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-rw-r--r--vendor/byteorder/.cargo-checksum.json1
-rw-r--r--vendor/byteorder/CHANGELOG.md139
-rw-r--r--vendor/byteorder/COPYING3
-rw-r--r--vendor/byteorder/Cargo.toml43
-rw-r--r--vendor/byteorder/LICENSE-MIT21
-rw-r--r--vendor/byteorder/README.md63
-rw-r--r--vendor/byteorder/UNLICENSE24
-rw-r--r--vendor/byteorder/benches/bench.rs324
-rw-r--r--vendor/byteorder/rustfmt.toml2
-rw-r--r--vendor/byteorder/src/io.rs1592
-rw-r--r--vendor/byteorder/src/lib.rs4052
11 files changed, 0 insertions, 6264 deletions
diff --git a/vendor/byteorder/.cargo-checksum.json b/vendor/byteorder/.cargo-checksum.json
deleted file mode 100644
index 434cc1a16..000000000
--- a/vendor/byteorder/.cargo-checksum.json
+++ /dev/null
@@ -1 +0,0 @@
-{"files":{"CHANGELOG.md":"3a745d94ee9dce0d9dc638c02078cd5001d3d9d12d58b4f220c0101e32cfc16a","COPYING":"01c266bced4a434da0051174d6bee16a4c82cf634e2679b6155d40d75012390f","Cargo.toml":"8585455e5a0e638cf5d489a21e286e93680f835cb8a13595918b5eb7c8c7f212","LICENSE-MIT":"0f96a83840e146e43c0ec96a22ec1f392e0680e6c1226e6f3ba87e0740af850f","README.md":"9d57556868344534de2489317e3c6bb611348ecd44438dcb982bd8d2a55a5a1b","UNLICENSE":"7e12e5df4bae12cb21581ba157ced20e1986a0508dd10d0e8a4ab9a4cf94e85c","benches/bench.rs":"a80bf3cd446c9b6c0cca3865c4de047bdf4644b74cdf696822f8ff87adfa1fca","rustfmt.toml":"1ca600239a27401c4a43f363cf3f38183a212affc1f31bff3ae93234bbaec228","src/io.rs":"9612530634d0e7ce9887a23836b58c0d972c1f45b05d9ada8355961567075627","src/lib.rs":"813ce6a8beafee3fd4e63325d783108aa02e8c57e412bc97580191d84082fbc9"},"package":"14c189c53d098945499cdfa7ecc63567cf3886b3332b312a5b4585d8d3a6a610"} \ No newline at end of file
diff --git a/vendor/byteorder/CHANGELOG.md b/vendor/byteorder/CHANGELOG.md
deleted file mode 100644
index 6b51eb076..000000000
--- a/vendor/byteorder/CHANGELOG.md
+++ /dev/null
@@ -1,139 +0,0 @@
-1.3.4
-=====
-This patch release squashes deprecation warnings for the `try!` macro, in
-accordance with byteorder's minimum supported Rust version (currently at Rust
-1.12.0).
-
-
-1.3.3
-=====
-This patch release adds `ByteOrder::write_i8_into()` as a simple, safe interface
-for ordinarily unsafe or tedious code.
-
-
-1.3.2
-=====
-This patch release adds `ReadBytesExt::read_i8_into()` as a simple, safe interface
-for ordinarily unsafe or tedious code.
-
-
-1.3.1
-=====
-This minor release performs mostly small internal changes. Going forward, these
-are not going to be incorporated into the changelog.
-
-
-1.3.0
-=====
-This new minor release now enables `i128` support automatically on Rust
-compilers that support 128-bit integers. The `i128` feature is now a no-op, but
-continues to exist for backward compatibility purposes. The crate continues to
-maintain compatibility with Rust 1.12.0.
-
-This release also deprecates the `ByteOrder` trait methods
-`read_f32_into_unchecked` and `read_f64_into_unchecked` in favor of
-`read_f32_into` and `read_f64_into`. This was an oversight from the 1.2 release
-where the corresponding methods on `ReadBytesExt` were deprecated.
-
-`quickcheck` and `rand` were bumped to `0.8` and `0.6`, respectively.
-
-A few small documentation related bugs have been fixed.
-
-
-1.2.7
-=====
-This patch release excludes some CI files from the crate release and updates
-the license field to use `OR` instead of `/`.
-
-
-1.2.6
-=====
-This patch release fixes some test compilation errors introduced by an
-over-eager release of 1.2.5.
-
-
-1.2.5
-=====
-This patch release fixes some typos in the docs, adds doc tests to methods on
-`WriteByteExt` and bumps the quickcheck dependency to `0.7`.
-
-
-1.2.4
-=====
-This patch release adds support for 48-bit integers by adding the following
-methods to the `ByteOrder` trait: `read_u48`, `read_i48`, `write_u48` and
-`write_i48`. Corresponding methods have been added to the `ReadBytesExt` and
-`WriteBytesExt` traits as well.
-
-
-1.2.3
-=====
-This patch release removes the use of `feature(i128_type)` from byteorder,
-since it has been stabilized. We leave byteorder's `i128` feature in place
-in order to continue supporting compilation on older versions of Rust.
-
-
-1.2.2
-=====
-This patch release only consists of internal improvements and refactorings.
-Notably, this removes all uses of `transmute` and instead uses pointer casts.
-
-
-1.2.1
-=====
-This patch release removes more unnecessary uses of `unsafe` that
-were overlooked in the prior `1.2.0` release. In particular, the
-`ReadBytesExt::read_{f32,f64}_into_checked` methods have been deprecated and
-replaced by more appropriately named `read_{f32,f64}_into` methods.
-
-
-1.2.0
-=====
-The most prominent change in this release of `byteorder` is the removal of
-unnecessary signaling NaN masking, and in turn, the `unsafe` annotations
-associated with methods that didn't do masking. See
-[#103](https://github.com/BurntSushi/byteorder/issues/103)
-for more details.
-
-* [BUG #102](https://github.com/BurntSushi/byteorder/issues/102):
- Fix big endian tests.
-* [BUG #103](https://github.com/BurntSushi/byteorder/issues/103):
- Remove sNaN masking.
-
-
-1.1.0
-=====
-This release of `byteorder` features a number of fixes and improvements, mostly
-as a result of the
-[Litz Blitz evaluation](https://public.etherpad-mozilla.org/p/rust-crate-eval-byteorder).
-
-Feature enhancements:
-
-* [FEATURE #63](https://github.com/BurntSushi/byteorder/issues/63):
- Add methods for reading/writing slices of numbers for a specific
- endianness.
-* [FEATURE #65](https://github.com/BurntSushi/byteorder/issues/65):
- Add support for `u128`/`i128` types. (Behind the nightly only `i128`
- feature.)
-* [FEATURE #72](https://github.com/BurntSushi/byteorder/issues/72):
- Add "panics" and "errors" sections for each relevant public API item.
-* [FEATURE #74](https://github.com/BurntSushi/byteorder/issues/74):
- Add CI badges to Cargo.toml.
-* [FEATURE #75](https://github.com/BurntSushi/byteorder/issues/75):
- Add more examples to public API items.
-* Add 24-bit read/write methods.
-* Add `BE` and `LE` type aliases for `BigEndian` and `LittleEndian`,
- respectively.
-
-Bug fixes:
-
-* [BUG #68](https://github.com/BurntSushi/byteorder/issues/68):
- Panic in {BigEndian,LittleEndian}::default.
-* [BUG #69](https://github.com/BurntSushi/byteorder/issues/69):
- Seal the `ByteOrder` trait to prevent out-of-crate implementations.
-* [BUG #71](https://github.com/BurntSushi/byteorder/issues/71):
- Guarantee that the results of `read_f32`/`read_f64` are always defined.
-* [BUG #73](https://github.com/BurntSushi/byteorder/issues/73):
- Add crates.io categories.
-* [BUG #77](https://github.com/BurntSushi/byteorder/issues/77):
- Add `html_root` doc attribute.
diff --git a/vendor/byteorder/COPYING b/vendor/byteorder/COPYING
deleted file mode 100644
index bb9c20a09..000000000
--- a/vendor/byteorder/COPYING
+++ /dev/null
@@ -1,3 +0,0 @@
-This project is dual-licensed under the Unlicense and MIT licenses.
-
-You may use this code under the terms of either license.
diff --git a/vendor/byteorder/Cargo.toml b/vendor/byteorder/Cargo.toml
deleted file mode 100644
index c71f90ba9..000000000
--- a/vendor/byteorder/Cargo.toml
+++ /dev/null
@@ -1,43 +0,0 @@
-# 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 believe there's an error in this file please file an
-# issue against the rust-lang/cargo repository. If you're
-# editing this file be aware that the upstream Cargo.toml
-# will likely look very different (and much more reasonable)
-
-[package]
-edition = "2018"
-name = "byteorder"
-version = "1.4.3"
-authors = ["Andrew Gallant <jamslam@gmail.com>"]
-exclude = ["/ci/*"]
-description = "Library for reading/writing numbers in big-endian and little-endian."
-homepage = "https://github.com/BurntSushi/byteorder"
-documentation = "https://docs.rs/byteorder"
-readme = "README.md"
-keywords = ["byte", "endian", "big-endian", "little-endian", "binary"]
-categories = ["encoding", "parsing", "no-std"]
-license = "Unlicense OR MIT"
-repository = "https://github.com/BurntSushi/byteorder"
-[profile.bench]
-opt-level = 3
-
-[lib]
-name = "byteorder"
-bench = false
-[dev-dependencies.quickcheck]
-version = "0.9.2"
-default-features = false
-
-[dev-dependencies.rand]
-version = "0.7"
-
-[features]
-default = ["std"]
-i128 = []
-std = []
diff --git a/vendor/byteorder/LICENSE-MIT b/vendor/byteorder/LICENSE-MIT
deleted file mode 100644
index 3b0a5dc09..000000000
--- a/vendor/byteorder/LICENSE-MIT
+++ /dev/null
@@ -1,21 +0,0 @@
-The MIT License (MIT)
-
-Copyright (c) 2015 Andrew Gallant
-
-Permission is hereby granted, free of charge, to any person obtaining a copy
-of this software and associated documentation files (the "Software"), to deal
-in the Software without restriction, including without limitation the rights
-to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
-copies of the Software, and to permit persons to whom the Software is
-furnished to do so, subject to the following conditions:
-
-The above copyright notice and this permission notice shall be included in
-all copies or substantial portions of the Software.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
-OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
-THE SOFTWARE.
diff --git a/vendor/byteorder/README.md b/vendor/byteorder/README.md
deleted file mode 100644
index d8461c58f..000000000
--- a/vendor/byteorder/README.md
+++ /dev/null
@@ -1,63 +0,0 @@
-byteorder
-=========
-This crate provides convenience methods for encoding and decoding
-numbers in either big-endian or little-endian order.
-
-[![Build status](https://github.com/BurntSushi/byteorder/workflows/ci/badge.svg)](https://github.com/BurntSushi/byteorder/actions)
-[![](https://meritbadge.herokuapp.com/byteorder)](https://crates.io/crates/byteorder)
-
-Dual-licensed under MIT or the [UNLICENSE](https://unlicense.org/).
-
-
-### Documentation
-
-https://docs.rs/byteorder
-
-
-### Installation
-
-This crate works with Cargo and is on
-[crates.io](https://crates.io/crates/byteorder). Add it to your `Cargo.toml`
-like so:
-
-```toml
-[dependencies]
-byteorder = "1"
-```
-
-If you want to augment existing `Read` and `Write` traits, then import the
-extension methods like so:
-
-```rust
-use byteorder::{ReadBytesExt, WriteBytesExt, BigEndian, LittleEndian};
-```
-
-For example:
-
-```rust
-use std::io::Cursor;
-use byteorder::{BigEndian, ReadBytesExt};
-
-let mut rdr = Cursor::new(vec![2, 5, 3, 0]);
-// Note that we use type parameters to indicate which kind of byte order
-// we want!
-assert_eq!(517, rdr.read_u16::<BigEndian>().unwrap());
-assert_eq!(768, rdr.read_u16::<BigEndian>().unwrap());
-```
-
-### `no_std` crates
-
-This crate has a feature, `std`, that is enabled by default. To use this crate
-in a `no_std` context, add the following to your `Cargo.toml`:
-
-```toml
-[dependencies]
-byteorder = { version = "1", default-features = false }
-```
-
-
-### Alternatives
-
-Note that as of Rust 1.32, the standard numeric types provide built-in methods
-like `to_le_bytes` and `from_le_bytes`, which support some of the same use
-cases.
diff --git a/vendor/byteorder/UNLICENSE b/vendor/byteorder/UNLICENSE
deleted file mode 100644
index 68a49daad..000000000
--- a/vendor/byteorder/UNLICENSE
+++ /dev/null
@@ -1,24 +0,0 @@
-This is free and unencumbered software released into the public domain.
-
-Anyone is free to copy, modify, publish, use, compile, sell, or
-distribute this software, either in source code form or as a compiled
-binary, for any purpose, commercial or non-commercial, and by any
-means.
-
-In jurisdictions that recognize copyright laws, the author or authors
-of this software dedicate any and all copyright interest in the
-software to the public domain. We make this dedication for the benefit
-of the public at large and to the detriment of our heirs and
-successors. We intend this dedication to be an overt act of
-relinquishment in perpetuity of all present and future rights to this
-software under copyright law.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
-EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
-MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
-IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
-OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
-ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
-OTHER DEALINGS IN THE SOFTWARE.
