cdbd-0.1.1: r"^((?P<address>.*):)?(?P<port>\d+)$"
+consistent!(cdbd_0, r"^((?P<address>.*):)?(?P<port>\d+)$");
+
+// mbutiles-0.1.1: r"[\w\s=+-/]+\((\{(.|\n)*\})\);?"
+consistent!(mbutiles_0, r"[\w\s=+-/]+\((\{(.|\n)*\})\);?");
+
+// extrahop-0.2.5: r"^-\d+(?:ms|s|m|h|d|w|y)?$"
+consistent!(extrahop_0, r"^-\d+(?:ms|s|m|h|d|w|y)?$");
+
+// pippin-0.1.0: "^((?:.*)-)?ss(0|[1-9][0-9]*)\\.pip$"
+consistent!(pippin_0, "^((?:.*)-)?ss(0|[1-9][0-9]*)\\.pip$");
+
+// pippin-0.1.0: "^((?:.*)-)?ss(0|[1-9][0-9]*)-cl(0|[1-9][0-9]*)\\.piplog$"
+consistent!(
+    pippin_1,
+    "^((?:.*)-)?ss(0|[1-9][0-9]*)-cl(0|[1-9][0-9]*)\\.piplog$"
+);
+
+// pippin-0.1.0: "^((?:.*)-)?ss(0|[1-9][0-9]*)\\.pip$"
+consistent!(pippin_2, "^((?:.*)-)?ss(0|[1-9][0-9]*)\\.pip$");
+
+// pippin-0.1.0: "^((?:.*)-)?ss(0|[1-9][0-9]*)-cl(0|[1-9][0-9]*)\\.piplog$"
+consistent!(
+    pippin_3,
+    "^((?:.*)-)?ss(0|[1-9][0-9]*)-cl(0|[1-9][0-9]*)\\.piplog$"
+);
+
+// pippin-0.1.0: "^.*pn(0|[1-9][0-9]*)(-ss(0|[1-9][0-9]*)(\\.pip|-cl(0|[1-9][0-9]*)\\.piplog))?$"
+consistent!(pippin_4, "^.*pn(0|[1-9][0-9]*)(-ss(0|[1-9][0-9]*)(\\.pip|-cl(0|[1-9][0-9]*)\\.piplog))?$");
+
+// pippin-0.1.0: "^(.*)-ss(?:0|[1-9][0-9]*)(?:\\.pip|-cl(?:0|[1-9][0-9]*)\\.piplog)$"
+consistent!(
+    pippin_5,
+    "^(.*)-ss(?:0|[1-9][0-9]*)(?:\\.pip|-cl(?:0|[1-9][0-9]*)\\.piplog)$"
+);
+
+// pinyin-0.3.0: r"(?i)[āáǎàēéěèōóǒòīíǐìūúǔùüǘǚǜńň]"
+consistent!(
+    pinyin_0,
+    r"(?i)[āáǎàēéěèōóǒòīíǐìūúǔùüǘǚǜńň]"
+);
+
+// pinyin-0.3.0: r"([aeoiuvnm])([0-4])$"
+consistent!(pinyin_1, r"([aeoiuvnm])([0-4])$");
+
+// duration-parser-0.2.0: r"(?P<value>\d+)(?P<units>[a-z])"
+consistent!(duration_parser_0, r"(?P<value>\d+)(?P<units>[a-z])");
+
+// dutree-0.2.7: r"^\d+\D?$"
+consistent!(dutree_0, r"^\d+\D?$");
+
+// djangohashers-0.3.0: r"^[A-Za-z0-9]*$"
+consistent!(djangohashers_0, r"^[A-Za-z0-9]*$");
+
+// rtag-0.3.5: r"^[A-Z][A-Z0-9]{2,}$"
+consistent!(rtag_0, r"^[A-Z][A-Z0-9]{2,}$");
+
+// rtag-0.3.5: r"^http://www\.emusic\.com"
+consistent!(rtag_1, r"^http://www\.emusic\.com");
+
+// rtag-0.3.5: r"^[A-Z][A-Z0-9]{2,}"
+consistent!(rtag_2, r"^[A-Z][A-Z0-9]{2,}");
+
+// rtag-0.3.5: r"(^[\x{0}|\x{feff}|\x{fffe}]*|[\x{0}|\x{feff}|\x{fffe}]*$)"
+consistent!(
+    rtag_3,
+    r"(^[\x{0}|\x{feff}|\x{fffe}]*|[\x{0}|\x{feff}|\x{fffe}]*$)"
+);
+
+// rtow-0.1.0: r"(\d+)[xX](\d+)"
+consistent!(rtow_0, r"(\d+)[xX](\d+)");
+
+// pleingres-sql-plugin-0.1.0: r"\$([a-zA-Z0-9_]+)"
+consistent!(pleingres_sql_plugin_0, r"\$([a-zA-Z0-9_]+)");
+
+// dono-2.0.0: "[\\n]+"
+consistent!(dono_0, "[\\n]+");
+
+// dono-2.0.0: "(?m)^\\n"
+consistent!(dono_1, "(?m)^\\n");
+
+// dono-2.0.0: "(?m)^\\n"
+consistent!(dono_2, "(?m)^\\n");
+
+// ssb-common-0.3.0: r"^[0-9A-Za-z\+/]{43}=\.ed25519$"
+consistent!(ssb_common_0, r"^[0-9A-Za-z\+/]{43}=\.ed25519$");
+
+// ssb-common-0.3.0: r"^[0-9A-Za-z\+/]{86}==\.ed25519$"
+consistent!(ssb_common_1, r"^[0-9A-Za-z\+/]{86}==\.ed25519$");
+
+// ssb-common-0.3.0: r"^[0-9A-Za-z\+/]{43}=\.sha256$"
+consistent!(ssb_common_2, r"^[0-9A-Za-z\+/]{43}=\.sha256$");
+
+// mozversion-0.1.3: r"^(?P<major>\d+)\.(?P<minor>\d+)(?:\.(?P<patch>\d+))?(?:(?P<pre0>[a-z]+)(?P<pre1>\d*))?$"
+consistent!(mozversion_0, r"^(?P<major>\d+)\.(?P<minor>\d+)(?:\.(?P<patch>\d+))?(?:(?P<pre0>[a-z]+)(?P<pre1>\d*))?$");
+
+// monger-0.5.6: r"^(\d+)\.(\d+)$"
+consistent!(monger_0, r"^(\d+)\.(\d+)$");
+
+// mongo_rub-0.0.2: r"^[rv]2\.6"
+consistent!(mongo_rub_0, r"^[rv]2\.6");
+
+// flow-0.3.5: "body value"
+consistent!(flow_0, "body value");
+
+// flow-0.3.5: "start marker"
+consistent!(flow_1, "start marker");
+
+// flow-0.3.5: "end marker"
+consistent!(flow_2, "end marker");
+
+// flow-0.3.5: "body value"
+consistent!(flow_3, "body value");
+
+// vobsub-0.2.3: "^([A-Za-z/ ]+): (.*)"
+consistent!(vobsub_0, "^([A-Za-z/ ]+): (.*)");
+
+// voidmap-1.1.2: r"#([^\s=]+)*"
+consistent!(voidmap_0, r"#([^\s=]+)*");
+
+// voidmap-1.1.2: r"#(\S+)*"
+consistent!(voidmap_1, r"#(\S+)*");
+
+// voidmap-1.1.2: r"#prio=(\d+)"
+consistent!(voidmap_2, r"#prio=(\d+)");
+
+// voidmap-1.1.2: r"\[(\S+)\]"
+consistent!(voidmap_3, r"\[(\S+)\]");
+
+// voidmap-1.1.2: r"#limit=(\d+)"
+consistent!(voidmap_4, r"#limit=(\d+)");
+
+// voidmap-1.1.2: r"#tagged=(\S+)"
+consistent!(voidmap_5, r"#tagged=(\S+)");
+
+// voidmap-1.1.2: r"#rev\b"
+consistent!(voidmap_6, r"#rev\b");
+
+// voidmap-1.1.2: r"#done\b"
+consistent!(voidmap_7, r"#done\b");
+
+// voidmap-1.1.2: r"#open\b"
+consistent!(voidmap_8, r"#open\b");
+
+// voidmap-1.1.2: r"#since=(\S+)"
+consistent!(voidmap_9, r"#since=(\S+)");
+
+// voidmap-1.1.2: r"#until=(\S+)"
+consistent!(voidmap_10, r"#until=(\S+)");
+
+// voidmap-1.1.2: r"#plot=(\S+)"
+consistent!(voidmap_11, r"#plot=(\S+)");
+
+// voidmap-1.1.2: r"#n=(\d+)"
+consistent!(voidmap_12, r"#n=(\d+)");
+
+// voidmap-1.1.2: r"(\S+)"
+consistent!(voidmap_13, r"(\S+)");
+
+// voidmap-1.1.2: r"(?P<y>\d+)y"
+consistent!(voidmap_14, r"(?P<y>\d+)y");
+
+// voidmap-1.1.2: r"(?P<m>\d+)m"
+consistent!(voidmap_15, r"(?P<m>\d+)m");
+
+// voidmap-1.1.2: r"(?P<w>\d+)w"
+consistent!(voidmap_16, r"(?P<w>\d+)w");
+
+// voidmap-1.1.2: r"(?P<d>\d+)d"
+consistent!(voidmap_17, r"(?P<d>\d+)d");
+
+// voidmap-1.1.2: r"(?P<h>\d+)h"
+consistent!(voidmap_18, r"(?P<h>\d+)h");
+
+// voidmap-1.1.2: r"C-(.)"
+consistent!(voidmap_19, r"C-(.)");
+
+// qt_generator-0.2.0: r"^\.\./qt[^/]+/"
+consistent!(qt_generator_0, r"^\.\./qt[^/]+/");
+
+// qt_generator-0.2.0: "(href|src)=\"([^\"]*)\""
+consistent!(qt_generator_1, "(href|src)=\"([^\"]*)\"");
+
+// kryptos-0.6.1: r"[01]{5}"
+consistent!(kryptos_0, r"[01]{5}");
+
+// cifar_10_loader-0.2.0: "data_batch_[1-5].bin"
+consistent!(cifar_10_loader_0, "data_batch_[1-5].bin");
+
+// cifar_10_loader-0.2.0: "test_batch.bin"
+consistent!(cifar_10_loader_1, "test_batch.bin");
+
+// circadian-0.6.0: r"^\d+.\d+s$"
+consistent!(circadian_0, r"^\d+.\d+s$");
+
+// circadian-0.6.0: r"^\d+:\d+$"
+consistent!(circadian_1, r"^\d+:\d+$");
+
+// circadian-0.6.0: r"^\d+:\d+m$"
+consistent!(circadian_2, r"^\d+:\d+m$");
+
+// cicada-0.8.1: r"!!"
+consistent!(cicada_0, r"!!");
+
+// cicada-0.8.1: r"^([^`]*)`([^`]+)`(.*)$"
+consistent!(cicada_1, r"^([^`]*)`([^`]+)`(.*)$");
+
+// cicada-0.8.1: r"\*+"
+consistent!(cicada_2, r"\*+");
+
+// cicada-0.8.1: r"([^\$]*)\$\{?([A-Za-z0-9\?\$_]+)\}?(.*)"
+consistent!(cicada_3, r"([^\$]*)\$\{?([A-Za-z0-9\?\$_]+)\}?(.*)");
+
+// cicada-0.8.1: r"^ *alias +([a-zA-Z0-9_\.-]+)=(.*)$"
+consistent!(cicada_4, r"^ *alias +([a-zA-Z0-9_\.-]+)=(.*)$");
+
+// vterm-sys-0.1.0: r"hi"
+consistent!(vterm_sys_0, r"hi");
+
+// skim-0.5.0: r".*?\t"
+consistent!(skim_0, r".*?\t");
+
+// skim-0.5.0: r".*?[\t ]"
+consistent!(skim_1, r".*?[\t ]");
+
+// skim-0.5.0: r"(\{-?[0-9.,q]*?})"
+consistent!(skim_2, r"(\{-?[0-9.,q]*?})");
+
+// skim-0.5.0: r"[ \t\n]+"
+consistent!(skim_3, r"[ \t\n]+");
+
+// skim-0.5.0: r"[ \t\n]+"
+consistent!(skim_4, r"[ \t\n]+");
+
+// skim-0.5.0: r"([^ |]+( +\| +[^ |]*)+)|( +)"
+consistent!(skim_5, r"([^ |]+( +\| +[^ |]*)+)|( +)");
+
+// skim-0.5.0: r" +\| +"
+consistent!(skim_6, r" +\| +");
+
+// skim-0.5.0: r"^(?P<left>-?\d+)?(?P<sep>\.\.)?(?P<right>-?\d+)?$"
+consistent!(skim_7, r"^(?P<left>-?\d+)?(?P<sep>\.\.)?(?P<right>-?\d+)?$");
+
+// skim-0.5.0: ","
+consistent!(skim_8, ",");
+
+// skim-0.5.0: ".*?,"
+consistent!(skim_9, ".*?,");
+
+// skim-0.5.0: ".*?,"
+consistent!(skim_10, ".*?,");
+
+// skim-0.5.0: ","
+consistent!(skim_11, ",");
+
+// skim-0.5.0: r"\x1B\[(?:([0-9]+;[0-9]+[Hf])|([0-9]+[ABCD])|(s|u|2J|K)|([0-9;]*m)|(=[0-9]+[hI]))"
+consistent!(skim_12, r"\x1B\[(?:([0-9]+;[0-9]+[Hf])|([0-9]+[ABCD])|(s|u|2J|K)|([0-9;]*m)|(=[0-9]+[hI]))");
+
+// egg-mode-text-1.14.7: r"[-_./]\z"
+consistent!(egg_mode_text_0, r"[-_./]\z");
+
+// java-properties-1.1.1: "^[ \t\r\n\x0c]*[#!]"
+consistent!(java_properties_0, "^[ \t\r\n\x0c]*[#!]");
+
+// java-properties-1.1.1: r"^[ \t\x0c]*[#!][^\r\n]*$"
+consistent!(java_properties_1, r"^[ \t\x0c]*[#!][^\r\n]*$");
+
+// java-properties-1.1.1: r"^([ \t\x0c]*[:=][ \t\x0c]*|[ \t\x0c]+)$"
+consistent!(java_properties_2, r"^([ \t\x0c]*[:=][ \t\x0c]*|[ \t\x0c]+)$");
+
+// ipaddress-0.1.2: r":.+\."
+consistent!(ipaddress_0, r":.+\.");
+
+// ipaddress-0.1.2: r"\."
+consistent!(ipaddress_1, r"\.");
+
+// ipaddress-0.1.2: r":"
+consistent!(ipaddress_2, r":");
+
+// iptables-0.2.2: r"v(\d+)\.(\d+)\.(\d+)"
+consistent!(iptables_0, r"v(\d+)\.(\d+)\.(\d+)");
+
+// rsure-0.8.1: r"^([^-]+)-(.*)\.dat\.gz$"
+consistent!(rsure_0, r"^([^-]+)-(.*)\.dat\.gz$");
+
+// rs-jsonpath-0.1.0: "^(.*?)(<=|<|==|>=|>)(.*?)$"
+consistent!(rs_jsonpath_0, "^(.*?)(<=|<|==|>=|>)(.*?)$");
+
+// oatie-0.3.0: r"(\n|^)(\w+):([\n\w\W]+?)(\n(?:\w)|(\n\]))"
+consistent!(oatie_0, r"(\n|^)(\w+):([\n\w\W]+?)(\n(?:\w)|(\n\]))");
+
+// weld-0.2.0: "#.*$"
+consistent!(weld_0, "#.*$");
+
+// weld-0.2.0: r"^[A-Za-z$_][A-Za-z0-9$_]*$"
+consistent!(weld_1, r"^[A-Za-z$_][A-Za-z0-9$_]*$");
+
+// weld-0.2.0: r"^[0-9]+[cC]$"
+consistent!(weld_2, r"^[0-9]+[cC]$");
+
+// weld-0.2.0: r"^0b[0-1]+[cC]$"
+consistent!(weld_3, r"^0b[0-1]+[cC]$");
+
+// weld-0.2.0: r"^0x[0-9a-fA-F]+[cC]$"
+consistent!(weld_4, r"^0x[0-9a-fA-F]+[cC]$");
+
+// weld-0.2.0: r"^[0-9]+$"
+consistent!(weld_5, r"^[0-9]+$");
+
+// weld-0.2.0: r"^0b[0-1]+$"
+consistent!(weld_6, r"^0b[0-1]+$");
+
+// weld-0.2.0: r"^0x[0-9a-fA-F]+$"
+consistent!(weld_7, r"^0x[0-9a-fA-F]+$");
+
+// weld-0.2.0: r"^[0-9]+[lL]$"
+consistent!(weld_8, r"^[0-9]+[lL]$");
+
+// weld-0.2.0: r"^0b[0-1]+[lL]$"
+consistent!(weld_9, r"^0b[0-1]+[lL]$");
+
+// weld-0.2.0: r"^0x[0-9a-fA-F]+[lL]$"
+consistent!(weld_10, r"^0x[0-9a-fA-F]+[lL]$");
+
+// webgl_generator-0.1.0: "([(, ])enum\\b"
+consistent!(webgl_generator_0, "([(, ])enum\\b");
+
+// webgl_generator-0.1.0: "\\bAcquireResourcesCallback\\b"
+consistent!(webgl_generator_1, "\\bAcquireResourcesCallback\\b");
+
+// weave-0.2.0: r"^(\d+)(,(\d+))?([acd]).*$"
+consistent!(weave_0, r"^(\d+)(,(\d+))?([acd]).*$");
+
+// wemo-0.0.12: r"<BinaryState>(\d)(\|-?\d+)*</BinaryState>"
+consistent!(wemo_0, r"<BinaryState>(\d)(\|-?\d+)*</BinaryState>");
+
+// webscale-0.9.4: r"(http[s]?://[^\s]+)"
+consistent!(webscale_0, r"(http[s]?://[^\s]+)");
+
+// svgrep-1.1.0: r"^\d+.*$"
+consistent!(svgrep_0, r"^\d+.*$");
+
+// ignore-0.4.2: r"^[\pL\pN]+$"
+consistent!(ignore_0, r"^[\pL\pN]+$");
+
+// ommui_string_patterns-0.1.2: r"^([A-Za-z][0-9A-Za-z_]*)?$"
+consistent!(ommui_string_patterns_0, r"^([A-Za-z][0-9A-Za-z_]*)?$");
+
+// ommui_string_patterns-0.1.2: r"^(\S+(?:.*\S)?)?$"
+consistent!(ommui_string_patterns_1, r"^(\S+(?:.*\S)?)?$");
+
+// opcua-types-0.3.0: "^(?P<min>[0-9]{1,10})(:(?P<max>[0-9]{1,10}))?$"
+consistent!(opcua_types_0, "^(?P<min>[0-9]{1,10})(:(?P<max>[0-9]{1,10}))?$");
+
+// opcua-types-0.3.0: r"^(ns=(?P<ns>[0-9]+);)?(?P<t>[isgb])=(?P<v>.+)$"
+consistent!(opcua_types_1, r"^(ns=(?P<ns>[0-9]+);)?(?P<t>[isgb])=(?P<v>.+)$");
+
+// open_read_later-1.1.1: r"^(.+?)\s*:\s*(.+)$"
+consistent!(open_read_later_0, r"^(.+?)\s*:\s*(.+)$");
+
+// youtube-downloader-0.1.0: r"^.*(?:(?:youtu\.be/|v/|vi/|u/w/|embed/)|(?:(?:watch)?\?v(?:i)?=|\&v(?:i)?=))([^#\&\?]*).*"
+consistent!(youtube_downloader_0, r"^.*(?:(?:youtu\.be/|v/|vi/|u/w/|embed/)|(?:(?:watch)?\?v(?:i)?=|\&v(?:i)?=))([^#\&\?]*).*");
+
+// yobot-0.1.1: "."
