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seamonkey
mozilla-bmo1896958.patch
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File mozilla-bmo1896958.patch of Package seamonkey
# HG changeset patch # User Henri Sivonen <hsivonen@hsivonen.fi> # Date 1714462184 0 # Node ID 1db2ef126a6a8555dbf50345e16492c977b42e92 # Parent aa27b7d58885afb6f52ba9eddc930bc3e218c975 Bug 1882209 - Update encoding_rs to 0.8.34 to deal with rustc changes. r=glandium,supply-chain-reviewers Differential Revision: https://phabricator.services.mozilla.com/D207167 diff --git a/.cargo/config.in b/.cargo/config.in --- a/.cargo/config.in +++ b/.cargo/config.in @@ -2,17 +2,17 @@ registry = 'https://github.com/rust-lang/crates.io-index' replace-with = 'vendored-sources' [source."https://github.com/servo/serde"] git = "https://github.com/servo/serde" branch = "deserialize_from_enums6" replace-with = "vendored-sources" -[source."https://github.com/hsivonen/packed_simd"] -git = "https://github.com/hsivonen/packed_simd" +[source."git+https://github.com/hsivonen/any_all_workaround?rev=7fb1b7034c9f172aade21ee1c8554e8d8a48af80"] +git = "https://github.com/hsivonen/any_all_workaround" +rev = "7fb1b7034c9f172aade21ee1c8554e8d8a48af80" replace-with = "vendored-sources" -rev = "e588ceb568878e1a3156ea9ce551d5b63ef0cdc4" [source.vendored-sources] directory = '@top_srcdir@/third_party/rust' @WIN64_CARGO_LINKER_CONFIG@ diff --git a/Cargo.lock b/Cargo.lock --- a/Cargo.lock +++ b/Cargo.lock @@ -22,16 +22,25 @@ dependencies = [ [[package]] name = "ansi_term" version = "0.10.2" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "6b3568b48b7cefa6b8ce125f9bb4989e52fbcc29ebea88df04cc7c5f12f70455" [[package]] +name = "any_all_workaround" +version = "0.1.0" +source = "git+https://github.com/hsivonen/any_all_workaround?rev=7fb1b7034c9f172aade21ee1c8554e8d8a48af80#7fb1b7034c9f172aade21ee1c8554e8d8a48af80" +dependencies = [ + "cfg-if 1.0.0", + "version_check", +] + +[[package]] name = "app_units" version = "0.6.0" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "29069a9b483f7780aebb55dafb360c6225eefdc1f98c8d336a65148fd10c37b1" dependencies = [ "num-traits 0.1.43", "serde", ] @@ -645,22 +654,22 @@ version = "0.1.0" dependencies = [ "encoding_rs", "nserror", "nsstring", ] [[package]] name = "encoding_rs" -version = "0.8.33" +version = "0.8.34" source = "registry+https://github.com/rust-lang/crates.io-index" -checksum = "7268b386296a025e474d5140678f75d6de9493ae55a5d709eeb9dd08149945e1" +checksum = "b45de904aa0b010bce2ab45264d0631681847fa7b6f2eaa7dab7619943bc4f59" dependencies = [ + "any_all_workaround", "cfg-if 1.0.0", - "packed_simd", ] [[package]] name = "env_logger" version = "0.5.6" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "0561146661ae44c579e993456bc76d11ce1e0c7d745e57b2fa7146b6e49fa2ad" dependencies = [ @@ -1340,25 +1349,16 @@ name = "owning_ref" version = "0.3.3" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "cdf84f41639e037b484f93433aa3897863b561ed65c6e59c7073d7c561710f37" dependencies = [ "stable_deref_trait", ] [[package]] -name = "packed_simd" -version = "0.3.9" -source = "git+https://github.com/hsivonen/packed_simd?rev=e588ceb568878e1a3156ea9ce551d5b63ef0cdc4#e588ceb568878e1a3156ea9ce551d5b63ef0cdc4" -dependencies = [ - "cfg-if 1.0.0", - "num-traits 0.2.15", -] - -[[package]] name = "parking_lot" version = "0.4.4" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "37f364e2ce5efa24c7d0b6646d5bb61145551a0112f107ffd7499f1a3e322fbd" dependencies = [ "owning_ref", "parking_lot_core", "thread-id", @@ -2249,16 +2249,22 @@ checksum = "025ce40a007e1907e58d5bc1a594 [[package]] name = "vec_map" version = "0.8.0" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "887b5b631c2ad01628bbbaa7dd4c869f80d3186688f8d0b6f58774fbe324988c" [[package]] +name = "version_check" +version = "0.9.4" +source = "registry+https://github.com/rust-lang/crates.io-index" +checksum = "49874b5167b65d7193b8aba1567f5c7d93d001cafc34600cee003eda787e483f" + +[[package]] name = "void" version = "1.0.2" source = "registry+https://github.com/rust-lang/crates.io-index" checksum = "6a02e4885ed3bc0f2de90ea6dd45ebcbb66dacffe03547fadbb0eeae2770887d" [[package]] name = "walkdir" version = "1.0.7" diff --git a/Cargo.toml b/Cargo.toml --- a/Cargo.toml +++ b/Cargo.toml @@ -50,9 +50,9 @@ opt-level = 2 rpath = false debug-assertions = false panic = "abort" codegen-units = 1 [patch.crates-io] libudev-sys = { path = "dom/webauthn/libudev-sys" } serde_derive = { git = "https://github.com/servo/serde", branch = "deserialize_from_enums6" } -packed_simd = { git = "https://github.com/hsivonen/packed_simd", rev = "e588ceb568878e1a3156ea9ce551d5b63ef0cdc4" } +any_all_workaround = { git = "https://github.com/hsivonen/any_all_workaround", rev = "7fb1b7034c9f172aade21ee1c8554e8d8a48af80" } diff --git a/config/makefiles/rust.mk b/config/makefiles/rust.mk --- a/config/makefiles/rust.mk +++ b/config/makefiles/rust.mk @@ -68,17 +68,17 @@ endif endif endif ifndef RUSTC_BOOTSTRAP ifeq (,$(filter 1.47.% 1.48.% 1.49.%,$(RUSTC_VERSION))) # RUSTC_BOOTSTRAP := gkrust_shared,qcms for later RUSTC_BOOTSTRAP := gkrust_shared ifdef MOZ_RUST_SIMD -RUSTC_BOOTSTRAP := $(RUSTC_BOOTSTRAP),encoding_rs,packed_simd +RUSTC_BOOTSTRAP := $(RUSTC_BOOTSTRAP),encoding_rs,any_all_workaround endif export RUSTC_BOOTSTRAP endif endif ifdef CARGO_INCREMENTAL export CARGO_INCREMENTAL endif diff --git a/third_party/rust/any_all_workaround/.cargo-checksum.json b/third_party/rust/any_all_workaround/.cargo-checksum.json new file mode 100644 --- /dev/null +++ b/third_party/rust/any_all_workaround/.cargo-checksum.json @@ -0,0 +1,1 @@ +{"files":{"Cargo.toml":"f8c127449dc9432d404c21c99833e4617ab88a797445af249a7fe3c989985d6d","LICENSE-APACHE":"a60eea817514531668d7e00765731449fe14d059d3249e0bc93b36de45f759f2","LICENSE-MIT":"6485b8ed310d3f0340bf1ad1f47645069ce4069dcc6bb46c7d5c6faf41de1fdb","LICENSE-MIT-QCMS":"36d847ae882f6574ebc72f56a4f354e4f104fde4a584373496482e97d52d31bc","README.md":"4c617b8ced3a27b7edecf0e5e41ed451c04e88dab529e7a35fccc4e1551efbd7","build.rs":"56b29ab6da3e49075bfd0a7b690267c8016298bf0d332e2e68bbaf19decbbf71","src/lib.rs":"7118106690b9d25c5d0a3e2079feb83d76f1d434d0da36b9d0351806d27c850d"},"package":null} \ No newline at end of file diff --git a/third_party/rust/any_all_workaround/Cargo.toml b/third_party/rust/any_all_workaround/Cargo.toml new file mode 100644 --- /dev/null +++ b/third_party/rust/any_all_workaround/Cargo.toml @@ -0,0 +1,28 @@ +# THIS FILE IS AUTOMATICALLY GENERATED BY CARGO +# +# When uploading crates to the registry Cargo will automatically +# "normalize" Cargo.toml files for maximal compatibility +# with all versions of Cargo and also rewrite `path` dependencies +# to registry (e.g., crates.io) dependencies. +# +# If you are reading this file be aware that the original Cargo.toml +# will likely look very different (and much more reasonable). +# See Cargo.toml.orig for the original contents. + +[package] +edition = "2021" +name = "any_all_workaround" +version = "0.1.0" +authors = ["Henri Sivonen <hsivonen@hsivonen.fi>"] +description = "Workaround for bad LLVM codegen for boolean reductions on 32-bit ARM" +homepage = "https://docs.rs/any_all_workaround/" +documentation = "https://docs.rs/any_all_workaround/" +readme = "README.md" +license = "MIT OR Apache-2.0" +repository = "https://github.com/hsivonen/any_all_workaround" + +[dependencies] +cfg-if = "1.0" + +[build-dependencies] +version_check = "0.9" diff --git a/third_party/rust/packed_simd/LICENSE-APACHE b/third_party/rust/any_all_workaround/LICENSE-APACHE rename from third_party/rust/packed_simd/LICENSE-APACHE rename to third_party/rust/any_all_workaround/LICENSE-APACHE diff --git a/third_party/rust/packed_simd/LICENSE-MIT b/third_party/rust/any_all_workaround/LICENSE-MIT rename from third_party/rust/packed_simd/LICENSE-MIT rename to third_party/rust/any_all_workaround/LICENSE-MIT diff --git a/third_party/rust/any_all_workaround/LICENSE-MIT-QCMS b/third_party/rust/any_all_workaround/LICENSE-MIT-QCMS new file mode 100644 --- /dev/null +++ b/third_party/rust/any_all_workaround/LICENSE-MIT-QCMS @@ -0,0 +1,21 @@ +qcms +Copyright (C) 2009-2024 Mozilla Corporation +Copyright (C) 1998-2007 Marti Maria + +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/third_party/rust/any_all_workaround/README.md b/third_party/rust/any_all_workaround/README.md new file mode 100644 --- /dev/null +++ b/third_party/rust/any_all_workaround/README.md @@ -0,0 +1,13 @@ +# any_all_workaround + +This is a workaround for bad codegen ([Rust bug](https://github.com/rust-lang/portable-simd/issues/146), [LLVM bug](https://github.com/llvm/llvm-project/issues/50466)) for the `any()` and `all()` reductions for NEON-backed SIMD vectors on 32-bit ARM. On other platforms these delegate to `any()` and `all()` in `core::simd`. + +The plan is to abandon this crate once the LLVM bug is fixed or `core::simd` works around the LLVM bug. + +The code is forked from the [`packed_simd` crate](https://raw.githubusercontent.com/hsivonen/packed_simd/d938e39bee9bc5c222f5f2f2a0df9e53b5ce36ae/src/codegen/reductions/mask/arm.rs). + +This crate requires Nightly Rust as it depends on the `portable_simd` feature. + +# License + +`MIT OR Apache-2.0`, since that's how `packed_simd` is licensed. (The ARM intrinsics Rust version workaround is from qcms, see LICENSE-MIT-QCMS.) diff --git a/third_party/rust/any_all_workaround/build.rs b/third_party/rust/any_all_workaround/build.rs new file mode 100644 --- /dev/null +++ b/third_party/rust/any_all_workaround/build.rs @@ -0,0 +1,7 @@ +extern crate version_check as rustc; + +fn main() { + if rustc::is_min_version("1.78.0").unwrap_or(false) { + println!("cargo:rustc-cfg=stdsimd_split"); + } +} diff --git a/third_party/rust/any_all_workaround/src/lib.rs b/third_party/rust/any_all_workaround/src/lib.rs new file mode 100644 --- /dev/null +++ b/third_party/rust/any_all_workaround/src/lib.rs @@ -0,0 +1,110 @@ +// This code began as a fork of +// https://raw.githubusercontent.com/rust-lang/packed_simd/d938e39bee9bc5c222f5f2f2a0df9e53b5ce36ae/src/codegen/reductions/mask/arm.rs +// which didn't have a license header on the file, but Cargo.toml said "MIT OR Apache-2.0". +// See LICENSE-MIT and LICENSE-APACHE. + +#![no_std] +#![feature(portable_simd)] +#![cfg_attr( + all( + stdsimd_split, + target_arch = "arm", + target_endian = "little", + target_feature = "neon", + target_feature = "v7" + ), + feature(stdarch_arm_neon_intrinsics) +)] +#![cfg_attr( + all( + not(stdsimd_split), + target_arch = "arm", + target_endian = "little", + target_feature = "neon", + target_feature = "v7" + ), + feature(stdsimd) +)] + +use cfg_if::cfg_if; +use core::simd::mask16x8; +use core::simd::mask32x4; +use core::simd::mask8x16; + +cfg_if! { + if #[cfg(all(target_arch = "arm", target_endian = "little", target_feature = "neon", target_feature = "v7"))] { + use core::simd::mask8x8; + use core::simd::mask16x4; + use core::simd::mask32x2; + macro_rules! arm_128_v7_neon_impl { + ($all:ident, $any:ident, $id:ident, $half:ident, $vpmin:ident, $vpmax:ident) => { + #[inline] + pub fn $all(s: $id) -> bool { + use core::arch::arm::$vpmin; + use core::mem::transmute; + unsafe { + union U { + halves: ($half, $half), + vec: $id, + } + let halves = U { vec: s }.halves; + let h: $half = transmute($vpmin(transmute(halves.0), transmute(halves.1))); + h.all() + } + } + #[inline] + pub fn $any(s: $id) -> bool { + use core::arch::arm::$vpmax; + use core::mem::transmute; + unsafe { + union U { + halves: ($half, $half), + vec: $id, + } + let halves = U { vec: s }.halves; + let h: $half = transmute($vpmax(transmute(halves.0), transmute(halves.1))); + h.any() + } + } + } + } + } else { + macro_rules! arm_128_v7_neon_impl { + ($all:ident, $any:ident, $id:ident, $half:ident, $vpmin:ident, $vpmax:ident) => { + #[inline(always)] + pub fn $all(s: $id) -> bool { + s.all() + } + #[inline(always)] + pub fn $any(s: $id) -> bool { + s.any() + } + } + } + } +} + +arm_128_v7_neon_impl!