-
-For more information, please refer to <http://unlicense.org/>
diff --git a/vendor/byteorder/benches/bench.rs b/vendor/byteorder/benches/bench.rs
deleted file mode 100644
index bb00422f7..000000000
--- a/vendor/byteorder/benches/bench.rs
+++ /dev/null
@@ -1,324 +0,0 @@
-#![feature(test)]
-
-extern crate test;
-
-macro_rules! bench_num {
- ($name:ident, $read:ident, $bytes:expr, $data:expr) => {
- mod $name {
- use byteorder::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
- use test::black_box as bb;
- use test::Bencher;
-
- const NITER: usize = 100_000;
-
- #[bench]
- fn read_big_endian(b: &mut Bencher) {
- let buf = $data;
- b.iter(|| {
- for _ in 0..NITER {
- bb(BigEndian::$read(&buf, $bytes));
- }
- });
- }
-
- #[bench]
- fn read_little_endian(b: &mut Bencher) {
- let buf = $data;
- b.iter(|| {
- for _ in 0..NITER {
- bb(LittleEndian::$read(&buf, $bytes));
- }
- });
- }
-
- #[bench]
- fn read_native_endian(b: &mut Bencher) {
- let buf = $data;
- b.iter(|| {
- for _ in 0..NITER {
- bb(NativeEndian::$read(&buf, $bytes));
- }
- });
- }
- }
- };
- ($ty:ident, $max:ident,
- $read:ident, $write:ident, $size:expr, $data:expr) => {
- mod $ty {
- use byteorder::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
- use std::$ty;
- use test::black_box as bb;
- use test::Bencher;
-
- const NITER: usize = 100_000;
-
- #[bench]
- fn read_big_endian(b: &mut Bencher) {
- let buf = $data;
- b.iter(|| {
- for _ in 0..NITER {
- bb(BigEndian::$read(&buf));
- }
- });
- }
-
- #[bench]
- fn read_little_endian(b: &mut Bencher) {
- let buf = $data;
- b.iter(|| {
- for _ in 0..NITER {
- bb(LittleEndian::$read(&buf));
- }
- });
- }
-
- #[bench]
- fn read_native_endian(b: &mut Bencher) {
- let buf = $data;
- b.iter(|| {
- for _ in 0..NITER {
- bb(NativeEndian::$read(&buf));
- }
- });
- }
-
- #[bench]
- fn write_big_endian(b: &mut Bencher) {
- let mut buf = $data;
- let n = $ty::$max;
- b.iter(|| {
- for _ in 0..NITER {
- bb(BigEndian::$write(&mut buf, n));
- }
- });
- }
-
- #[bench]
- fn write_little_endian(b: &mut Bencher) {
- let mut buf = $data;
- let n = $ty::$max;
- b.iter(|| {
- for _ in 0..NITER {
- bb(LittleEndian::$write(&mut buf, n));
- }
- });
- }
-
- #[bench]
- fn write_native_endian(b: &mut Bencher) {
- let mut buf = $data;
- let n = $ty::$max;
- b.iter(|| {
- for _ in 0..NITER {
- bb(NativeEndian::$write(&mut buf, n));
- }
- });
- }
- }
- };
-}
-
-bench_num!(u16, MAX, read_u16, write_u16, 2, [1, 2]);
-bench_num!(i16, MAX, read_i16, write_i16, 2, [1, 2]);
-bench_num!(u32, MAX, read_u32, write_u32, 4, [1, 2, 3, 4]);
-bench_num!(i32, MAX, read_i32, write_i32, 4, [1, 2, 3, 4]);
-bench_num!(u64, MAX, read_u64, write_u64, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-bench_num!(i64, MAX, read_i64, write_i64, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-bench_num!(f32, MAX, read_f32, write_f32, 4, [1, 2, 3, 4]);
-bench_num!(f64, MAX, read_f64, write_f64, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-
-bench_num!(uint_1, read_uint, 1, [1]);
-bench_num!(uint_2, read_uint, 2, [1, 2]);
-bench_num!(uint_3, read_uint, 3, [1, 2, 3]);
-bench_num!(uint_4, read_uint, 4, [1, 2, 3, 4]);
-bench_num!(uint_5, read_uint, 5, [1, 2, 3, 4, 5]);
-bench_num!(uint_6, read_uint, 6, [1, 2, 3, 4, 5, 6]);
-bench_num!(uint_7, read_uint, 7, [1, 2, 3, 4, 5, 6, 7]);
-bench_num!(uint_8, read_uint, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-
-bench_num!(int_1, read_int, 1, [1]);
-bench_num!(int_2, read_int, 2, [1, 2]);
-bench_num!(int_3, read_int, 3, [1, 2, 3]);
-bench_num!(int_4, read_int, 4, [1, 2, 3, 4]);
-bench_num!(int_5, read_int, 5, [1, 2, 3, 4, 5]);
-bench_num!(int_6, read_int, 6, [1, 2, 3, 4, 5, 6]);
-bench_num!(int_7, read_int, 7, [1, 2, 3, 4, 5, 6, 7]);
-bench_num!(int_8, read_int, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-
-bench_num!(
- u128,
- MAX,
- read_u128,
- write_u128,
- 16,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16]
-);
-bench_num!(
- i128,
- MAX,
- read_i128,
- write_i128,
- 16,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16]
-);
-
-bench_num!(uint128_1, read_uint128, 1, [1]);
-bench_num!(uint128_2, read_uint128, 2, [1, 2]);
-bench_num!(uint128_3, read_uint128, 3, [1, 2, 3]);
-bench_num!(uint128_4, read_uint128, 4, [1, 2, 3, 4]);
-bench_num!(uint128_5, read_uint128, 5, [1, 2, 3, 4, 5]);
-bench_num!(uint128_6, read_uint128, 6, [1, 2, 3, 4, 5, 6]);
-bench_num!(uint128_7, read_uint128, 7, [1, 2, 3, 4, 5, 6, 7]);
-bench_num!(uint128_8, read_uint128, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-bench_num!(uint128_9, read_uint128, 9, [1, 2, 3, 4, 5, 6, 7, 8, 9]);
-bench_num!(uint128_10, read_uint128, 10, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
-bench_num!(uint128_11, read_uint128, 11, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11]);
-bench_num!(
- uint128_12,
- read_uint128,
- 12,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]
-);
-bench_num!(
- uint128_13,
- read_uint128,
- 13,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13]
-);
-bench_num!(
- uint128_14,
- read_uint128,
- 14,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14]
-);
-bench_num!(
- uint128_15,
- read_uint128,
- 15,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
-);
-bench_num!(
- uint128_16,
- read_uint128,
- 16,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16]
-);
-
-bench_num!(int128_1, read_int128, 1, [1]);
-bench_num!(int128_2, read_int128, 2, [1, 2]);
-bench_num!(int128_3, read_int128, 3, [1, 2, 3]);
-bench_num!(int128_4, read_int128, 4, [1, 2, 3, 4]);
-bench_num!(int128_5, read_int128, 5, [1, 2, 3, 4, 5]);
-bench_num!(int128_6, read_int128, 6, [1, 2, 3, 4, 5, 6]);
-bench_num!(int128_7, read_int128, 7, [1, 2, 3, 4, 5, 6, 7]);
-bench_num!(int128_8, read_int128, 8, [1, 2, 3, 4, 5, 6, 7, 8]);
-bench_num!(int128_9, read_int128, 9, [1, 2, 3, 4, 5, 6, 7, 8, 9]);
-bench_num!(int128_10, read_int128, 10, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]);
-bench_num!(int128_11, read_int128, 11, [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11]);
-bench_num!(
- int128_12,
- read_int128,
- 12,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12]
-);
-bench_num!(
- int128_13,
- read_int128,
- 13,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13]
-);
-bench_num!(
- int128_14,
- read_int128,
- 14,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14]
-);
-bench_num!(
- int128_15,
- read_int128,
- 15,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]
-);
-bench_num!(
- int128_16,
- read_int128,
- 16,
- [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16]
-);
-
-macro_rules! bench_slice {
- ($name:ident, $numty:ty, $read:ident, $write:ident) => {
- mod $name {
- use std::mem::size_of;
-
- use byteorder::{BigEndian, ByteOrder, LittleEndian};
- use rand::distributions;
- use rand::{self, Rng};
- use test::Bencher;
-
- #[bench]
- fn read_big_endian(b: &mut Bencher) {
- let mut numbers: Vec<$numty> = rand::thread_rng()
- .sample_iter(&distributions::Standard)
- .take(100000)
- .collect();
- let mut bytes = vec![0; numbers.len() * size_of::<$numty>()];
- BigEndian::$write(&numbers, &mut bytes);
-
- b.bytes = bytes.len() as u64;
- b.iter(|| {
- BigEndian::$read(&bytes, &mut numbers);
- });
- }
-
- #[bench]
- fn read_little_endian(b: &mut Bencher) {
- let mut numbers: Vec<$numty> = rand::thread_rng()
- .sample_iter(&distributions::Standard)
- .take(100000)
- .collect();
- let mut bytes = vec![0; numbers.len() * size_of::<$numty>()];
- LittleEndian::$write(&numbers, &mut bytes);
-
- b.bytes = bytes.len() as u64;
- b.iter(|| {
- LittleEndian::$read(&bytes, &mut numbers);
- });
- }
-
- #[bench]
- fn write_big_endian(b: &mut Bencher) {
- let numbers: Vec<$numty> = rand::thread_rng()
- .sample_iter(&distributions::Standard)
- .take(100000)
- .collect();
- let mut bytes = vec![0; numbers.len() * size_of::<$numty>()];
-
- b.bytes = bytes.len() as u64;
- b.iter(|| {
- BigEndian::$write(&numbers, &mut bytes);
- });
- }
-
- #[bench]
- fn write_little_endian(b: &mut Bencher) {
- let numbers: Vec<$numty> = rand::thread_rng()
- .sample_iter(&distributions::Standard)
- .take(100000)
- .collect();
- let mut bytes = vec![0; numbers.len() * size_of::<$numty>()];
-
- b.bytes = bytes.len() as u64;
- b.iter(|| {
- LittleEndian::$write(&numbers, &mut bytes);
- });
- }
- }
- };
-}
-
-bench_slice!(slice_u64, u64, read_u64_into, write_u64_into);
diff --git a/vendor/byteorder/rustfmt.toml b/vendor/byteorder/rustfmt.toml
deleted file mode 100644
index aa37a218b..000000000
--- a/vendor/byteorder/rustfmt.toml
+++ /dev/null
@@ -1,2 +0,0 @@
-max_width = 79
-use_small_heuristics = "max"
diff --git a/vendor/byteorder/src/io.rs b/vendor/byteorder/src/io.rs
deleted file mode 100644
index dfad2ca39..000000000
--- a/vendor/byteorder/src/io.rs
+++ /dev/null
@@ -1,1592 +0,0 @@
-use std::{
- io::{self, Result},
- slice,
-};
-
-use crate::ByteOrder;
-
-/// Extends [`Read`] with methods for reading numbers. (For `std::io`.)
-///
-/// Most of the methods defined here have an unconstrained type parameter that
-/// must be explicitly instantiated. Typically, it is instantiated with either
-/// the [`BigEndian`] or [`LittleEndian`] types defined in this crate.
-///
-/// # Examples
-///
-/// Read unsigned 16 bit big-endian integers from a [`Read`]:
-///
-/// ```rust
-/// use std::io::Cursor;
-/// use byteorder::{BigEndian, ReadBytesExt};
-///
-/// let mut rdr = Cursor::new(vec![2, 5, 3, 0]);
-/// assert_eq!(517, rdr.read_u16::<BigEndian>().unwrap());
-/// assert_eq!(768, rdr.read_u16::<BigEndian>().unwrap());
-/// ```
-///
-/// [`BigEndian`]: enum.BigEndian.html
-/// [`LittleEndian`]: enum.LittleEndian.html
-/// [`Read`]: https://doc.rust-lang.org/std/io/trait.Read.html
-pub trait ReadBytesExt: io::Read {
- /// Reads an unsigned 8 bit integer from the underlying reader.
- ///
- /// Note that since this reads a single byte, no byte order conversions
- /// are used. It is included for completeness.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read unsigned 8 bit integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::ReadBytesExt;
- ///
- /// let mut rdr = Cursor::new(vec![2, 5]);
- /// assert_eq!(2, rdr.read_u8().unwrap());
- /// assert_eq!(5, rdr.read_u8().unwrap());
- /// ```
- #[inline]
- fn read_u8(&mut self) -> Result<u8> {
- let mut buf = [0; 1];
- self.read_exact(&mut buf)?;
- Ok(buf[0])
- }
-
- /// Reads a signed 8 bit integer from the underlying reader.
- ///
- /// Note that since this reads a single byte, no byte order conversions
- /// are used. It is included for completeness.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read signed 8 bit integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::ReadBytesExt;
- ///
- /// let mut rdr = Cursor::new(vec![0x02, 0xfb]);
- /// assert_eq!(2, rdr.read_i8().unwrap());
- /// assert_eq!(-5, rdr.read_i8().unwrap());
- /// ```
- #[inline]
- fn read_i8(&mut self) -> Result<i8> {
- let mut buf = [0; 1];
- self.read_exact(&mut buf)?;
- Ok(buf[0] as i8)
- }
-
- /// Reads an unsigned 16 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read unsigned 16 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![2, 5, 3, 0]);
- /// assert_eq!(517, rdr.read_u16::<BigEndian>().unwrap());
- /// assert_eq!(768, rdr.read_u16::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_u16<T: ByteOrder>(&mut self) -> Result<u16> {
- let mut buf = [0; 2];
- self.read_exact(&mut buf)?;
- Ok(T::read_u16(&buf))
- }
-
- /// Reads a signed 16 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read signed 16 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x00, 0xc1, 0xff, 0x7c]);
- /// assert_eq!(193, rdr.read_i16::<BigEndian>().unwrap());
- /// assert_eq!(-132, rdr.read_i16::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_i16<T: ByteOrder>(&mut self) -> Result<i16> {
- let mut buf = [0; 2];
- self.read_exact(&mut buf)?;
- Ok(T::read_i16(&buf))
- }
-
- /// Reads an unsigned 24 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read unsigned 24 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x00, 0x01, 0x0b]);
- /// assert_eq!(267, rdr.read_u24::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_u24<T: ByteOrder>(&mut self) -> Result<u32> {
- let mut buf = [0; 3];
- self.read_exact(&mut buf)?;
- Ok(T::read_u24(&buf))
- }
-
- /// Reads a signed 24 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read signed 24 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0xff, 0x7a, 0x33]);
- /// assert_eq!(-34253, rdr.read_i24::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_i24<T: ByteOrder>(&mut self) -> Result<i32> {
- let mut buf = [0; 3];
- self.read_exact(&mut buf)?;
- Ok(T::read_i24(&buf))
- }
-
- /// Reads an unsigned 32 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read unsigned 32 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x00, 0x00, 0x01, 0x0b]);
- /// assert_eq!(267, rdr.read_u32::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_u32<T: ByteOrder>(&mut self) -> Result<u32> {
- let mut buf = [0; 4];
- self.read_exact(&mut buf)?;
- Ok(T::read_u32(&buf))
- }
-
- /// Reads a signed 32 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read signed 32 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0xff, 0xff, 0x7a, 0x33]);
- /// assert_eq!(-34253, rdr.read_i32::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_i32<T: ByteOrder>(&mut self) -> Result<i32> {
- let mut buf = [0; 4];
- self.read_exact(&mut buf)?;
- Ok(T::read_i32(&buf))
- }
-
- /// Reads an unsigned 48 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read unsigned 48 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0xb6, 0x71, 0x6b, 0xdc, 0x2b, 0x31]);
- /// assert_eq!(200598257150769, rdr.read_u48::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_u48<T: ByteOrder>(&mut self) -> Result<u64> {
- let mut buf = [0; 6];
- self.read_exact(&mut buf)?;
- Ok(T::read_u48(&buf))
- }
-
- /// Reads a signed 48 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read signed 48 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x9d, 0x71, 0xab, 0xe7, 0x97, 0x8f]);
- /// assert_eq!(-108363435763825, rdr.read_i48::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_i48<T: ByteOrder>(&mut self) -> Result<i64> {
- let mut buf = [0; 6];
- self.read_exact(&mut buf)?;
- Ok(T::read_i48(&buf))
- }
-
- /// Reads an unsigned 64 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read an unsigned 64 bit big-endian integer from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x00, 0x03, 0x43, 0x95, 0x4d, 0x60, 0x86, 0x83]);
- /// assert_eq!(918733457491587, rdr.read_u64::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_u64<T: ByteOrder>(&mut self) -> Result<u64> {
- let mut buf = [0; 8];
- self.read_exact(&mut buf)?;
- Ok(T::read_u64(&buf))
- }
-
- /// Reads a signed 64 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a signed 64 bit big-endian integer from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x80, 0, 0, 0, 0, 0, 0, 0]);
- /// assert_eq!(i64::min_value(), rdr.read_i64::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_i64<T: ByteOrder>(&mut self) -> Result<i64> {
- let mut buf = [0; 8];
- self.read_exact(&mut buf)?;
- Ok(T::read_i64(&buf))
- }
-
- /// Reads an unsigned 128 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read an unsigned 128 bit big-endian integer from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x00, 0x03, 0x43, 0x95, 0x4d, 0x60, 0x86, 0x83,
- /// 0x00, 0x03, 0x43, 0x95, 0x4d, 0x60, 0x86, 0x83
- /// ]);
- /// assert_eq!(16947640962301618749969007319746179, rdr.read_u128::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_u128<T: ByteOrder>(&mut self) -> Result<u128> {
- let mut buf = [0; 16];
- self.read_exact(&mut buf)?;
- Ok(T::read_u128(&buf))
- }
-
- /// Reads a signed 128 bit integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a signed 128 bit big-endian integer from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x80, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]);
- /// assert_eq!(i128::min_value(), rdr.read_i128::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_i128<T: ByteOrder>(&mut self) -> Result<i128> {
- let mut buf = [0; 16];
- self.read_exact(&mut buf)?;
- Ok(T::read_i128(&buf))
- }
-
- /// Reads an unsigned n-bytes integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read an unsigned n-byte big-endian integer from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0x80, 0x74, 0xfa]);
- /// assert_eq!(8418554, rdr.read_uint::<BigEndian>(3).unwrap());
- #[inline]
- fn read_uint<T: ByteOrder>(&mut self, nbytes: usize) -> Result<u64> {
- let mut buf = [0; 8];
- self.read_exact(&mut buf[..nbytes])?;
- Ok(T::read_uint(&buf[..nbytes], nbytes))
- }
-
- /// Reads a signed n-bytes integer from the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read an unsigned n-byte big-endian integer from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0xc1, 0xff, 0x7c]);
- /// assert_eq!(-4063364, rdr.read_int::<BigEndian>(3).unwrap());
- #[inline]
- fn read_int<T: ByteOrder>(&mut self, nbytes: usize) -> Result<i64> {
- let mut buf = [0; 8];
- self.read_exact(&mut buf[..nbytes])?;
- Ok(T::read_int(&buf[..nbytes], nbytes))
- }
-
- /// Reads an unsigned n-bytes integer from the underlying reader.
- #[inline]
- fn read_uint128<T: ByteOrder>(&mut self, nbytes: usize) -> Result<u128> {
- let mut buf = [0; 16];
- self.read_exact(&mut buf[..nbytes])?;
- Ok(T::read_uint128(&buf[..nbytes], nbytes))
- }
-
- /// Reads a signed n-bytes integer from the underlying reader.
- #[inline]
- fn read_int128<T: ByteOrder>(&mut self, nbytes: usize) -> Result<i128> {
- let mut buf = [0; 16];
- self.read_exact(&mut buf[..nbytes])?;
- Ok(T::read_int128(&buf[..nbytes], nbytes))
- }
-
- /// Reads a IEEE754 single-precision (4 bytes) floating point number from
- /// the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a big-endian single-precision floating point number from a `Read`:
- ///
- /// ```rust
- /// use std::f32;
- /// use std::io::Cursor;
- ///
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x40, 0x49, 0x0f, 0xdb,
- /// ]);
- /// assert_eq!(f32::consts::PI, rdr.read_f32::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_f32<T: ByteOrder>(&mut self) -> Result<f32> {
- let mut buf = [0; 4];
- self.read_exact(&mut buf)?;
- Ok(T::read_f32(&buf))
- }
-
- /// Reads a IEEE754 double-precision (8 bytes) floating point number from
- /// the underlying reader.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a big-endian double-precision floating point number from a `Read`:
- ///
- /// ```rust
- /// use std::f64;
- /// use std::io::Cursor;
- ///
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x40, 0x09, 0x21, 0xfb, 0x54, 0x44, 0x2d, 0x18,
- /// ]);
- /// assert_eq!(f64::consts::PI, rdr.read_f64::<BigEndian>().unwrap());
- /// ```
- #[inline]
- fn read_f64<T: ByteOrder>(&mut self) -> Result<f64> {
- let mut buf = [0; 8];
- self.read_exact(&mut buf)?;
- Ok(T::read_f64(&buf))
- }
-
- /// Reads a sequence of unsigned 16 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of unsigned 16 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![2, 5, 3, 0]);
- /// let mut dst = [0; 2];
- /// rdr.read_u16_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_u16_into<T: ByteOrder>(&mut self, dst: &mut [u16]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_u16(dst);
- Ok(())
- }
-
- /// Reads a sequence of unsigned 32 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of unsigned 32 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0, 0, 2, 5, 0, 0, 3, 0]);
- /// let mut dst = [0; 2];
- /// rdr.read_u32_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_u32_into<T: ByteOrder>(&mut self, dst: &mut [u32]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_u32(dst);
- Ok(())
- }
-
- /// Reads a sequence of unsigned 64 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of unsigned 64 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0, 0, 0, 0, 0, 0, 2, 5,
- /// 0, 0, 0, 0, 0, 0, 3, 0,
- /// ]);
- /// let mut dst = [0; 2];
- /// rdr.read_u64_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_u64_into<T: ByteOrder>(&mut self, dst: &mut [u64]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_u64(dst);
- Ok(())
- }
-
- /// Reads a sequence of unsigned 128 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of unsigned 128 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 5,
- /// 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 0,
- /// ]);
- /// let mut dst = [0; 2];
- /// rdr.read_u128_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_u128_into<T: ByteOrder>(
- &mut self,
- dst: &mut [u128],
- ) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_u128(dst);
- Ok(())
- }
-
- /// Reads a sequence of signed 8 bit integers from the underlying reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// Note that since each `i8` is a single byte, no byte order conversions
- /// are used. This method is included because it provides a safe, simple
- /// way for the caller to read into a `&mut [i8]` buffer. (Without this
- /// method, the caller would have to either use `unsafe` code or convert
- /// each byte to `i8` individually.)