+consistent!(yobot_0, ".");
+
+// yobot-0.1.1: r"."
+consistent!(yobot_1, r".");
+
+// yobot-0.1.1: r".+"
+consistent!(yobot_2, r".+");
+
+// yobot-0.1.1: r"."
+consistent!(yobot_3, r".");
+
+// ubiquity-0.1.5: r"foo"
+consistent!(ubiquity_0, r"foo");
+
+// ubiquity-0.1.5: r"/target/"
+consistent!(ubiquity_1, r"/target/");
+
+// ubiquity-0.1.5: r".DS_Store"
+consistent!(ubiquity_2, r".DS_Store");
+
+// qasm-1.0.0: r"//.*"
+consistent!(qasm_0, r"//.*");
+
+// drill-0.3.5: r"\{\{ *([a-z\._]+) *\}\}"
+consistent!(drill_0, r"\{\{ *([a-z\._]+) *\}\}");
+
+// queryst-2.0.0: r"^([^\]\[]+)"
+consistent!(queryst_0, r"^([^\]\[]+)");
+
+// queryst-2.0.0: r"(\[[^\]\[]*\])"
+consistent!(queryst_1, r"(\[[^\]\[]*\])");
+
+// qui-vive-0.1.0: r"^/(\w+)$"
+consistent!(qui_vive_0, r"^/(\w+)$");
+
+// qui-vive-0.1.0: r"^/key$"
+consistent!(qui_vive_1, r"^/key$");
+
+// qui-vive-0.1.0: r"^/key/(\w+)$"
+consistent!(qui_vive_2, r"^/key/(\w+)$");
+
+// qui-vive-0.1.0: r"^/url$"
+consistent!(qui_vive_3, r"^/url$");
+
+// qui-vive-0.1.0: r"^/url/(\w+)$"
+consistent!(qui_vive_4, r"^/url/(\w+)$");
+
+// qui-vive-0.1.0: r"^/inv$"
+consistent!(qui_vive_5, r"^/inv$");
+
+// qui-vive-0.1.0: r"^/inv/(\w+)$"
+consistent!(qui_vive_6, r"^/inv/(\w+)$");
+
+// subdiff-0.1.0: r"\b"
+// consistent!(subdiff_0, r"\b");
+
+// substudy-0.4.5: r"^(\d+)/(\d+)$"
+consistent!(substudy_0, r"^(\d+)/(\d+)$");
+
+// substudy-0.4.5: r"\s+"
+consistent!(substudy_1, r"\s+");
+
+// substudy-0.4.5: r"<[a-z/][^>]*>"
+consistent!(substudy_2, r"<[a-z/][^>]*>");
+
+// substudy-0.4.5: r"(\([^)]*\)|♪[^♪]*♪|[A-Z]{2,} ?:)"
+consistent!(substudy_3, r"(\([^)]*\)|♪[^♪]*♪|[A-Z]{2,} ?:)");
+
+// substudy-0.4.5: r"\s+"
+consistent!(substudy_4, r"\s+");
+
+// isbnid-0.1.3: r"^(\d(-| )?){9}(x|X|\d|(\d(-| )?){3}\d)$"
+consistent!(isbnid_0, r"^(\d(-| )?){9}(x|X|\d|(\d(-| )?){3}\d)$");
+
+// isbnid-0.1.3: r"[^0-9X]"
+consistent!(isbnid_1, r"[^0-9X]");
+
+// ispc-0.3.5: r"Intel\(r\) SPMD Program Compiler \(ispc\), (\d+\.\d+\.\d+)"
+consistent!(
+    ispc_0,
+    r"Intel\(r\) SPMD Program Compiler \(ispc\), (\d+\.\d+\.\d+)"
+);
diff --git a/vendor/regex/tests/crazy.rs b/vendor/regex/tests/crazy.rs
new file mode 100644
index 000000000..293ac1ae7
--- /dev/null
+++ b/vendor/regex/tests/crazy.rs
@@ -0,0 +1,459 @@
+mat!(ascii_literal, r"a", "a", Some((0, 1)));
+
+// Some crazy expressions from regular-expressions.info.
+mat!(
+    match_ranges,
+    r"(?-u)\b(?:[0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\b",
+    "num: 255",
+    Some((5, 8))
+);
+mat!(
+    match_ranges_not,
+    r"(?-u)\b(?:[0-9]|[1-9][0-9]|1[0-9][0-9]|2[0-4][0-9]|25[0-5])\b",
+    "num: 256",
+    None
+);
+mat!(match_float1, r"[-+]?[0-9]*\.?[0-9]+", "0.1", Some((0, 3)));
+mat!(match_float2, r"[-+]?[0-9]*\.?[0-9]+", "0.1.2", Some((0, 3)));
+mat!(match_float3, r"[-+]?[0-9]*\.?[0-9]+", "a1.2", Some((1, 4)));
+mat!(match_float4, r"^[-+]?[0-9]*\.?[0-9]+$", "1.a", None);
+mat!(
+    match_email,
+    r"(?i-u)\b[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}\b",
+    "mine is jam.slam@gmail.com ",
+    Some((8, 26))
+);
+mat!(
+    match_email_not,
+    r"(?i-u)\b[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}\b",
+    "mine is jam.slam@gmail ",
+    None
+);
+mat!(
+    match_email_big,
+    r"[a-z0-9!#$%&'*+/=?^_`{|}~-]+(?:\.[a-z0-9!#$%&'*+/=?^_`{|}~-]+)*@(?:[a-z0-9](?:[a-z0-9-]*[a-z0-9])?\.)+[a-z0-9](?:[a-z0-9-]*[a-z0-9])?",
+    "mine is jam.slam@gmail.com ",
+    Some((8, 26))
+);
+mat!(
+    match_date1,
+    r"(?-u)^(19|20)\d\d[- /.](0[1-9]|1[012])[- /.](0[1-9]|[12][0-9]|3[01])$",
+    "1900-01-01",
+    Some((0, 10))
+);
+mat!(
+    match_date2,
+    r"(?-u)^(19|20)\d\d[- /.](0[1-9]|1[012])[- /.](0[1-9]|[12][0-9]|3[01])$",
+    "1900-00-01",
+    None
+);
+mat!(
+    match_date3,
+    r"(?-u)^(19|20)\d\d[- /.](0[1-9]|1[012])[- /.](0[1-9]|[12][0-9]|3[01])$",
+    "1900-13-01",
+    None
+);
+
+// Do some crazy dancing with the start/end assertions.
+matiter!(match_start_end_empty, r"^$", "", (0, 0));
+matiter!(match_start_end_empty_many_1, r"^$^$^$", "", (0, 0));
+matiter!(match_start_end_empty_many_2, r"^^^$$$", "", (0, 0));
+matiter!(match_start_end_empty_rev, r"$^", "", (0, 0));
+matiter!(
+    match_start_end_empty_rep,
+    r"(?:^$)*",
+    "a\nb\nc",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (3, 3),
+    (4, 4),
+    (5, 5)
+);
+matiter!(
+    match_start_end_empty_rep_rev,
+    r"(?:$^)*",
+    "a\nb\nc",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (3, 3),
+    (4, 4),
+    (5, 5)
+);
+
+// Test negated character classes.
+mat!(negclass_letters, r"[^ac]", "acx", Some((2, 3)));
+mat!(negclass_letter_comma, r"[^a,]", "a,x", Some((2, 3)));
+mat!(negclass_letter_space, r"[^a[:space:]]", "a x", Some((2, 3)));
+mat!(negclass_comma, r"[^,]", ",,x", Some((2, 3)));
+mat!(negclass_space, r"[^[:space:]]", " a", Some((1, 2)));
+mat!(negclass_space_comma, r"[^,[:space:]]", ", a", Some((2, 3)));
+mat!(negclass_comma_space, r"[^[:space:],]", " ,a", Some((2, 3)));
+mat!(negclass_ascii, r"[^[:alpha:]Z]", "A1", Some((1, 2)));
+
+// Test that repeated empty expressions don't loop forever.
+mat!(lazy_many_many, r"((?:.*)*?)=", "a=b", Some((0, 2)));
+mat!(lazy_many_optional, r"((?:.?)*?)=", "a=b", Some((0, 2)));
+mat!(lazy_one_many_many, r"((?:.*)+?)=", "a=b", Some((0, 2)));
+mat!(lazy_one_many_optional, r"((?:.?)+?)=", "a=b", Some((0, 2)));
+mat!(lazy_range_min_many, r"((?:.*){1,}?)=", "a=b", Some((0, 2)));
+mat!(lazy_range_many, r"((?:.*){1,2}?)=", "a=b", Some((0, 2)));
+mat!(greedy_many_many, r"((?:.*)*)=", "a=b", Some((0, 2)));
+mat!(greedy_many_optional, r"((?:.?)*)=", "a=b", Some((0, 2)));
+mat!(greedy_one_many_many, r"((?:.*)+)=", "a=b", Some((0, 2)));
+mat!(greedy_one_many_optional, r"((?:.?)+)=", "a=b", Some((0, 2)));
+mat!(greedy_range_min_many, r"((?:.*){1,})=", "a=b", Some((0, 2)));
+mat!(greedy_range_many, r"((?:.*){1,2})=", "a=b", Some((0, 2)));
+
+// Test that we handle various flavors of empty expressions.
+matiter!(match_empty1, r"", "", (0, 0));
+matiter!(match_empty2, r"", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty3, r"()", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty4, r"()*", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty5, r"()+", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty6, r"()?", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty7, r"()()", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty8, r"()+|z", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty9, r"z|()+", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty10, r"()+|b", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty11, r"b|()+", "abc", (0, 0), (1, 2), (3, 3));
+matiter!(match_empty12, r"|b", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty13, r"b|", "abc", (0, 0), (1, 2), (3, 3));
+matiter!(match_empty14, r"|z", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty15, r"z|", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty16, r"|", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty17, r"||", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty18, r"||z", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty19, r"(?:)|b", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty20, r"b|(?:)", "abc", (0, 0), (1, 2), (3, 3));
+matiter!(match_empty21, r"(?:|)", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty22, r"(?:|)|z", "abc", (0, 0), (1, 1), (2, 2), (3, 3));
+matiter!(match_empty23, r"a(?:)|b", "abc", (0, 1), (1, 2));
+
+// Test that the DFA can handle pathological cases.
+// (This should result in the DFA's cache being flushed too frequently, which
+// should cause it to quit and fall back to the NFA algorithm.)
+#[test]
+fn dfa_handles_pathological_case() {
+    fn ones_and_zeroes(count: usize) -> String {
+        use rand::rngs::SmallRng;
+        use rand::{Rng, SeedableRng};
+
+        let mut rng = SmallRng::from_entropy();
+        let mut s = String::new();
+        for _ in 0..count {
+            if rng.gen() {
+                s.push('1');
+            } else {
+                s.push('0');
+            }
+        }
+        s
+    }
+
+    let re = regex!(r"[01]*1[01]{20}$");
+    let text = {
+        let mut pieces = ones_and_zeroes(100_000);
+        pieces.push('1');
+        pieces.push_str(&ones_and_zeroes(20));
+        pieces
+    };
+    assert!(re.is_match(text!(&*text)));
+}
+
+#[test]
+fn nest_limit_makes_it_parse() {
+    use regex::RegexBuilder;
+
+    RegexBuilder::new(
+        r#"(?-u)
+        2(?:
+          [45]\d{3}|
+          7(?:
+            1[0-267]|
+            2[0-289]|
+            3[0-29]|
+            4[01]|
+            5[1-3]|
+            6[013]|
+            7[0178]|
+            91
+          )|
+          8(?:
+            0[125]|
+            [139][1-6]|
+            2[0157-9]|
+            41|
+            6[1-35]|
+            7[1-5]|
+            8[1-8]|
+            90
+          )|
+          9(?:
+            0[0-2]|
+            1[0-4]|
+            2[568]|
+            3[3-6]|
+            5[5-7]|
+            6[0167]|
+            7[15]|
+            8[0146-9]
+          )
+        )\d{4}|
+        3(?:
+          12?[5-7]\d{2}|
+          0(?:
+            2(?:
+              [025-79]\d|
+              [348]\d{1,2}
+            )|
+            3(?:
+              [2-4]\d|
+              [56]\d?
+            )
+          )|
+          2(?:
+            1\d{2}|
+            2(?:
+              [12]\d|
+              [35]\d{1,2}|
+              4\d?
+            )
+          )|
+          3(?:
+            1\d{2}|
+            2(?:
+              [2356]\d|
+              4\d{1,2}
+            )
+          )|
+          4(?:
+            1\d{2}|
+            2(?:
+              2\d{1,2}|
+              [47]|
+              5\d{2}
+            )
+          )|
+          5(?:
+            1\d{2}|
+            29
+          )|
+          [67]1\d{2}|
+          8(?:
+            1\d{2}|
+            2(?:
+              2\d{2}|
+              3|
+              4\d
+            )
+          )
+        )\d{3}|
+        4(?:
+          0(?:
+            2(?:
+              [09]\d|
+              7
+            )|
+            33\d{2}
+          )|
+          1\d{3}|
+          2(?:
+            1\d{2}|
+            2(?:
+              [25]\d?|
+              [348]\d|
+              [67]\d{1,2}
+            )
+          )|
+          3(?:
+            1\d{2}(?:
+              \d{2}
+            )?|
+            2(?:
+              [045]\d|
+              [236-9]\d{1,2}
+            )|
+            32\d{2}
+          )|
+          4(?:
+            [18]\d{2}|
+            2(?:
+              [2-46]\d{2}|
+              3
+            )|
+            5[25]\d{2}
+          )|
+          5(?:
+            1\d{2}|
+            2(?:
+              3\d|
+              5
+            )
+          )|
+          6(?:
+            [18]\d{2}|
+            2(?:
+              3(?:
+                \d{2}
+              )?|
+              [46]\d{1,2}|
+              5\d{2}|
+              7\d
+            )|
+            5(?:
+              3\d?|
+              4\d|
+              [57]\d{1,2}|
+              6\d{2}|
+              8
+            )
+          )|
+          71\d{2}|
+          8(?:
+            [18]\d{2}|
+            23\d{2}|
+            54\d{2}
+          )|
+          9(?:
+            [18]\d{2}|
+            2[2-5]\d{2}|
+            53\d{1,2}
+          )
+        )\d{3}|
+        5(?:
+          02[03489]\d{2}|
+          1\d{2}|
+          2(?:
+            1\d{2}|
+            2(?:
+              2(?:
+                \d{2}
+              )?|
+              [457]\d{2}
+            )
+          )|
+          3(?:
+            1\d{2}|
+            2(?:
+              [37](?:
+                \d{2}
+              )?|
+              [569]\d{2}
+            )
+          )|
+          4(?:
+            1\d{2}|
+            2[46]\d{2}
+          )|
+          5(?:
+            1\d{2}|
+            26\d{1,2}
+          )|
+          6(?:
+            [18]\d{2}|
+            2|
+            53\d{2}
+          )|
+          7(?:
+            1|
+            24
+          )\d{2}|
+          8(?:
+            1|
+            26
+          )\d{2}|
+          91\d{2}
+        )\d{3}|
+        6(?:
+          0(?:
+            1\d{2}|
+            2(?:
+              3\d{2}|
+              4\d{1,2}
+            )
+          )|
+          2(?:
+            2[2-5]\d{2}|
+            5(?:
+              [3-5]\d{2}|
+              7
+            )|
+            8\d{2}
+          )|
+          3(?:
+            1|
+            2[3478]
+          )\d{2}|
+          4(?:
+            1|
+            2[34]
+          )\d{2}|
+          5(?:
+            1|
+            2[47]
+          )\d{2}|
+          6(?:
+            [18]\d{2}|
+            6(?:
+              2(?:
+                2\d|
+                [34]\d{2}
+              )|
+              5(?:
+                [24]\d{2}|
+                3\d|
+                5\d{1,2}
+              )
+            )
+          )|
+          72[2-5]\d{2}|
+          8(?:
+            1\d{2}|
+            2[2-5]\d{2}
+          )|
+          9(?:
+            1\d{2}|
+            2[2-6]\d{2}
+          )
+        )\d{3}|
+        7(?:
+          (?:
+            02|
+            [3-589]1|
+            6[12]|
+            72[24]
+          )\d{2}|
+          21\d{3}|
+          32
+        )\d{3}|
+        8(?:
+          (?:
+            4[12]|
+            [5-7]2|
+            1\d?
+          )|
+          (?:
+            0|
+            3[12]|
+            [5-7]1|
+            217
+          )\d
+        )\d{4}|
+        9(?:
+          [35]1|
+          (?:
+            [024]2|
+            81
+          )\d|
+          (?:
+            1|
+            [24]1
+          )\d{2}
+        )\d{3}
+        "#,
+    )
+    .build()
+    .unwrap();
+}
diff --git a/vendor/regex/tests/flags.rs b/vendor/regex/tests/flags.rs
new file mode 100644
index 000000000..c33b82d43
--- /dev/null
+++ b/vendor/regex/tests/flags.rs
@@ -0,0 +1,31 @@
+mat!(match_flag_case, "(?-u)(?i)abc", "ABC", Some((0, 3)));
+mat!(match_flag_weird_case, "(?-u)(?i)a(?-i)bc", "Abc", Some((0, 3)));
+mat!(match_flag_weird_case_not, "(?-u)(?i)a(?-i)bc", "ABC", None);
+mat!(match_flag_case_dotnl, "(?-u)(?is)a(?u:.)", "A\n", Some((0, 2)));
+mat!(
+    match_flag_case_dotnl_toggle,
+    "(?-u)(?is)a(?u:.)(?-is)a(?u:.)",
+    "A\nab",
+    Some((0, 4))
+);
+mat!(
+    match_flag_case_dotnl_toggle_not,
+    "(?-u)(?is)a(?u:.)(?-is)a(?u:.)",
+    "A\na\n",
+    None
+);
+mat!(
+    match_flag_case_dotnl_toggle_ok,
+    "(?-u)(?is)a(?u:.)(?-is:a(?u:.))?",
+    "A\na\n",
+    Some((0, 2))
+);
+mat!(
+    match_flag_multi,
+    r"(?-u)(?m)(?:^\d+$\n?)+",
+    "123\n456\n789",
+    Some((0, 11))
+);
+mat!(match_flag_ungreedy, "(?U)a+", "aa", Some((0, 1)));
+mat!(match_flag_ungreedy_greedy, "(?U)a+?", "aa", Some((0, 2)));
+mat!(match_flag_ungreedy_noop, "(?U)(?-U)a+", "aa", Some((0, 2)));
diff --git a/vendor/regex/tests/fowler.rs b/vendor/regex/tests/fowler.rs
new file mode 100644
index 000000000..7f56a758d
--- /dev/null
+++ b/vendor/regex/tests/fowler.rs
@@ -0,0 +1,1588 @@
+// DO NOT EDIT. Automatically generated by 'scripts/regex-match-tests.py'
+// on 2019-09-02 11:07:37.849994.