( + all_mask8x16, + any_mask8x16, + mask8x16, + mask8x8, + vpmin_u8, + vpmax_u8 +); +arm_128_v7_neon_impl!( + all_mask16x8, + any_mask16x8, + mask16x8, + mask16x4, + vpmin_u16, + vpmax_u16 +); +arm_128_v7_neon_impl!( + all_mask32x4, + any_mask32x4, + mask32x4, + mask32x2, + vpmin_u32, + vpmax_u32 +); diff --git a/third_party/rust/encoding_rs/.cargo-checksum.json b/third_party/rust/encoding_rs/.cargo-checksum.json --- a/third_party/rust/encoding_rs/.cargo-checksum.json +++ b/third_party/rust/encoding_rs/.cargo-checksum.json @@ -1,1 +1,1 @@ 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\ No newline at end of file diff --git a/third_party/rust/encoding_rs/Cargo.toml b/third_party/rust/encoding_rs/Cargo.toml --- a/third_party/rust/encoding_rs/Cargo.toml +++ b/third_party/rust/encoding_rs/Cargo.toml @@ -6,18 +6,19 @@ # to registry (e.g., crates.io) dependencies. # # If you are reading this file be aware that the original Cargo.toml # will likely look very different (and much more reasonable). # See Cargo.toml.orig for the original contents. [package] edition = "2018" +rust-version = "1.36" name = "encoding_rs" -version = "0.8.33" +version = "0.8.34" authors = ["Henri Sivonen <hsivonen@hsivonen.fi>"] description = "A Gecko-oriented implementation of the Encoding Standard" homepage = "https://docs.rs/encoding_rs/" documentation = "https://docs.rs/encoding_rs/" readme = "README.md" keywords = [ "encoding", "web", @@ -31,23 +32,23 @@ categories = [ "internationalization", ] license = "(Apache-2.0 OR MIT) AND BSD-3-Clause" repository = "https://github.com/hsivonen/encoding_rs" [profile.release] lto = true +[dependencies.any_all_workaround] +version = "0.1.0" +optional = true + [dependencies.cfg-if] version = "1.0" -[dependencies.packed_simd] -version = "0.3.9" -optional = true - [dependencies.serde] version = "1.0" optional = true [dev-dependencies.bincode] version = "1.0" [dev-dependencies.serde_derive] @@ -69,15 +70,9 @@ fast-legacy-encode = [ "fast-hanja-encode", "fast-kanji-encode", "fast-gb-hanzi-encode", "fast-big5-hanzi-encode", ] less-slow-big5-hanzi-encode = [] less-slow-gb-hanzi-encode = [] less-slow-kanji-encode = [] -simd-accel = [ - "packed_simd", - "packed_simd/into_bits", -] - -[badges.travis-ci] -repository = "hsivonen/encoding_rs" +simd-accel = ["any_all_workaround"] diff --git a/third_party/rust/encoding_rs/README.md b/third_party/rust/encoding_rs/README.md --- a/third_party/rust/encoding_rs/README.md +++ b/third_party/rust/encoding_rs/README.md @@ -162,50 +162,36 @@ wrappers. * [C++](https://github.com/hsivonen/recode_cpp) ## Optional features There are currently these optional cargo features: ### `simd-accel` -Enables SIMD acceleration using the nightly-dependent `packed_simd` crate. +Enables SIMD acceleration using the nightly-dependent `portable_simd` standard +library feature. This is an opt-in feature, because enabling this feature _opts out_ of Rust's guarantees of future compilers compiling old code (aka. "stability story"). Currently, this has not been tested to be an improvement except for these -targets: +targets and enabling the `simd-accel` feature is expected to break the build +on other targets: * x86_64 * i686 * aarch64 * thumbv7neon If you use nightly Rust, you use targets whose first component is one of the above, and you are prepared _to have to revise your configuration when updating Rust_, you should enable this feature. Otherwise, please _do not_ enable this feature. -_Note!_ If you are compiling for a target that does not have 128-bit SIMD -enabled as part of the target definition and you are enabling 128-bit SIMD -using `-C target_feature`, you need to enable the `core_arch` Cargo feature -for `packed_simd` to compile a crates.io snapshot of `core_arch` instead of -using the standard-library copy of `core::arch`, because the `core::arch` -module of the pre-compiled standard library has been compiled with the -assumption that the CPU doesn't have 128-bit SIMD. At present this applies -mainly to 32-bit ARM targets whose first component does not include the -substring `neon`. - -The encoding_rs side of things has not been properly set up for POWER, -PowerPC, MIPS, etc., SIMD at this time, so even if you were to follow -the advice from the previous paragraph, you probably shouldn't use -the `simd-accel` option on the less mainstream architectures at this -time. - Used by Firefox. ### `serde` Enables support for serializing and deserializing `&'static Encoding`-typed struct fields using [Serde][1]. [1]: https://serde.rs/ @@ -376,18 +362,19 @@ It is a goal to support the latest stabl the version of Rust that's used for Firefox Nightly. At this time, there is no firm commitment to support a version older than what's required by Firefox, and there is no commitment to treat MSRV changes as semver-breaking, because this crate depends on `cfg-if`, which doesn't appear to treat MSRV changes as semver-breaking, so it would be useless for this crate to treat MSRV changes as semver-breaking. -As of 2021-02-04, MSRV appears to be Rust 1.36.0 for using the crate and +As of 2024-04-04, MSRV appears to be Rust 1.36.0 for using the crate and 1.42.0 for doc tests to pass without errors about the global allocator. +With the `simd-accel` feature, the MSRV is even higher. ## Compatibility with rust-encoding A compatibility layer that implements the rust-encoding API on top of encoding_rs is [provided as a separate crate](https://github.com/hsivonen/encoding_rs_compat) (cannot be uploaded to crates.io). The compatibility layer was originally written with the assuption that Firefox would need it, but it is not currently @@ -441,20 +428,27 @@ To regenerate the generated code: - [x] Implement the rust-encoding API in terms of encoding_rs. - [x] Add SIMD acceleration for Aarch64. - [x] Investigate the use of NEON on 32-bit ARM. - [ ] ~Investigate Björn Höhrmann's lookup table acceleration for UTF-8 as adapted to Rust in rust-encoding.