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of signed 8 bit integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![2, 251, 3]);
- /// let mut dst = [0; 3];
- /// rdr.read_i8_into(&mut dst).unwrap();
- /// assert_eq!([2, -5, 3], dst);
- /// ```
- #[inline]
- fn read_i8_into(&mut self, dst: &mut [i8]) -> Result<()> {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)
- }
-
- /// Reads a sequence of signed 16 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of signed 16 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![2, 5, 3, 0]);
- /// let mut dst = [0; 2];
- /// rdr.read_i16_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_i16_into<T: ByteOrder>(&mut self, dst: &mut [i16]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_i16(dst);
- Ok(())
- }
-
- /// Reads a sequence of signed 32 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of signed 32 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![0, 0, 2, 5, 0, 0, 3, 0]);
- /// let mut dst = [0; 2];
- /// rdr.read_i32_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_i32_into<T: ByteOrder>(&mut self, dst: &mut [i32]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_i32(dst);
- Ok(())
- }
-
- /// Reads a sequence of signed 64 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of signed 64 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0, 0, 0, 0, 0, 0, 2, 5,
- /// 0, 0, 0, 0, 0, 0, 3, 0,
- /// ]);
- /// let mut dst = [0; 2];
- /// rdr.read_i64_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_i64_into<T: ByteOrder>(&mut self, dst: &mut [i64]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_i64(dst);
- Ok(())
- }
-
- /// Reads a sequence of signed 128 bit integers from the underlying
- /// reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of signed 128 bit big-endian integers from a `Read`:
- ///
- /// ```rust
- /// use std::io::Cursor;
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 5,
- /// 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3, 0,
- /// ]);
- /// let mut dst = [0; 2];
- /// rdr.read_i128_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([517, 768], dst);
- /// ```
- #[inline]
- fn read_i128_into<T: ByteOrder>(
- &mut self,
- dst: &mut [i128],
- ) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_i128(dst);
- Ok(())
- }
-
- /// Reads a sequence of IEEE754 single-precision (4 bytes) floating
- /// point numbers from the underlying reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of big-endian single-precision floating point number
- /// from a `Read`:
- ///
- /// ```rust
- /// use std::f32;
- /// use std::io::Cursor;
- ///
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x40, 0x49, 0x0f, 0xdb,
- /// 0x3f, 0x80, 0x00, 0x00,
- /// ]);
- /// let mut dst = [0.0; 2];
- /// rdr.read_f32_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([f32::consts::PI, 1.0], dst);
- /// ```
- #[inline]
- fn read_f32_into<T: ByteOrder>(&mut self, dst: &mut [f32]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_f32(dst);
- Ok(())
- }
-
- /// **DEPRECATED**.
- ///
- /// This method is deprecated. Use `read_f32_into` instead.
- ///
- /// Reads a sequence of IEEE754 single-precision (4 bytes) floating
- /// point numbers from the underlying reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of big-endian single-precision floating point number
- /// from a `Read`:
- ///
- /// ```rust
- /// use std::f32;
- /// use std::io::Cursor;
- ///
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x40, 0x49, 0x0f, 0xdb,
- /// 0x3f, 0x80, 0x00, 0x00,
- /// ]);
- /// let mut dst = [0.0; 2];
- /// rdr.read_f32_into_unchecked::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([f32::consts::PI, 1.0], dst);
- /// ```
- #[inline]
- #[deprecated(since = "1.2.0", note = "please use `read_f32_into` instead")]
- fn read_f32_into_unchecked<T: ByteOrder>(
- &mut self,
- dst: &mut [f32],
- ) -> Result<()> {
- self.read_f32_into::<T>(dst)
- }
-
- /// Reads a sequence of IEEE754 double-precision (8 bytes) floating
- /// point numbers from the underlying reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of big-endian single-precision floating point number
- /// from a `Read`:
- ///
- /// ```rust
- /// use std::f64;
- /// use std::io::Cursor;
- ///
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x40, 0x09, 0x21, 0xfb, 0x54, 0x44, 0x2d, 0x18,
- /// 0x3f, 0xF0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- /// ]);
- /// let mut dst = [0.0; 2];
- /// rdr.read_f64_into::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([f64::consts::PI, 1.0], dst);
- /// ```
- #[inline]
- fn read_f64_into<T: ByteOrder>(&mut self, dst: &mut [f64]) -> Result<()> {
- {
- let buf = unsafe { slice_to_u8_mut(dst) };
- self.read_exact(buf)?;
- }
- T::from_slice_f64(dst);
- Ok(())
- }
-
- /// **DEPRECATED**.
- ///
- /// This method is deprecated. Use `read_f64_into` instead.
- ///
- /// Reads a sequence of IEEE754 double-precision (8 bytes) floating
- /// point numbers from the underlying reader.
- ///
- /// The given buffer is either filled completely or an error is returned.
- /// If an error is returned, the contents of `dst` are unspecified.
- ///
- /// # Safety
- ///
- /// This method is unsafe because there are no guarantees made about the
- /// floating point values. In particular, this method does not check for
- /// signaling NaNs, which may result in undefined behavior.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Read::read_exact`].
- ///
- /// [`Read::read_exact`]: https://doc.rust-lang.org/std/io/trait.Read.html#method.read_exact
- ///
- /// # Examples
- ///
- /// Read a sequence of big-endian single-precision floating point number
- /// from a `Read`:
- ///
- /// ```rust
- /// use std::f64;
- /// use std::io::Cursor;
- ///
- /// use byteorder::{BigEndian, ReadBytesExt};
- ///
- /// let mut rdr = Cursor::new(vec![
- /// 0x40, 0x09, 0x21, 0xfb, 0x54, 0x44, 0x2d, 0x18,
- /// 0x3f, 0xF0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
- /// ]);
- /// let mut dst = [0.0; 2];
- /// rdr.read_f64_into_unchecked::<BigEndian>(&mut dst).unwrap();
- /// assert_eq!([f64::consts::PI, 1.0], dst);
- /// ```
- #[inline]
- #[deprecated(since = "1.2.0", note = "please use `read_f64_into` instead")]
- fn read_f64_into_unchecked<T: ByteOrder>(
- &mut self,
- dst: &mut [f64],
- ) -> Result<()> {
- self.read_f64_into::<T>(dst)
- }
-}
-
-/// All types that implement `Read` get methods defined in `ReadBytesExt`
-/// for free.
-impl<R: io::Read + ?Sized> ReadBytesExt for R {}
-
-/// Extends [`Write`] with methods for writing numbers. (For `std::io`.)
-///
-/// Most of the methods defined here have an unconstrained type parameter that
-/// must be explicitly instantiated. Typically, it is instantiated with either
-/// the [`BigEndian`] or [`LittleEndian`] types defined in this crate.
-///
-/// # Examples
-///
-/// Write unsigned 16 bit big-endian integers to a [`Write`]:
-///
-/// ```rust
-/// use byteorder::{BigEndian, WriteBytesExt};
-///
-/// let mut wtr = vec![];
-/// wtr.write_u16::<BigEndian>(517).unwrap();
-/// wtr.write_u16::<BigEndian>(768).unwrap();
-/// assert_eq!(wtr, vec![2, 5, 3, 0]);
-/// ```
-///
-/// [`BigEndian`]: enum.BigEndian.html
-/// [`LittleEndian`]: enum.LittleEndian.html
-/// [`Write`]: https://doc.rust-lang.org/std/io/trait.Write.html
-pub trait WriteBytesExt: io::Write {
- /// Writes an unsigned 8 bit integer to the underlying writer.
- ///
- /// Note that since this writes a single byte, no byte order conversions
- /// are used. It is included for completeness.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write unsigned 8 bit integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::WriteBytesExt;
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_u8(2).unwrap();
- /// wtr.write_u8(5).unwrap();
- /// assert_eq!(wtr, b"\x02\x05");
- /// ```
- #[inline]
- fn write_u8(&mut self, n: u8) -> Result<()> {
- self.write_all(&[n])
- }
-
- /// Writes a signed 8 bit integer to the underlying writer.
- ///
- /// Note that since this writes a single byte, no byte order conversions
- /// are used. It is included for completeness.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write signed 8 bit integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::WriteBytesExt;
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_i8(2).unwrap();
- /// wtr.write_i8(-5).unwrap();
- /// assert_eq!(wtr, b"\x02\xfb");
- /// ```
- #[inline]
- fn write_i8(&mut self, n: i8) -> Result<()> {
- self.write_all(&[n as u8])
- }
-
- /// Writes an unsigned 16 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write unsigned 16 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_u16::<BigEndian>(517).unwrap();
- /// wtr.write_u16::<BigEndian>(768).unwrap();
- /// assert_eq!(wtr, b"\x02\x05\x03\x00");
- /// ```
- #[inline]
- fn write_u16<T: ByteOrder>(&mut self, n: u16) -> Result<()> {
- let mut buf = [0; 2];
- T::write_u16(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a signed 16 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write signed 16 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_i16::<BigEndian>(193).unwrap();
- /// wtr.write_i16::<BigEndian>(-132).unwrap();
- /// assert_eq!(wtr, b"\x00\xc1\xff\x7c");
- /// ```
- #[inline]
- fn write_i16<T: ByteOrder>(&mut self, n: i16) -> Result<()> {
- let mut buf = [0; 2];
- T::write_i16(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes an unsigned 24 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write unsigned 24 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_u24::<BigEndian>(267).unwrap();
- /// wtr.write_u24::<BigEndian>(120111).unwrap();
- /// assert_eq!(wtr, b"\x00\x01\x0b\x01\xd5\x2f");
- /// ```
- #[inline]
- fn write_u24<T: ByteOrder>(&mut self, n: u32) -> Result<()> {
- let mut buf = [0; 3];
- T::write_u24(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a signed 24 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write signed 24 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_i24::<BigEndian>(-34253).unwrap();
- /// wtr.write_i24::<BigEndian>(120111).unwrap();
- /// assert_eq!(wtr, b"\xff\x7a\x33\x01\xd5\x2f");
- /// ```
- #[inline]
- fn write_i24<T: ByteOrder>(&mut self, n: i32) -> Result<()> {
- let mut buf = [0; 3];
- T::write_i24(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes an unsigned 32 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write unsigned 32 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_u32::<BigEndian>(267).unwrap();
- /// wtr.write_u32::<BigEndian>(1205419366).unwrap();
- /// assert_eq!(wtr, b"\x00\x00\x01\x0b\x47\xd9\x3d\x66");
- /// ```
- #[inline]
- fn write_u32<T: ByteOrder>(&mut self, n: u32) -> Result<()> {
- let mut buf = [0; 4];
- T::write_u32(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a signed 32 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write signed 32 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_i32::<BigEndian>(-34253).unwrap();
- /// wtr.write_i32::<BigEndian>(1205419366).unwrap();
- /// assert_eq!(wtr, b"\xff\xff\x7a\x33\x47\xd9\x3d\x66");
- /// ```
- #[inline]
- fn write_i32<T: ByteOrder>(&mut self, n: i32) -> Result<()> {
- let mut buf = [0; 4];
- T::write_i32(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes an unsigned 48 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write unsigned 48 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_u48::<BigEndian>(52360336390828).unwrap();
- /// wtr.write_u48::<BigEndian>(541).unwrap();
- /// assert_eq!(wtr, b"\x2f\x9f\x17\x40\x3a\xac\x00\x00\x00\x00\x02\x1d");
- /// ```
- #[inline]
- fn write_u48<T: ByteOrder>(&mut self, n: u64) -> Result<()> {
- let mut buf = [0; 6];
- T::write_u48(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a signed 48 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write signed 48 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_i48::<BigEndian>(-108363435763825).unwrap();
- /// wtr.write_i48::<BigEndian>(77).unwrap();
- /// assert_eq!(wtr, b"\x9d\x71\xab\xe7\x97\x8f\x00\x00\x00\x00\x00\x4d");
- /// ```
- #[inline]
- fn write_i48<T: ByteOrder>(&mut self, n: i64) -> Result<()> {
- let mut buf = [0; 6];
- T::write_i48(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes an unsigned 64 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write unsigned 64 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_u64::<BigEndian>(918733457491587).unwrap();
- /// wtr.write_u64::<BigEndian>(143).unwrap();
- /// assert_eq!(wtr, b"\x00\x03\x43\x95\x4d\x60\x86\x83\x00\x00\x00\x00\x00\x00\x00\x8f");
- /// ```
- #[inline]
- fn write_u64<T: ByteOrder>(&mut self, n: u64) -> Result<()> {
- let mut buf = [0; 8];
- T::write_u64(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a signed 64 bit integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write signed 64 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_i64::<BigEndian>(i64::min_value()).unwrap();
- /// wtr.write_i64::<BigEndian>(i64::max_value()).unwrap();
- /// assert_eq!(wtr, b"\x80\x00\x00\x00\x00\x00\x00\x00\x7f\xff\xff\xff\xff\xff\xff\xff");
- /// ```
- #[inline]
- fn write_i64<T: ByteOrder>(&mut self, n: i64) -> Result<()> {
- let mut buf = [0; 8];
- T::write_i64(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes an unsigned 128 bit integer to the underlying writer.
- #[inline]
- fn write_u128<T: ByteOrder>(&mut self, n: u128) -> Result<()> {
- let mut buf = [0; 16];
- T::write_u128(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a signed 128 bit integer to the underlying writer.
- #[inline]
- fn write_i128<T: ByteOrder>(&mut self, n: i128) -> Result<()> {
- let mut buf = [0; 16];
- T::write_i128(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes an unsigned n-bytes integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Panics
- ///
- /// If the given integer is not representable in the given number of bytes,
- /// this method panics. If `nbytes > 8`, this method panics.
- ///
- /// # Examples
- ///
- /// Write unsigned 40 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_uint::<BigEndian>(312550384361, 5).unwrap();
- /// wtr.write_uint::<BigEndian>(43, 5).unwrap();
- /// assert_eq!(wtr, b"\x48\xc5\x74\x62\xe9\x00\x00\x00\x00\x2b");
- /// ```
- #[inline]
- fn write_uint<T: ByteOrder>(
- &mut self,
- n: u64,
- nbytes: usize,
- ) -> Result<()> {
- let mut buf = [0; 8];
- T::write_uint(&mut buf, n, nbytes);
- self.write_all(&buf[0..nbytes])
- }
-
- /// Writes a signed n-bytes integer to the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Panics
- ///
- /// If the given integer is not representable in the given number of bytes,
- /// this method panics. If `nbytes > 8`, this method panics.
- ///
- /// # Examples
- ///
- /// Write signed 56 bit big-endian integers to a `Write`:
- ///
- /// ```rust
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_int::<BigEndian>(-3548172039376767, 7).unwrap();
- /// wtr.write_int::<BigEndian>(43, 7).unwrap();
- /// assert_eq!(wtr, b"\xf3\x64\xf4\xd1\xfd\xb0\x81\x00\x00\x00\x00\x00\x00\x2b");
- /// ```
- #[inline]
- fn write_int<T: ByteOrder>(
- &mut self,
- n: i64,
- nbytes: usize,
- ) -> Result<()> {
- let mut buf = [0; 8];
- T::write_int(&mut buf, n, nbytes);
- self.write_all(&buf[0..nbytes])
- }
-
- /// Writes an unsigned n-bytes integer to the underlying writer.
- ///
- /// If the given integer is not representable in the given number of bytes,
- /// this method panics. If `nbytes > 16`, this method panics.
- #[inline]
- fn write_uint128<T: ByteOrder>(
- &mut self,
- n: u128,
- nbytes: usize,
- ) -> Result<()> {
- let mut buf = [0; 16];
- T::write_uint128(&mut buf, n, nbytes);
- self.write_all(&buf[0..nbytes])
- }
-
- /// Writes a signed n-bytes integer to the underlying writer.
- ///
- /// If the given integer is not representable in the given number of bytes,
- /// this method panics. If `nbytes > 16`, this method panics.