+
+// Tests from basic.dat
+mat!(match_basic_3, r"abracadabra$", r"abracadabracadabra", Some((7, 18)));
+mat!(match_basic_4, r"a...b", r"abababbb", Some((2, 7)));
+mat!(match_basic_5, r"XXXXXX", r"..XXXXXX", Some((2, 8)));
+mat!(match_basic_6, r"\)", r"()", Some((1, 2)));
+mat!(match_basic_7, r"a]", r"a]a", Some((0, 2)));
+mat!(match_basic_9, r"\}", r"}", Some((0, 1)));
+mat!(match_basic_10, r"\]", r"]", Some((0, 1)));
+mat!(match_basic_12, r"]", r"]", Some((0, 1)));
+mat!(match_basic_15, r"^a", r"ax", Some((0, 1)));
+mat!(match_basic_16, r"\^a", r"a^a", Some((1, 3)));
+mat!(match_basic_17, r"a\^", r"a^", Some((0, 2)));
+mat!(match_basic_18, r"a$", r"aa", Some((1, 2)));
+mat!(match_basic_19, r"a\$", r"a$", Some((0, 2)));
+mat!(match_basic_20, r"^$", r"", Some((0, 0)));
+mat!(match_basic_21, r"$^", r"", Some((0, 0)));
+mat!(match_basic_22, r"a($)", r"aa", Some((1, 2)), Some((2, 2)));
+mat!(match_basic_23, r"a*(^a)", r"aa", Some((0, 1)), Some((0, 1)));
+mat!(match_basic_24, r"(..)*(...)*", r"a", Some((0, 0)));
+mat!(match_basic_25, r"(..)*(...)*", r"abcd", Some((0, 4)), Some((2, 4)));
+mat!(
+    match_basic_26,
+    r"(ab|a)(bc|c)",
+    r"abc",
+    Some((0, 3)),
+    Some((0, 2)),
+    Some((2, 3))
+);
+mat!(match_basic_27, r"(ab)c|abc", r"abc", Some((0, 3)), Some((0, 2)));
+mat!(match_basic_28, r"a{0}b", r"ab", Some((1, 2)));
+mat!(
+    match_basic_29,
+    r"(a*)(b?)(b+)b{3}",
+    r"aaabbbbbbb",
+    Some((0, 10)),
+    Some((0, 3)),
+    Some((3, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_30,
+    r"(a*)(b{0,1})(b{1,})b{3}",
+    r"aaabbbbbbb",
+    Some((0, 10)),
+    Some((0, 3)),
+    Some((3, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_32,
+    r"((a|a)|a)",
+    r"a",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1))
+);
+mat!(
+    match_basic_33,
+    r"(a*)(a|aa)",
+    r"aaaa",
+    Some((0, 4)),
+    Some((0, 3)),
+    Some((3, 4))
+);
+mat!(match_basic_34, r"a*(a.|aa)", r"aaaa", Some((0, 4)), Some((2, 4)));
+mat!(
+    match_basic_35,
+    r"a(b)|c(d)|a(e)f",
+    r"aef",
+    Some((0, 3)),
+    None,
+    None,
+    Some((1, 2))
+);
+mat!(match_basic_36, r"(a|b)?.*", r"b", Some((0, 1)), Some((0, 1)));
+mat!(match_basic_37, r"(a|b)c|a(b|c)", r"ac", Some((0, 2)), Some((0, 1)));
+mat!(
+    match_basic_38,
+    r"(a|b)c|a(b|c)",
+    r"ab",
+    Some((0, 2)),
+    None,
+    Some((1, 2))
+);
+mat!(match_basic_39, r"(a|b)*c|(a|ab)*c", r"abc", Some((0, 3)), Some((1, 2)));
+mat!(match_basic_40, r"(a|b)*c|(a|ab)*c", r"xc", Some((1, 2)));
+mat!(
+    match_basic_41,
+    r"(.a|.b).*|.*(.a|.b)",
+    r"xa",
+    Some((0, 2)),
+    Some((0, 2))
+);
+mat!(match_basic_42, r"a?(ab|ba)ab", r"abab", Some((0, 4)), Some((0, 2)));
+mat!(match_basic_43, r"a?(ac{0}b|ba)ab", r"abab", Some((0, 4)), Some((0, 2)));
+mat!(match_basic_44, r"ab|abab", r"abbabab", Some((0, 2)));
+mat!(match_basic_45, r"aba|bab|bba", r"baaabbbaba", Some((5, 8)));
+mat!(match_basic_46, r"aba|bab", r"baaabbbaba", Some((6, 9)));
+mat!(
+    match_basic_47,
+    r"(aa|aaa)*|(a|aaaaa)",
+    r"aa",
+    Some((0, 2)),
+    Some((0, 2))
+);
+mat!(
+    match_basic_48,
+    r"(a.|.a.)*|(a|.a...)",
+    r"aa",
+    Some((0, 2)),
+    Some((0, 2))
+);
+mat!(match_basic_49, r"ab|a", r"xabc", Some((1, 3)));
+mat!(match_basic_50, r"ab|a", r"xxabc", Some((2, 4)));
+mat!(
+    match_basic_51,
+    r"(?i)(?-u)(Ab|cD)*",
+    r"aBcD",
+    Some((0, 4)),
+    Some((2, 4))
+);
+mat!(match_basic_52, r"[^-]", r"--a", Some((2, 3)));
+mat!(match_basic_53, r"[a-]*", r"--a", Some((0, 3)));
+mat!(match_basic_54, r"[a-m-]*", r"--amoma--", Some((0, 4)));
+mat!(
+    match_basic_55,
+    r":::1:::0:|:::1:1:0:",
+    r":::0:::1:::1:::0:",
+    Some((8, 17))
+);
+mat!(
+    match_basic_56,
+    r":::1:::0:|:::1:1:1:",
+    r":::0:::1:::1:::0:",
+    Some((8, 17))
+);
+mat!(match_basic_57, r"[[:upper:]]", r"A", Some((0, 1)));
+mat!(match_basic_58, r"[[:lower:]]+", r"`az{", Some((1, 3)));
+mat!(match_basic_59, r"[[:upper:]]+", r"@AZ[", Some((1, 3)));
+mat!(
+    match_basic_65,
+    r"
+",
+    r"
+",
+    Some((0, 1))
+);
+mat!(
+    match_basic_66,
+    r"
+",
+    r"
+",
+    Some((0, 1))
+);
+mat!(
+    match_basic_67,
+    r"[^a]",
+    r"
+",
+    Some((0, 1))
+);
+mat!(
+    match_basic_68,
+    r"
+a",
+    r"
+a",
+    Some((0, 2))
+);
+mat!(
+    match_basic_69,
+    r"(a)(b)(c)",
+    r"abc",
+    Some((0, 3)),
+    Some((0, 1)),
+    Some((1, 2)),
+    Some((2, 3))
+);
+mat!(match_basic_70, r"xxx", r"xxx", Some((0, 3)));
+mat!(
+    match_basic_71,
+    r"(^|[ (,;])((([Ff]eb[^ ]* *|0*2/|\* */?)0*[6-7]))([^0-9]|$)",
+    r"feb 6,",
+    Some((0, 6))
+);
+mat!(
+    match_basic_72,
+    r"(^|[ (,;])((([Ff]eb[^ ]* *|0*2/|\* */?)0*[6-7]))([^0-9]|$)",
+    r"2/7",
+    Some((0, 3))
+);
+mat!(
+    match_basic_73,
+    r"(^|[ (,;])((([Ff]eb[^ ]* *|0*2/|\* */?)0*[6-7]))([^0-9]|$)",
+    r"feb 1,Feb 6",
+    Some((5, 11))
+);
+mat!(
+    match_basic_74,
+    r"((((((((((((((((((((((((((((((x))))))))))))))))))))))))))))))",
+    r"x",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1))
+);
+mat!(
+    match_basic_75,
+    r"((((((((((((((((((((((((((((((x))))))))))))))))))))))))))))))*",
+    r"xx",
+    Some((0, 2)),
+    Some((1, 2)),
+    Some((1, 2))
+);
+mat!(
+    match_basic_76,
+    r"a?(ab|ba)*",
+    r"ababababababababababababababababababababababababababababababababababababababababa",
+    Some((0, 81)),
+    Some((79, 81))
+);
+mat!(
+    match_basic_77,
+    r"abaa|abbaa|abbbaa|abbbbaa",
+    r"ababbabbbabbbabbbbabbbbaa",
+    Some((18, 25))
+);
+mat!(
+    match_basic_78,
+    r"abaa|abbaa|abbbaa|abbbbaa",
+    r"ababbabbbabbbabbbbabaa",
+    Some((18, 22))
+);
+mat!(
+    match_basic_79,
+    r"aaac|aabc|abac|abbc|baac|babc|bbac|bbbc",
+    r"baaabbbabac",
+    Some((7, 11))
+);
+mat!(match_basic_80, r".*", r"
", Some((0, 2)));
+mat!(
+    match_basic_81,
+    r"aaaa|bbbb|cccc|ddddd|eeeeee|fffffff|gggg|hhhh|iiiii|jjjjj|kkkkk|llll",
+    r"XaaaXbbbXcccXdddXeeeXfffXgggXhhhXiiiXjjjXkkkXlllXcbaXaaaa",
+    Some((53, 57))
+);
+mat!(match_basic_83, r"a*a*a*a*a*b", r"aaaaaaaaab", Some((0, 10)));
+mat!(match_basic_84, r"^", r"", Some((0, 0)));
+mat!(match_basic_85, r"$", r"", Some((0, 0)));
+mat!(match_basic_86, r"^$", r"", Some((0, 0)));
+mat!(match_basic_87, r"^a$", r"a", Some((0, 1)));
+mat!(match_basic_88, r"abc", r"abc", Some((0, 3)));
+mat!(match_basic_89, r"abc", r"xabcy", Some((1, 4)));
+mat!(match_basic_90, r"abc", r"ababc", Some((2, 5)));
+mat!(match_basic_91, r"ab*c", r"abc", Some((0, 3)));
+mat!(match_basic_92, r"ab*bc", r"abc", Some((0, 3)));
+mat!(match_basic_93, r"ab*bc", r"abbc", Some((0, 4)));
+mat!(match_basic_94, r"ab*bc", r"abbbbc", Some((0, 6)));
+mat!(match_basic_95, r"ab+bc", r"abbc", Some((0, 4)));
+mat!(match_basic_96, r"ab+bc", r"abbbbc", Some((0, 6)));
+mat!(match_basic_97, r"ab?bc", r"abbc", Some((0, 4)));
+mat!(match_basic_98, r"ab?bc", r"abc", Some((0, 3)));
+mat!(match_basic_99, r"ab?c", r"abc", Some((0, 3)));
+mat!(match_basic_100, r"^abc$", r"abc", Some((0, 3)));
+mat!(match_basic_101, r"^abc", r"abcc", Some((0, 3)));
+mat!(match_basic_102, r"abc$", r"aabc", Some((1, 4)));
+mat!(match_basic_103, r"^", r"abc", Some((0, 0)));
+mat!(match_basic_104, r"$", r"abc", Some((3, 3)));
+mat!(match_basic_105, r"a.c", r"abc", Some((0, 3)));
+mat!(match_basic_106, r"a.c", r"axc", Some((0, 3)));
+mat!(match_basic_107, r"a.*c", r"axyzc", Some((0, 5)));
+mat!(match_basic_108, r"a[bc]d", r"abd", Some((0, 3)));
+mat!(match_basic_109, r"a[b-d]e", r"ace", Some((0, 3)));
+mat!(match_basic_110, r"a[b-d]", r"aac", Some((1, 3)));
+mat!(match_basic_111, r"a[-b]", r"a-", Some((0, 2)));
+mat!(match_basic_112, r"a[b-]", r"a-", Some((0, 2)));
+mat!(match_basic_113, r"a]", r"a]", Some((0, 2)));
+mat!(match_basic_114, r"a[]]b", r"a]b", Some((0, 3)));
+mat!(match_basic_115, r"a[^bc]d", r"aed", Some((0, 3)));
+mat!(match_basic_116, r"a[^-b]c", r"adc", Some((0, 3)));
+mat!(match_basic_117, r"a[^]b]c", r"adc", Some((0, 3)));
+mat!(match_basic_118, r"ab|cd", r"abc", Some((0, 2)));
+mat!(match_basic_119, r"ab|cd", r"abcd", Some((0, 2)));
+mat!(match_basic_120, r"a\(b", r"a(b", Some((0, 3)));
+mat!(match_basic_121, r"a\(*b", r"ab", Some((0, 2)));
+mat!(match_basic_122, r"a\(*b", r"a((b", Some((0, 4)));
+mat!(
+    match_basic_123,
+    r"((a))",
+    r"abc",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1))
+);
+mat!(
+    match_basic_124,
+    r"(a)b(c)",
+    r"abc",
+    Some((0, 3)),
+    Some((0, 1)),
+    Some((2, 3))
+);
+mat!(match_basic_125, r"a+b+c", r"aabbabc", Some((4, 7)));
+mat!(match_basic_126, r"a*", r"aaa", Some((0, 3)));
+mat!(match_basic_128, r"(a*)*", r"-", Some((0, 0)), None);
+mat!(match_basic_129, r"(a*)+", r"-", Some((0, 0)), Some((0, 0)));
+mat!(match_basic_131, r"(a*|b)*", r"-", Some((0, 0)), None);
+mat!(match_basic_132, r"(a+|b)*", r"ab", Some((0, 2)), Some((1, 2)));
+mat!(match_basic_133, r"(a+|b)+", r"ab", Some((0, 2)), Some((1, 2)));
+mat!(match_basic_134, r"(a+|b)?", r"ab", Some((0, 1)), Some((0, 1)));
+mat!(match_basic_135, r"[^ab]*", r"cde", Some((0, 3)));
+mat!(match_basic_137, r"(^)*", r"-", Some((0, 0)), None);
+mat!(match_basic_138, r"a*", r"", Some((0, 0)));
+mat!(match_basic_139, r"([abc])*d", r"abbbcd", Some((0, 6)), Some((4, 5)));
+mat!(match_basic_140, r"([abc])*bcd", r"abcd", Some((0, 4)), Some((0, 1)));
+mat!(match_basic_141, r"a|b|c|d|e", r"e", Some((0, 1)));
+mat!(match_basic_142, r"(a|b|c|d|e)f", r"ef", Some((0, 2)), Some((0, 1)));
+mat!(match_basic_144, r"((a*|b))*", r"-", Some((0, 0)), None, None);
+mat!(match_basic_145, r"abcd*efg", r"abcdefg", Some((0, 7)));
+mat!(match_basic_146, r"ab*", r"xabyabbbz", Some((1, 3)));
+mat!(match_basic_147, r"ab*", r"xayabbbz", Some((1, 2)));
+mat!(match_basic_148, r"(ab|cd)e", r"abcde", Some((2, 5)), Some((2, 4)));
+mat!(match_basic_149, r"[abhgefdc]ij", r"hij", Some((0, 3)));
+mat!(match_basic_150, r"(a|b)c*d", r"abcd", Some((1, 4)), Some((1, 2)));
+mat!(match_basic_151, r"(ab|ab*)bc", r"abc", Some((0, 3)), Some((0, 1)));
+mat!(match_basic_152, r"a([bc]*)c*", r"abc", Some((0, 3)), Some((1, 3)));
+mat!(
+    match_basic_153,
+    r"a([bc]*)(c*d)",
+    r"abcd",
+    Some((0, 4)),
+    Some((1, 3)),
+    Some((3, 4))
+);
+mat!(
+    match_basic_154,
+    r"a([bc]+)(c*d)",
+    r"abcd",
+    Some((0, 4)),
+    Some((1, 3)),
+    Some((3, 4))
+);
+mat!(
+    match_basic_155,
+    r"a([bc]*)(c+d)",
+    r"abcd",
+    Some((0, 4)),
+    Some((1, 2)),
+    Some((2, 4))
+);
+mat!(match_basic_156, r"a[bcd]*dcdcde", r"adcdcde", Some((0, 7)));
+mat!(match_basic_157, r"(ab|a)b*c", r"abc", Some((0, 3)), Some((0, 2)));
+mat!(
+    match_basic_158,
+    r"((a)(b)c)(d)",
+    r"abcd",
+    Some((0, 4)),
+    Some((0, 3)),
+    Some((0, 1)),
+    Some((1, 2)),
+    Some((3, 4))
+);
+mat!(match_basic_159, r"[A-Za-z_][A-Za-z0-9_]*", r"alpha", Some((0, 5)));
+mat!(match_basic_160, r"^a(bc+|b[eh])g|.h$", r"abh", Some((1, 3)));
+mat!(
+    match_basic_161,
+    r"(bc+d$|ef*g.|h?i(j|k))",
+    r"effgz",
+    Some((0, 5)),
+    Some((0, 5))
+);
+mat!(
+    match_basic_162,
+    r"(bc+d$|ef*g.|h?i(j|k))",
+    r"ij",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((1, 2))
+);
+mat!(
+    match_basic_163,
+    r"(bc+d$|ef*g.|h?i(j|k))",
+    r"reffgz",
+    Some((1, 6)),
+    Some((1, 6))
+);
+mat!(
+    match_basic_164,
+    r"(((((((((a)))))))))",
+    r"a",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((0, 1))
+);
+mat!(
+    match_basic_165,
+    r"multiple words",
+    r"multiple words yeah",
+    Some((0, 14))
+);
+mat!(
+    match_basic_166,
+    r"(.*)c(.*)",
+    r"abcde",
+    Some((0, 5)),
+    Some((0, 2)),
+    Some((3, 5))
+);
+mat!(match_basic_167, r"abcd", r"abcd", Some((0, 4)));
+mat!(match_basic_168, r"a(bc)d", r"abcd", Some((0, 4)), Some((1, 3)));
+mat!(match_basic_169, r"a[
-]?c", r"ac", Some((0, 3)));
+mat!(
+    match_basic_170,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Qaddafi",
+    Some((0, 15)),
+    None,
+    Some((10, 12))
+);
+mat!(
+    match_basic_171,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Mo'ammar Gadhafi",
+    Some((0, 16)),
+    None,
+    Some((11, 13))
+);
+mat!(
+    match_basic_172,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Kaddafi",
+    Some((0, 15)),
+    None,
+    Some((10, 12))
+);
+mat!(
+    match_basic_173,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Qadhafi",
+    Some((0, 15)),
+    None,
+    Some((10, 12))
+);
+mat!(
+    match_basic_174,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Gadafi",
+    Some((0, 14)),
+    None,
+    Some((10, 11))
+);
+mat!(
+    match_basic_175,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Mu'ammar Qadafi",
+    Some((0, 15)),
+    None,
+    Some((11, 12))
+);
+mat!(
+    match_basic_176,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Moamar Gaddafi",
+    Some((0, 14)),
+    None,
+    Some((9, 11))
+);
+mat!(
+    match_basic_177,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Mu'ammar Qadhdhafi",
+    Some((0, 18)),
+    None,
+    Some((13, 15))
+);
+mat!(
+    match_basic_178,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Khaddafi",
+    Some((0, 16)),
+    None,
+    Some((11, 13))
+);
+mat!(
+    match_basic_179,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Ghaddafy",
+    Some((0, 16)),
+    None,
+    Some((11, 13))
+);
+mat!(
+    match_basic_180,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Ghadafi",
+    Some((0, 15)),
+    None,
+    Some((11, 12))
+);
+mat!(
+    match_basic_181,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Ghaddafi",
+    Some((0, 16)),
+    None,
+    Some((11, 13))
+);
+mat!(
+    match_basic_182,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muamar Kaddafi",
+    Some((0, 14)),
+    None,
+    Some((9, 11))
+);
+mat!(
+    match_basic_183,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Quathafi",
+    Some((0, 16)),
+    None,
+    Some((11, 13))
+);
+mat!(
+    match_basic_184,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Muammar Gheddafi",
+    Some((0, 16)),
+    None,
+    Some((11, 13))
+);
+mat!(
+    match_basic_185,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Moammar Khadafy",
+    Some((0, 15)),
+    None,
+    Some((11, 12))
+);
+mat!(
+    match_basic_186,
+    r"M[ou]'?am+[ae]r .*([AEae]l[- ])?[GKQ]h?[aeu]+([dtz][dhz]?)+af[iy]",
+    r"Moammar Qudhafi",
+    Some((0, 15)),
+    None,
+    Some((10, 12))
+);
+mat!(match_basic_187, r"a+(b|c)*d+", r"aabcdd", Some((0, 6)), Some((3, 4)));
+mat!(match_basic_188, r"^.+$", r"vivi", Some((0, 4)));
+mat!(match_basic_189, r"^(.+)$", r"vivi", Some((0, 4)), Some((0, 4)));
+mat!(
+    match_basic_190,
+    r"^([^!.]+).att.com!(.+)$",
+    r"gryphon.att.com!eby",
+    Some((0, 19)),
+    Some((0, 7)),
+    Some((16, 19))
+);
+mat!(
+    match_basic_191,
+    r"^([^!]+!)?([^!]+)$",
+    r"bas",
+    Some((0, 3)),
+    None,
+    Some((0, 3))
+);
+mat!(
+    match_basic_192,
+    r"^([^!]+!)?([^!]+)$",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_193,
+    r"^([^!]+!)?([^!]+)$",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_194,
+    r"^.+!([^!]+!)([^!]+)$",
+    r"foo!bar!bas",
+    Some((0, 11)),
+    Some((4, 8)),
+    Some((8, 11))
+);
+mat!(
+    match_basic_195,
+    r"((foo)|(bar))!bas",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 3)),
+    None,
+    Some((0, 3))
+);
+mat!(
+    match_basic_196,
+    r"((foo)|(bar))!bas",
+    r"foo!bar!bas",
+    Some((4, 11)),
+    Some((4, 7)),
+    None,
+    Some((4, 7))
+);
+mat!(
+    match_basic_197,
+    r"((foo)|(bar))!bas",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 3)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_198,
+    r"((foo)|bar)!bas",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_199,
+    r"((foo)|bar)!bas",
+    r"foo!bar!bas",
+    Some((4, 11)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_200,
+    r"((foo)|bar)!bas",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 3)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_201,
+    r"(foo|(bar))!bas",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 3)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_202,
+    r"(foo|(bar))!bas",
+    r"foo!bar!bas",
+    Some((4, 11)),
+    Some((4, 7)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_203,
+    r"(foo|(bar))!bas",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_204,
+    r"(foo|bar)!bas",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_205,
+    r"(foo|bar)!bas",
+    r"foo!bar!bas",