~ - [x] Add actually fast CJK encode options. - [ ] ~Investigate [Bob Steagall's lookup table acceleration for UTF-8](https://github.com/BobSteagall/CppNow2018/blob/master/FastConversionFromUTF-8/Fast%20Conversion%20From%20UTF-8%20with%20C%2B%2B%2C%20DFAs%2C%20and%20SSE%20Intrinsics%20-%20Bob%20Steagall%20-%20C%2B%2BNow%202018.pdf).~ - [x] Provide a build mode that works without `alloc` (with lesser API surface). -- [ ] Migrate to `std::simd` once it is stable and declare 1.0. +- [x] Migrate to `std::simd` ~once it is stable and declare 1.0.~ +- [ ] Migrate `unsafe` slice access by larger types than `u8`/`u16` to `align_to`. ## Release Notes +### 0.8.34 + +* Use the `portable_simd` nightly feature of the standard library instead of the `packed_simd` crate. Only affects the `simd-accel` optional nightly feature. +* Internal documentation improvements and minor code improvements around `unsafe`. +* Added `rust-version` to `Cargo.toml`. + ### 0.8.33 * Use `packed_simd` instead of `packed_simd_2` again now that updates are back under the `packed_simd` name. Only affects the `simd-accel` optional nightly feature. ### 0.8.32 * Removed `build.rs`. (This removal should resolve false positives reported by some antivirus products. This may break some build configurations that have opted out of Rust's guarantees against future build breakage.) * Internal change to what API is used for reinterpreting the lane configuration of SIMD vectors. diff --git a/third_party/rust/encoding_rs/src/ascii.rs b/third_party/rust/encoding_rs/src/ascii.rs --- a/third_party/rust/encoding_rs/src/ascii.rs +++ b/third_party/rust/encoding_rs/src/ascii.rs @@ -46,71 +46,87 @@ cfg_if! { #[allow(dead_code)] #[inline(always)] fn likely(b: bool) -> bool { b } } } +// Safety invariants for masks: data & mask = 0 for valid ASCII or basic latin utf-16 + // `as` truncates, so works on 32-bit, too. #[allow(dead_code)] pub const ASCII_MASK: usize = 0x8080_8080_8080_8080u64 as usize; // `as` truncates, so works on 32-bit, too. #[allow(dead_code)] pub const BASIC_LATIN_MASK: usize = 0xFF80_FF80_FF80_FF80u64 as usize; #[allow(unused_macros)] macro_rules! ascii_naive { ($name:ident, $src_unit:ty, $dst_unit:ty) => { + /// Safety: src and dst must have len_unit elements and be aligned + /// Safety-usable invariant: will return Some() when it fails + /// to convert. The first value will be a u8 that is > 127. #[inline(always)] pub unsafe fn $name( src: *const $src_unit, dst: *mut $dst_unit, len: usize, ) -> Option<($src_unit, usize)> { // Yes, manually omitting the bound check here matters // a lot for perf. for i in 0..len { + // Safety: len invariant used here let code_unit = *(src.add(i)); + // Safety: Upholds safety-usable invariant here if code_unit > 127 { return Some((code_unit, i)); } + // Safety: len invariant used here *(dst.add(i)) = code_unit as $dst_unit; } return None; } }; } #[allow(unused_macros)] macro_rules! ascii_alu { ($name:ident, + // safety invariant: src/dst MUST be u8 $src_unit:ty, $dst_unit:ty, + // Safety invariant: stride_fn must consume and produce two usizes, and return the index of the first non-ascii when it fails $stride_fn:ident) => { + /// Safety: src and dst must have len elements, src is valid for read, dst is valid for + /// write + /// Safety-usable invariant: will return Some() when it fails + /// to convert. The first value will be a u8 that is > 127. #[cfg_attr(feature = "cargo-clippy", allow(never_loop, cast_ptr_alignment))] #[inline(always)] pub unsafe fn $name( src: *const $src_unit, dst: *mut $dst_unit, len: usize, ) -> Option<($src_unit, usize)> { let mut offset = 0usize; // This loop is only broken out of as a `goto` forward loop { + // Safety: until_alignment becomes the number of bytes we need to munch until we are aligned to usize let mut until_alignment = { // Check if the other unit aligns if we move the narrower unit // to alignment. // if ::core::mem::size_of::<$src_unit>() == ::core::mem::size_of::<$dst_unit>() { // ascii_to_ascii let src_alignment = (src as usize) & ALU_ALIGNMENT_MASK; let dst_alignment = (dst as usize) & ALU_ALIGNMENT_MASK; if src_alignment != dst_alignment { + // Safety: bails early and ends up in the naïve branch where usize-alignment doesn't matter break; } (ALU_ALIGNMENT - src_alignment) & ALU_ALIGNMENT_MASK // } else if ::core::mem::size_of::<$src_unit>() < ::core::mem::size_of::<$dst_unit>() { // ascii_to_basic_latin // let src_until_alignment = (ALIGNMENT - ((src as usize) & ALIGNMENT_MASK)) & ALIGNMENT_MASK; // if (dst.add(src_until_alignment) as usize) & ALIGNMENT_MASK != 0 { // break; @@ -129,74 +145,104 @@ macro_rules! ascii_alu { // Moving pointers to alignment seems to be a pessimization on // x86_64 for operations that have UTF-16 as the internal // Unicode representation. However, since it seems to be a win // on ARM (tested ARMv7 code running on ARMv8 [rpi3]), except // mixed results when encoding from UTF-16 and since x86 and // x86_64 should be using SSE2 in due course, keeping the move // to alignment here. It would be good to test on more ARM CPUs // and on real MIPS and POWER hardware. + // + // Safety: This is the naïve code once again, for `until_alignment` bytes while until_alignment != 0 { let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety: Upholds safety-usable invariant here return Some((code_unit, offset)); } *(dst.add(offset)) = code_unit as $dst_unit; + // Safety: offset is the number of bytes copied so far offset += 1; until_alignment -= 1; } let len_minus_stride = len - ALU_STRIDE_SIZE; loop { + // Safety: num_ascii is known to be a byte index of a non-ascii byte due to stride_fn's invariant if let Some(num_ascii) = $stride_fn( + // Safety: These are known to be valid and aligned since we have at + // least ALU_STRIDE_SIZE data in these buffers, and offset is the + // number of elements copied so far, which according to the + // until_alignment calculation above will cause both src and dst to be + // aligned to usize after this add src.add(offset) as *const usize, dst.add(offset) as *mut usize, ) { offset += num_ascii; + // Safety: Upholds safety-usable invariant here by indexing into non-ascii byte return Some((*(src.add(offset)), offset)); } + // Safety: offset continues to be the number of bytes copied so far, and + // maintains usize alignment for the next loop iteration offset += ALU_STRIDE_SIZE; + // Safety: This is `offset > len - stride. This loop will continue as long as + // `offset <= len - stride`, which means there are `stride` bytes to still be read. if offset > len_minus_stride { break; } } } break; } + + // Safety: This is the naïve code, same as ascii_naive, and has no requirements + // other than src/dst being valid for the the right lens while offset < len { + // Safety: len invariant used here let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety: Upholds safety-usable invariant here return Some((code_unit, offset)); } + // Safety: len invariant used here *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } None } }; } #[allow(unused_macros)] macro_rules! basic_latin_alu { ($name:ident, + // safety invariant: use u8 for src/dest for ascii, and u16 for basic_latin $src_unit:ty, $dst_unit:ty, + // safety invariant: stride function must munch ALU_STRIDE_SIZE*size(src_unit) bytes off of src and + // write ALU_STRIDE_SIZE*size(dst_unit) bytes to dst $stride_fn:ident) => { + /// Safety: src and dst must have len elements, src is valid for read, dst is valid for + /// write + /// Safety-usable invariant: will return Some() when it fails + /// to convert. The first value will be a u8 that is > 127. #[cfg_attr( feature = "cargo-clippy", allow(never_loop, cast_ptr_alignment, cast_lossless) )] #[inline(always)] pub unsafe fn $name( src: *const $src_unit, dst: *mut $dst_unit, len: usize, ) -> Option<($src_unit, usize)> { let mut offset = 0usize; // This loop is only broken out of as a `goto` forward loop { + // Safety: until_alignment becomes the number of bytes we need to munch from src/dest until we are aligned to usize + // We ensure basic-latin has the same alignment as ascii, starting with ascii since it is smaller. let mut until_alignment = { // Check if the other unit aligns if we move the narrower unit // to alignment. // if ::core::mem::size_of::<$src_unit>() == ::core::mem::size_of::<$dst_unit>() { // ascii_to_ascii // let src_alignment = (src as usize) & ALIGNMENT_MASK; // let dst_alignment = (dst as usize) & ALIGNMENT_MASK; // if src_alignment != dst_alignment { @@ -232,66 +278,89 @@ macro_rules! basic_latin_alu { // Moving pointers to alignment seems to be a pessimization on // x86_64 for operations that have UTF-16 as the internal // Unicode representation. However, since it seems to be a win // on ARM (tested ARMv7 code running on ARMv8 [rpi3]), except // mixed results when encoding from UTF-16 and since x86 and // x86_64 should be using SSE2 in due course, keeping the move // to alignment here. It would be good to test on more ARM CPUs // and on real MIPS and POWER hardware. + // + // Safety: This is the naïve code once again, for `until_alignment` bytes while until_alignment != 0 { let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety: Upholds safety-usable invariant here return Some((code_unit, offset)); } *(dst.add(offset)) = code_unit as $dst_unit; + // Safety: offset is the number of bytes copied so far offset += 1; until_alignment -= 1; } let len_minus_stride = len - ALU_STRIDE_SIZE; loop { if !$stride_fn( + // Safety: These are known to be valid and aligned since we have at + // least ALU_STRIDE_SIZE data in these buffers, and offset is the + // number of elements copied so far, which according to the + // until_alignment calculation above will cause both src and dst to be + // aligned to usize after this add src.add(offset) as *const usize, dst.add(offset) as *mut usize, ) { break; } + // Safety: offset continues to be the number of bytes copied so far, and + // maintains usize alignment for the next loop iteration offset += ALU_STRIDE_SIZE; + // Safety: This is `offset > len - stride. This loop will continue as long as + // `offset <= len - stride`, which means there are `stride` bytes to still be read. if offset > len_minus_stride { break; } } } break; } + // Safety: This is the naïve code once again, for leftover bytes while offset < len { + // Safety: len invariant used here let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety: Upholds safety-usable invariant here return Some((code_unit, offset)); } + // Safety: len invariant used here *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } None } }; } #[allow(unused_macros)] macro_rules! latin1_alu { + // safety invariant: stride function must munch ALU_STRIDE_SIZE*size(src_unit) bytes off of src and + // write ALU_STRIDE_SIZE*size(dst_unit) bytes to dst ($name:ident, $src_unit:ty, $dst_unit:ty, $stride_fn:ident) => { + /// Safety: src and dst must have len elements, src is valid for read, dst is valid for + /// write #[cfg_attr( feature = "cargo-clippy", allow(never_loop, cast_ptr_alignment, cast_lossless) )] #[inline(always)] pub unsafe fn $name(src: *const $src_unit, dst: *mut $dst_unit, len: usize) { let mut offset = 0usize; // This loop is only broken out of as a `goto` forward loop { + // Safety: until_alignment becomes the number of bytes we need to munch from src/dest until we are aligned to usize + // We ensure the UTF-16 side has the same alignment as the Latin-1 side, starting with Latin-1 since it is smaller. let mut until_alignment = { if ::core::mem::size_of::<$src_unit>() < ::core::mem::size_of::<$dst_unit>() { // unpack let src_until_alignment = (ALU_ALIGNMENT - ((src as usize) & ALU_ALIGNMENT_MASK)) & ALU_ALIGNMENT_MASK; if (dst.wrapping_add(src_until_alignment) as usize) & ALU_ALIGNMENT_MASK != 0 @@ -308,373 +377,485 @@ macro_rules! latin1_alu { != 0 { break; } dst_until_alignment } }; if until_alignment + ALU_STRIDE_SIZE <= len { + // Safety: This is the naïve code once again, for `until_alignment` bytes while until_alignment != 0 { let code_unit = *(src.add(offset)); *(dst.add(offset)) = code_unit