- #[inline]
- fn write_int128<T: ByteOrder>(
- &mut self,
- n: i128,
- nbytes: usize,
- ) -> Result<()> {
- let mut buf = [0; 16];
- T::write_int128(&mut buf, n, nbytes);
- self.write_all(&buf[0..nbytes])
- }
-
- /// Writes a IEEE754 single-precision (4 bytes) floating point number to
- /// the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write a big-endian single-precision floating point number to a `Write`:
- ///
- /// ```rust
- /// use std::f32;
- ///
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_f32::<BigEndian>(f32::consts::PI).unwrap();
- /// assert_eq!(wtr, b"\x40\x49\x0f\xdb");
- /// ```
- #[inline]
- fn write_f32<T: ByteOrder>(&mut self, n: f32) -> Result<()> {
- let mut buf = [0; 4];
- T::write_f32(&mut buf, n);
- self.write_all(&buf)
- }
-
- /// Writes a IEEE754 double-precision (8 bytes) floating point number to
- /// the underlying writer.
- ///
- /// # Errors
- ///
- /// This method returns the same errors as [`Write::write_all`].
- ///
- /// [`Write::write_all`]: https://doc.rust-lang.org/std/io/trait.Write.html#method.write_all
- ///
- /// # Examples
- ///
- /// Write a big-endian double-precision floating point number to a `Write`:
- ///
- /// ```rust
- /// use std::f64;
- ///
- /// use byteorder::{BigEndian, WriteBytesExt};
- ///
- /// let mut wtr = Vec::new();
- /// wtr.write_f64::<BigEndian>(f64::consts::PI).unwrap();
- /// assert_eq!(wtr, b"\x40\x09\x21\xfb\x54\x44\x2d\x18");
- /// ```
- #[inline]
- fn write_f64<T: ByteOrder>(&mut self, n: f64) -> Result<()> {
- let mut buf = [0; 8];
- T::write_f64(&mut buf, n);
- self.write_all(&buf)
- }
-}
-
-/// All types that implement `Write` get methods defined in `WriteBytesExt`
-/// for free.
-impl<W: io::Write + ?Sized> WriteBytesExt for W {}
-
-/// Convert a slice of T (where T is plain old data) to its mutable binary
-/// representation.
-///
-/// This function is wildly unsafe because it permits arbitrary modification of
-/// the binary representation of any `Copy` type. Use with care. It's intended
-/// to be called only where `T` is a numeric type.
-unsafe fn slice_to_u8_mut<T: Copy>(slice: &mut [T]) -> &mut [u8] {
- use std::mem::size_of;
-
- let len = size_of::<T>() * slice.len();
- slice::from_raw_parts_mut(slice.as_mut_ptr() as *mut u8, len)
-}
diff --git a/vendor/byteorder/src/lib.rs b/vendor/byteorder/src/lib.rs
deleted file mode 100644
index cc37cca6a..000000000
--- a/vendor/byteorder/src/lib.rs
+++ /dev/null
@@ -1,4052 +0,0 @@
-/*!
-This crate provides convenience methods for encoding and decoding numbers in
-either [big-endian or little-endian order].
-
-The organization of the crate is pretty simple. A trait, [`ByteOrder`], specifies
-byte conversion methods for each type of number in Rust (sans numbers that have
-a platform dependent size like `usize` and `isize`). Two types, [`BigEndian`]
-and [`LittleEndian`] implement these methods. Finally, [`ReadBytesExt`] and
-[`WriteBytesExt`] provide convenience methods available to all types that
-implement [`Read`] and [`Write`].
-
-An alias, [`NetworkEndian`], for [`BigEndian`] is provided to help improve
-code clarity.
-
-An additional alias, [`NativeEndian`], is provided for the endianness of the
-local platform. This is convenient when serializing data for use and
-conversions are not desired.
-
-# Examples
-
-Read unsigned 16 bit big-endian integers from a [`Read`] type:
-
-```rust
-use std::io::Cursor;
-use byteorder::{BigEndian, ReadBytesExt};
-
-let mut rdr = Cursor::new(vec![2, 5, 3, 0]);
-// Note that we use type parameters to indicate which kind of byte order
-// we want!
-assert_eq!(517, rdr.read_u16::<BigEndian>().unwrap());
-assert_eq!(768, rdr.read_u16::<BigEndian>().unwrap());
-```
-
-Write unsigned 16 bit little-endian integers to a [`Write`] type:
-
-```rust
-use byteorder::{LittleEndian, WriteBytesExt};
-
-let mut wtr = vec![];
-wtr.write_u16::<LittleEndian>(517).unwrap();
-wtr.write_u16::<LittleEndian>(768).unwrap();
-assert_eq!(wtr, vec![5, 2, 0, 3]);
-```
-
-# Optional Features
-
-This crate optionally provides support for 128 bit values (`i128` and `u128`)
-when built with the `i128` feature enabled.
-
-This crate can also be used without the standard library.
-
-# Alternatives
-
-Note that as of Rust 1.32, the standard numeric types provide built-in methods
-like `to_le_bytes` and `from_le_bytes`, which support some of the same use
-cases.
-
-[big-endian or little-endian order]: https://en.wikipedia.org/wiki/Endianness
-[`ByteOrder`]: trait.ByteOrder.html
-[`BigEndian`]: enum.BigEndian.html
-[`LittleEndian`]: enum.LittleEndian.html
-[`ReadBytesExt`]: trait.ReadBytesExt.html
-[`WriteBytesExt`]: trait.WriteBytesExt.html
-[`NetworkEndian`]: type.NetworkEndian.html
-[`NativeEndian`]: type.NativeEndian.html
-[`Read`]: https://doc.rust-lang.org/std/io/trait.Read.html
-[`Write`]: https://doc.rust-lang.org/std/io/trait.Write.html
-*/
-
-#![deny(missing_docs)]
-#![cfg_attr(not(feature = "std"), no_std)]
-
-use core::{
- convert::TryInto, fmt::Debug, hash::Hash, ptr::copy_nonoverlapping, slice,
-};
-
-#[cfg(feature = "std")]
-pub use crate::io::{ReadBytesExt, WriteBytesExt};
-
-#[cfg(feature = "std")]
-mod io;
-
-#[inline]
-fn extend_sign(val: u64, nbytes: usize) -> i64 {
- let shift = (8 - nbytes) * 8;
- (val << shift) as i64 >> shift
-}
-
-#[inline]
-fn extend_sign128(val: u128, nbytes: usize) -> i128 {
- let shift = (16 - nbytes) * 8;
- (val << shift) as i128 >> shift
-}
-
-#[inline]
-fn unextend_sign(val: i64, nbytes: usize) -> u64 {
- let shift = (8 - nbytes) * 8;
- (val << shift) as u64 >> shift
-}
-
-#[inline]
-fn unextend_sign128(val: i128, nbytes: usize) -> u128 {
- let shift = (16 - nbytes) * 8;
- (val << shift) as u128 >> shift
-}
-
-#[inline]
-fn pack_size(n: u64) -> usize {
- if n < 1 << 8 {
- 1
- } else if n < 1 << 16 {
- 2
- } else if n < 1 << 24 {
- 3
- } else if n < 1 << 32 {
- 4
- } else if n < 1 << 40 {
- 5
- } else if n < 1 << 48 {
- 6
- } else if n < 1 << 56 {
- 7
- } else {
- 8
- }
-}
-
-#[inline]
-fn pack_size128(n: u128) -> usize {
- if n < 1 << 8 {
- 1
- } else if n < 1 << 16 {
- 2
- } else if n < 1 << 24 {
- 3
- } else if n < 1 << 32 {
- 4
- } else if n < 1 << 40 {
- 5
- } else if n < 1 << 48 {
- 6
- } else if n < 1 << 56 {
- 7
- } else if n < 1 << 64 {
- 8
- } else if n < 1 << 72 {
- 9
- } else if n < 1 << 80 {
- 10
- } else if n < 1 << 88 {
- 11
- } else if n < 1 << 96 {
- 12
- } else if n < 1 << 104 {
- 13
- } else if n < 1 << 112 {
- 14
- } else if n < 1 << 120 {
- 15
- } else {
- 16
- }
-}
-
-mod private {
- /// Sealed stops crates other than byteorder from implementing any traits
- /// that use it.
- pub trait Sealed {}
- impl Sealed for super::LittleEndian {}
- impl Sealed for super::BigEndian {}
-}
-
-/// `ByteOrder` describes types that can serialize integers as bytes.
-///
-/// Note that `Self` does not appear anywhere in this trait's definition!
-/// Therefore, in order to use it, you'll need to use syntax like
-/// `T::read_u16(&[0, 1])` where `T` implements `ByteOrder`.
-///
-/// This crate provides two types that implement `ByteOrder`: [`BigEndian`]
-/// and [`LittleEndian`].
-/// This trait is sealed and cannot be implemented for callers to avoid
-/// breaking backwards compatibility when adding new derived traits.
-///
-/// # Examples
-///
-/// Write and read `u32` numbers in little endian order:
-///
-/// ```rust
-/// use byteorder::{ByteOrder, LittleEndian};
-///
-/// let mut buf = [0; 4];
-/// LittleEndian::write_u32(&mut buf, 1_000_000);
-/// assert_eq!(1_000_000, LittleEndian::read_u32(&buf));
-/// ```
-///
-/// Write and read `i16` numbers in big endian order:
-///
-/// ```rust
-/// use byteorder::{ByteOrder, BigEndian};
-///
-/// let mut buf = [0; 2];
-/// BigEndian::write_i16(&mut buf, -5_000);
-/// assert_eq!(-5_000, BigEndian::read_i16(&buf));
-/// ```
-///
-/// [`BigEndian`]: enum.BigEndian.html
-/// [`LittleEndian`]: enum.LittleEndian.html
-pub trait ByteOrder:
- Clone
- + Copy
- + Debug
- + Default
- + Eq
- + Hash
- + Ord
- + PartialEq
- + PartialOrd
- + private::Sealed
-{
- /// Reads an unsigned 16 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 2`.
- fn read_u16(buf: &[u8]) -> u16;
-
- /// Reads an unsigned 24 bit integer from `buf`, stored in u32.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 3`.
- ///
- /// # Examples
- ///
- /// Write and read 24 bit `u32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_u24(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u24(&buf));
- /// ```
- fn read_u24(buf: &[u8]) -> u32 {
- Self::read_uint(buf, 3) as u32
- }
-
- /// Reads an unsigned 32 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 4`.
- ///
- /// # Examples
- ///
- /// Write and read `u32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 4];
- /// LittleEndian::write_u32(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u32(&buf));
- /// ```
- fn read_u32(buf: &[u8]) -> u32;
-
- /// Reads an unsigned 48 bit integer from `buf`, stored in u64.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 6`.
- ///
- /// # Examples
- ///
- /// Write and read 48 bit `u64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 6];
- /// LittleEndian::write_u48(&mut buf, 1_000_000_000_000);
- /// assert_eq!(1_000_000_000_000, LittleEndian::read_u48(&buf));
- /// ```
- fn read_u48(buf: &[u8]) -> u64 {
- Self::read_uint(buf, 6) as u64
- }
-
- /// Reads an unsigned 64 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 8`.
- ///
- /// # Examples
- ///
- /// Write and read `u64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 8];
- /// LittleEndian::write_u64(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u64(&buf));
- /// ```
- fn read_u64(buf: &[u8]) -> u64;
-
- /// Reads an unsigned 128 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 16`.
- ///
- /// # Examples
- ///
- /// Write and read `u128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 16];
- /// LittleEndian::write_u128(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u128(&buf));
- /// ```
- fn read_u128(buf: &[u8]) -> u128;
-
- /// Reads an unsigned n-bytes integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `nbytes < 1` or `nbytes > 8` or
- /// `buf.len() < nbytes`
- ///
- /// # Examples
- ///
- /// Write and read an n-byte number in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_uint(&mut buf, 1_000_000, 3);
- /// assert_eq!(1_000_000, LittleEndian::read_uint(&buf, 3));
- /// ```
- fn read_uint(buf: &[u8], nbytes: usize) -> u64;
-
- /// Reads an unsigned n-bytes integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `nbytes < 1` or `nbytes > 16` or
- /// `buf.len() < nbytes`
- ///
- /// # Examples
- ///
- /// Write and read an n-byte number in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_uint128(&mut buf, 1_000_000, 3);
- /// assert_eq!(1_000_000, LittleEndian::read_uint128(&buf, 3));
- /// ```
- fn read_uint128(buf: &[u8], nbytes: usize) -> u128;
-
- /// Writes an unsigned 16 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 2`.
- ///
- /// # Examples
- ///
- /// Write and read `u16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 2];
- /// LittleEndian::write_u16(&mut buf, 1_000);
- /// assert_eq!(1_000, LittleEndian::read_u16(&buf));
- /// ```
- fn write_u16(buf: &mut [u8], n: u16);
-
- /// Writes an unsigned 24 bit integer `n` to `buf`, stored in u32.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 3`.
- ///
- /// # Examples
- ///
- /// Write and read 24 bit `u32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_u24(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u24(&buf));
- /// ```
- fn write_u24(buf: &mut [u8], n: u32) {
- Self::write_uint(buf, n as u64, 3)
- }
-
- /// Writes an unsigned 32 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 4`.
- ///
- /// # Examples
- ///
- /// Write and read `u32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 4];
- /// LittleEndian::write_u32(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u32(&buf));
- /// ```
- fn write_u32(buf: &mut [u8], n: u32);
-
- /// Writes an unsigned 48 bit integer `n` to `buf`, stored in u64.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 6`.
- ///
- /// # Examples
- ///
- /// Write and read 48 bit `u64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 6];
- /// LittleEndian::write_u48(&mut buf, 1_000_000_000_000);
- /// assert_eq!(1_000_000_000_000, LittleEndian::read_u48(&buf));
- /// ```
- fn write_u48(buf: &mut [u8], n: u64) {
- Self::write_uint(buf, n as u64, 6)
- }
-
- /// Writes an unsigned 64 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 8`.
- ///
- /// # Examples
- ///
- /// Write and read `u64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 8];
- /// LittleEndian::write_u64(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u64(&buf));
- /// ```
- fn write_u64(buf: &mut [u8], n: u64);
-
- /// Writes an unsigned 128 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 16`.
- ///
- /// # Examples
- ///
- /// Write and read `u128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 16];
- /// LittleEndian::write_u128(&mut buf, 1_000_000);
- /// assert_eq!(1_000_000, LittleEndian::read_u128(&buf));
- /// ```
- fn write_u128(buf: &mut [u8], n: u128);
-
- /// Writes an unsigned integer `n` to `buf` using only `nbytes`.
- ///
- /// # Panics
- ///
- /// If `n` is not representable in `nbytes`, or if `nbytes` is `> 8`, then
- /// this method panics.
- ///
- /// # Examples
- ///
- /// Write and read an n-byte number in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_uint(&mut buf, 1_000_000, 3);
- /// assert_eq!(1_000_000, LittleEndian::read_uint(&buf, 3));
- /// ```
- fn write_uint(buf: &mut [u8], n: u64, nbytes: usize);
-
- /// Writes an unsigned integer `n` to `buf` using only `nbytes`.
- ///
- /// # Panics
- ///
- /// If `n` is not representable in `nbytes`, or if `nbytes` is `> 16`, then
- /// this method panics.
- ///
- /// # Examples
- ///
- /// Write and read an n-byte number in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_uint128(&mut buf, 1_000_000, 3);
- /// assert_eq!(1_000_000, LittleEndian::read_uint128(&buf, 3));
- /// ```
- fn write_uint128(buf: &mut [u8], n: u128, nbytes: usize);
-
- /// Reads a signed 16 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 2`.
- ///
- /// # Examples
- ///
- /// Write and read `i16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 2];
- /// LittleEndian::write_i16(&mut buf, -1_000);
- /// assert_eq!(-1_000, LittleEndian::read_i16(&buf));
- /// ```
- #[inline]
- fn read_i16(buf: &[u8]) -> i16 {
- Self::read_u16(buf) as i16
- }
-
- /// Reads a signed 24 bit integer from `buf`, stored in i32.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 3`.
- ///
- /// # Examples
- ///
- /// Write and read 24 bit `i32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_i24(&mut buf, -1_000_000);
- /// assert_eq!(-1_000_000, LittleEndian::read_i24(&buf));
- /// ```
- #[inline]
- fn read_i24(buf: &[u8]) -> i32 {
- Self::read_int(buf, 3) as i32
- }
-
- /// Reads a signed 32 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 4`.
- ///
- /// # Examples
- ///
- /// Write and read `i32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 4];
- /// LittleEndian::write_i32(&mut buf, -1_000_000);
- /// assert_eq!(-1_000_000, LittleEndian::read_i32(&buf));
- /// ```
- #[inline]
- fn read_i32(buf: &[u8]) -> i32 {
- Self::read_u32(buf) as i32
- }
-
- /// Reads a signed 48 bit integer from `buf`, stored in i64.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 6`.
- ///
- /// # Examples
- ///
- /// Write and read 48 bit `i64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 6];
- /// LittleEndian::write_i48(&mut buf, -1_000_000_000_000);
- /// assert_eq!(-1_000_000_000_000, LittleEndian::read_i48(&buf));
- /// ```
- #[inline]
- fn read_i48(buf: &[u8]) -> i64 {
- Self::read_int(buf, 6) as i64
- }
-
- /// Reads a signed 64 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 8`.
- ///
- /// # Examples
- ///
- /// Write and read `i64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 8];
- /// LittleEndian::write_i64(&mut buf, -1_000_000_000);
- /// assert_eq!(-1_000_000_000, LittleEndian::read_i64(&buf));
- /// ```
- #[inline]
- fn read_i64(buf: &[u8]) -> i64 {
- Self::read_u64(buf) as i64
- }
-
- /// Reads a signed 128 bit integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 16`.