+    Some((4, 11)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_206,
+    r"(foo|bar)!bas",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 3))
+);
+mat!(
+    match_basic_207,
+    r"^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$",
+    r"foo!bar!bas",
+    Some((0, 11)),
+    Some((0, 11)),
+    None,
+    None,
+    Some((4, 8)),
+    Some((8, 11))
+);
+mat!(
+    match_basic_208,
+    r"^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$",
+    r"bas",
+    Some((0, 3)),
+    None,
+    Some((0, 3))
+);
+mat!(
+    match_basic_209,
+    r"^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_210,
+    r"^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$",
+    r"foo!bar!bas",
+    Some((0, 11)),
+    None,
+    None,
+    Some((4, 8)),
+    Some((8, 11))
+);
+mat!(
+    match_basic_211,
+    r"^([^!]+!)?([^!]+)$|^.+!([^!]+!)([^!]+)$",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_212,
+    r"^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$",
+    r"bas",
+    Some((0, 3)),
+    Some((0, 3)),
+    None,
+    Some((0, 3))
+);
+mat!(
+    match_basic_213,
+    r"^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$",
+    r"bar!bas",
+    Some((0, 7)),
+    Some((0, 7)),
+    Some((0, 4)),
+    Some((4, 7))
+);
+mat!(
+    match_basic_214,
+    r"^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$",
+    r"foo!bar!bas",
+    Some((0, 11)),
+    Some((0, 11)),
+    None,
+    None,
+    Some((4, 8)),
+    Some((8, 11))
+);
+mat!(
+    match_basic_215,
+    r"^(([^!]+!)?([^!]+)|.+!([^!]+!)([^!]+))$",
+    r"foo!bas",
+    Some((0, 7)),
+    Some((0, 7)),
+    Some((0, 4)),
+    Some((4, 7))
+);
+mat!(match_basic_216, r".*(/XXX).*", r"/XXX", Some((0, 4)), Some((0, 4)));
+mat!(match_basic_217, r".*(\\XXX).*", r"\XXX", Some((0, 4)), Some((0, 4)));
+mat!(match_basic_218, r"\\XXX", r"\XXX", Some((0, 4)));
+mat!(match_basic_219, r".*(/000).*", r"/000", Some((0, 4)), Some((0, 4)));
+mat!(match_basic_220, r".*(\\000).*", r"\000", Some((0, 4)), Some((0, 4)));
+mat!(match_basic_221, r"\\000", r"\000", Some((0, 4)));
+
+// Tests from nullsubexpr.dat
+mat!(match_nullsubexpr_3, r"(a*)*", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_5, r"(a*)*", r"x", Some((0, 0)), None);
+mat!(match_nullsubexpr_6, r"(a*)*", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_7, r"(a*)*", r"aaaaaax", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_8, r"(a*)+", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_9, r"(a*)+", r"x", Some((0, 0)), Some((0, 0)));
+mat!(match_nullsubexpr_10, r"(a*)+", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_11, r"(a*)+", r"aaaaaax", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_12, r"(a+)*", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_13, r"(a+)*", r"x", Some((0, 0)));
+mat!(match_nullsubexpr_14, r"(a+)*", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_15, r"(a+)*", r"aaaaaax", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_16, r"(a+)+", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_17, r"(a+)+", r"x", None);
+mat!(match_nullsubexpr_18, r"(a+)+", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_19, r"(a+)+", r"aaaaaax", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_21, r"([a]*)*", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_23, r"([a]*)*", r"x", Some((0, 0)), None);
+mat!(match_nullsubexpr_24, r"([a]*)*", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_25, r"([a]*)*", r"aaaaaax", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_26, r"([a]*)+", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_27, r"([a]*)+", r"x", Some((0, 0)), Some((0, 0)));
+mat!(match_nullsubexpr_28, r"([a]*)+", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_29, r"([a]*)+", r"aaaaaax", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_30, r"([^b]*)*", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_32, r"([^b]*)*", r"b", Some((0, 0)), None);
+mat!(match_nullsubexpr_33, r"([^b]*)*", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(
+    match_nullsubexpr_34,
+    r"([^b]*)*",
+    r"aaaaaab",
+    Some((0, 6)),
+    Some((0, 6))
+);
+mat!(match_nullsubexpr_35, r"([ab]*)*", r"a", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_36, r"([ab]*)*", r"aaaaaa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_37, r"([ab]*)*", r"ababab", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_38, r"([ab]*)*", r"bababa", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_39, r"([ab]*)*", r"b", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_40, r"([ab]*)*", r"bbbbbb", Some((0, 6)), Some((0, 6)));
+mat!(
+    match_nullsubexpr_41,
+    r"([ab]*)*",
+    r"aaaabcde",
+    Some((0, 5)),
+    Some((0, 5))
+);
+mat!(match_nullsubexpr_42, r"([^a]*)*", r"b", Some((0, 1)), Some((0, 1)));
+mat!(match_nullsubexpr_43, r"([^a]*)*", r"bbbbbb", Some((0, 6)), Some((0, 6)));
+mat!(match_nullsubexpr_45, r"([^a]*)*", r"aaaaaa", Some((0, 0)), None);
+mat!(
+    match_nullsubexpr_46,
+    r"([^ab]*)*",
+    r"ccccxx",
+    Some((0, 6)),
+    Some((0, 6))
+);
+mat!(match_nullsubexpr_48, r"([^ab]*)*", r"ababab", Some((0, 0)), None);
+mat!(
+    match_nullsubexpr_50,
+    r"((z)+|a)*",
+    r"zabcde",
+    Some((0, 2)),
+    Some((1, 2))
+);
+mat!(
+    match_nullsubexpr_69,
+    r"(a*)*(x)",
+    r"x",
+    Some((0, 1)),
+    None,
+    Some((0, 1))
+);
+mat!(
+    match_nullsubexpr_70,
+    r"(a*)*(x)",
+    r"ax",
+    Some((0, 2)),
+    Some((0, 1)),
+    Some((1, 2))
+);
+mat!(
+    match_nullsubexpr_71,
+    r"(a*)*(x)",
+    r"axa",
+    Some((0, 2)),
+    Some((0, 1)),
+    Some((1, 2))
+);
+mat!(
+    match_nullsubexpr_73,
+    r"(a*)+(x)",
+    r"x",
+    Some((0, 1)),
+    Some((0, 0)),
+    Some((0, 1))
+);
+mat!(
+    match_nullsubexpr_74,
+    r"(a*)+(x)",
+    r"ax",
+    Some((0, 2)),
+    Some((0, 1)),
+    Some((1, 2))
+);
+mat!(
+    match_nullsubexpr_75,
+    r"(a*)+(x)",
+    r"axa",
+    Some((0, 2)),
+    Some((0, 1)),
+    Some((1, 2))
+);
+mat!(
+    match_nullsubexpr_77,
+    r"(a*){2}(x)",
+    r"x",
+    Some((0, 1)),
+    Some((0, 0)),
+    Some((0, 1))
+);
+mat!(
+    match_nullsubexpr_78,
+    r"(a*){2}(x)",
+    r"ax",
+    Some((0, 2)),
+    Some((1, 1)),
+    Some((1, 2))
+);
+mat!(
+    match_nullsubexpr_79,
+    r"(a*){2}(x)",
+    r"axa",
+    Some((0, 2)),
+    Some((1, 1)),
+    Some((1, 2))
+);
+
+// Tests from repetition.dat
+mat!(match_repetition_10, r"((..)|(.))", r"", None);
+mat!(match_repetition_11, r"((..)|(.))((..)|(.))", r"", None);
+mat!(match_repetition_12, r"((..)|(.))((..)|(.))((..)|(.))", r"", None);
+mat!(match_repetition_14, r"((..)|(.)){1}", r"", None);
+mat!(match_repetition_15, r"((..)|(.)){2}", r"", None);
+mat!(match_repetition_16, r"((..)|(.)){3}", r"", None);
+mat!(match_repetition_18, r"((..)|(.))*", r"", Some((0, 0)));
+mat!(
+    match_repetition_20,
+    r"((..)|(.))",
+    r"a",
+    Some((0, 1)),
+    Some((0, 1)),
+    None,
+    Some((0, 1))
+);
+mat!(match_repetition_21, r"((..)|(.))((..)|(.))", r"a", None);
+mat!(match_repetition_22, r"((..)|(.))((..)|(.))((..)|(.))", r"a", None);
+mat!(
+    match_repetition_24,
+    r"((..)|(.)){1}",
+    r"a",
+    Some((0, 1)),
+    Some((0, 1)),
+    None,
+    Some((0, 1))
+);
+mat!(match_repetition_25, r"((..)|(.)){2}", r"a", None);
+mat!(match_repetition_26, r"((..)|(.)){3}", r"a", None);
+mat!(
+    match_repetition_28,
+    r"((..)|(.))*",
+    r"a",
+    Some((0, 1)),
+    Some((0, 1)),
+    None,
+    Some((0, 1))
+);
+mat!(
+    match_repetition_30,
+    r"((..)|(.))",
+    r"aa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_31,
+    r"((..)|(.))((..)|(.))",
+    r"aa",
+    Some((0, 2)),
+    Some((0, 1)),
+    None,
+    Some((0, 1)),
+    Some((1, 2)),
+    None,
+    Some((1, 2))
+);
+mat!(match_repetition_32, r"((..)|(.))((..)|(.))((..)|(.))", r"aa", None);
+mat!(
+    match_repetition_34,
+    r"((..)|(.)){1}",
+    r"aa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_35,
+    r"((..)|(.)){2}",
+    r"aa",
+    Some((0, 2)),
+    Some((1, 2)),
+    None,
+    Some((1, 2))
+);
+mat!(match_repetition_36, r"((..)|(.)){3}", r"aa", None);
+mat!(
+    match_repetition_38,
+    r"((..)|(.))*",
+    r"aa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_40,
+    r"((..)|(.))",
+    r"aaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_41,
+    r"((..)|(.))((..)|(.))",
+    r"aaa",
+    Some((0, 3)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 3)),
+    None,
+    Some((2, 3))
+);
+mat!(
+    match_repetition_42,
+    r"((..)|(.))((..)|(.))((..)|(.))",
+    r"aaa",
+    Some((0, 3)),
+    Some((0, 1)),
+    None,
+    Some((0, 1)),
+    Some((1, 2)),
+    None,
+    Some((1, 2)),
+    Some((2, 3)),
+    None,
+    Some((2, 3))
+);
+mat!(
+    match_repetition_44,
+    r"((..)|(.)){1}",
+    r"aaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_46,
+    r"((..)|(.)){2}",
+    r"aaa",
+    Some((0, 3)),
+    Some((2, 3)),
+    Some((0, 2)),
+    Some((2, 3))
+);
+mat!(
+    match_repetition_47,
+    r"((..)|(.)){3}",
+    r"aaa",
+    Some((0, 3)),
+    Some((2, 3)),
+    None,
+    Some((2, 3))
+);
+mat!(
+    match_repetition_50,
+    r"((..)|(.))*",
+    r"aaa",
+    Some((0, 3)),
+    Some((2, 3)),
+    Some((0, 2)),
+    Some((2, 3))
+);
+mat!(
+    match_repetition_52,
+    r"((..)|(.))",
+    r"aaaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_53,
+    r"((..)|(.))((..)|(.))",
+    r"aaaa",
+    Some((0, 4)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_54,
+    r"((..)|(.))((..)|(.))((..)|(.))",
+    r"aaaa",
+    Some((0, 4)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 3)),
+    None,
+    Some((2, 3)),
+    Some((3, 4)),
+    None,
+    Some((3, 4))
+);
+mat!(
+    match_repetition_56,
+    r"((..)|(.)){1}",
+    r"aaaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_57,
+    r"((..)|(.)){2}",
+    r"aaaa",
+    Some((0, 4)),
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_59,
+    r"((..)|(.)){3}",
+    r"aaaa",
+    Some((0, 4)),
+    Some((3, 4)),
+    Some((0, 2)),
+    Some((3, 4))
+);
+mat!(
+    match_repetition_61,
+    r"((..)|(.))*",
+    r"aaaa",
+    Some((0, 4)),
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_63,
+    r"((..)|(.))",
+    r"aaaaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_64,
+    r"((..)|(.))((..)|(.))",
+    r"aaaaa",
+    Some((0, 4)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_65,
+    r"((..)|(.))((..)|(.))((..)|(.))",
+    r"aaaaa",
+    Some((0, 5)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 4)),
+    Some((2, 4)),
+    None,
+    Some((4, 5)),
+    None,
+    Some((4, 5))
+);
+mat!(
+    match_repetition_67,
+    r"((..)|(.)){1}",
+    r"aaaaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_68,
+    r"((..)|(.)){2}",
+    r"aaaaa",
+    Some((0, 4)),
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_70,
+    r"((..)|(.)){3}",
+    r"aaaaa",
+    Some((0, 5)),
+    Some((4, 5)),
+    Some((2, 4)),
+    Some((4, 5))
+);
+mat!(
+    match_repetition_73,
+    r"((..)|(.))*",
+    r"aaaaa",
+    Some((0, 5)),
+    Some((4, 5)),
+    Some((2, 4)),
+    Some((4, 5))
+);
+mat!(
+    match_repetition_75,
+    r"((..)|(.))",
+    r"aaaaaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_76,
+    r"((..)|(.))((..)|(.))",
+    r"aaaaaa",
+    Some((0, 4)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_77,
+    r"((..)|(.))((..)|(.))((..)|(.))",
+    r"aaaaaa",
+    Some((0, 6)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None,
+    Some((2, 4)),
+    Some((2, 4)),
+    None,
+    Some((4, 6)),
+    Some((4, 6)),
+    None
+);
+mat!(
+    match_repetition_79,
+    r"((..)|(.)){1}",
+    r"aaaaaa",
+    Some((0, 2)),
+    Some((0, 2)),
+    Some((0, 2)),
+    None
+);
+mat!(
+    match_repetition_80,
+    r"((..)|(.)){2}",
+    r"aaaaaa",
+    Some((0, 4)),
+    Some((2, 4)),
+    Some((2, 4)),
+    None
+);
+mat!(
+    match_repetition_81,
+    r"((..)|(.)){3}",
+    r"aaaaaa",
+    Some((0, 6)),
+    Some((4, 6)),
+    Some((4, 6)),
+    None
+);
+mat!(
+    match_repetition_83,
+    r"((..)|(.))*",
+    r"aaaaaa",
+    Some((0, 6)),
+    Some((4, 6)),
+    Some((4, 6)),
+    None
+);
+mat!(
+    match_repetition_90,
+    r"X(.?){0,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_91,
+    r"X(.?){1,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_92,
+    r"X(.?){2,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_93,
+    r"X(.?){3,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_94,
+    r"X(.?){4,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_95,
+    r"X(.?){5,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_96,
+    r"X(.?){6,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_97,
+    r"X(.?){7,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((7, 8))
+);
+mat!(
+    match_repetition_98,
+    r"X(.?){8,}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_100,
+    r"X(.?){0,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_102,
+    r"X(.?){1,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_104,
+    r"X(.?){2,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_106,
+    r"X(.?){3,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_108,
+    r"X(.?){4,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_110,
+    r"X(.?){5,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_112,
+    r"X(.?){6,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_114,
+    r"X(.?){7,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_115,
+    r"X(.?){8,8}Y",
+    r"X1234567Y",
+    Some((0, 9)),
+    Some((8, 8))
+);
+mat!(
+    match_repetition_126,
+    r"(a|ab|c|bcd){0,}(d*)",
+    r"ababcd",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((1, 1))
+);
+mat!(
+    match_repetition_127,
+    r"(a|ab|c|bcd){1,}(d*)",
+    r"ababcd",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((1, 1))
+);
+mat!(
+    match_repetition_128,
+    r"(a|ab|c|bcd){2,}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((3, 6)),
+    Some((6, 6))
+);
+mat!(
+    match_repetition_129,
+    r"(a|ab|c|bcd){3,}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((3, 6)),
+    Some((6, 6))
+);
+mat!(match_repetition_130, r"(a|ab|c|bcd){4,}(d*)", r"ababcd", None);
+mat!(
+    match_repetition_131,
+    r"(a|ab|c|bcd){0,10}(d*)",
+    r"ababcd",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((1, 1))
+);
+mat!(
+    match_repetition_132,
+    r"(a|ab|c|bcd){1,10}(d*)",
+    r"ababcd",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((1, 1))
+);
+mat!(
+    match_repetition_133,
+    r"(a|ab|c|bcd){2,10}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((3, 6)),
+    Some((6, 6))
+);
+mat!(
+    match_repetition_134,
+    r"(a|ab|c|bcd){3,10}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((3, 6)),
+    Some((6, 6))
+);
+mat!(match_repetition_135, r"(a|ab|c|bcd){4,10}(d*)", r"ababcd", None);
+mat!(
+    match_repetition_136,
+    r"(a|ab|c|bcd)*(d*)",
+    r"ababcd",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((1, 1))
+);
+mat!(
+    match_repetition_137,
+    r"(a|ab|c|bcd)+(d*)",
+    r"ababcd",
+    Some((0, 1)),
+    Some((0, 1)),
+    Some((1, 1))
+);
+mat!(
+    match_repetition_143,
+    r"(ab|a|c|bcd){0,}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_145,
+    r"(ab|a|c|bcd){1,}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_147,
+    r"(ab|a|c|bcd){2,}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_149,
+    r"(ab|a|c|bcd){3,}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(match_repetition_150, r"(ab|a|c|bcd){4,}(d*)", r"ababcd", None);
+mat!(
+    match_repetition_152,
+    r"(ab|a|c|bcd){0,10}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_154,
+    r"(ab|a|c|bcd){1,10}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_156,
+    r"(ab|a|c|bcd){2,10}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_158,
+    r"(ab|a|c|bcd){3,10}(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(match_repetition_159, r"(ab|a|c|bcd){4,10}(d*)", r"ababcd", None);
+mat!(
+    match_repetition_161,
+    r"(ab|a|c|bcd)*(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
+mat!(
+    match_repetition_163,
+    r"(ab|a|c|bcd)+(d*)",
+    r"ababcd",
+    Some((0, 6)),
+    Some((4, 5)),
+    Some((5, 6))
+);
diff --git a/vendor/regex/tests/macros.rs b/vendor/regex/tests/macros.rs
new file mode 100644
index 000000000..e70e9489f
--- /dev/null
+++ b/vendor/regex/tests/macros.rs
@@ -0,0 +1,160 @@
+// Convenience macros.