as $dst_unit; + // Safety: offset is the number of bytes copied so far offset += 1; until_alignment -= 1; } let len_minus_stride = len - ALU_STRIDE_SIZE; loop { $stride_fn( + // Safety: These are known to be valid and aligned since we have at + // least ALU_STRIDE_SIZE data in these buffers, and offset is the + // number of elements copied so far, which according to the + // until_alignment calculation above will cause both src and dst to be + // aligned to usize after this add src.add(offset) as *const usize, dst.add(offset) as *mut usize, ); + // Safety: offset continues to be the number of bytes copied so far, and + // maintains usize alignment for the next loop iteration offset += ALU_STRIDE_SIZE; + // Safety: This is `offset > len - stride. This loop will continue as long as + // `offset <= len - stride`, which means there are `stride` bytes to still be read. if offset > len_minus_stride { break; } } } break; } + // Safety: This is the naïve code once again, for leftover bytes while offset < len { + // Safety: len invariant used here let code_unit = *(src.add(offset)); *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } } }; } #[allow(unused_macros)] macro_rules! ascii_simd_check_align { ( $name:ident, $src_unit:ty, $dst_unit:ty, + // Safety: This function must require aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_both_aligned:ident, + // Safety: This function must require aligned/unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_src_aligned:ident, + // Safety: This function must require unaligned/aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_dst_aligned:ident, + // Safety: This function must require unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_neither_aligned:ident ) => { + /// Safety: src/dst must be valid for reads/writes of `len` elements of their units. + /// + /// Safety-usable invariant: will return Some() when it encounters non-ASCII, with the first element in the Some being + /// guaranteed to be non-ASCII (> 127), and the second being the offset where it is found #[inline(always)] pub unsafe fn $name( src: *const $src_unit, dst: *mut $dst_unit, len: usize, ) -> Option<($src_unit, usize)> { let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading/writing at least `SIMD_STRIDE_SIZE` elements. if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; // XXX Should we first process one stride unconditionally as unaligned to // avoid the cost of the branchiness below if the first stride fails anyway? // XXX Should we just use unaligned SSE2 access unconditionally? It seems that // on Haswell, it would make sense to just use unaligned and not bother // checking. Need to benchmark older architectures before deciding. let dst_masked = (dst as usize) & SIMD_ALIGNMENT_MASK; + // Safety: checking whether src is aligned if ((src as usize) & SIMD_ALIGNMENT_MASK) == 0 { + // Safety: Checking whether dst is aligned if dst_masked == 0 { loop { + // Safety: We're valid to read/write SIMD_STRIDE_SIZE elements and have the appropriate alignments if !$stride_both_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE` which means we always have at least `SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride { break; } } } else { loop { + // Safety: We're valid to read/write SIMD_STRIDE_SIZE elements and have the appropriate alignments if !$stride_src_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE` which means we always have at least `SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride { break; } } } } else { if dst_masked == 0 { loop { + // Safety: We're valid to read/write SIMD_STRIDE_SIZE elements and have the appropriate alignments if !$stride_dst_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE` which means we always have at least `SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride { break; } } } else { loop { + // Safety: We're valid to read/write SIMD_STRIDE_SIZE elements and have the appropriate alignments if !$stride_neither_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE` which means we always have at least `SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride { break; } } } } } while offset < len { + // Safety: uses len invariant here and below let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety: upholds safety-usable invariant return Some((code_unit, offset)); } *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } None } }; } #[allow(unused_macros)] macro_rules! ascii_simd_check_align_unrolled { ( $name:ident, $src_unit:ty, $dst_unit:ty, + // Safety: This function must require aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_both_aligned:ident, + // Safety: This function must require aligned/unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_src_aligned:ident, + // Safety: This function must require unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_neither_aligned:ident, + // Safety: This function must require aligned src/dest that are valid for reading/writing 2*SIMD_STRIDE_SIZE src_unit/dst_unit $double_stride_both_aligned:ident, + // Safety: This function must require aligned/unaligned src/dest that are valid for reading/writing 2*SIMD_STRIDE_SIZE src_unit/dst_unit $double_stride_src_aligned:ident ) => { - #[inline(always)] + /// Safety: src/dst must be valid for reads/writes of `len` elements of their units. + /// + /// Safety-usable invariant: will return Some() when it encounters non-ASCII, with the first element in the Some being + /// guaranteed to be non-ASCII (> 127), and the second being the offset where it is found #[inline(always)] pub unsafe fn $name( src: *const $src_unit, dst: *mut $dst_unit, len: usize, ) -> Option<($src_unit, usize)> { let unit_size = ::core::mem::size_of::<$src_unit>(); let mut offset = 0usize; // This loop is only broken out of as a goto forward without // actually looping 'outer: loop { + // Safety: if this check succeeds we're valid for reading/writing at least `SIMD_STRIDE_SIZE` elements. if SIMD_STRIDE_SIZE <= len { // First, process one unaligned + // Safety: this is safe to call since we're valid for this read/write if !