- ///
- /// # Examples
- ///
- /// Write and read `i128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 16];
- /// LittleEndian::write_i128(&mut buf, -1_000_000_000);
- /// assert_eq!(-1_000_000_000, LittleEndian::read_i128(&buf));
- /// ```
- #[inline]
- fn read_i128(buf: &[u8]) -> i128 {
- Self::read_u128(buf) as i128
- }
-
- /// Reads a signed n-bytes integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `nbytes < 1` or `nbytes > 8` or
- /// `buf.len() < nbytes`
- ///
- /// # Examples
- ///
- /// Write and read n-length signed numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_int(&mut buf, -1_000, 3);
- /// assert_eq!(-1_000, LittleEndian::read_int(&buf, 3));
- /// ```
- #[inline]
- fn read_int(buf: &[u8], nbytes: usize) -> i64 {
- extend_sign(Self::read_uint(buf, nbytes), nbytes)
- }
-
- /// Reads a signed n-bytes integer from `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `nbytes < 1` or `nbytes > 16` or
- /// `buf.len() < nbytes`
- ///
- /// # Examples
- ///
- /// Write and read n-length signed numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_int128(&mut buf, -1_000, 3);
- /// assert_eq!(-1_000, LittleEndian::read_int128(&buf, 3));
- /// ```
- #[inline]
- fn read_int128(buf: &[u8], nbytes: usize) -> i128 {
- extend_sign128(Self::read_uint128(buf, nbytes), nbytes)
- }
-
- /// Reads a IEEE754 single-precision (4 bytes) floating point number.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 4`.
- ///
- /// # Examples
- ///
- /// Write and read `f32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let e = 2.71828;
- /// let mut buf = [0; 4];
- /// LittleEndian::write_f32(&mut buf, e);
- /// assert_eq!(e, LittleEndian::read_f32(&buf));
- /// ```
- #[inline]
- fn read_f32(buf: &[u8]) -> f32 {
- f32::from_bits(Self::read_u32(buf))
- }
-
- /// Reads a IEEE754 double-precision (8 bytes) floating point number.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 8`.
- ///
- /// # Examples
- ///
- /// Write and read `f64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let phi = 1.6180339887;
- /// let mut buf = [0; 8];
- /// LittleEndian::write_f64(&mut buf, phi);
- /// assert_eq!(phi, LittleEndian::read_f64(&buf));
- /// ```
- #[inline]
- fn read_f64(buf: &[u8]) -> f64 {
- f64::from_bits(Self::read_u64(buf))
- }
-
- /// Writes a signed 16 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 2`.
- ///
- /// # Examples
- ///
- /// Write and read `i16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 2];
- /// LittleEndian::write_i16(&mut buf, -1_000);
- /// assert_eq!(-1_000, LittleEndian::read_i16(&buf));
- /// ```
- #[inline]
- fn write_i16(buf: &mut [u8], n: i16) {
- Self::write_u16(buf, n as u16)
- }
-
- /// Writes a signed 24 bit integer `n` to `buf`, stored in i32.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 3`.
- ///
- /// # Examples
- ///
- /// Write and read 24 bit `i32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_i24(&mut buf, -1_000_000);
- /// assert_eq!(-1_000_000, LittleEndian::read_i24(&buf));
- /// ```
- #[inline]
- fn write_i24(buf: &mut [u8], n: i32) {
- Self::write_int(buf, n as i64, 3)
- }
-
- /// Writes a signed 32 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 4`.
- ///
- /// # Examples
- ///
- /// Write and read `i32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 4];
- /// LittleEndian::write_i32(&mut buf, -1_000_000);
- /// assert_eq!(-1_000_000, LittleEndian::read_i32(&buf));
- /// ```
- #[inline]
- fn write_i32(buf: &mut [u8], n: i32) {
- Self::write_u32(buf, n as u32)
- }
-
- /// Writes a signed 48 bit integer `n` to `buf`, stored in i64.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 6`.
- ///
- /// # Examples
- ///
- /// Write and read 48 bit `i64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 6];
- /// LittleEndian::write_i48(&mut buf, -1_000_000_000_000);
- /// assert_eq!(-1_000_000_000_000, LittleEndian::read_i48(&buf));
- /// ```
- #[inline]
- fn write_i48(buf: &mut [u8], n: i64) {
- Self::write_int(buf, n as i64, 6)
- }
-
- /// Writes a signed 64 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 8`.
- ///
- /// # Examples
- ///
- /// Write and read `i64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 8];
- /// LittleEndian::write_i64(&mut buf, -1_000_000_000);
- /// assert_eq!(-1_000_000_000, LittleEndian::read_i64(&buf));
- /// ```
- #[inline]
- fn write_i64(buf: &mut [u8], n: i64) {
- Self::write_u64(buf, n as u64)
- }
-
- /// Writes a signed 128 bit integer `n` to `buf`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 16`.
- ///
- /// # Examples
- ///
- /// Write and read n-byte `i128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 16];
- /// LittleEndian::write_i128(&mut buf, -1_000_000_000);
- /// assert_eq!(-1_000_000_000, LittleEndian::read_i128(&buf));
- /// ```
- #[inline]
- fn write_i128(buf: &mut [u8], n: i128) {
- Self::write_u128(buf, n as u128)
- }
-
- /// Writes a signed integer `n` to `buf` using only `nbytes`.
- ///
- /// # Panics
- ///
- /// If `n` is not representable in `nbytes`, or if `nbytes` is `> 8`, then
- /// this method panics.
- ///
- /// # Examples
- ///
- /// Write and read an n-byte number in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_int(&mut buf, -1_000, 3);
- /// assert_eq!(-1_000, LittleEndian::read_int(&buf, 3));
- /// ```
- #[inline]
- fn write_int(buf: &mut [u8], n: i64, nbytes: usize) {
- Self::write_uint(buf, unextend_sign(n, nbytes), nbytes)
- }
-
- /// Writes a signed integer `n` to `buf` using only `nbytes`.
- ///
- /// # Panics
- ///
- /// If `n` is not representable in `nbytes`, or if `nbytes` is `> 16`, then
- /// this method panics.
- ///
- /// # Examples
- ///
- /// Write and read n-length signed numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut buf = [0; 3];
- /// LittleEndian::write_int128(&mut buf, -1_000, 3);
- /// assert_eq!(-1_000, LittleEndian::read_int128(&buf, 3));
- /// ```
- #[inline]
- fn write_int128(buf: &mut [u8], n: i128, nbytes: usize) {
- Self::write_uint128(buf, unextend_sign128(n, nbytes), nbytes)
- }
-
- /// Writes a IEEE754 single-precision (4 bytes) floating point number.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 4`.
- ///
- /// # Examples
- ///
- /// Write and read `f32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let e = 2.71828;
- /// let mut buf = [0; 4];
- /// LittleEndian::write_f32(&mut buf, e);
- /// assert_eq!(e, LittleEndian::read_f32(&buf));
- /// ```
- #[inline]
- fn write_f32(buf: &mut [u8], n: f32) {
- Self::write_u32(buf, n.to_bits())
- }
-
- /// Writes a IEEE754 double-precision (8 bytes) floating point number.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() < 8`.
- ///
- /// # Examples
- ///
- /// Write and read `f64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let phi = 1.6180339887;
- /// let mut buf = [0; 8];
- /// LittleEndian::write_f64(&mut buf, phi);
- /// assert_eq!(phi, LittleEndian::read_f64(&buf));
- /// ```
- #[inline]
- fn write_f64(buf: &mut [u8], n: f64) {
- Self::write_u64(buf, n.to_bits())
- }
-
- /// Reads unsigned 16 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 2*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 8];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u16_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u16_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn read_u16_into(src: &[u8], dst: &mut [u16]);
-
- /// Reads unsigned 32 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 4*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u32_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn read_u32_into(src: &[u8], dst: &mut [u32]);
-
- /// Reads unsigned 64 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 8*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u64_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn read_u64_into(src: &[u8], dst: &mut [u64]);
-
- /// Reads unsigned 128 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 16*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 64];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u128_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u128_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn read_u128_into(src: &[u8], dst: &mut [u128]);
-
- /// Reads signed 16 bit integers from `src` to `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() != 2*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 8];
- /// let numbers_given = [1, 2, 0x0f, 0xee];
- /// LittleEndian::write_i16_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i16_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- fn read_i16_into(src: &[u8], dst: &mut [i16]) {
- let dst = unsafe {
- slice::from_raw_parts_mut(dst.as_mut_ptr() as *mut u16, dst.len())
- };
- Self::read_u16_into(src, dst)
- }
-
- /// Reads signed 32 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 4*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_i32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i32_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- fn read_i32_into(src: &[u8], dst: &mut [i32]) {
- let dst = unsafe {
- slice::from_raw_parts_mut(dst.as_mut_ptr() as *mut u32, dst.len())
- };
- Self::read_u32_into(src, dst);
- }
-
- /// Reads signed 64 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 8*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_i64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i64_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- fn read_i64_into(src: &[u8], dst: &mut [i64]) {
- let dst = unsafe {
- slice::from_raw_parts_mut(dst.as_mut_ptr() as *mut u64, dst.len())
- };
- Self::read_u64_into(src, dst);
- }
-
- /// Reads signed 128 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 16*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 64];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_i128_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i128_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- fn read_i128_into(src: &[u8], dst: &mut [i128]) {
- let dst = unsafe {
- slice::from_raw_parts_mut(dst.as_mut_ptr() as *mut u128, dst.len())
- };
- Self::read_u128_into(src, dst);
- }
-
- /// Reads IEEE754 single-precision (4 bytes) floating point numbers from
- /// `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 4*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `f32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1.0, 2.0, 31.312e31, -11.32e19];
- /// LittleEndian::write_f32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0.0; 4];
- /// LittleEndian::read_f32_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- fn read_f32_into(src: &[u8], dst: &mut [f32]) {
- let dst = unsafe {
- slice::from_raw_parts_mut(dst.as_mut_ptr() as *mut u32, dst.len())
- };
- Self::read_u32_into(src, dst);
- }
-
- /// **DEPRECATED**.
- ///
- /// This method is deprecated. Use `read_f32_into` instead.
- /// Reads IEEE754 single-precision (4 bytes) floating point numbers from
- /// `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 4*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `f32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1.0, 2.0, 31.312e31, -11.32e19];
- /// LittleEndian::write_f32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0.0; 4];
- /// LittleEndian::read_f32_into_unchecked(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- #[deprecated(since = "1.3.0", note = "please use `read_f32_into` instead")]
- fn read_f32_into_unchecked(src: &[u8], dst: &mut [f32]) {
- Self::read_f32_into(src, dst);
- }
-
- /// Reads IEEE754 single-precision (4 bytes) floating point numbers from
- /// `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 8*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `f64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1.0, 2.0, 31.312e211, -11.32e91];
- /// LittleEndian::write_f64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0.0; 4];
- /// LittleEndian::read_f64_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- fn read_f64_into(src: &[u8], dst: &mut [f64]) {
- let dst = unsafe {
- slice::from_raw_parts_mut(dst.as_mut_ptr() as *mut u64, dst.len())
- };
- Self::read_u64_into(src, dst);
- }
-
- /// **DEPRECATED**.
- ///
- /// This method is deprecated. Use `read_f64_into` instead.
- ///
- /// Reads IEEE754 single-precision (4 bytes) floating point numbers from
- /// `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 8*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `f64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1.0, 2.0, 31.312e211, -11.32e91];
- /// LittleEndian::write_f64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0.0; 4];
- /// LittleEndian::read_f64_into_unchecked(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- #[inline]
- #[deprecated(since = "1.3.0", note = "please use `read_f64_into` instead")]
- fn read_f64_into_unchecked(src: &[u8], dst: &mut [f64]) {
- Self::read_f64_into(src, dst);
- }
-
- /// Writes unsigned 16 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 2*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 8];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u16_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u16_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_u16_into(src: &[u16], dst: &mut [u8]);
-
- /// Writes unsigned 32 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 4*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u32_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_u32_into(src: &[u32], dst: &mut [u8]);
-
- /// Writes unsigned 64 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 8*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u64_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_u64_into(src: &[u64], dst: &mut [u8]);
-
- /// Writes unsigned 128 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 16*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `u128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 64];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_u128_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_u128_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_u128_into(src: &[u128], dst: &mut [u8]);
-
- /// Writes signed 8 bit integers from `src` into `dst`.
- ///
- /// Note that since each `i8` is a single byte, no byte order conversions
- /// are used. This method is included because it provides a safe, simple
- /// way for the caller to write from a `&[i8]` buffer. (Without this
- /// method, the caller would have to either use `unsafe` code or convert
- /// each byte to `u8` individually.)
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() != src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i8` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian, ReadBytesExt};
- ///
- /// let mut bytes = [0; 4];
- /// let numbers_given = [1, 2, 0xf, 0xe];
- /// LittleEndian::write_i8_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// bytes.as_ref().read_i8_into(&mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_i8_into(src: &[i8], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u8, src.len())
- };
- dst.copy_from_slice(src);
- }
-
- /// Writes signed 16 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `buf.len() != 2*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i16` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 8];
- /// let numbers_given = [1, 2, 0x0f, 0xee];
- /// LittleEndian::write_i16_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i16_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_i16_into(src: &[i16], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u16, src.len())
- };
- Self::write_u16_into(src, dst);
- }
-
- /// Writes signed 32 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 4*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_i32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i32_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_i32_into(src: &[i32], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u32, src.len())
- };
- Self::write_u32_into(src, dst);
- }
-
- /// Writes signed 64 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 8*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_i64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i64_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_i64_into(src: &[i64], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u64, src.len())
- };
- Self::write_u64_into(src, dst);
- }
-
- /// Writes signed 128 bit integers from `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `dst.len() != 16*src.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `i128` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 64];
- /// let numbers_given = [1, 2, 0xf00f, 0xffee];
- /// LittleEndian::write_i128_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0; 4];
- /// LittleEndian::read_i128_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_i128_into(src: &[i128], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u128, src.len())
- };
- Self::write_u128_into(src, dst);
- }
-
- /// Writes IEEE754 single-precision (4 bytes) floating point numbers from
- /// `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 4*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `f32` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 16];
- /// let numbers_given = [1.0, 2.0, 31.312e31, -11.32e19];
- /// LittleEndian::write_f32_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0.0; 4];
- /// LittleEndian::read_f32_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_f32_into(src: &[f32], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u32, src.len())
- };
- Self::write_u32_into(src, dst);
- }
-
- /// Writes IEEE754 double-precision (8 bytes) floating point numbers from
- /// `src` into `dst`.
- ///
- /// # Panics
- ///
- /// Panics when `src.len() != 8*dst.len()`.
- ///
- /// # Examples
- ///
- /// Write and read `f64` numbers in little endian order:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, LittleEndian};
- ///
- /// let mut bytes = [0; 32];
- /// let numbers_given = [1.0, 2.0, 31.312e211, -11.32e91];
- /// LittleEndian::write_f64_into(&numbers_given, &mut bytes);
- ///
- /// let mut numbers_got = [0.0; 4];
- /// LittleEndian::read_f64_into(&bytes, &mut numbers_got);
- /// assert_eq!(numbers_given, numbers_got);
- /// ```
- fn write_f64_into(src: &[f64], dst: &mut [u8]) {
- let src = unsafe {
- slice::from_raw_parts(src.as_ptr() as *const u64, src.len())
- };
- Self::write_u64_into(src, dst);
- }
-
- /// Converts the given slice of unsigned 16 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_u16(&mut numbers);
- /// assert_eq!(numbers, [5u16.to_be(), 65000u16.to_be()]);
- /// ```
- fn from_slice_u16(numbers: &mut [u16]);
-
- /// Converts the given slice of unsigned 32 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_u32(&mut numbers);
- /// assert_eq!(numbers, [5u32.to_be(), 65000u32.to_be()]);
- /// ```
- fn from_slice_u32(numbers: &mut [u32]);
-
- /// Converts the given slice of unsigned 64 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_u64(&mut numbers);
- /// assert_eq!(numbers, [5u64.to_be(), 65000u64.to_be()]);
- /// ```
- fn from_slice_u64(numbers: &mut [u64]);
-
- /// Converts the given slice of unsigned 128 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_u128(&mut numbers);
- /// assert_eq!(numbers, [5u128.to_be(), 65000u128.to_be()]);
- /// ```
- fn from_slice_u128(numbers: &mut [u128]);
-
- /// Converts the given slice of signed 16 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 6500];
- /// BigEndian::from_slice_i16(&mut numbers);
- /// assert_eq!(numbers, [5i16.to_be(), 6500i16.to_be()]);
- /// ```
- #[inline]
- fn from_slice_i16(src: &mut [i16]) {
- let src = unsafe {
- slice::from_raw_parts_mut(src.as_mut_ptr() as *mut u16, src.len())
- };
- Self::from_slice_u16(src);
- }
-
- /// Converts the given slice of signed 32 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_i32(&mut numbers);
- /// assert_eq!(numbers, [5i32.to_be(), 65000i32.to_be()]);
- /// ```
- #[inline]
- fn from_slice_i32(src: &mut [i32]) {
- let src = unsafe {
- slice::from_raw_parts_mut(src.as_mut_ptr() as *mut u32, src.len())
- };
- Self::from_slice_u32(src);
- }
-
- /// Converts the given slice of signed 64 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_i64(&mut numbers);
- /// assert_eq!(numbers, [5i64.to_be(), 65000i64.to_be()]);
- /// ```
- #[inline]
- fn from_slice_i64(src: &mut [i64]) {
- let src = unsafe {
- slice::from_raw_parts_mut(src.as_mut_ptr() as *mut u64, src.len())
- };
- Self::from_slice_u64(src);
- }
-
- /// Converts the given slice of signed 128 bit integers to a particular
- /// endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- ///
- /// # Examples
- ///
- /// Convert the host platform's endianness to big-endian:
- ///
- /// ```rust
- /// use byteorder::{ByteOrder, BigEndian};
- ///
- /// let mut numbers = [5, 65000];
- /// BigEndian::from_slice_i128(&mut numbers);
- /// assert_eq!(numbers, [5i128.to_be(), 65000i128.to_be()]);
- /// ```
- #[inline]
- fn from_slice_i128(src: &mut [i128]) {
- let src = unsafe {
- slice::from_raw_parts_mut(src.as_mut_ptr() as *mut u128, src.len())
- };
- Self::from_slice_u128(src);
- }
-
- /// Converts the given slice of IEEE754 single-precision (4 bytes) floating
- /// point numbers to a particular endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- fn from_slice_f32(numbers: &mut [f32]);
-
- /// Converts the given slice of IEEE754 double-precision (8 bytes) floating
- /// point numbers to a particular endianness.