+
+macro_rules! findall {
+    ($re:expr, $text:expr) => {{
+        $re.find_iter(text!($text))
+           .map(|m| (m.start(), m.end())).collect::<Vec<_>>()
+    }}
+}
+
+// Macros for automatically producing tests.
+
+macro_rules! ismatch {
+    ($name:ident, $re:expr, $text:expr, $ismatch:expr) => {
+        #[test]
+        fn $name() {
+            let re = regex!($re);
+            assert_eq!($ismatch, re.is_match(text!($text)));
+        }
+    };
+}
+
+macro_rules! mat(
+    ($name:ident, $re:expr, $text:expr, $($loc:tt)+) => (
+        #[test]
+        fn $name() {
+            let text = text!($text);
+            let expected: Vec<Option<_>> = vec![$($loc)+];
+            let r = regex!($re);
+            let got: Vec<Option<_>> = match r.captures(text) {
+                Some(c) => {
+                    assert!(r.is_match(text));
+                    assert!(r.shortest_match(text).is_some());
+                    r.capture_names()
+                     .enumerate()
+                     .map(|(i, _)| c.get(i).map(|m| (m.start(), m.end())))
+                     .collect()
+                }
+                None => vec![None],
+            };
+            // The test set sometimes leave out capture groups, so truncate
+            // actual capture groups to match test set.
+            let mut sgot = &got[..];
+            if sgot.len() > expected.len() {
+                sgot = &sgot[0..expected.len()]
+            }
+            if expected != sgot {
+                panic!("For RE '{}' against '{:?}', \
+                        expected '{:?}' but got '{:?}'",
+                       $re, text, expected, sgot);
+            }
+        }
+    );
+);
+
+macro_rules! matiter(
+    ($name:ident, $re:expr, $text:expr) => (
+        #[test]
+        fn $name() {
+            let text = text!($text);
+            let expected: Vec<(usize, usize)> = vec![];
+            let r = regex!($re);
+            let got: Vec<_> =
+                r.find_iter(text).map(|m| (m.start(), m.end())).collect();
+            if expected != got {
+                panic!("For RE '{}' against '{:?}', \
+                        expected '{:?}' but got '{:?}'",
+                       $re, text, expected, got);
+            }
+            let captures_got: Vec<_> =
+                r.captures_iter(text)
+                 .map(|c| c.get(0).unwrap())
+                 .map(|m| (m.start(), m.end()))
+                 .collect();
+            if captures_got != got {
+                panic!("For RE '{}' against '{:?}', \
+                        got '{:?}' using find_iter but got '{:?}' \
+                        using captures_iter",
+                       $re, text, got, captures_got);
+            }
+        }
+    );
+    ($name:ident, $re:expr, $text:expr, $($loc:tt)+) => (
+        #[test]
+        fn $name() {
+            let text = text!($text);
+            let expected: Vec<_> = vec![$($loc)+];
+            let r = regex!($re);
+            let got: Vec<_> =
+                r.find_iter(text).map(|m| (m.start(), m.end())).collect();
+            if expected != got {
+                panic!("For RE '{}' against '{:?}', \
+                        expected '{:?}' but got '{:?}'",
+                       $re, text, expected, got);
+            }
+            let captures_got: Vec<_> =
+                r.captures_iter(text)
+                 .map(|c| c.get(0).unwrap())
+                 .map(|m| (m.start(), m.end()))
+                 .collect();
+            if captures_got != got {
+                panic!("For RE '{}' against '{:?}', \
+                        got '{:?}' using find_iter but got '{:?}' \
+                        using captures_iter",
+                       $re, text, got, captures_got);
+            }
+        }
+    );
+);
+
+macro_rules! matset {
+    ($name:ident, $res:expr, $text:expr, $($match_index:expr),*) => {
+        #[test]
+        fn $name() {
+            let text = text!($text);
+            let set = regex_set!($res);
+            assert!(set.is_match(text));
+            let expected = vec![$($match_index),*];
+            let matches = set.matches(text);
+            assert!(matches.matched_any());
+            let got: Vec<_> = matches.into_iter().collect();
+            assert_eq!(expected, got);
+        }
+    }
+}
+
+macro_rules! nomatset {
+    ($name:ident, $res:expr, $text:expr) => {
+        #[test]
+        fn $name() {
+            let text = text!($text);
+            let set = regex_set!($res);
+            assert!(!set.is_match(text));
+            let matches = set.matches(text);
+            assert!(!matches.matched_any());
+            assert_eq!(0, matches.into_iter().count());
+        }
+    }
+}
+
+macro_rules! split {
+    ($name:ident, $re:expr, $text:expr, $expected:expr) => {
+        #[test]
+        fn $name() {
+            let re = regex!($re);
+            let splitted: Vec<_> = re.split(t!($text)).collect();
+            assert_eq!($expected, &*splitted);
+        }
+    }
+}
+
+macro_rules! splitn {
+    ($name:ident, $re:expr, $text:expr, $limit:expr, $expected:expr) => {
+        #[test]
+        fn $name() {
+            let re = regex!($re);
+            let splitted: Vec<_> = re.splitn(t!($text), $limit).collect();
+            assert_eq!($expected, &*splitted);
+        }
+    }
+}
diff --git a/vendor/regex/tests/macros_bytes.rs b/vendor/regex/tests/macros_bytes.rs
new file mode 100644
index 000000000..3d6c8c3ac
--- /dev/null
+++ b/vendor/regex/tests/macros_bytes.rs
@@ -0,0 +1,39 @@
+// Macros for use in writing tests generic over &str/&[u8].
+macro_rules! text { ($text:expr) => { $text.as_bytes() } }
+macro_rules! t { ($re:expr) => { text!($re) } }
+macro_rules! match_text { ($text:expr) => { $text.as_bytes() } }
+macro_rules! use_ { ($($path: tt)*) => { use regex::bytes::$($path)*; } }
+macro_rules! empty_vec { () => { <Vec<&[u8]>>::new() } }
+macro_rules! bytes { ($text:expr) => { $text } }
+
+macro_rules! no_expand {
+    ($text:expr) => {{
+        use regex::bytes::NoExpand;
+        NoExpand(text!($text))
+    }}
+}
+
+macro_rules! show {
+    ($text:expr) => {{
+        use std::ascii::escape_default;
+        let mut s = vec![];
+        for &b in bytes!($text) {
+            s.extend(escape_default(b));
+        }
+        String::from_utf8(s).unwrap()
+    }}
+}
+
+macro_rules! expand {
+    ($name:ident, $re:expr, $text:expr, $expand:expr, $expected:expr) => {
+        #[test]
+        fn $name() {
+            let re = regex!($re);
+            let cap = re.captures(t!($text)).unwrap();
+
+            let mut got = vec![];
+            cap.expand(t!($expand), &mut got);
+            assert_eq!(show!(t!($expected)), show!(&*got));
+        }
+    }
+}
diff --git a/vendor/regex/tests/macros_str.rs b/vendor/regex/tests/macros_str.rs
new file mode 100644
index 000000000..7b7eb110c
--- /dev/null
+++ b/vendor/regex/tests/macros_str.rs
@@ -0,0 +1,38 @@
+// Macros for use in writing tests generic over &str/&[u8].
+macro_rules! text { ($text:expr) => { $text } }
+macro_rules! t { ($text:expr) => { text!($text) } }
+macro_rules! match_text { ($text:expr) => { $text.as_str() } }
+macro_rules! use_ { ($($path: tt)*) => { use regex::$($path)*; } }
+macro_rules! empty_vec { () => { <Vec<&str>>::new() } }
+macro_rules! bytes { ($text:expr) => { std::str::from_utf8($text.as_ref()).unwrap() } }
+
+macro_rules! no_expand {
+    ($text:expr) => {{
+        use regex::NoExpand;
+        NoExpand(text!($text))
+    }}
+}
+
+macro_rules! show { ($text:expr) => { $text } }
+
+// N.B. The expansion API for &str and &[u8] APIs differs slightly for now,
+// but they should be unified in 1.0. Then we can move this macro back into
+// tests/api.rs where it is used. ---AG
+macro_rules! expand {
+    ($name:ident, $re:expr, $text:expr, $expand:expr, $expected:expr) => {
+        #[test]
+        fn $name() {
+            let re = regex!($re);
+            let cap = re.captures(t!($text)).unwrap();
+
+            let mut got = String::new();
+            cap.expand(t!($expand), &mut got);
+            assert_eq!(show!(t!($expected)), show!(&*got));
+        }
+    }
+}
+
+#[cfg(feature = "pattern")]
+macro_rules! searcher_expr { ($e:expr) => ($e) }
+#[cfg(not(feature = "pattern"))]
+macro_rules! searcher_expr { ($e:expr) => ({}) }
diff --git a/vendor/regex/tests/misc.rs b/vendor/regex/tests/misc.rs
new file mode 100644
index 000000000..314811e25
--- /dev/null
+++ b/vendor/regex/tests/misc.rs
@@ -0,0 +1,4 @@
+mat!(prefix_literal_match, r"^abc", r"abc", Some((0, 3)));
+mat!(prefix_literal_nomatch, r"^abc", r"zabc", None);
+mat!(one_literal_edge, r"abc", r"xxxxxab", None);
+matiter!(terminates, r"a$", r"a", (0, 1));
diff --git a/vendor/regex/tests/multiline.rs b/vendor/regex/tests/multiline.rs
new file mode 100644
index 000000000..62ee47b62
--- /dev/null
+++ b/vendor/regex/tests/multiline.rs
@@ -0,0 +1,144 @@
+matiter!(
+    match_multi_1,
+    r"(?m)^[a-z]+$",
+    "abc\ndef\nxyz",
+    (0, 3),
+    (4, 7),
+    (8, 11)
+);
+matiter!(match_multi_2, r"(?m)^$", "abc\ndef\nxyz");
+matiter!(match_multi_3, r"(?m)^", "abc\ndef\nxyz", (0, 0), (4, 4), (8, 8));
+matiter!(match_multi_4, r"(?m)$", "abc\ndef\nxyz", (3, 3), (7, 7), (11, 11));
+matiter!(
+    match_multi_5,
+    r"(?m)^[a-z]",
+    "abc\ndef\nxyz",
+    (0, 1),
+    (4, 5),
+    (8, 9)
+);
+matiter!(match_multi_6, r"(?m)[a-z]^", "abc\ndef\nxyz");
+matiter!(
+    match_multi_7,
+    r"(?m)[a-z]$",
+    "abc\ndef\nxyz",
+    (2, 3),
+    (6, 7),
+    (10, 11)
+);
+matiter!(match_multi_8, r"(?m)$[a-z]", "abc\ndef\nxyz");
+matiter!(match_multi_9, r"(?m)^$", "", (0, 0));
+
+matiter!(
+    match_multi_rep_1,
+    r"(?m)(?:^$)*",
+    "a\nb\nc",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (3, 3),
+    (4, 4),
+    (5, 5)
+);
+matiter!(
+    match_multi_rep_2,
+    r"(?m)(?:^|a)+",
+    "a\naaa\n",
+    (0, 0),
+    (2, 2),
+    (3, 5),
+    (6, 6)
+);
+matiter!(
+    match_multi_rep_3,
+    r"(?m)(?:^|a)*",
+    "a\naaa\n",
+    (0, 1),
+    (2, 5),
+    (6, 6)
+);
+matiter!(
+    match_multi_rep_4,
+    r"(?m)(?:^[a-z])+",
+    "abc\ndef\nxyz",
+    (0, 1),
+    (4, 5),
+    (8, 9)
+);
+matiter!(
+    match_multi_rep_5,
+    r"(?m)(?:^[a-z]{3}\n?)+",
+    "abc\ndef\nxyz",
+    (0, 11)
+);
+matiter!(
+    match_multi_rep_6,
+    r"(?m)(?:^[a-z]{3}\n?)*",
+    "abc\ndef\nxyz",
+    (0, 11)
+);
+matiter!(
+    match_multi_rep_7,
+    r"(?m)(?:\n?[a-z]{3}$)+",
+    "abc\ndef\nxyz",
+    (0, 11)
+);
+matiter!(
+    match_multi_rep_8,
+    r"(?m)(?:\n?[a-z]{3}$)*",
+    "abc\ndef\nxyz",
+    (0, 11)
+);
+matiter!(
+    match_multi_rep_9,
+    r"(?m)^*",
+    "\naa\n",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (3, 3),
+    (4, 4)
+);
+matiter!(match_multi_rep_10, r"(?m)^+", "\naa\n", (0, 0), (1, 1), (4, 4));
+matiter!(
+    match_multi_rep_11,
+    r"(?m)$*",
+    "\naa\n",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (3, 3),
+    (4, 4)
+);
+matiter!(match_multi_rep_12, r"(?m)$+", "\naa\n", (0, 0), (3, 3), (4, 4));
+matiter!(match_multi_rep_13, r"(?m)(?:$\n)+", "\n\naaa\n\n", (0, 2), (5, 7));
+matiter!(
+    match_multi_rep_14,
+    r"(?m)(?:$\n)*",
+    "\n\naaa\n\n",
+    (0, 2),
+    (3, 3),
+    (4, 4),
+    (5, 7)
+);
+matiter!(match_multi_rep_15, r"(?m)(?:$\n^)+", "\n\naaa\n\n", (0, 2), (5, 7));
+matiter!(
+    match_multi_rep_16,
+    r"(?m)(?:^|$)+",
+    "\n\naaa\n\n",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (5, 5),
+    (6, 6),
+    (7, 7)
+);
+matiter!(
+    match_multi_rep_17,
+    r"(?m)(?:$\n)*",
+    "\n\naaa\n\n",
+    (0, 2),
+    (3, 3),
+    (4, 4),
+    (5, 7)
+);
diff --git a/vendor/regex/tests/noparse.rs b/vendor/regex/tests/noparse.rs
new file mode 100644
index 000000000..8ded1dce7
--- /dev/null
+++ b/vendor/regex/tests/noparse.rs
@@ -0,0 +1,45 @@
+macro_rules! noparse(
+    ($name:ident, $re:expr) => (
+        #[test]
+        fn $name() {
+            let re = $re;
+            match regex_new!(re) {
+                Err(_) => {},
+                Ok(_) => panic!("Regex '{}' should cause a parse error.", re),
+            }
+        }
+    );
+);
+
+noparse!(fail_no_repeat_arg, "*");
+noparse!(fail_incomplete_escape, "\\");
+noparse!(fail_class_incomplete, "[A-");
+noparse!(fail_class_not_closed, "[A");
+noparse!(fail_class_no_begin, r"[\A]");
+noparse!(fail_class_no_end, r"[\z]");
+noparse!(fail_class_no_boundary, r"[\b]");
+noparse!(fail_open_paren, "(");
+noparse!(fail_close_paren, ")");
+noparse!(fail_invalid_range, "[a-Z]");
+noparse!(fail_empty_capture_name, "(?P<>a)");
+noparse!(fail_bad_capture_name, "(?P<na-me>)");
+noparse!(fail_bad_flag, "(?a)a");
+noparse!(fail_too_big, "a{10000000}");
+noparse!(fail_counted_no_close, "a{1001");
+noparse!(fail_counted_decreasing, "a{2,1}");
+noparse!(fail_counted_nonnegative, "a{-1,1}");
+noparse!(fail_unfinished_cap, "(?");
+noparse!(fail_unfinished_escape, "\\");
+noparse!(fail_octal_digit, r"\8");
+noparse!(fail_hex_digit, r"\xG0");
+noparse!(fail_hex_short, r"\xF");
+noparse!(fail_hex_long_digits, r"\x{fffg}");
+noparse!(fail_flag_bad, "(?a)");
+noparse!(fail_flag_empty, "(?)");
+noparse!(fail_double_neg, "(?-i-i)");
+noparse!(fail_neg_empty, "(?i-)");
+noparse!(fail_dupe_named, "(?P<a>.)(?P<a>.)");
+noparse!(fail_range_end_no_class, "[a-[:lower:]]");
+noparse!(fail_range_end_no_begin, r"[a-\A]");
+noparse!(fail_range_end_no_end, r"[a-\z]");
+noparse!(fail_range_end_no_boundary, r"[a-\b]");
diff --git a/vendor/regex/tests/regression.rs b/vendor/regex/tests/regression.rs
new file mode 100644
index 000000000..e8b252538
--- /dev/null
+++ b/vendor/regex/tests/regression.rs
@@ -0,0 +1,222 @@
+// See: https://github.com/rust-lang/regex/issues/48
+#[test]
+fn invalid_regexes_no_crash() {
+    assert!(regex_new!("(*)").is_err());
+    assert!(regex_new!("(?:?)").is_err());
+    assert!(regex_new!("(?)").is_err());
+    assert!(regex_new!("*").is_err());
+}
+
+// See: https://github.com/rust-lang/regex/issues/98
+#[test]
+fn regression_many_repeat_stack_overflow() {
+    let re = regex!("^.{1,2500}");
+    assert_eq!(vec![(0, 1)], findall!(re, "a"));
+}
+
+// See: https://github.com/rust-lang/regex/issues/555
+#[test]
+fn regression_invalid_repetition_expr() {
+    assert!(regex_new!("(?m){1,1}").is_err());
+}
+
+// See: https://github.com/rust-lang/regex/issues/527
+#[test]
+fn regression_invalid_flags_expression() {
+    assert!(regex_new!("(((?x)))").is_ok());
+}
+
+// See: https://github.com/rust-lang/regex/issues/75
+mat!(regression_unsorted_binary_search_1, r"(?i-u)[a_]+", "A_", Some((0, 2)));
+mat!(regression_unsorted_binary_search_2, r"(?i-u)[A_]+", "a_", Some((0, 2)));
+
+// See: https://github.com/rust-lang/regex/issues/99
+#[cfg(feature = "unicode-case")]
+mat!(regression_negated_char_class_1, r"(?i)[^x]", "x", None);
+#[cfg(feature = "unicode-case")]
+mat!(regression_negated_char_class_2, r"(?i)[^x]", "X", None);
+
+// See: https://github.com/rust-lang/regex/issues/101
+mat!(regression_ascii_word_underscore, r"[[:word:]]", "_", Some((0, 1)));
+
+// See: https://github.com/rust-lang/regex/issues/129
+#[test]
+fn regression_captures_rep() {
+    let re = regex!(r"([a-f]){2}(?P<foo>[x-z])");
+    let caps = re.captures(text!("abx")).unwrap();
+    assert_eq!(match_text!(caps.name("foo").unwrap()), text!("x"));
+}
+
+// See: https://github.com/rust-lang/regex/issues/153
+mat!(regression_alt_in_alt1, r"ab?|$", "az", Some((0, 1)));
+mat!(regression_alt_in_alt2, r"^(.*?)(\n|\r\n?|$)", "ab\rcd", Some((0, 3)));
+
+// See: https://github.com/rust-lang/regex/issues/169
+mat!(regression_leftmost_first_prefix, r"z*azb", "azb", Some((0, 3)));
+
+// See: https://github.com/rust-lang/regex/issues/76
+#[cfg(all(feature = "unicode-case", feature = "unicode-gencat"))]
+mat!(uni_case_lower_nocase_flag, r"(?i)\p{Ll}+", "ΛΘΓΔα", Some((0, 10)));
+
+// See: https://github.com/rust-lang/regex/issues/191
+mat!(many_alternates, r"1|2|3|4|5|6|7|8|9|10|int", "int", Some((0, 3)));
+
+// burntsushi was bad and didn't create an issue for this bug.