$stride_neither_aligned(src, dst) { break 'outer; } offset = SIMD_STRIDE_SIZE; // We have now seen 16 ASCII bytes. Let's guess that // there will be enough more to justify more expense // in the case of non-ASCII. // Use aligned reads for the sake of old microachitectures. + // + // Safety: this correctly calculates the number of src_units that need to be read before the remaining list is aligned. + // This is less that SIMD_ALIGNMENT, which is also SIMD_STRIDE_SIZE (as documented) let until_alignment = ((SIMD_ALIGNMENT - ((src.add(offset) as usize) & SIMD_ALIGNMENT_MASK)) & SIMD_ALIGNMENT_MASK) / unit_size; - // This addition won't overflow, because even in the 32-bit PAE case the + // Safety: This addition won't overflow, because even in the 32-bit PAE case the // address space holds enough code that the slice length can't be that // close to address space size. // offset now equals SIMD_STRIDE_SIZE, hence times 3 below. + // + // Safety: if this check succeeds we're valid for reading/writing at least `2 * SIMD_STRIDE_SIZE` elements plus `until_alignment`. + // The extra SIMD_STRIDE_SIZE in the condition is because `offset` is already `SIMD_STRIDE_SIZE`. if until_alignment + (SIMD_STRIDE_SIZE * 3) <= len { if until_alignment != 0 { + // Safety: this is safe to call since we're valid for this read/write (and more), and don't care about alignment + // This will copy over bytes that get decoded twice since it's not incrementing `offset` by SIMD_STRIDE_SIZE. This is fine. if !$stride_neither_aligned(src.add(offset), dst.add(offset)) { break; } offset += until_alignment; } + // Safety: At this point we're valid for reading/writing 2*SIMD_STRIDE_SIZE elements + // Safety: Now `offset` is aligned for `src` let len_minus_stride_times_two = len - (SIMD_STRIDE_SIZE * 2); + // Safety: This is whether dst is aligned let dst_masked = (dst.add(offset) as usize) & SIMD_ALIGNMENT_MASK; if dst_masked == 0 { loop { + // Safety: both are aligned, we can call the aligned function. We're valid for reading/writing double stride from the initial condition + // and the loop break condition below if let Some(advance) = $double_stride_both_aligned(src.add(offset), dst.add(offset)) { offset += advance; let code_unit = *(src.add(offset)); + // Safety: uses safety-usable invariant on ascii_to_ascii_simd_double_stride to return + // guaranteed non-ascii return Some((code_unit, offset)); } offset += SIMD_STRIDE_SIZE * 2; + // Safety: This is `offset > len - 2 * SIMD_STRIDE_SIZE` which means we always have at least `2 * SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride_times_two { break; } } + // Safety: We're valid for reading/writing one more, and can still assume alignment if offset + SIMD_STRIDE_SIZE <= len { if !$stride_both_aligned(src.add(offset), dst.add(offset)) { break 'outer; } offset += SIMD_STRIDE_SIZE; } } else { loop { + // Safety: only src is aligned here. We're valid for reading/writing double stride from the initial condition + // and the loop break condition below if let Some(advance) = $double_stride_src_aligned(src.add(offset), dst.add(offset)) { offset += advance; let code_unit = *(src.add(offset)); + // Safety: uses safety-usable invariant on ascii_to_ascii_simd_double_stride to return + // guaranteed non-ascii return Some((code_unit, offset)); } offset += SIMD_STRIDE_SIZE * 2; + // Safety: This is `offset > len - 2 * SIMD_STRIDE_SIZE` which means we always have at least `2 * SIMD_STRIDE_SIZE` elements to munch next time. + if offset > len_minus_stride_times_two { break; } } + // Safety: We're valid for reading/writing one more, and can still assume alignment if offset + SIMD_STRIDE_SIZE <= len { if !$stride_src_aligned(src.add(offset), dst.add(offset)) { break 'outer; } offset += SIMD_STRIDE_SIZE; } } } else { // At most two iterations, so unroll if offset + SIMD_STRIDE_SIZE <= len { + // Safety: The check above ensures we're allowed to read/write this, and we don't use alignment if !$stride_neither_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; if offset + SIMD_STRIDE_SIZE <= len { + // Safety: The check above ensures we're allowed to read/write this, and we don't use alignment if !$stride_neither_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; } } } } break 'outer; } while offset < len { + // Safety: relies straightforwardly on the `len` invariant let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety-usable invariant upheld here return Some((code_unit, offset)); } *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } None } }; } #[allow(unused_macros)] macro_rules! latin1_simd_check_align { ( $name:ident, $src_unit:ty, $dst_unit:ty, + // Safety: This function must require aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_both_aligned:ident, + // Safety: This function must require aligned/unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_src_aligned:ident, + // Safety: This function must require unaligned/aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_dst_aligned:ident, + // Safety: This function must require unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_neither_aligned:ident + ) => { + /// Safety: src/dst must be valid for reads/writes of `len` elements of their units. #[inline(always)] pub unsafe fn $name(src: *const $src_unit, dst: *mut $dst_unit, len: usize) { let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading/writing at least `SIMD_STRIDE_SIZE` elements. if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; + // Whether dst is aligned let dst_masked = (dst as usize) & SIMD_ALIGNMENT_MASK; + // Whether src is aligned if ((src as usize) & SIMD_ALIGNMENT_MASK) == 0 { if dst_masked == 0 { loop { + // Safety: Both were aligned, we can use the aligned function $stride_both_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE`, which means in the next iteration we're valid for + // reading/writing at least SIMD_STRIDE_SIZE elements. if