- ///
- /// If the endianness matches the endianness of the host platform, then
- /// this is a no-op.
- fn from_slice_f64(numbers: &mut [f64]);
-}
-
-/// Defines big-endian serialization.
-///
-/// Note that this type has no value constructor. It is used purely at the
-/// type level.
-///
-/// # Examples
-///
-/// Write and read `u32` numbers in big endian order:
-///
-/// ```rust
-/// use byteorder::{ByteOrder, BigEndian};
-///
-/// let mut buf = [0; 4];
-/// BigEndian::write_u32(&mut buf, 1_000_000);
-/// assert_eq!(1_000_000, BigEndian::read_u32(&buf));
-/// ```
-#[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)]
-pub enum BigEndian {}
-
-impl Default for BigEndian {
- fn default() -> BigEndian {
- panic!("BigEndian default")
- }
-}
-
-/// A type alias for [`BigEndian`].
-///
-/// [`BigEndian`]: enum.BigEndian.html
-pub type BE = BigEndian;
-
-/// Defines little-endian serialization.
-///
-/// Note that this type has no value constructor. It is used purely at the
-/// type level.
-///
-/// # Examples
-///
-/// Write and read `u32` numbers in little endian order:
-///
-/// ```rust
-/// use byteorder::{ByteOrder, LittleEndian};
-///
-/// let mut buf = [0; 4];
-/// LittleEndian::write_u32(&mut buf, 1_000_000);
-/// assert_eq!(1_000_000, LittleEndian::read_u32(&buf));
-/// ```
-#[derive(Clone, Copy, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)]
-pub enum LittleEndian {}
-
-impl Default for LittleEndian {
- fn default() -> LittleEndian {
- panic!("LittleEndian default")
- }
-}
-
-/// A type alias for [`LittleEndian`].
-///
-/// [`LittleEndian`]: enum.LittleEndian.html
-pub type LE = LittleEndian;
-
-/// Defines network byte order serialization.
-///
-/// Network byte order is defined by [RFC 1700][1] to be big-endian, and is
-/// referred to in several protocol specifications. This type is an alias of
-/// [`BigEndian`].
-///
-/// [1]: https://tools.ietf.org/html/rfc1700
-///
-/// Note that this type has no value constructor. It is used purely at the
-/// type level.
-///
-/// # Examples
-///
-/// Write and read `i16` numbers in big endian order:
-///
-/// ```rust
-/// use byteorder::{ByteOrder, NetworkEndian, BigEndian};
-///
-/// let mut buf = [0; 2];
-/// BigEndian::write_i16(&mut buf, -5_000);
-/// assert_eq!(-5_000, NetworkEndian::read_i16(&buf));
-/// ```
-///
-/// [`BigEndian`]: enum.BigEndian.html
-pub type NetworkEndian = BigEndian;
-
-/// Defines system native-endian serialization.
-///
-/// Note that this type has no value constructor. It is used purely at the
-/// type level.
-///
-/// On this platform, this is an alias for [`LittleEndian`].
-///
-/// [`LittleEndian`]: enum.LittleEndian.html
-#[cfg(target_endian = "little")]
-pub type NativeEndian = LittleEndian;
-
-/// Defines system native-endian serialization.
-///
-/// Note that this type has no value constructor. It is used purely at the
-/// type level.
-///
-/// On this platform, this is an alias for [`BigEndian`].
-///
-/// [`BigEndian`]: enum.BigEndian.html
-#[cfg(target_endian = "big")]
-pub type NativeEndian = BigEndian;
-
-/// Copies $size bytes from a number $n to a &mut [u8] $dst. $ty represents the
-/// numeric type of $n and $which must be either to_be or to_le, depending on
-/// which endianness one wants to use when writing to $dst.
-///
-/// This macro is only safe to call when $ty is a numeric type and $size ==
-/// size_of::<$ty>() and where $dst is a &mut [u8].
-macro_rules! unsafe_write_num_bytes {
- ($ty:ty, $size:expr, $n:expr, $dst:expr, $which:ident) => {{
- assert!($size <= $dst.len());
- unsafe {
- // N.B. https://github.com/rust-lang/rust/issues/22776
- let bytes = *(&$n.$which() as *const _ as *const [u8; $size]);
- copy_nonoverlapping((&bytes).as_ptr(), $dst.as_mut_ptr(), $size);
- }
- }};
-}
-
-/// Copies a &[u8] $src into a &mut [<numeric>] $dst for the endianness given
-/// by $which (must be either to_be or to_le).
-///
-/// This macro is only safe to call when $src and $dst are &[u8] and &mut [u8],
-/// respectively. The macro will panic if $src.len() != $size * $dst.len(),
-/// where $size represents the size of the integers encoded in $src.
-macro_rules! unsafe_read_slice {
- ($src:expr, $dst:expr, $size:expr, $which:ident) => {{
- assert_eq!($src.len(), $size * $dst.len());
-
- unsafe {
- copy_nonoverlapping(
- $src.as_ptr(),
- $dst.as_mut_ptr() as *mut u8,
- $src.len(),
- );
- }
- for v in $dst.iter_mut() {
- *v = v.$which();
- }
- }};
-}
-
-/// Copies a &[$ty] $src into a &mut [u8] $dst, where $ty must be a numeric
-/// type. This panics if size_of::<$ty>() * $src.len() != $dst.len().
-///
-/// This macro is only safe to call when $src is a slice of numeric types and
-/// $dst is a &mut [u8] and where $ty represents the type of the integers in
-/// $src.
-macro_rules! unsafe_write_slice_native {
- ($src:expr, $dst:expr, $ty:ty) => {{
- let size = core::mem::size_of::<$ty>();
- assert_eq!(size * $src.len(), $dst.len());
-
- unsafe {
- copy_nonoverlapping(
- $src.as_ptr() as *const u8,
- $dst.as_mut_ptr(),
- $dst.len(),
- );
- }
- }};
-}
-
-macro_rules! write_slice {
- ($src:expr, $dst:expr, $ty:ty, $size:expr, $write:expr) => {{
- assert!($size == ::core::mem::size_of::<$ty>());
- assert_eq!($size * $src.len(), $dst.len());
-
- for (&n, chunk) in $src.iter().zip($dst.chunks_mut($size)) {
- $write(chunk, n);
- }
- }};
-}
-
-impl ByteOrder for BigEndian {
- #[inline]
- fn read_u16(buf: &[u8]) -> u16 {
- u16::from_be_bytes(buf[..2].try_into().unwrap())
- }
-
- #[inline]
- fn read_u32(buf: &[u8]) -> u32 {
- u32::from_be_bytes(buf[..4].try_into().unwrap())
- }
-
- #[inline]
- fn read_u64(buf: &[u8]) -> u64 {
- u64::from_be_bytes(buf[..8].try_into().unwrap())
- }
-
- #[inline]
- fn read_u128(buf: &[u8]) -> u128 {
- u128::from_be_bytes(buf[..16].try_into().unwrap())
- }
-
- #[inline]
- fn read_uint(buf: &[u8], nbytes: usize) -> u64 {
- assert!(1 <= nbytes && nbytes <= 8 && nbytes <= buf.len());
- let mut out = 0u64;
- let ptr_out = &mut out as *mut u64 as *mut u8;
- unsafe {
- copy_nonoverlapping(
- buf.as_ptr(),
- ptr_out.offset((8 - nbytes) as isize),
- nbytes,
- );
- }
- out.to_be()
- }
-
- #[inline]
- fn read_uint128(buf: &[u8], nbytes: usize) -> u128 {
- assert!(1 <= nbytes && nbytes <= 16 && nbytes <= buf.len());
- let mut out: u128 = 0;
- let ptr_out = &mut out as *mut u128 as *mut u8;
- unsafe {
- copy_nonoverlapping(
- buf.as_ptr(),
- ptr_out.offset((16 - nbytes) as isize),
- nbytes,
- );
- }
- out.to_be()
- }
-
- #[inline]
- fn write_u16(buf: &mut [u8], n: u16) {
- unsafe_write_num_bytes!(u16, 2, n, buf, to_be);
- }
-
- #[inline]
- fn write_u32(buf: &mut [u8], n: u32) {
- unsafe_write_num_bytes!(u32, 4, n, buf, to_be);
- }
-
- #[inline]
- fn write_u64(buf: &mut [u8], n: u64) {
- unsafe_write_num_bytes!(u64, 8, n, buf, to_be);
- }
-
- #[inline]
- fn write_u128(buf: &mut [u8], n: u128) {
- unsafe_write_num_bytes!(u128, 16, n, buf, to_be);
- }
-
- #[inline]
- fn write_uint(buf: &mut [u8], n: u64, nbytes: usize) {
- assert!(pack_size(n) <= nbytes && nbytes <= 8);
- assert!(nbytes <= buf.len());
- unsafe {
- let bytes = *(&n.to_be() as *const u64 as *const [u8; 8]);
- copy_nonoverlapping(
- bytes.as_ptr().offset((8 - nbytes) as isize),
- buf.as_mut_ptr(),
- nbytes,
- );
- }
- }
-
- #[inline]
- fn write_uint128(buf: &mut [u8], n: u128, nbytes: usize) {
- assert!(pack_size128(n) <= nbytes && nbytes <= 16);
- assert!(nbytes <= buf.len());
- unsafe {
- let bytes = *(&n.to_be() as *const u128 as *const [u8; 16]);
- copy_nonoverlapping(
- bytes.as_ptr().offset((16 - nbytes) as isize),
- buf.as_mut_ptr(),
- nbytes,
- );
- }
- }
-
- #[inline]
- fn read_u16_into(src: &[u8], dst: &mut [u16]) {
- unsafe_read_slice!(src, dst, 2, to_be);
- }
-
- #[inline]
- fn read_u32_into(src: &[u8], dst: &mut [u32]) {
- unsafe_read_slice!(src, dst, 4, to_be);
- }
-
- #[inline]
- fn read_u64_into(src: &[u8], dst: &mut [u64]) {
- unsafe_read_slice!(src, dst, 8, to_be);
- }
-
- #[inline]
- fn read_u128_into(src: &[u8], dst: &mut [u128]) {
- unsafe_read_slice!(src, dst, 16, to_be);
- }
-
- #[inline]
- fn write_u16_into(src: &[u16], dst: &mut [u8]) {
- if cfg!(target_endian = "big") {
- unsafe_write_slice_native!(src, dst, u16);
- } else {
- write_slice!(src, dst, u16, 2, Self::write_u16);
- }
- }
-
- #[inline]
- fn write_u32_into(src: &[u32], dst: &mut [u8]) {
- if cfg!(target_endian = "big") {
- unsafe_write_slice_native!(src, dst, u32);
- } else {
- write_slice!(src, dst, u32, 4, Self::write_u32);
- }
- }
-
- #[inline]
- fn write_u64_into(src: &[u64], dst: &mut [u8]) {
- if cfg!(target_endian = "big") {
- unsafe_write_slice_native!(src, dst, u64);
- } else {
- write_slice!(src, dst, u64, 8, Self::write_u64);
- }
- }
-
- #[inline]
- fn write_u128_into(src: &[u128], dst: &mut [u8]) {
- if cfg!(target_endian = "big") {
- unsafe_write_slice_native!(src, dst, u128);
- } else {
- write_slice!(src, dst, u128, 16, Self::write_u128);
- }
- }
-
- #[inline]
- fn from_slice_u16(numbers: &mut [u16]) {
- if cfg!(target_endian = "little") {
- for n in numbers {
- *n = n.to_be();
- }
- }
- }
-
- #[inline]
- fn from_slice_u32(numbers: &mut [u32]) {
- if cfg!(target_endian = "little") {
- for n in numbers {
- *n = n.to_be();
- }
- }
- }
-
- #[inline]
- fn from_slice_u64(numbers: &mut [u64]) {
- if cfg!(target_endian = "little") {
- for n in numbers {
- *n = n.to_be();
- }
- }
- }
-
- #[inline]
- fn from_slice_u128(numbers: &mut [u128]) {
- if cfg!(target_endian = "little") {
- for n in numbers {
- *n = n.to_be();
- }
- }
- }
-
- #[inline]
- fn from_slice_f32(numbers: &mut [f32]) {
- if cfg!(target_endian = "little") {
- for n in numbers {
- unsafe {
- let int = *(n as *const f32 as *const u32);
- *n = *(&int.to_be() as *const u32 as *const f32);
- }
- }
- }
- }
-
- #[inline]
- fn from_slice_f64(numbers: &mut [f64]) {
- if cfg!(target_endian = "little") {
- for n in numbers {
- unsafe {
- let int = *(n as *const f64 as *const u64);
- *n = *(&int.to_be() as *const u64 as *const f64);
- }
- }
- }
- }
-}
-
-impl ByteOrder for LittleEndian {
- #[inline]
- fn read_u16(buf: &[u8]) -> u16 {
- u16::from_le_bytes(buf[..2].try_into().unwrap())
- }
-
- #[inline]
- fn read_u32(buf: &[u8]) -> u32 {
- u32::from_le_bytes(buf[..4].try_into().unwrap())
- }
-
- #[inline]
- fn read_u64(buf: &[u8]) -> u64 {
- u64::from_le_bytes(buf[..8].try_into().unwrap())
- }
-
- #[inline]
- fn read_u128(buf: &[u8]) -> u128 {
- u128::from_le_bytes(buf[..16].try_into().unwrap())
- }
-
- #[inline]
- fn read_uint(buf: &[u8], nbytes: usize) -> u64 {
- assert!(1 <= nbytes && nbytes <= 8 && nbytes <= buf.len());
- let mut out = 0u64;
- let ptr_out = &mut out as *mut u64 as *mut u8;
- unsafe {
- copy_nonoverlapping(buf.as_ptr(), ptr_out, nbytes);
- }
- out.to_le()
- }
-
- #[inline]
- fn read_uint128(buf: &[u8], nbytes: usize) -> u128 {
- assert!(1 <= nbytes && nbytes <= 16 && nbytes <= buf.len());
- let mut out: u128 = 0;
- let ptr_out = &mut out as *mut u128 as *mut u8;
- unsafe {
- copy_nonoverlapping(buf.as_ptr(), ptr_out, nbytes);
- }
- out.to_le()
- }
-
- #[inline]
- fn write_u16(buf: &mut [u8], n: u16) {
- unsafe_write_num_bytes!(u16, 2, n, buf, to_le);
- }
-
- #[inline]
- fn write_u32(buf: &mut [u8], n: u32) {
- unsafe_write_num_bytes!(u32, 4, n, buf, to_le);
- }
-
- #[inline]
- fn write_u64(buf: &mut [u8], n: u64) {
- unsafe_write_num_bytes!(u64, 8, n, buf, to_le);
- }
-
- #[inline]
- fn write_u128(buf: &mut [u8], n: u128) {
- unsafe_write_num_bytes!(u128, 16, n, buf, to_le);
- }
-
- #[inline]
- fn write_uint(buf: &mut [u8], n: u64, nbytes: usize) {
- assert!(pack_size(n as u64) <= nbytes && nbytes <= 8);
- assert!(nbytes <= buf.len());
- unsafe {
- let bytes = *(&n.to_le() as *const u64 as *const [u8; 8]);
- copy_nonoverlapping(bytes.as_ptr(), buf.as_mut_ptr(), nbytes);
- }
- }
-
- #[inline]
- fn write_uint128(buf: &mut [u8], n: u128, nbytes: usize) {
- assert!(pack_size128(n as u128) <= nbytes && nbytes <= 16);
- assert!(nbytes <= buf.len());
- unsafe {
- let bytes = *(&n.to_le() as *const u128 as *const [u8; 16]);
- copy_nonoverlapping(bytes.as_ptr(), buf.as_mut_ptr(), nbytes);
- }
- }
-
- #[inline]
- fn read_u16_into(src: &[u8], dst: &mut [u16]) {
- unsafe_read_slice!(src, dst, 2, to_le);
- }
-
- #[inline]
- fn read_u32_into(src: &[u8], dst: &mut [u32]) {
- unsafe_read_slice!(src, dst, 4, to_le);
- }
-
- #[inline]
- fn read_u64_into(src: &[u8], dst: &mut [u64]) {
- unsafe_read_slice!(src, dst, 8, to_le);
- }
-
- #[inline]
- fn read_u128_into(src: &[u8], dst: &mut [u128]) {
- unsafe_read_slice!(src, dst, 16, to_le);
- }
-
- #[inline]
- fn write_u16_into(src: &[u16], dst: &mut [u8]) {
- if cfg!(target_endian = "little") {
- unsafe_write_slice_native!(src, dst, u16);
- } else {
- write_slice!(src, dst, u16, 2, Self::write_u16);
- }
- }
-
- #[inline]
- fn write_u32_into(src: &[u32], dst: &mut [u8]) {
- if cfg!(target_endian = "little") {
- unsafe_write_slice_native!(src, dst, u32);
- } else {
- write_slice!(src, dst, u32, 4, Self::write_u32);
- }
- }
-
- #[inline]
- fn write_u64_into(src: &[u64], dst: &mut [u8]) {
- if cfg!(target_endian = "little") {
- unsafe_write_slice_native!(src, dst, u64);
- } else {
- write_slice!(src, dst, u64, 8, Self::write_u64);
- }
- }
-
- #[inline]
- fn write_u128_into(src: &[u128], dst: &mut [u8]) {
- if cfg!(target_endian = "little") {
- unsafe_write_slice_native!(src, dst, u128);
- } else {
- write_slice!(src, dst, u128, 16, Self::write_u128);
- }
- }
-
- #[inline]
- fn from_slice_u16(numbers: &mut [u16]) {
- if cfg!(target_endian = "big") {
- for n in numbers {
- *n = n.to_le();
- }
- }
- }
-
- #[inline]
- fn from_slice_u32(numbers: &mut [u32]) {
- if cfg!(target_endian = "big") {
- for n in numbers {
- *n = n.to_le();
- }
- }
- }
-
- #[inline]
- fn from_slice_u64(numbers: &mut [u64]) {
- if cfg!(target_endian = "big") {
- for n in numbers {
- *n = n.to_le();
- }
- }
- }
-
- #[inline]
- fn from_slice_u128(numbers: &mut [u128]) {
- if cfg!(target_endian = "big") {
- for n in numbers {
- *n = n.to_le();
- }
- }
- }
-
- #[inline]
- fn from_slice_f32(numbers: &mut [f32]) {
- if cfg!(target_endian = "big") {
- for n in numbers {
- unsafe {