+mat!(anchored_prefix1, r"^a[[:^space:]]", "a ", None);
+mat!(anchored_prefix2, r"^a[[:^space:]]", "foo boo a ", None);
+mat!(anchored_prefix3, r"^-[a-z]", "r-f", None);
+
+// See: https://github.com/rust-lang/regex/issues/204
+#[cfg(feature = "unicode-perl")]
+split!(
+    split_on_word_boundary,
+    r"\b",
+    r"Should this (work?)",
+    &[
+        t!(""),
+        t!("Should"),
+        t!(" "),
+        t!("this"),
+        t!(" ("),
+        t!("work"),
+        t!("?)")
+    ]
+);
+#[cfg(feature = "unicode-perl")]
+matiter!(
+    word_boundary_dfa,
+    r"\b",
+    "a b c",
+    (0, 0),
+    (1, 1),
+    (2, 2),
+    (3, 3),
+    (4, 4),
+    (5, 5)
+);
+
+// See: https://github.com/rust-lang/regex/issues/268
+matiter!(partial_anchor, r"^a|b", "ba", (0, 1));
+
+// See: https://github.com/rust-lang/regex/issues/280
+ismatch!(partial_anchor_alternate_begin, r"^a|z", "yyyyya", false);
+ismatch!(partial_anchor_alternate_end, r"a$|z", "ayyyyy", false);
+
+// See: https://github.com/rust-lang/regex/issues/289
+mat!(lits_unambiguous1, r"(ABC|CDA|BC)X", "CDAX", Some((0, 4)));
+
+// See: https://github.com/rust-lang/regex/issues/291
+mat!(
+    lits_unambiguous2,
+    r"((IMG|CAM|MG|MB2)_|(DSCN|CIMG))(?P<n>[0-9]+)$",
+    "CIMG2341",
+    Some((0, 8)),
+    Some((0, 4)),
+    None,
+    Some((0, 4)),
+    Some((4, 8))
+);
+
+// See: https://github.com/rust-lang/regex/issues/271
+mat!(endl_or_wb, r"(?m:$)|(?-u:\b)", "\u{6084e}", Some((4, 4)));
+mat!(zero_or_end, r"(?i-u:\x00)|$", "\u{e682f}", Some((4, 4)));
+mat!(y_or_endl, r"(?i-u:y)|(?m:$)", "\u{b4331}", Some((4, 4)));
+#[cfg(feature = "unicode-perl")]
+mat!(wb_start_x, r"(?u:\b)^(?-u:X)", "X", Some((0, 1)));
+
+// See: https://github.com/rust-lang/regex/issues/321
+ismatch!(strange_anchor_non_complete_prefix, r"a^{2}", "", false);
+ismatch!(strange_anchor_non_complete_suffix, r"${2}a", "", false);
+
+// See: https://github.com/BurntSushi/ripgrep/issues/1203
+ismatch!(reverse_suffix1, r"[0-4][0-4][0-4]000", "153.230000", true);
+ismatch!(reverse_suffix2, r"[0-9][0-9][0-9]000", "153.230000\n", true);
+matiter!(reverse_suffix3, r"[0-9][0-9][0-9]000", "153.230000\n", (4, 10));
+
+// See: https://github.com/rust-lang/regex/issues/334
+// See: https://github.com/rust-lang/regex/issues/557
+mat!(
+    captures_after_dfa_premature_end1,
+    r"a(b*(X|$))?",
+    "abcbX",
+    Some((0, 1)),
+    None,
+    None
+);
+mat!(
+    captures_after_dfa_premature_end2,
+    r"a(bc*(X|$))?",
+    "abcbX",
+    Some((0, 1)),
+    None,
+    None
+);
+mat!(captures_after_dfa_premature_end3, r"(aa$)?", "aaz", Some((0, 0)));
+
+// See: https://github.com/rust-lang/regex/issues/437
+ismatch!(
+    literal_panic,
+    r"typename type\-parameter\-[0-9]+\-[0-9]+::.+",
+    "test",
+    false
+);
+
+// See: https://github.com/rust-lang/regex/issues/533
+ismatch!(
+    blank_matches_nothing_between_space_and_tab,
+    r"[[:blank:]]",
+    "\u{a}\u{b}\u{c}\u{d}\u{e}\u{f}\
+     \u{10}\u{11}\u{12}\u{13}\u{14}\u{15}\u{16}\u{17}\
+     \u{18}\u{19}\u{1a}\u{1b}\u{1c}\u{1d}\u{1e}\u{1f}",
+    false
+);
+
+ismatch!(
+    inverted_blank_matches_everything_between_space_and_tab,
+    r"^[[:^blank:]]+$",
+    "\u{a}\u{b}\u{c}\u{d}\u{e}\u{f}\
+     \u{10}\u{11}\u{12}\u{13}\u{14}\u{15}\u{16}\u{17}\
+     \u{18}\u{19}\u{1a}\u{1b}\u{1c}\u{1d}\u{1e}\u{1f}",
+    true
+);
+
+// Tests that our Aho-Corasick optimization works correctly. It only
+// kicks in when we have >32 literals. By "works correctly," we mean that
+// leftmost-first match semantics are properly respected. That is, samwise
+// should match, not sam.
+mat!(
+    ahocorasick1,
+    "samwise|sam|a|b|c|d|e|f|g|h|i|j|k|l|m|n|o|p|q|r|s|t|u|v|w|x|y|z|\
+     A|B|C|D|E|F|G|H|I|J|K|L|M|N|O|P|Q|R|S|T|U|V|W|X|Y|Z",
+    "samwise",
+    Some((0, 7))
+);
+
+// See: https://github.com/BurntSushi/ripgrep/issues/1247
+#[test]
+#[cfg(feature = "unicode-perl")]
+fn regression_nfa_stops1() {
+    let re = ::regex::bytes::Regex::new(r"\bs(?:[ab])").unwrap();
+    assert_eq!(0, re.find_iter(b"s\xE4").count());
+}
+
+// See: https://github.com/rust-lang/regex/issues/640
+#[cfg(feature = "unicode-case")]
+matiter!(
+    flags_are_unset,
+    r"((?i)foo)|Bar",
+    "foo Foo bar Bar",
+    (0, 3),
+    (4, 7),
+    (12, 15)
+);
+
+// See: https://github.com/rust-lang/regex/issues/659
+//
+// Note that 'Ј' is not 'j', but cyrillic Je
+// https://en.wikipedia.org/wiki/Je_(Cyrillic)
+ismatch!(empty_group_match, r"()Ј01", "zЈ01", true);
+matiter!(empty_group_find, r"()Ј01", "zЈ01", (1, 5));
+
+// See: https://github.com/rust-lang/regex/issues/862
+mat!(non_greedy_question_literal, r"ab??", "ab", Some((0, 1)));
diff --git a/vendor/regex/tests/regression_fuzz.rs b/vendor/regex/tests/regression_fuzz.rs
new file mode 100644
index 000000000..4e76704d2
--- /dev/null
+++ b/vendor/regex/tests/regression_fuzz.rs
@@ -0,0 +1,31 @@
+// These tests are only run for the "default" test target because some of them
+// can take quite a long time. Some of them take long enough that it's not
+// practical to run them in debug mode. :-/
+
+// See: https://oss-fuzz.com/testcase-detail/5673225499181056
+//
+// Ignored by default since it takes too long in debug mode (almost a minute).
+#[test]
+#[ignore]
+fn fuzz1() {
+    regex!(r"1}{55}{0}*{1}{55}{55}{5}*{1}{55}+{56}|;**");
+}
+
+// See: https://bugs.chromium.org/p/oss-fuzz/issues/detail?id=26505
+// See: https://github.com/rust-lang/regex/issues/722
+#[test]
+fn empty_any_errors_no_panic() {
+    assert!(regex_new!(r"\P{any}").is_err());
+}
+
+// This tests that a very large regex errors during compilation instead of
+// using gratuitous amounts of memory. The specific problem is that the
+// compiler wasn't accounting for the memory used by Unicode character classes
+// correctly.
+//
+// See: https://bugs.chromium.org/p/oss-fuzz/issues/detail?id=33579
+#[test]
+fn big_regex_fails_to_compile() {
+    let pat = "[\u{0}\u{e}\u{2}\\w~~>[l\t\u{0}]p?<]{971158}";
+    assert!(regex_new!(pat).is_err());
+}
diff --git a/vendor/regex/tests/replace.rs b/vendor/regex/tests/replace.rs
new file mode 100644
index 000000000..1dc610635
--- /dev/null
+++ b/vendor/regex/tests/replace.rs
@@ -0,0 +1,230 @@
+macro_rules! replace(
+    ($name:ident, $which:ident, $re:expr,
+     $search:expr, $replace:expr, $result:expr) => (
+        #[test]
+        fn $name() {
+            let re = regex!($re);
+            assert_eq!(re.$which(text!($search), $replace), text!($result));
+        }
+    );
+);
+
+replace!(first, replace, r"[0-9]", "age: 26", t!("Z"), "age: Z6");
+replace!(plus, replace, r"[0-9]+", "age: 26", t!("Z"), "age: Z");
+replace!(all, replace_all, r"[0-9]", "age: 26", t!("Z"), "age: ZZ");
+replace!(
+    groups,
+    replace,
+    r"(?-u)(\S+)\s+(\S+)",
+    "w1 w2",
+    t!("$2 $1"),
+    "w2 w1"
+);
+replace!(
+    double_dollar,
+    replace,
+    r"(?-u)(\S+)\s+(\S+)",
+    "w1 w2",
+    t!("$2 $$1"),
+    "w2 $1"
+);
+// replace!(adjacent_index, replace,
+// r"([^aeiouy])ies$", "skies", t!("$1y"), "sky");
+replace!(
+    named,
+    replace_all,
+    r"(?-u)(?P<first>\S+)\s+(?P<last>\S+)(?P<space>\s*)",
+    "w1 w2 w3 w4",
+    t!("$last $first$space"),
+    "w2 w1 w4 w3"
+);
+replace!(
+    trim,
+    replace_all,
+    "^[ \t]+|[ \t]+$",
+    " \t  trim me\t   \t",
+    t!(""),
+    "trim me"
+);
+replace!(number_hypen, replace, r"(.)(.)", "ab", t!("$1-$2"), "a-b");
+// replace!(number_underscore, replace, r"(.)(.)", "ab", t!("$1_$2"), "a_b");
+replace!(
+    simple_expand,
+    replace_all,
+    r"(?-u)(\w) (\w)",
+    "a b",
+    t!("$2 $1"),
+    "b a"
+);
+replace!(
+    literal_dollar1,
+    replace_all,
+    r"(?-u)(\w+) (\w+)",
+    "a b",
+    t!("$$1"),
+    "$1"
+);
+replace!(
+    literal_dollar2,
+    replace_all,
+    r"(?-u)(\w+) (\w+)",
+    "a b",
+    t!("$2 $$c $1"),
+    "b $c a"
+);
+replace!(
+    no_expand1,
+    replace,
+    r"(?-u)(\S+)\s+(\S+)",
+    "w1 w2",
+    no_expand!("$2 $1"),
+    "$2 $1"
+);
+replace!(
+    no_expand2,
+    replace,
+    r"(?-u)(\S+)\s+(\S+)",
+    "w1 w2",
+    no_expand!("$$1"),
+    "$$1"
+);
+use_!(Captures);
+replace!(
+    closure_returning_reference,
+    replace,
+    r"([0-9]+)",
+    "age: 26",
+    |captures: &Captures<'_>| {
+        match_text!(captures.get(1).unwrap())[0..1].to_owned()
+    },
+    "age: 2"
+);
+replace!(
+    closure_returning_value,
+    replace,
+    r"[0-9]+",
+    "age: 26",
+    |_captures: &Captures<'_>| t!("Z").to_owned(),
+    "age: Z"
+);
+
+// See https://github.com/rust-lang/regex/issues/314
+replace!(
+    match_at_start_replace_with_empty,
+    replace_all,
+    r"foo",
+    "foobar",
+    t!(""),
+    "bar"
+);
+
+// See https://github.com/rust-lang/regex/issues/393
+replace!(single_empty_match, replace, r"^", "bar", t!("foo"), "foobar");
+
+// See https://github.com/rust-lang/regex/issues/399
+replace!(
+    capture_longest_possible_name,
+    replace_all,
+    r"(.)",
+    "b",
+    t!("${1}a $1a"),
+    "ba "
+);
+
+replace!(
+    impl_string,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    t!("Z".to_string()),
+    "age: Z6"
+);
+replace!(
+    impl_string_ref,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    t!(&"Z".to_string()),
+    "age: Z6"
+);
+replace!(
+    impl_cow_str_borrowed,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    t!(std::borrow::Cow::<'_, str>::Borrowed("Z")),
+    "age: Z6"
+);
+replace!(
+    impl_cow_str_borrowed_ref,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    t!(&std::borrow::Cow::<'_, str>::Borrowed("Z")),
+    "age: Z6"
+);
+replace!(
+    impl_cow_str_owned,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    t!(std::borrow::Cow::<'_, str>::Owned("Z".to_string())),
+    "age: Z6"
+);
+replace!(
+    impl_cow_str_owned_ref,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    t!(&std::borrow::Cow::<'_, str>::Owned("Z".to_string())),
+    "age: Z6"
+);
+
+replace!(
+    impl_vec_u8,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    bytes!(vec![b'Z']),
+    "age: Z6"
+);
+replace!(
+    impl_vec_u8_ref,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    bytes!(&vec![b'Z']),
+    "age: Z6"
+);
+replace!(
+    impl_cow_slice_borrowed,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    bytes!(std::borrow::Cow::<'_, [u8]>::Borrowed(&[b'Z'])),
+    "age: Z6"
+);
+replace!(
+    impl_cow_slice_borrowed_ref,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    bytes!(&std::borrow::Cow::<'_, [u8]>::Borrowed(&[b'Z'])),
+    "age: Z6"
+);
+replace!(
+    impl_cow_slice_owned,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    bytes!(std::borrow::Cow::<'_, [u8]>::Owned(vec![b'Z'])),
+    "age: Z6"
+);
+replace!(
+    impl_cow_slice_owned_ref,
+    replace,
+    r"[0-9]",
+    "age: 26",
+    bytes!(&std::borrow::Cow::<'_, [u8]>::Owned(vec![b'Z'])),
+    "age: Z6"
+);
diff --git a/vendor/regex/tests/searcher.rs b/vendor/regex/tests/searcher.rs
new file mode 100644
index 000000000..3779f54c3
--- /dev/null
+++ b/vendor/regex/tests/searcher.rs
@@ -0,0 +1,95 @@
+macro_rules! searcher {
+    ($name:ident, $re:expr, $haystack:expr) => (
+        searcher!($name, $re, $haystack, vec vec![]);
+    );
+    ($name:ident, $re:expr, $haystack:expr, $($steps:expr,)*) => (
+        searcher!($name, $re, $haystack, vec vec![$($steps),*]);
+    );
+    ($name:ident, $re:expr, $haystack:expr, $($steps:expr),*) => (
+        searcher!($name, $re, $haystack, vec vec![$($steps),*]);
+    );
+    ($name:ident, $re:expr, $haystack:expr, vec $expect_steps:expr) => (
+        #[test]
+        #[allow(unused_imports)]
+        fn $name() {
+            searcher_expr! {{
+                use std::str::pattern::{Pattern, Searcher};
+                use std::str::pattern::SearchStep::{Match, Reject, Done};
+                let re = regex!($re);
+                let mut se = re.into_searcher($haystack);
+                let mut got_steps = vec![];
+                loop {
+                    match se.next() {
+                        Done => break,
+                        step => { got_steps.push(step); }
+                    }
+                }
+                assert_eq!(got_steps, $expect_steps);
+            }}
+        }
+    );
+}
+
+searcher!(searcher_empty_regex_empty_haystack, r"", "", Match(0, 0));
+searcher!(
+    searcher_empty_regex,
+    r"",
+    "ab",
+    Match(0, 0),
+    Reject(0, 1),
+    Match(1, 1),
+    Reject(1, 2),
+    Match(2, 2)
+);
+searcher!(searcher_empty_haystack, r"\d", "");
+searcher!(searcher_one_match, r"\d", "5", Match(0, 1));
+searcher!(searcher_no_match, r"\d", "a", Reject(0, 1));
+searcher!(
+    searcher_two_adjacent_matches,
+    r"\d",
+    "56",
+    Match(0, 1),
+    Match(1, 2)
+);
+searcher!(
+    searcher_two_non_adjacent_matches,
+    r"\d",
+    "5a6",
+    Match(0, 1),
+    Reject(1, 2),
+    Match(2, 3)
+);
+searcher!(searcher_reject_first, r"\d", "a6", Reject(0, 1), Match(1, 2));
+searcher!(
+    searcher_one_zero_length_matches,
+    r"\d*",
+    "a1b2",
+    Match(0, 0),  // ^
+    Reject(0, 1), // a
+    Match(1, 2),  // a1
+    Reject(2, 3), // a1b
+    Match(3, 4),  // a1b2
+);
+searcher!(
+    searcher_many_zero_length_matches,
+    r"\d*",
+    "a1bbb2",
+    Match(0, 0),  // ^
+    Reject(0, 1), // a
+    Match(1, 2),  // a1
+    Reject(2, 3), // a1b
+    Match(3, 3),  // a1bb
+    Reject(3, 4), // a1bb
+    Match(4, 4),  // a1bbb
+    Reject(4, 5), // a1bbb
+    Match(5, 6),  // a1bbba
+);
+searcher!(
+    searcher_unicode,
+    r".+?",
+    "Ⅰ1Ⅱ2",
+    Match(0, 3),
+    Match(3, 4),
+    Match(4, 7),
+    Match(7, 8)
+);
diff --git a/vendor/regex/tests/set.rs b/vendor/regex/tests/set.rs
new file mode 100644
index 000000000..37fcf8700
--- /dev/null
+++ b/vendor/regex/tests/set.rs
@@ -0,0 +1,67 @@
+matset!(set1, &["a", "a"], "a", 0, 1);
+matset!(set2, &["a", "a"], "ba", 0, 1);
+matset!(set3, &["a", "b"], "a", 0);
+matset!(set4, &["a", "b"], "b", 1);
+matset!(set5, &["a|b", "b|a"], "b", 0, 1);
+matset!(set6, &["foo", "oo"], "foo", 0, 1);
+matset!(set7, &["^foo", "bar$"], "foo", 0);
+matset!(set8, &["^foo", "bar$"], "foo bar", 0, 1);
+matset!(set9, &["^foo", "bar$"], "bar", 1);
+matset!(set10, &[r"[a-z]+$", "foo"], "01234 foo", 0, 1);
+matset!(set11, &[r"[a-z]+$", "foo"], "foo 01234", 1);
+matset!(set12, &[r".*?", "a"], "zzzzzza", 0, 1);
+matset!(set13, &[r".*", "a"], "zzzzzza", 0, 1);
+matset!(set14, &[r".*", "a"], "zzzzzz", 0);
+matset!(set15, &[r"(?-u)\ba\b"], "hello a bye", 0);
+matset!(set16, &["a"], "a", 0);
+matset!(set17, &[".*a"], "a", 0);
+matset!(set18, &["a", "β"], "β", 1);
+
+// regexes that match the empty string
+matset!(setempty1, &["", "a"], "abc", 0, 1);
+matset!(setempty2, &["", "b"], "abc", 0, 1);
+matset!(setempty3, &["", "z"], "abc", 0);
+matset!(setempty4, &["a", ""], "abc", 0, 1);
+matset!(setempty5, &["b", ""], "abc", 0, 1);
+matset!(setempty6, &["z", ""], "abc", 1);
+matset!(setempty7, &["b", "(?:)"], "abc", 0, 1);
+matset!(setempty8, &["(?:)", "b"], "abc", 0, 1);
+matset!(setempty9, &["c(?:)", "b"], "abc", 0, 1);
+
+nomatset!(nset1, &["a", "a"], "b");
+nomatset!(nset2, &["^foo", "bar$"], "bar foo");
+nomatset!(
+    nset3,
+    {
+        let xs: &[&str] = &[];
+        xs
+    },
+    "a"
+);
+nomatset!(nset4, &[r"^rooted$", r"\.log$"], "notrooted");
+
+// See: https://github.com/rust-lang/regex/issues/187
+#[test]
+fn regression_subsequent_matches() {
+    let set = regex_set!(&["ab", "b"]);
+    let text = text!("ba");
+    assert!(set.matches(text).matched(1));
+    assert!(set.matches(text).matched(1));
+}
+
+#[test]
+fn get_set_patterns() {
+    let set = regex_set!(&["a", "b"]);
+    assert_eq!(vec!["a", "b"], set.patterns());
+}
+
+#[test]
+fn len_and_empty() {
+    let empty = regex_set!(&[""; 0]);
+    assert_eq!(empty.len(), 0);
+    assert!(empty.is_empty());
+
+    let not_empty = regex_set!(&["ab", "b"]);
+    assert_eq!(not_empty.len(), 2);
+    assert!(!not_empty.is_empty());
+}
diff --git a/vendor/regex/tests/shortest_match.rs b/vendor/regex/tests/shortest_match.rs
new file mode 100644
index 000000000..f8b4fed15
--- /dev/null
+++ b/vendor/regex/tests/shortest_match.rs
@@ -0,0 +1,14 @@
+macro_rules! shortmat {
+    ($name:ident, $re:expr, $text:expr, $shortest_match:expr) => {
+        #[test]
+        fn $name() {
+            let text = text!($text);
+            let re = regex!($re);
+            assert_eq!($shortest_match, re.shortest_match(text));
+        }
+    };
+}
+
+shortmat!(t01, r"a+", r"aa", Some(1));
+// Test that the reverse suffix optimization gets it right.
+shortmat!(t02, r".*(?:abcd)+", r"abcdabcd", Some(4));
diff --git a/vendor/regex/tests/suffix_reverse.rs b/vendor/regex/tests/suffix_reverse.rs
new file mode 100644
index 000000000..774c9e85f
--- /dev/null
+++ b/vendor/regex/tests/suffix_reverse.rs
@@ -0,0 +1,6 @@
+mat!(t01, r".*abcd", r"abcd", Some((0, 4)));
+mat!(t02, r".*(?:abcd)+", r"abcd", Some((0, 4)));
+mat!(t03, r".*(?:abcd)+", r"abcdabcd", Some((0, 8)));
+mat!(t04, r".*(?:abcd)+", r"abcdxabcd", Some((0, 9)));
+mat!(t05, r".*x(?:abcd)+", r"abcdxabcd", Some((0, 9)));
+mat!(t06, r"[^abcd]*x(?:abcd)+", r"abcdxabcd", Some((4, 9)));
diff --git a/vendor/regex/tests/test_backtrack.rs b/vendor/regex/tests/test_backtrack.rs
new file mode 100644
index 000000000..fb934e2d8
--- /dev/null
+++ b/vendor/regex/tests/test_backtrack.rs
@@ -0,0 +1,56 @@
+#![cfg_attr(feature = "pattern", feature(pattern))]
+
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re)
+            .bounded_backtracking()
+            .build()
+            .map(|e| e.into_regex())
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new_many($re)
+            .bounded_backtracking()
+            .build()
+            .map(|e| e.into_regex_set())
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_str.rs");
+include!("macros.rs");
+
+mod api;
+mod api_str;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod searcher;
+mod set;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
diff --git a/vendor/regex/tests/test_backtrack_bytes.rs b/vendor/regex/tests/test_backtrack_bytes.rs
new file mode 100644
index 000000000..a59426c94
--- /dev/null
+++ b/vendor/regex/tests/test_backtrack_bytes.rs
@@ -0,0 +1,55 @@
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re)
+            .bounded_backtracking()
+            .only_utf8(false)
+            .build()
+            .map(|e| e.into_byte_regex())
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new_many($re)
+            .bounded_backtracking()
+            .only_utf8(false)
+            .build()
+            .map(|e| e.into_byte_regex_set())
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_bytes.rs");
+include!("macros.rs");
+
+mod api;
+mod bytes;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod set;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_ascii;
diff --git a/vendor/regex/tests/test_backtrack_utf8bytes.rs b/vendor/regex/tests/test_backtrack_utf8bytes.rs
new file mode 100644
index 000000000..6d308e9e1
--- /dev/null
+++ b/vendor/regex/tests/test_backtrack_utf8bytes.rs
@@ -0,0 +1,58 @@
+#![cfg_attr(feature = "pattern", feature(pattern))]
+
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re)
+            .bounded_backtracking()
+            .bytes(true)
+            .build()
+            .map(|e| e.into_regex())
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new_many($re)
+            .bounded_backtracking()
+            .bytes(true)
+            .build()
+            .map(|e| e.into_regex_set())
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_str.rs");
+include!("macros.rs");
+
+mod api;
+mod api_str;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod searcher;
+mod set;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
diff --git a/vendor/regex/tests/test_crates_regex.rs b/vendor/regex/tests/test_crates_regex.rs
new file mode 100644
index 000000000..a68160472
--- /dev/null
+++ b/vendor/regex/tests/test_crates_regex.rs
@@ -0,0 +1,54 @@
+/*
+ * This test is a minimal version of <rofl_0> and <subdiff_0>
+ *
+ * Once this bug gets fixed, uncomment rofl_0 and subdiff_0
+ * (in `tests/crates_regex.rs`).
+#[test]
+fn word_boundary_backtracking_default_mismatch() {
+    use regex::internal::ExecBuilder;
+
+    let backtrack_re = ExecBuilder::new(r"\b")
+        .bounded_backtracking()
+        .build()
+        .map(|exec| exec.into_regex())
+        .map_err(|err| format!("{}", err))
+        .unwrap();
+
+    let default_re = ExecBuilder::new(r"\b")
+        .build()
+        .map(|exec| exec.into_regex())
+        .map_err(|err| format!("{}", err))
+        .unwrap();
+
+    let input = "䅅\\u{a0}";
+
+    let fi1 = backtrack_re.find_iter(input);
+    let fi2 = default_re.find_iter(input);
+    for (m1, m2) in fi1.zip(fi2) {
+        assert_eq!(m1, m2);
+    }
+}
+*/
+
+mod consistent;
+
+mod crates_regex {
+
+    macro_rules! consistent {
+        ($test_name:ident, $regex_src:expr) => {
+            #[test]
+            fn $test_name() {
+                use super::consistent::backends_are_consistent;
+
+                if option_env!("RUST_REGEX_RANDOM_TEST").is_some() {
+                    match backends_are_consistent($regex_src) {
+                        Ok(_) => {}
+                        Err(err) => panic!("{}", err),
+                    }
+                }
+            }
+        };
+    }
+
+    include!("crates_regex.rs");
+}
diff --git a/vendor/regex/tests/test_default.rs b/vendor/regex/tests/test_default.rs
new file mode 100644
index 000000000..be627f7a6
--- /dev/null
+++ b/vendor/regex/tests/test_default.rs
@@ -0,0 +1,222 @@
+#![cfg_attr(feature = "pattern", feature(pattern))]
+
+use regex;
+
+// Due to macro scoping rules, this definition only applies for the modules
+// defined below. Effectively, it allows us to use the same tests for both
+// native and dynamic regexes.
+//
+// This is also used to test the various matching engines. This one exercises
+// the normal code path which automatically chooses the engine based on the
+// regex and the input. Other dynamic tests explicitly set the engine to use.
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::Regex;
+        Regex::new($re)
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::RegexSet;
+        RegexSet::new($re)
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_str.rs");
+include!("macros.rs");
+
+mod api;
+mod api_str;
+mod crazy;
+mod flags;
+mod fowler;
+mod misc;
+mod multiline;
+mod noparse;
+mod regression;
+mod regression_fuzz;
+mod replace;
+mod searcher;
+mod set;
+mod shortest_match;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
+
+#[test]
+fn disallow_non_utf8() {
+    assert!(regex::Regex::new(r"(?-u)\xFF").is_err());
+    assert!(regex::Regex::new(r"(?-u).").is_err());
+    assert!(regex::Regex::new(r"(?-u)[\xFF]").is_err());
+    assert!(regex::Regex::new(r"(?-u)☃").is_err());
+}
+
+#[test]
+fn disallow_octal() {
+    assert!(regex::Regex::new(r"\0").is_err());
+}
+
+#[test]
+fn allow_octal() {
+    assert!(regex::RegexBuilder::new(r"\0").octal(true).build().is_ok());
+}
+
+#[test]
+fn oibits() {
+    use regex::bytes;
+    use regex::{Regex, RegexBuilder, RegexSet, RegexSetBuilder};
+    use std::panic::{RefUnwindSafe, UnwindSafe};
+
+    fn assert_send<T: Send>() {}
+    fn assert_sync<T: Sync>() {}
+    fn assert_unwind_safe<T: UnwindSafe>() {}
+    fn assert_ref_unwind_safe<T: RefUnwindSafe>() {}
+
+    assert_send::<Regex>();
+    assert_sync::<Regex>();
+    assert_unwind_safe::<Regex>();
+    assert_ref_unwind_safe::<Regex>();
+    assert_send::<RegexBuilder>();
+    assert_sync::<RegexBuilder>();
+    assert_unwind_safe::<RegexBuilder>();
+    assert_ref_unwind_safe::<RegexBuilder>();
+
+    assert_send::<bytes::Regex>();
+    assert_sync::<bytes::Regex>();
+    assert_unwind_safe::<bytes::Regex>();
+    assert_ref_unwind_safe::<bytes::Regex>();
+    assert_send::<bytes::RegexBuilder>();
+    assert_sync::<bytes::RegexBuilder>();
+    assert_unwind_safe::<bytes::RegexBuilder>();
+    assert_ref_unwind_safe::<bytes::RegexBuilder>();
+
+    assert_send::<RegexSet>();
+    assert_sync::<RegexSet>();
+    assert_unwind_safe::<RegexSet>();
+    assert_ref_unwind_safe::<RegexSet>();
+    assert_send::<RegexSetBuilder>();
+    assert_sync::<RegexSetBuilder>();
+    assert_unwind_safe::<RegexSetBuilder>();
+    assert_ref_unwind_safe::<RegexSetBuilder>();
+
+    assert_send::<bytes::RegexSet>();
+    assert_sync::<bytes::RegexSet>();
+    assert_unwind_safe::<bytes::RegexSet>();
+    assert_ref_unwind_safe::<bytes::RegexSet>();
+    assert_send::<bytes::RegexSetBuilder>();
+    assert_sync::<bytes::RegexSetBuilder>();
+    assert_unwind_safe::<bytes::RegexSetBuilder>();
+    assert_ref_unwind_safe::<bytes::RegexSetBuilder>();
+}
+
+// See: https://github.com/rust-lang/regex/issues/568
+#[test]
+fn oibits_regression() {
+    use regex::Regex;
+    use std::panic;
+
+    let _ = panic::catch_unwind(|| Regex::new("a").unwrap());
+}
+
+// See: https://github.com/rust-lang/regex/issues/750
+#[test]
+#[cfg(target_pointer_width = "64")]
+fn regex_is_reasonably_small() {
+    use std::mem::size_of;
+
+    use regex::bytes;
+    use regex::{Regex, RegexSet};
+
+    assert_eq!(16, size_of::<Regex>());
+    assert_eq!(16, size_of::<RegexSet>());
+    assert_eq!(16, size_of::<bytes::Regex>());
+    assert_eq!(16, size_of::<bytes::RegexSet>());
+}
+
+// See: https://github.com/rust-lang/regex/security/advisories/GHSA-m5pq-gvj9-9vr8
+// See: CVE-2022-24713
+//
+// We test that our regex compiler will correctly return a "too big" error when
+// we try to use a very large repetition on an *empty* sub-expression.
+//
+// At the time this test was written, the regex compiler does not represent
+// empty sub-expressions with any bytecode instructions. In effect, it's an
+// "optimization" to leave them out, since they would otherwise correspond
+// to an unconditional JUMP in the regex bytecode (i.e., an unconditional
+// epsilon transition in the NFA graph). Therefore, an empty sub-expression
+// represents an interesting case for the compiler's size limits. Since it
+// doesn't actually contribute any additional memory to the compiled regex
+// instructions, the size limit machinery never detects it. Instead, it just
+// dumbly tries to compile the empty sub-expression N times, where N is the
+// repetition size.
+//
+// When N is very large, this will cause the compiler to essentially spin and
+// do nothing for a decently large amount of time. It causes the regex to take
+// quite a bit of time to compile, despite the concrete syntax of the regex
+// being quite small.
+//
+// The degree to which this is actually a problem is somewhat of a judgment
+// call. Some regexes simply take a long time to compile. But in general, you
+// should be able to reasonably control this by setting lower or higher size
+// limits on the compiled object size. But this mitigation doesn't work at all
+// for this case.
+//
+// This particular test is somewhat narrow. It merely checks that regex
+// compilation will, at some point, return a "too big" error. Before the
+// fix landed, this test would eventually fail because the regex would be
+// successfully compiled (after enough time elapsed). So while this test
+// doesn't check that we exit in a reasonable amount of time, it does at least
+// check that we are properly returning an error at some point.
+#[test]
+fn big_empty_regex_fails() {
+    use regex::Regex;
+
+    let result = Regex::new("(?:){4294967295}");
+    assert!(result.is_err());
+}
+
+// Below is a "billion laughs" variant of the previous test case.
+#[test]
+fn big_empty_reps_chain_regex_fails() {
+    use regex::Regex;
+
+    let result = Regex::new("(?:){64}{64}{64}{64}{64}{64}");
+    assert!(result.is_err());
+}
+
+// Below is another situation where a zero-length sub-expression can be
+// introduced.
+#[test]
+fn big_zero_reps_regex_fails() {
+    use regex::Regex;
+
+    let result = Regex::new(r"x{0}{4294967295}");
+    assert!(result.is_err());
+}
+
+// Testing another case for completeness.
+#[test]
+fn empty_alt_regex_fails() {
+    use regex::Regex;
+
+    let result = Regex::new(r"(?:|){4294967295}");
+    assert!(result.is_err());
+}
diff --git a/vendor/regex/tests/test_default_bytes.rs b/vendor/regex/tests/test_default_bytes.rs
new file mode 100644
index 000000000..f200596ba
--- /dev/null
+++ b/vendor/regex/tests/test_default_bytes.rs
@@ -0,0 +1,75 @@
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::bytes::Regex;
+        Regex::new($re)
+    }};
+}
+
+macro_rules! regex_set_new {
+    ($res:expr) => {{
+        use regex::bytes::RegexSet;
+        RegexSet::new($res)
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_bytes.rs");
+include!("macros.rs");
+
+// A silly wrapper to make it possible to write and match raw bytes.
+struct R<'a>(&'a [u8]);
+impl<'a> R<'a> {
+    fn as_bytes(&self) -> &'a [u8] {
+        self.0
+    }
+}
+
+// See: https://github.com/rust-lang/regex/issues/321
+//
+// These tests are here because they do not have the same behavior in every
+// regex engine.
+mat!(invalid_utf8_nfa1, r".", R(b"\xD4\xC2\x65\x2B\x0E\xFE"), Some((2, 3)));
+mat!(invalid_utf8_nfa2, r"${2}ä", R(b"\xD4\xC2\x65\x2B\x0E\xFE"), None);
+mat!(
+    invalid_utf8_nfa3,
+    r".",
+    R(b"\x0A\xDB\x82\x6E\x33\x01\xDD\x33\xCD"),
+    Some((1, 3))
+);
+mat!(
+    invalid_utf8_nfa4,
+    r"${2}ä",
+    R(b"\x0A\xDB\x82\x6E\x33\x01\xDD\x33\xCD"),
+    None
+);
+
+mod api;
+mod bytes;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod set;
+mod shortest_match;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
diff --git a/vendor/regex/tests/test_nfa.rs b/vendor/regex/tests/test_nfa.rs
new file mode 100644
index 000000000..e5a67d180
--- /dev/null
+++ b/vendor/regex/tests/test_nfa.rs
@@ -0,0 +1,50 @@
+#![cfg_attr(feature = "pattern", feature(pattern))]
+
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re).nfa().build().map(|e| e.into_regex())
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new_many($re).nfa().build().map(|e| e.into_regex_set())
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_str.rs");
+include!("macros.rs");
+
+mod api;
+mod api_str;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod searcher;
+mod set;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
diff --git a/vendor/regex/tests/test_nfa_bytes.rs b/vendor/regex/tests/test_nfa_bytes.rs
new file mode 100644
index 000000000..0a10e032a
--- /dev/null
+++ b/vendor/regex/tests/test_nfa_bytes.rs
@@ -0,0 +1,55 @@
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re)
+            .nfa()
+            .only_utf8(false)
+            .build()
+            .map(|e| e.into_byte_regex())
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new_many($re)
+            .nfa()
+            .only_utf8(false)
+            .build()
+            .map(|e| e.into_byte_regex_set())
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_bytes.rs");
+include!("macros.rs");
+
+mod api;
+mod bytes;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod set;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
diff --git a/vendor/regex/tests/test_nfa_utf8bytes.rs b/vendor/regex/tests/test_nfa_utf8bytes.rs
new file mode 100644
index 000000000..36a572b5f
--- /dev/null
+++ b/vendor/regex/tests/test_nfa_utf8bytes.rs
@@ -0,0 +1,54 @@
+#![cfg_attr(feature = "pattern", feature(pattern))]
+
+macro_rules! regex_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new($re).nfa().bytes(true).build().map(|e| e.into_regex())
+    }};
+}
+
+macro_rules! regex {
+    ($re:expr) => {
+        regex_new!($re).unwrap()
+    };
+}
+
+macro_rules! regex_set_new {
+    ($re:expr) => {{
+        use regex::internal::ExecBuilder;
+        ExecBuilder::new_many($re)
+            .nfa()
+            .bytes(true)
+            .build()
+            .map(|e| e.into_regex_set())
+    }};
+}
+
+macro_rules! regex_set {
+    ($res:expr) => {
+        regex_set_new!($res).unwrap()
+    };
+}
+
+// Must come before other module definitions.