- let int = *(n as *const f32 as *const u32);
- *n = *(&int.to_le() as *const u32 as *const f32);
- }
- }
- }
- }
-
- #[inline]
- fn from_slice_f64(numbers: &mut [f64]) {
- if cfg!(target_endian = "big") {
- for n in numbers {
- unsafe {
- let int = *(n as *const f64 as *const u64);
- *n = *(&int.to_le() as *const u64 as *const f64);
- }
- }
- }
- }
-}
-
-#[cfg(test)]
-mod test {
- use quickcheck::{Arbitrary, Gen, QuickCheck, StdGen, Testable};
- use rand::{thread_rng, Rng};
-
- pub const U24_MAX: u32 = 16_777_215;
- pub const I24_MAX: i32 = 8_388_607;
- pub const U48_MAX: u64 = 281_474_976_710_655;
- pub const I48_MAX: i64 = 140_737_488_355_327;
-
- pub const U64_MAX: u64 = ::core::u64::MAX;
- pub const I64_MAX: u64 = ::core::i64::MAX as u64;
-
- macro_rules! calc_max {
- ($max:expr, $bytes:expr) => {
- calc_max!($max, $bytes, 8)
- };
- ($max:expr, $bytes:expr, $maxbytes:expr) => {
- ($max - 1) >> (8 * ($maxbytes - $bytes))
- };
- }
-
- #[derive(Clone, Debug)]
- pub struct Wi128<T>(pub T);
-
- impl<T: Clone> Wi128<T> {
- pub fn clone(&self) -> T {
- self.0.clone()
- }
- }
-
- impl<T: PartialEq> PartialEq<T> for Wi128<T> {
- fn eq(&self, other: &T) -> bool {
- self.0.eq(other)
- }
- }
-
- impl Arbitrary for Wi128<u128> {
- fn arbitrary<G: Gen>(gen: &mut G) -> Wi128<u128> {
- let max = calc_max!(::core::u128::MAX, gen.size(), 16);
- let output = (gen.gen::<u64>() as u128)
- | ((gen.gen::<u64>() as u128) << 64);
- Wi128(output & (max - 1))
- }
- }
-
- impl Arbitrary for Wi128<i128> {
- fn arbitrary<G: Gen>(gen: &mut G) -> Wi128<i128> {
- let max = calc_max!(::core::i128::MAX, gen.size(), 16);
- let output = (gen.gen::<i64>() as i128)
- | ((gen.gen::<i64>() as i128) << 64);
- Wi128(output & (max - 1))
- }
- }
-
- pub fn qc_sized<A: Testable>(f: A, size: u64) {
- QuickCheck::new()
- .gen(StdGen::new(thread_rng(), size as usize))
- .tests(1_00)
- .max_tests(10_000)
- .quickcheck(f);
- }
-
- macro_rules! qc_byte_order {
- ($name:ident, $ty_int:ty, $max:expr,
- $bytes:expr, $read:ident, $write:ident) => {
- mod $name {
- #[allow(unused_imports)]
- use super::{qc_sized, Wi128};
- use crate::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
-
- #[test]
- fn big_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut buf = [0; 16];
- BigEndian::$write(&mut buf, n.clone(), $bytes);
- n == BigEndian::$read(&buf[..$bytes], $bytes)
- }
- qc_sized(prop as fn($ty_int) -> bool, $max);
- }
-
- #[test]
- fn little_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut buf = [0; 16];
- LittleEndian::$write(&mut buf, n.clone(), $bytes);
- n == LittleEndian::$read(&buf[..$bytes], $bytes)
- }
- qc_sized(prop as fn($ty_int) -> bool, $max);
- }
-
- #[test]
- fn native_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut buf = [0; 16];
- NativeEndian::$write(&mut buf, n.clone(), $bytes);
- n == NativeEndian::$read(&buf[..$bytes], $bytes)
- }
- qc_sized(prop as fn($ty_int) -> bool, $max);
- }
- }
- };
- ($name:ident, $ty_int:ty, $max:expr,
- $read:ident, $write:ident) => {
- mod $name {
- #[allow(unused_imports)]
- use super::{qc_sized, Wi128};
- use crate::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
- use core::mem::size_of;
-
- #[test]
- fn big_endian() {
- fn prop(n: $ty_int) -> bool {
- let bytes = size_of::<$ty_int>();
- let mut buf = [0; 16];
- BigEndian::$write(&mut buf[16 - bytes..], n.clone());
- n == BigEndian::$read(&buf[16 - bytes..])
- }
- qc_sized(prop as fn($ty_int) -> bool, $max - 1);
- }
-
- #[test]
- fn little_endian() {
- fn prop(n: $ty_int) -> bool {
- let bytes = size_of::<$ty_int>();
- let mut buf = [0; 16];
- LittleEndian::$write(&mut buf[..bytes], n.clone());
- n == LittleEndian::$read(&buf[..bytes])
- }
- qc_sized(prop as fn($ty_int) -> bool, $max - 1);
- }
-
- #[test]
- fn native_endian() {
- fn prop(n: $ty_int) -> bool {
- let bytes = size_of::<$ty_int>();
- let mut buf = [0; 16];
- NativeEndian::$write(&mut buf[..bytes], n.clone());
- n == NativeEndian::$read(&buf[..bytes])
- }
- qc_sized(prop as fn($ty_int) -> bool, $max - 1);
- }
- }
- };
- }
-
- qc_byte_order!(
- prop_u16,
- u16,
- ::core::u16::MAX as u64,
- read_u16,
- write_u16
- );
- qc_byte_order!(
- prop_i16,
- i16,
- ::core::i16::MAX as u64,
- read_i16,
- write_i16
- );
- qc_byte_order!(
- prop_u24,
- u32,
- crate::test::U24_MAX as u64,
- read_u24,
- write_u24
- );
- qc_byte_order!(
- prop_i24,
- i32,
- crate::test::I24_MAX as u64,
- read_i24,
- write_i24
- );
- qc_byte_order!(
- prop_u32,
- u32,
- ::core::u32::MAX as u64,
- read_u32,
- write_u32
- );
- qc_byte_order!(
- prop_i32,
- i32,
- ::core::i32::MAX as u64,
- read_i32,
- write_i32
- );
- qc_byte_order!(
- prop_u48,
- u64,
- crate::test::U48_MAX as u64,
- read_u48,
- write_u48
- );
- qc_byte_order!(
- prop_i48,
- i64,
- crate::test::I48_MAX as u64,
- read_i48,
- write_i48
- );
- qc_byte_order!(
- prop_u64,
- u64,
- ::core::u64::MAX as u64,
- read_u64,
- write_u64
- );
- qc_byte_order!(
- prop_i64,
- i64,
- ::core::i64::MAX as u64,
- read_i64,
- write_i64
- );
- qc_byte_order!(
- prop_f32,
- f32,
- ::core::u64::MAX as u64,
- read_f32,
- write_f32
- );
- qc_byte_order!(
- prop_f64,
- f64,
- ::core::i64::MAX as u64,
- read_f64,
- write_f64
- );
-
- qc_byte_order!(prop_u128, Wi128<u128>, 16 + 1, read_u128, write_u128);
- qc_byte_order!(prop_i128, Wi128<i128>, 16 + 1, read_i128, write_i128);
-
- qc_byte_order!(
- prop_uint_1,
- u64,
- calc_max!(super::U64_MAX, 1),
- 1,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_2,
- u64,
- calc_max!(super::U64_MAX, 2),
- 2,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_3,
- u64,
- calc_max!(super::U64_MAX, 3),
- 3,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_4,
- u64,
- calc_max!(super::U64_MAX, 4),
- 4,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_5,
- u64,
- calc_max!(super::U64_MAX, 5),
- 5,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_6,
- u64,
- calc_max!(super::U64_MAX, 6),
- 6,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_7,
- u64,
- calc_max!(super::U64_MAX, 7),
- 7,
- read_uint,
- write_uint
- );
- qc_byte_order!(
- prop_uint_8,
- u64,
- calc_max!(super::U64_MAX, 8),
- 8,
- read_uint,
- write_uint
- );
-
- qc_byte_order!(
- prop_uint128_1,
- Wi128<u128>,
- 1,
- 1,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_2,
- Wi128<u128>,
- 2,
- 2,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_3,
- Wi128<u128>,
- 3,
- 3,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_4,
- Wi128<u128>,
- 4,
- 4,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_5,
- Wi128<u128>,
- 5,
- 5,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_6,
- Wi128<u128>,
- 6,
- 6,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_7,
- Wi128<u128>,
- 7,
- 7,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_8,
- Wi128<u128>,
- 8,
- 8,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_9,
- Wi128<u128>,
- 9,
- 9,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_10,
- Wi128<u128>,
- 10,
- 10,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_11,
- Wi128<u128>,
- 11,
- 11,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_12,
- Wi128<u128>,
- 12,
- 12,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_13,
- Wi128<u128>,
- 13,
- 13,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_14,
- Wi128<u128>,
- 14,
- 14,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_15,
- Wi128<u128>,
- 15,
- 15,
- read_uint128,
- write_uint128
- );
- qc_byte_order!(
- prop_uint128_16,
- Wi128<u128>,
- 16,
- 16,
- read_uint128,
- write_uint128
- );
-
- qc_byte_order!(
- prop_int_1,
- i64,
- calc_max!(super::I64_MAX, 1),
- 1,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_2,
- i64,
- calc_max!(super::I64_MAX, 2),
- 2,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_3,
- i64,
- calc_max!(super::I64_MAX, 3),
- 3,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_4,
- i64,
- calc_max!(super::I64_MAX, 4),
- 4,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_5,
- i64,
- calc_max!(super::I64_MAX, 5),
- 5,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_6,
- i64,
- calc_max!(super::I64_MAX, 6),
- 6,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_7,
- i64,
- calc_max!(super::I64_MAX, 7),
- 7,
- read_int,
- write_int
- );
- qc_byte_order!(
- prop_int_8,
- i64,
- calc_max!(super::I64_MAX, 8),
- 8,
- read_int,
- write_int
- );
-
- qc_byte_order!(
- prop_int128_1,
- Wi128<i128>,
- 1,
- 1,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_2,
- Wi128<i128>,
- 2,
- 2,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_3,
- Wi128<i128>,
- 3,
- 3,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_4,
- Wi128<i128>,
- 4,
- 4,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_5,
- Wi128<i128>,
- 5,
- 5,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_6,
- Wi128<i128>,
- 6,
- 6,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_7,
- Wi128<i128>,
- 7,
- 7,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_8,
- Wi128<i128>,
- 8,
- 8,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_9,
- Wi128<i128>,
- 9,
- 9,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_10,
- Wi128<i128>,
- 10,
- 10,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_11,
- Wi128<i128>,
- 11,
- 11,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_12,
- Wi128<i128>,
- 12,
- 12,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_13,
- Wi128<i128>,
- 13,
- 13,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_14,
- Wi128<i128>,
- 14,
- 14,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_15,
- Wi128<i128>,
- 15,
- 15,
- read_int128,
- write_int128
- );
- qc_byte_order!(
- prop_int128_16,
- Wi128<i128>,
- 16,
- 16,
- read_int128,
- write_int128
- );
-
- // Test that all of the byte conversion functions panic when given a
- // buffer that is too small.
- //
- // These tests are critical to ensure safety, otherwise we might end up
- // with a buffer overflow.
- macro_rules! too_small {
- ($name:ident, $maximally_small:expr, $zero:expr,
- $read:ident, $write:ident) => {
- mod $name {
- use crate::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
-
- #[test]
- #[should_panic]
- fn read_big_endian() {
- let buf = [0; $maximally_small];
- BigEndian::$read(&buf);
- }
-
- #[test]
- #[should_panic]
- fn read_little_endian() {
- let buf = [0; $maximally_small];
- LittleEndian::$read(&buf);
- }
-
- #[test]
- #[should_panic]
- fn read_native_endian() {
- let buf = [0; $maximally_small];
- NativeEndian::$read(&buf);
- }
-
- #[test]
- #[should_panic]
- fn write_big_endian() {
- let mut buf = [0; $maximally_small];
- BigEndian::$write(&mut buf, $zero);
- }
-
- #[test]
- #[should_panic]
- fn write_little_endian() {
- let mut buf = [0; $maximally_small];
- LittleEndian::$write(&mut buf, $zero);
- }
-
- #[test]
- #[should_panic]
- fn write_native_endian() {
- let mut buf = [0; $maximally_small];
- NativeEndian::$write(&mut buf, $zero);
- }
- }
- };
- ($name:ident, $maximally_small:expr, $read:ident) => {
- mod $name {
- use crate::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
-
- #[test]
- #[should_panic]
- fn read_big_endian() {
- let buf = [0; $maximally_small];
- BigEndian::$read(&buf, $maximally_small + 1);
- }
-
- #[test]
- #[should_panic]
- fn read_little_endian() {
- let buf = [0; $maximally_small];
- LittleEndian::$read(&buf, $maximally_small + 1);
- }
-
- #[test]
- #[should_panic]
- fn read_native_endian() {
- let buf = [0; $maximally_small];
- NativeEndian::$read(&buf, $maximally_small + 1);
- }
- }
- };
- }
-
- too_small!(small_u16, 1, 0, read_u16, write_u16);
- too_small!(small_i16, 1, 0, read_i16, write_i16);
- too_small!(small_u32, 3, 0, read_u32, write_u32);
- too_small!(small_i32, 3, 0, read_i32, write_i32);
- too_small!(small_u64, 7, 0, read_u64, write_u64);
- too_small!(small_i64, 7, 0, read_i64, write_i64);
- too_small!(small_f32, 3, 0.0, read_f32, write_f32);
- too_small!(small_f64, 7, 0.0, read_f64, write_f64);
- too_small!(small_u128, 15, 0, read_u128, write_u128);
- too_small!(small_i128, 15, 0, read_i128, write_i128);
-
- too_small!(small_uint_1, 1, read_uint);
- too_small!(small_uint_2, 2, read_uint);
- too_small!(small_uint_3, 3, read_uint);
- too_small!(small_uint_4, 4, read_uint);
- too_small!(small_uint_5, 5, read_uint);
- too_small!(small_uint_6, 6, read_uint);
- too_small!(small_uint_7, 7, read_uint);
-
- too_small!(small_uint128_1, 1, read_uint128);
- too_small!(small_uint128_2, 2, read_uint128);
- too_small!(small_uint128_3, 3, read_uint128);
- too_small!(small_uint128_4, 4, read_uint128);
- too_small!(small_uint128_5, 5, read_uint128);
- too_small!(small_uint128_6, 6, read_uint128);
- too_small!(small_uint128_7, 7, read_uint128);
- too_small!(small_uint128_8, 8, read_uint128);
- too_small!(small_uint128_9, 9, read_uint128);
- too_small!(small_uint128_10, 10, read_uint128);
- too_small!(small_uint128_11, 11, read_uint128);
- too_small!(small_uint128_12, 12, read_uint128);
- too_small!(small_uint128_13, 13, read_uint128);
- too_small!(small_uint128_14, 14, read_uint128);
- too_small!(small_uint128_15, 15, read_uint128);
-
- too_small!(small_int_1, 1, read_int);
- too_small!(small_int_2, 2, read_int);
- too_small!(small_int_3, 3, read_int);
- too_small!(small_int_4, 4, read_int);
- too_small!(small_int_5, 5, read_int);
- too_small!(small_int_6, 6, read_int);
- too_small!(small_int_7, 7, read_int);
-
- too_small!(small_int128_1, 1, read_int128);
- too_small!(small_int128_2, 2, read_int128);
- too_small!(small_int128_3, 3, read_int128);
- too_small!(small_int128_4, 4, read_int128);
- too_small!(small_int128_5, 5, read_int128);
- too_small!(small_int128_6, 6, read_int128);
- too_small!(small_int128_7, 7, read_int128);
- too_small!(small_int128_8, 8, read_int128);
- too_small!(small_int128_9, 9, read_int128);
- too_small!(small_int128_10, 10, read_int128);
- too_small!(small_int128_11, 11, read_int128);
- too_small!(small_int128_12, 12, read_int128);
- too_small!(small_int128_13, 13, read_int128);
- too_small!(small_int128_14, 14, read_int128);
- too_small!(small_int128_15, 15, read_int128);
-
- // Test that reading/writing slices enforces the correct lengths.