+include!("macros_str.rs");
+include!("macros.rs");
+
+mod api;
+mod api_str;
+mod crazy;
+mod flags;
+mod fowler;
+mod multiline;
+mod noparse;
+mod regression;
+mod replace;
+mod searcher;
+mod set;
+mod suffix_reverse;
+#[cfg(feature = "unicode")]
+mod unicode;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary;
+#[cfg(feature = "unicode-perl")]
+mod word_boundary_unicode;
diff --git a/vendor/regex/tests/unicode.rs b/vendor/regex/tests/unicode.rs
new file mode 100644
index 000000000..9f1cd0c01
--- /dev/null
+++ b/vendor/regex/tests/unicode.rs
@@ -0,0 +1,234 @@
+mat!(uni_literal, r"☃", "☃", Some((0, 3)));
+mat!(uni_literal_plus, r"☃+", "☃", Some((0, 3)));
+mat!(uni_literal_casei_plus, r"(?i)☃+", "☃", Some((0, 3)));
+mat!(uni_class_plus, r"[☃Ⅰ]+", "☃", Some((0, 3)));
+mat!(uni_one, r"\pN", "Ⅰ", Some((0, 3)));
+mat!(uni_mixed, r"\pN+", "Ⅰ1Ⅱ2", Some((0, 8)));
+mat!(uni_not, r"\PN+", "abⅠ", Some((0, 2)));
+mat!(uni_not_class, r"[\PN]+", "abⅠ", Some((0, 2)));
+mat!(uni_not_class_neg, r"[^\PN]+", "abⅠ", Some((2, 5)));
+mat!(uni_case, r"(?i)Δ", "δ", Some((0, 2)));
+mat!(uni_case_upper, r"\p{Lu}+", "ΛΘΓΔα", Some((0, 8)));
+mat!(uni_case_upper_nocase_flag, r"(?i)\p{Lu}+", "ΛΘΓΔα", Some((0, 10)));
+mat!(uni_case_upper_nocase, r"\p{L}+", "ΛΘΓΔα", Some((0, 10)));
+mat!(uni_case_lower, r"\p{Ll}+", "ΛΘΓΔα", Some((8, 10)));
+
+// Test the Unicode friendliness of Perl character classes.
+mat!(uni_perl_w, r"\w+", "dδd", Some((0, 4)));
+mat!(uni_perl_w_not, r"\w+", "⥡", None);
+mat!(uni_perl_w_neg, r"\W+", "⥡", Some((0, 3)));
+mat!(uni_perl_d, r"\d+", "1२३9", Some((0, 8)));
+mat!(uni_perl_d_not, r"\d+", "Ⅱ", None);
+mat!(uni_perl_d_neg, r"\D+", "Ⅱ", Some((0, 3)));
+mat!(uni_perl_s, r"\s+", " ", Some((0, 3)));
+mat!(uni_perl_s_not, r"\s+", "☃", None);
+mat!(uni_perl_s_neg, r"\S+", "☃", Some((0, 3)));
+
+// And do the same for word boundaries.
+mat!(uni_boundary_none, r"\d\b", "6δ", None);
+mat!(uni_boundary_ogham, r"\d\b", "6 ", Some((0, 1)));
+mat!(uni_not_boundary_none, r"\d\B", "6δ", Some((0, 1)));
+mat!(uni_not_boundary_ogham, r"\d\B", "6 ", None);
+
+// Test general categories.
+//
+// We should test more, but there's a lot. Write a script to generate more of
+// these tests.
+mat!(uni_class_gencat_cased_letter, r"\p{Cased_Letter}", "Ａ", Some((0, 3)));
+mat!(
+    uni_class_gencat_close_punctuation,
+    r"\p{Close_Punctuation}",
+    "❯",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_connector_punctuation,
+    r"\p{Connector_Punctuation}",
+    "⁀",
+    Some((0, 3))
+);
+mat!(uni_class_gencat_control, r"\p{Control}", "\u{9f}", Some((0, 2)));
+mat!(
+    uni_class_gencat_currency_symbol,
+    r"\p{Currency_Symbol}",
+    "￡",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_dash_punctuation,
+    r"\p{Dash_Punctuation}",
+    "〰",
+    Some((0, 3))
+);
+mat!(uni_class_gencat_decimal_numer, r"\p{Decimal_Number}", "𑓙", Some((0, 4)));
+mat!(
+    uni_class_gencat_enclosing_mark,
+    r"\p{Enclosing_Mark}",
+    "\u{A672}",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_final_punctuation,
+    r"\p{Final_Punctuation}",
+    "⸡",
+    Some((0, 3))
+);
+mat!(uni_class_gencat_format, r"\p{Format}", "\u{E007F}", Some((0, 4)));
+// See: https://github.com/rust-lang/regex/issues/719
+mat!(uni_class_gencat_format_abbrev1, r"\p{cf}", "\u{E007F}", Some((0, 4)));
+mat!(uni_class_gencat_format_abbrev2, r"\p{gc=cf}", "\u{E007F}", Some((0, 4)));
+mat!(
+    uni_class_gencat_initial_punctuation,
+    r"\p{Initial_Punctuation}",
+    "⸜",
+    Some((0, 3))
+);
+mat!(uni_class_gencat_letter, r"\p{Letter}", "Έ", Some((0, 2)));
+mat!(uni_class_gencat_letter_number, r"\p{Letter_Number}", "ↂ", Some((0, 3)));
+mat!(
+    uni_class_gencat_line_separator,
+    r"\p{Line_Separator}",
+    "\u{2028}",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_lowercase_letter,
+    r"\p{Lowercase_Letter}",
+    "ϛ",
+    Some((0, 2))
+);
+mat!(uni_class_gencat_mark, r"\p{Mark}", "\u{E01EF}", Some((0, 4)));
+mat!(uni_class_gencat_math, r"\p{Math}", "⋿", Some((0, 3)));
+mat!(
+    uni_class_gencat_modifier_letter,
+    r"\p{Modifier_Letter}",
+    "𖭃",
+    Some((0, 4))
+);
+mat!(
+    uni_class_gencat_modifier_symbol,
+    r"\p{Modifier_Symbol}",
+    "🏿",
+    Some((0, 4))
+);
+mat!(
+    uni_class_gencat_nonspacing_mark,
+    r"\p{Nonspacing_Mark}",
+    "\u{1E94A}",
+    Some((0, 4))
+);
+mat!(uni_class_gencat_number, r"\p{Number}", "⓿", Some((0, 3)));
+mat!(
+    uni_class_gencat_open_punctuation,
+    r"\p{Open_Punctuation}",
+    "｟",
+    Some((0, 3))
+);
+mat!(uni_class_gencat_other, r"\p{Other}", "\u{bc9}", Some((0, 3)));
+mat!(uni_class_gencat_other_letter, r"\p{Other_Letter}", "ꓷ", Some((0, 3)));
+mat!(uni_class_gencat_other_number, r"\p{Other_Number}", "㉏", Some((0, 3)));
+mat!(
+    uni_class_gencat_other_punctuation,
+    r"\p{Other_Punctuation}",
+    "𞥞",
+    Some((0, 4))
+);
+mat!(uni_class_gencat_other_symbol, r"\p{Other_Symbol}", "⅌", Some((0, 3)));
+mat!(
+    uni_class_gencat_paragraph_separator,
+    r"\p{Paragraph_Separator}",
+    "\u{2029}",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_private_use,
+    r"\p{Private_Use}",
+    "\u{10FFFD}",
+    Some((0, 4))
+);
+mat!(uni_class_gencat_punctuation, r"\p{Punctuation}", "𑁍", Some((0, 4)));
+mat!(uni_class_gencat_separator, r"\p{Separator}", "\u{3000}", Some((0, 3)));
+mat!(
+    uni_class_gencat_space_separator,
+    r"\p{Space_Separator}",
+    "\u{205F}",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_spacing_mark,
+    r"\p{Spacing_Mark}",
+    "\u{16F7E}",
+    Some((0, 4))
+);
+mat!(uni_class_gencat_symbol, r"\p{Symbol}", "⯈", Some((0, 3)));
+mat!(
+    uni_class_gencat_titlecase_letter,
+    r"\p{Titlecase_Letter}",
+    "ῼ",
+    Some((0, 3))
+);
+mat!(
+    uni_class_gencat_unassigned,
+    r"\p{Unassigned}",
+    "\u{10FFFF}",
+    Some((0, 4))
+);
+mat!(
+    uni_class_gencat_uppercase_letter,
+    r"\p{Uppercase_Letter}",
+    "Ꝋ",
+    Some((0, 3))
+);
+
+// Test a smattering of properties.
+mat!(uni_class_prop_emoji1, r"\p{Emoji}", "\u{23E9}", Some((0, 3)));
+mat!(uni_class_prop_emoji2, r"\p{emoji}", "\u{1F21A}", Some((0, 4)));
+mat!(
+    uni_class_prop_picto1,
+    r"\p{extendedpictographic}",
+    "\u{1FA6E}",
+    Some((0, 4))
+);
+mat!(
+    uni_class_prop_picto2,
+    r"\p{extendedpictographic}",
+    "\u{1FFFD}",
+    Some((0, 4))
+);
+
+// grapheme_cluster_break
+mat!(
+    uni_class_gcb_prepend,
+    r"\p{grapheme_cluster_break=prepend}",
+    "\u{11D46}",
+    Some((0, 4))
+);
+mat!(
+    uni_class_gcb_ri1,
+    r"\p{gcb=regional_indicator}",
+    "\u{1F1E6}",
+    Some((0, 4))
+);
+mat!(uni_class_gcb_ri2, r"\p{gcb=ri}", "\u{1F1E7}", Some((0, 4)));
+mat!(
+    uni_class_gcb_ri3,
+    r"\p{gcb=regionalindicator}",
+    "\u{1F1FF}",
+    Some((0, 4))
+);
+mat!(uni_class_gcb_lvt, r"\p{gcb=lvt}", "\u{C989}", Some((0, 3)));
+mat!(uni_class_gcb_zwj, r"\p{gcb=zwj}", "\u{200D}", Some((0, 3)));
+
+// word_break
+mat!(uni_class_wb1, r"\p{word_break=Hebrew_Letter}", "\u{FB46}", Some((0, 3)));
+mat!(uni_class_wb2, r"\p{wb=hebrewletter}", "\u{FB46}", Some((0, 3)));
+mat!(uni_class_wb3, r"\p{wb=ExtendNumLet}", "\u{FF3F}", Some((0, 3)));
+mat!(uni_class_wb4, r"\p{wb=WSegSpace}", "\u{3000}", Some((0, 3)));
+mat!(uni_class_wb5, r"\p{wb=numeric}", "\u{1E950}", Some((0, 4)));
+
+// sentence_break
+mat!(uni_class_sb1, r"\p{sentence_break=Lower}", "\u{0469}", Some((0, 2)));
+mat!(uni_class_sb2, r"\p{sb=lower}", "\u{0469}", Some((0, 2)));
+mat!(uni_class_sb3, r"\p{sb=Close}", "\u{FF60}", Some((0, 3)));
+mat!(uni_class_sb4, r"\p{sb=Close}", "\u{1F677}", Some((0, 4)));
+mat!(uni_class_sb5, r"\p{sb=SContinue}", "\u{FF64}", Some((0, 3)));
diff --git a/vendor/regex/tests/word_boundary.rs b/vendor/regex/tests/word_boundary.rs
new file mode 100644
index 000000000..7fe97a297
--- /dev/null
+++ b/vendor/regex/tests/word_boundary.rs
@@ -0,0 +1,89 @@
+// Many of these are cribbed from RE2's test suite.
+
+matiter!(wb1, r"\b", "");
+matiter!(wb2, r"\b", "a", (0, 0), (1, 1));
+matiter!(wb3, r"\b", "ab", (0, 0), (2, 2));
+matiter!(wb4, r"^\b", "ab", (0, 0));
+matiter!(wb5, r"\b$", "ab", (2, 2));
+matiter!(wb6, r"^\b$", "ab");
+matiter!(wb7, r"\bbar\b", "nobar bar foo bar", (6, 9), (14, 17));
+matiter!(wb8, r"a\b", "faoa x", (3, 4));
+matiter!(wb9, r"\bbar", "bar x", (0, 3));
+matiter!(wb10, r"\bbar", "foo\nbar x", (4, 7));
+matiter!(wb11, r"bar\b", "foobar", (3, 6));
+matiter!(wb12, r"bar\b", "foobar\nxxx", (3, 6));
+matiter!(wb13, r"(foo|bar|[A-Z])\b", "foo", (0, 3));
+matiter!(wb14, r"(foo|bar|[A-Z])\b", "foo\n", (0, 3));
+matiter!(wb15, r"\b(foo|bar|[A-Z])", "foo", (0, 3));
+matiter!(wb16, r"\b(foo|bar|[A-Z])\b", "X", (0, 1));
+matiter!(wb17, r"\b(foo|bar|[A-Z])\b", "XY");
+matiter!(wb18, r"\b(foo|bar|[A-Z])\b", "bar", (0, 3));
+matiter!(wb19, r"\b(foo|bar|[A-Z])\b", "foo", (0, 3));
+matiter!(wb20, r"\b(foo|bar|[A-Z])\b", "foo\n", (0, 3));
+matiter!(wb21, r"\b(foo|bar|[A-Z])\b", "ffoo bbar N x", (10, 11));
+matiter!(wb22, r"\b(fo|foo)\b", "fo", (0, 2));
+matiter!(wb23, r"\b(fo|foo)\b", "foo", (0, 3));
+matiter!(wb24, r"\b\b", "");
+matiter!(wb25, r"\b\b", "a", (0, 0), (1, 1));
+matiter!(wb26, r"\b$", "");
+matiter!(wb27, r"\b$", "x", (1, 1));
+matiter!(wb28, r"\b$", "y x", (3, 3));
+matiter!(wb29, r"\b.$", "x", (0, 1));
+matiter!(wb30, r"^\b(fo|foo)\b", "fo", (0, 2));
+matiter!(wb31, r"^\b(fo|foo)\b", "foo", (0, 3));
+matiter!(wb32, r"^\b$", "");
+matiter!(wb33, r"^\b$", "x");
+matiter!(wb34, r"^\b.$", "x", (0, 1));
+matiter!(wb35, r"^\b.\b$", "x", (0, 1));
+matiter!(wb36, r"^^^^^\b$$$$$", "");
+matiter!(wb37, r"^^^^^\b.$$$$$", "x", (0, 1));
+matiter!(wb38, r"^^^^^\b$$$$$", "x");
+matiter!(wb39, r"^^^^^\b\b\b.\b\b\b$$$$$", "x", (0, 1));
+matiter!(wb40, r"\b.+\b", "$$abc$$", (2, 5));
+matiter!(wb41, r"\b", "a b c", (0, 0), (1, 1), (2, 2), (3, 3), (4, 4), (5, 5));
+
+matiter!(nb1, r"\Bfoo\B", "n foo xfoox that", (7, 10));
+matiter!(nb2, r"a\B", "faoa x", (1, 2));
+matiter!(nb3, r"\Bbar", "bar x");
+matiter!(nb4, r"\Bbar", "foo\nbar x");
+matiter!(nb5, r"bar\B", "foobar");
+matiter!(nb6, r"bar\B", "foobar\nxxx");
+matiter!(nb7, r"(foo|bar|[A-Z])\B", "foox", (0, 3));
+matiter!(nb8, r"(foo|bar|[A-Z])\B", "foo\n");
+matiter!(nb9, r"\B", "", (0, 0));
+matiter!(nb10, r"\B", "x");
+matiter!(nb11, r"\B(foo|bar|[A-Z])", "foo");
+matiter!(nb12, r"\B(foo|bar|[A-Z])\B", "xXy", (1, 2));
+matiter!(nb13, r"\B(foo|bar|[A-Z])\B", "XY");
+matiter!(nb14, r"\B(foo|bar|[A-Z])\B", "XYZ", (1, 2));
+matiter!(nb15, r"\B(foo|bar|[A-Z])\B", "abara", (1, 4));
+matiter!(nb16, r"\B(foo|bar|[A-Z])\B", "xfoo_", (1, 4));
+matiter!(nb17, r"\B(foo|bar|[A-Z])\B", "xfoo\n");
+matiter!(nb18, r"\B(foo|bar|[A-Z])\B", "foo bar vNX", (9, 10));
+matiter!(nb19, r"\B(fo|foo)\B", "xfoo", (1, 3));
+matiter!(nb20, r"\B(foo|fo)\B", "xfooo", (1, 4));
+matiter!(nb21, r"\B\B", "", (0, 0));
+matiter!(nb22, r"\B\B", "x");
+matiter!(nb23, r"\B$", "", (0, 0));
+matiter!(nb24, r"\B$", "x");
+matiter!(nb25, r"\B$", "y x");
+matiter!(nb26, r"\B.$", "x");
+matiter!(nb27, r"^\B(fo|foo)\B", "fo");
+matiter!(nb28, r"^\B(fo|foo)\B", "foo");
+matiter!(nb29, r"^\B", "", (0, 0));
+matiter!(nb30, r"^\B", "x");
+matiter!(nb31, r"^\B\B", "", (0, 0));
+matiter!(nb32, r"^\B\B", "x");
+matiter!(nb33, r"^\B$", "", (0, 0));
+matiter!(nb34, r"^\B$", "x");
+matiter!(nb35, r"^\B.$", "x");
+matiter!(nb36, r"^\B.\B$", "x");
+matiter!(nb37, r"^^^^^\B$$$$$", "", (0, 0));
+matiter!(nb38, r"^^^^^\B.$$$$$", "x");
+matiter!(nb39, r"^^^^^\B$$$$$", "x");
+
+// These work for both Unicode and ASCII because all matches are reported as
+// byte offsets, and « and » do not correspond to word boundaries at either
+// the character or byte level.
+matiter!(unicode1, r"\bx\b", "«x", (2, 3));
+matiter!(unicode2, r"\bx\b", "x»", (0, 1));
diff --git a/vendor/regex/tests/word_boundary_ascii.rs b/vendor/regex/tests/word_boundary_ascii.rs
new file mode 100644
index 000000000..5a3cf1166
--- /dev/null
+++ b/vendor/regex/tests/word_boundary_ascii.rs
@@ -0,0 +1,9 @@
+// ASCII word boundaries are completely oblivious to Unicode characters.
+// For Unicode word boundaries, the tests are precisely inverted.
+matiter!(ascii1, r"(?-u:\b)x(?-u:\b)", "áxβ", (2, 3));
+matiter!(ascii2, r"(?-u:\B)x(?-u:\B)", "áxβ");
+matiter!(ascii3, r"(?-u:\B)", "0\u{7EF5E}", (2, 2), (3, 3), (4, 4), (5, 5));
+
+// We still get Unicode word boundaries by default in byte regexes.
+matiter!(unicode1, r"\bx\b", "áxβ");
+matiter!(unicode2, r"\Bx\B", "áxβ", (2, 3));
diff --git a/vendor/regex/tests/word_boundary_unicode.rs b/vendor/regex/tests/word_boundary_unicode.rs
new file mode 100644
index 000000000..c41355ffc
--- /dev/null
+++ b/vendor/regex/tests/word_boundary_unicode.rs
@@ -0,0 +1,6 @@
+// Unicode word boundaries know about Unicode characters.
+// For ASCII word boundaries, the tests are precisely inverted.
+matiter!(unicode1, r"\bx\b", "áxβ");
+matiter!(unicode2, r"\Bx\B", "áxβ", (2, 3));
+
+matiter!(ascii1, r"(?-u:\b)x(?-u:\b)", "áxβ", (2, 3));