- macro_rules! slice_lengths {
- ($name:ident, $read:ident, $write:ident,
- $num_bytes:expr, $numbers:expr) => {
- mod $name {
- use crate::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
-
- #[test]
- #[should_panic]
- fn read_big_endian() {
- let bytes = [0; $num_bytes];
- let mut numbers = $numbers;
- BigEndian::$read(&bytes, &mut numbers);
- }
-
- #[test]
- #[should_panic]
- fn read_little_endian() {
- let bytes = [0; $num_bytes];
- let mut numbers = $numbers;
- LittleEndian::$read(&bytes, &mut numbers);
- }
-
- #[test]
- #[should_panic]
- fn read_native_endian() {
- let bytes = [0; $num_bytes];
- let mut numbers = $numbers;
- NativeEndian::$read(&bytes, &mut numbers);
- }
-
- #[test]
- #[should_panic]
- fn write_big_endian() {
- let mut bytes = [0; $num_bytes];
- let numbers = $numbers;
- BigEndian::$write(&numbers, &mut bytes);
- }
-
- #[test]
- #[should_panic]
- fn write_little_endian() {
- let mut bytes = [0; $num_bytes];
- let numbers = $numbers;
- LittleEndian::$write(&numbers, &mut bytes);
- }
-
- #[test]
- #[should_panic]
- fn write_native_endian() {
- let mut bytes = [0; $num_bytes];
- let numbers = $numbers;
- NativeEndian::$write(&numbers, &mut bytes);
- }
- }
- };
- }
-
- slice_lengths!(
- slice_len_too_small_u16,
- read_u16_into,
- write_u16_into,
- 3,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_u16,
- read_u16_into,
- write_u16_into,
- 5,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_small_i16,
- read_i16_into,
- write_i16_into,
- 3,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_i16,
- read_i16_into,
- write_i16_into,
- 5,
- [0, 0]
- );
-
- slice_lengths!(
- slice_len_too_small_u32,
- read_u32_into,
- write_u32_into,
- 7,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_u32,
- read_u32_into,
- write_u32_into,
- 9,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_small_i32,
- read_i32_into,
- write_i32_into,
- 7,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_i32,
- read_i32_into,
- write_i32_into,
- 9,
- [0, 0]
- );
-
- slice_lengths!(
- slice_len_too_small_u64,
- read_u64_into,
- write_u64_into,
- 15,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_u64,
- read_u64_into,
- write_u64_into,
- 17,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_small_i64,
- read_i64_into,
- write_i64_into,
- 15,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_i64,
- read_i64_into,
- write_i64_into,
- 17,
- [0, 0]
- );
-
- slice_lengths!(
- slice_len_too_small_u128,
- read_u128_into,
- write_u128_into,
- 31,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_u128,
- read_u128_into,
- write_u128_into,
- 33,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_small_i128,
- read_i128_into,
- write_i128_into,
- 31,
- [0, 0]
- );
- slice_lengths!(
- slice_len_too_big_i128,
- read_i128_into,
- write_i128_into,
- 33,
- [0, 0]
- );
-
- #[test]
- fn uint_bigger_buffer() {
- use crate::{ByteOrder, LittleEndian};
- let n = LittleEndian::read_uint(&[1, 2, 3, 4, 5, 6, 7, 8], 5);
- assert_eq!(n, 0x05_0403_0201);
- }
-
- #[test]
- fn regression173_array_impl() {
- use crate::{BigEndian, ByteOrder, LittleEndian};
-
- let xs = [0; 100];
-
- let x = BigEndian::read_u16(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_u32(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_u64(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_u128(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_i16(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_i32(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_i64(&xs);
- assert_eq!(x, 0);
- let x = BigEndian::read_i128(&xs);
- assert_eq!(x, 0);
-
- let x = LittleEndian::read_u16(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_u32(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_u64(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_u128(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_i16(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_i32(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_i64(&xs);
- assert_eq!(x, 0);
- let x = LittleEndian::read_i128(&xs);
- assert_eq!(x, 0);
- }
-}
-
-#[cfg(test)]
-#[cfg(feature = "std")]
-mod stdtests {
- extern crate quickcheck;
- extern crate rand;
-
- use self::quickcheck::{QuickCheck, StdGen, Testable};
- use self::rand::thread_rng;
-
- fn qc_unsized<A: Testable>(f: A) {
- QuickCheck::new()
- .gen(StdGen::new(thread_rng(), 16))
- .tests(1_00)
- .max_tests(10_000)
- .quickcheck(f);
- }
-
- macro_rules! calc_max {
- ($max:expr, $bytes:expr) => {
- ($max - 1) >> (8 * (8 - $bytes))
- };
- }
-
- macro_rules! qc_bytes_ext {
- ($name:ident, $ty_int:ty, $max:expr,
- $bytes:expr, $read:ident, $write:ident) => {
- mod $name {
- #[allow(unused_imports)]
- use crate::test::{qc_sized, Wi128};
- use crate::{
- BigEndian, LittleEndian, NativeEndian, ReadBytesExt,
- WriteBytesExt,
- };
- use std::io::Cursor;
-
- #[test]
- fn big_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut wtr = vec![];
- wtr.$write::<BigEndian>(n.clone()).unwrap();
- let offset = wtr.len() - $bytes;
- let mut rdr = Cursor::new(&mut wtr[offset..]);
- n == rdr.$read::<BigEndian>($bytes).unwrap()
- }
- qc_sized(prop as fn($ty_int) -> bool, $max);
- }
-
- #[test]
- fn little_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut wtr = vec![];
- wtr.$write::<LittleEndian>(n.clone()).unwrap();
- let mut rdr = Cursor::new(wtr);
- n == rdr.$read::<LittleEndian>($bytes).unwrap()
- }
- qc_sized(prop as fn($ty_int) -> bool, $max);
- }
-
- #[test]
- fn native_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut wtr = vec![];
- wtr.$write::<NativeEndian>(n.clone()).unwrap();
- let offset = if cfg!(target_endian = "big") {
- wtr.len() - $bytes
- } else {
- 0
- };
- let mut rdr = Cursor::new(&mut wtr[offset..]);
- n == rdr.$read::<NativeEndian>($bytes).unwrap()
- }
- qc_sized(prop as fn($ty_int) -> bool, $max);
- }
- }
- };
- ($name:ident, $ty_int:ty, $max:expr, $read:ident, $write:ident) => {
- mod $name {
- #[allow(unused_imports)]
- use crate::test::{qc_sized, Wi128};
- use crate::{
- BigEndian, LittleEndian, NativeEndian, ReadBytesExt,
- WriteBytesExt,
- };
- use std::io::Cursor;
-
- #[test]
- fn big_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut wtr = vec![];
- wtr.$write::<BigEndian>(n.clone()).unwrap();
- let mut rdr = Cursor::new(wtr);
- n == rdr.$read::<BigEndian>().unwrap()
- }
- qc_sized(prop as fn($ty_int) -> bool, $max - 1);
- }
-
- #[test]
- fn little_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut wtr = vec![];
- wtr.$write::<LittleEndian>(n.clone()).unwrap();
- let mut rdr = Cursor::new(wtr);
- n == rdr.$read::<LittleEndian>().unwrap()
- }
- qc_sized(prop as fn($ty_int) -> bool, $max - 1);
- }
-
- #[test]
- fn native_endian() {
- fn prop(n: $ty_int) -> bool {
- let mut wtr = vec![];
- wtr.$write::<NativeEndian>(n.clone()).unwrap();
- let mut rdr = Cursor::new(wtr);
- n == rdr.$read::<NativeEndian>().unwrap()
- }
- qc_sized(prop as fn($ty_int) -> bool, $max - 1);
- }
- }
- };
- }
-
- qc_bytes_ext!(
- prop_ext_u16,
- u16,
- ::std::u16::MAX as u64,
- read_u16,
- write_u16
- );
- qc_bytes_ext!(
- prop_ext_i16,
- i16,
- ::std::i16::MAX as u64,
- read_i16,
- write_i16
- );
- qc_bytes_ext!(
- prop_ext_u32,
- u32,
- ::std::u32::MAX as u64,
- read_u32,
- write_u32
- );
- qc_bytes_ext!(
- prop_ext_i32,
- i32,
- ::std::i32::MAX as u64,
- read_i32,
- write_i32
- );
- qc_bytes_ext!(
- prop_ext_u64,
- u64,
- ::std::u64::MAX as u64,
- read_u64,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_i64,
- i64,
- ::std::i64::MAX as u64,
- read_i64,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_f32,
- f32,
- ::std::u64::MAX as u64,
- read_f32,
- write_f32
- );
- qc_bytes_ext!(
- prop_ext_f64,
- f64,
- ::std::i64::MAX as u64,
- read_f64,
- write_f64
- );
-
- qc_bytes_ext!(prop_ext_u128, Wi128<u128>, 16 + 1, read_u128, write_u128);
- qc_bytes_ext!(prop_ext_i128, Wi128<i128>, 16 + 1, read_i128, write_i128);
-
- qc_bytes_ext!(
- prop_ext_uint_1,
- u64,
- calc_max!(crate::test::U64_MAX, 1),
- 1,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_2,
- u64,
- calc_max!(crate::test::U64_MAX, 2),
- 2,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_3,
- u64,
- calc_max!(crate::test::U64_MAX, 3),
- 3,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_4,
- u64,
- calc_max!(crate::test::U64_MAX, 4),
- 4,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_5,
- u64,
- calc_max!(crate::test::U64_MAX, 5),
- 5,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_6,
- u64,
- calc_max!(crate::test::U64_MAX, 6),
- 6,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_7,
- u64,
- calc_max!(crate::test::U64_MAX, 7),
- 7,
- read_uint,
- write_u64
- );
- qc_bytes_ext!(
- prop_ext_uint_8,
- u64,
- calc_max!(crate::test::U64_MAX, 8),
- 8,
- read_uint,
- write_u64
- );
-
- qc_bytes_ext!(
- prop_ext_uint128_1,
- Wi128<u128>,
- 1,
- 1,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_2,
- Wi128<u128>,
- 2,
- 2,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_3,
- Wi128<u128>,
- 3,
- 3,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_4,
- Wi128<u128>,
- 4,
- 4,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_5,
- Wi128<u128>,
- 5,
- 5,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_6,
- Wi128<u128>,
- 6,
- 6,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_7,
- Wi128<u128>,
- 7,
- 7,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_8,
- Wi128<u128>,
- 8,
- 8,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_9,
- Wi128<u128>,
- 9,
- 9,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_10,
- Wi128<u128>,
- 10,
- 10,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_11,
- Wi128<u128>,
- 11,
- 11,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_12,
- Wi128<u128>,
- 12,
- 12,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_13,
- Wi128<u128>,
- 13,
- 13,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_14,
- Wi128<u128>,
- 14,
- 14,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_15,
- Wi128<u128>,
- 15,
- 15,
- read_uint128,
- write_u128
- );
- qc_bytes_ext!(
- prop_ext_uint128_16,
- Wi128<u128>,
- 16,
- 16,
- read_uint128,
- write_u128
- );
-
- qc_bytes_ext!(
- prop_ext_int_1,
- i64,
- calc_max!(crate::test::I64_MAX, 1),
- 1,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_2,
- i64,
- calc_max!(crate::test::I64_MAX, 2),
- 2,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_3,
- i64,
- calc_max!(crate::test::I64_MAX, 3),
- 3,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_4,
- i64,
- calc_max!(crate::test::I64_MAX, 4),
- 4,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_5,
- i64,
- calc_max!(crate::test::I64_MAX, 5),
- 5,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_6,
- i64,
- calc_max!(crate::test::I64_MAX, 6),
- 6,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_7,
- i64,
- calc_max!(crate::test::I64_MAX, 1),
- 7,
- read_int,
- write_i64
- );
- qc_bytes_ext!(
- prop_ext_int_8,
- i64,
- calc_max!(crate::test::I64_MAX, 8),
- 8,
- read_int,
- write_i64
- );
-
- qc_bytes_ext!(
- prop_ext_int128_1,
- Wi128<i128>,
- 1,
- 1,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_2,
- Wi128<i128>,
- 2,
- 2,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_3,
- Wi128<i128>,
- 3,
- 3,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_4,
- Wi128<i128>,
- 4,
- 4,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_5,
- Wi128<i128>,
- 5,
- 5,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_6,
- Wi128<i128>,
- 6,
- 6,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_7,
- Wi128<i128>,
- 7,
- 7,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_8,
- Wi128<i128>,
- 8,
- 8,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_9,
- Wi128<i128>,
- 9,
- 9,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_10,
- Wi128<i128>,
- 10,
- 10,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_11,
- Wi128<i128>,
- 11,
- 11,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_12,
- Wi128<i128>,
- 12,
- 12,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_13,
- Wi128<i128>,
- 13,
- 13,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_14,
- Wi128<i128>,
- 14,
- 14,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_15,
- Wi128<i128>,
- 15,
- 15,
- read_int128,
- write_i128
- );
- qc_bytes_ext!(
- prop_ext_int128_16,
- Wi128<i128>,
- 16,
- 16,
- read_int128,
- write_i128
- );
-
- // Test slice serialization/deserialization.
- macro_rules! qc_slice {
- ($name:ident, $ty_int:ty, $read:ident, $write:ident, $zero:expr) => {
- mod $name {
- use super::qc_unsized;
- #[allow(unused_imports)]
- use crate::test::Wi128;
- use crate::{
- BigEndian, ByteOrder, LittleEndian, NativeEndian,
- };
- use core::mem::size_of;
-
- #[test]
- fn big_endian() {
- #[allow(unused_unsafe)]
- fn prop(numbers: Vec<$ty_int>) -> bool {
- let numbers: Vec<_> =
- numbers.into_iter().map(|x| x.clone()).collect();
- let num_bytes = size_of::<$ty_int>() * numbers.len();
- let mut bytes = vec![0; num_bytes];
-
- BigEndian::$write(&numbers, &mut bytes);
-
- let mut got = vec![$zero; numbers.len()];
- unsafe {
- BigEndian::$read(&bytes, &mut got);
- }
-
- numbers == got
- }
- qc_unsized(prop as fn(_) -> bool);
- }
-
- #[test]
- fn little_endian() {
- #[allow(unused_unsafe)]
- fn prop(numbers: Vec<$ty_int>) -> bool {
- let numbers: Vec<_> =
- numbers.into_iter().map(|x| x.clone()).collect();
- let num_bytes = size_of::<$ty_int>() * numbers.len();
- let mut bytes = vec![0; num_bytes];
-
- LittleEndian::$write(&numbers, &mut bytes);
-
- let mut got = vec![$zero; numbers.len()];
- unsafe {
- LittleEndian::$read(&bytes, &mut got);
- }
-
- numbers == got
- }
- qc_unsized(prop as fn(_) -> bool);
- }
-
- #[test]
- fn native_endian() {
- #[allow(unused_unsafe)]
- fn prop(numbers: Vec<$ty_int>) -> bool {
- let numbers: Vec<_> =
- numbers.into_iter().map(|x| x.clone()).collect();
- let num_bytes = size_of::<$ty_int>() * numbers.len();
- let mut bytes = vec![0; num_bytes];
-
- NativeEndian::$write(&numbers, &mut bytes);
-
- let mut got = vec![$zero; numbers.len()];
- unsafe {
- NativeEndian::$read(&bytes, &mut got);
- }
-
- numbers == got
- }
- qc_unsized(prop as fn(_) -> bool);
- }
- }
- };
- }
-
- qc_slice!(prop_slice_u16, u16, read_u16_into, write_u16_into, 0);
- qc_slice!(prop_slice_i16, i16, read_i16_into, write_i16_into, 0);
- qc_slice!(prop_slice_u32, u32, read_u32_into, write_u32_into, 0);
- qc_slice!(prop_slice_i32, i32, read_i32_into, write_i32_into, 0);
- qc_slice!(prop_slice_u64, u64, read_u64_into, write_u64_into, 0);
- qc_slice!(prop_slice_i64, i64, read_i64_into, write_i64_into, 0);
- qc_slice!(
- prop_slice_u128,
- Wi128<u128>,
- read_u128_into,
- write_u128_into,
- 0
- );
- qc_slice!(
- prop_slice_i128,
- Wi128<i128>,
- read_i128_into,
- write_i128_into,
- 0
- );
-
- qc_slice!(prop_slice_f32, f32, read_f32_into, write_f32_into, 0.0);
- qc_slice!(prop_slice_f64, f64, read_f64_into, write_f64_into, 0.0);
-}