offset > len_minus_stride { break; } } } else { loop { + // Safety: src was aligned, dst was not $stride_src_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE`, which means in the next iteration we're valid for + // reading/writing at least SIMD_STRIDE_SIZE elements. if offset > len_minus_stride { break; } } } } else { if dst_masked == 0 { loop { + // Safety: src was aligned, dst was not $stride_dst_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE`, which means in the next iteration we're valid for + // reading/writing at least SIMD_STRIDE_SIZE elements. if offset > len_minus_stride { break; } } } else { loop { + // Safety: Neither were aligned $stride_neither_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE`, which means in the next iteration we're valid for + // reading/writing at least SIMD_STRIDE_SIZE elements. if offset > len_minus_stride { break; } } } } } while offset < len { + // Safety: relies straightforwardly on the `len` invariant let code_unit = *(src.add(offset)); *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } } }; } #[allow(unused_macros)] macro_rules! latin1_simd_check_align_unrolled { ( $name:ident, $src_unit:ty, $dst_unit:ty, + // Safety: This function must require aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_both_aligned:ident, + // Safety: This function must require aligned/unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_src_aligned:ident, + // Safety: This function must require unaligned/aligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_dst_aligned:ident, + // Safety: This function must require unaligned src/dest that are valid for reading/writing SIMD_STRIDE_SIZE src_unit/dst_unit $stride_neither_aligned:ident ) => { + /// Safety: src/dst must be valid for reads/writes of `len` elements of their units. #[inline(always)] pub unsafe fn $name(src: *const $src_unit, dst: *mut $dst_unit, len: usize) { let unit_size = ::core::mem::size_of::<$src_unit>(); let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading/writing at least `SIMD_STRIDE_SIZE` elements. if SIMD_STRIDE_SIZE <= len { + // Safety: this correctly calculates the number of src_units that need to be read before the remaining list is aligned. + // This is by definition less than SIMD_STRIDE_SIZE. let mut until_alignment = ((SIMD_STRIDE_SIZE - ((src as usize) & SIMD_ALIGNMENT_MASK)) & SIMD_ALIGNMENT_MASK) / unit_size; while until_alignment != 0 { + // Safety: This is a straightforward copy, since until_alignment is < SIMD_STRIDE_SIZE < len, this is in-bounds *(dst.add(offset)) = *(src.add(offset)) as $dst_unit; offset += 1; until_alignment -= 1; } + // Safety: here offset will be `until_alignment`, i.e. enough to align `src`. let len_minus_stride = len - SIMD_STRIDE_SIZE; + // Safety: if this check succeeds we're valid for reading/writing at least `2 * SIMD_STRIDE_SIZE` elements. if offset + SIMD_STRIDE_SIZE * 2 <= len { let len_minus_stride_times_two = len_minus_stride - SIMD_STRIDE_SIZE; + // Safety: at this point src is known to be aligned at offset, dst is not. if (dst.add(offset) as usize) & SIMD_ALIGNMENT_MASK == 0 { loop { + // Safety: We checked alignment of dst above, we can use the alignment functions. We're allowed to read/write 2*SIMD_STRIDE_SIZE elements, which we do. $stride_both_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; $stride_both_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - 2 * SIMD_STRIDE_SIZE` which means we always have at least `2 * SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride_times_two { break; } } } else { loop { + // Safety: we ensured alignment of src already. $stride_src_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; $stride_src_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - 2 * SIMD_STRIDE_SIZE` which means we always have at least `2 * SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride_times_two { break; } } } } + // Safety: This is `offset > len - SIMD_STRIDE_SIZE` which means we are valid to munch SIMD_STRIDE_SIZE more elements, which we do if offset < len_minus_stride { $stride_src_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; } } while offset < len { + // Safety: uses len invariant here and below let code_unit = *(src.add(offset)); // On x86_64, this loop autovectorizes but in the pack // case there are instructions whose purpose is to make sure // each u16 in the vector is truncated before packing. However, // since we don't care about saturating behavior of SSE2 packing // when the input isn't Latin1, those instructions are useless. // Unfortunately, using the `assume` intrinsic to lie to the // optimizer doesn't make LLVM omit the trunctation that we @@ -688,138 +869,180 @@ macro_rules! latin1_simd_check_align_unr offset += 1; } } }; } #[allow(unused_macros)] macro_rules! ascii_simd_unalign { + // Safety: stride_neither_aligned must be a function that requires src/dest be valid for unaligned reads/writes for SIMD_STRIDE_SIZE elements of type src_unit/dest_unit ($name:ident, $src_unit:ty, $dst_unit:ty, $stride_neither_aligned:ident) => { + /// Safety: src and dst must be valid for reads/writes of len elements of type src_unit/dst_unit + /// + /// Safety-usable invariant: will return Some() when it encounters non-ASCII, with the first element in the Some being + /// guaranteed to be non-ASCII (> 127), and the second being the offset where it is found #[inline(always)] pub unsafe fn $name( src: *const $src_unit, dst: *mut $dst_unit, len: usize, ) -> Option<($src_unit, usize)> { let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading/writing at least `stride` elements. if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; loop { + // Safety: We know we're valid for `stride` reads/writes, so we can call this function. We don't need alignment. if !$stride_neither_aligned(src.add(offset), dst.add(offset)) { break; } offset += SIMD_STRIDE_SIZE; + // This is `offset > len - stride` which means we always have at least `stride` elements to munch next time. if offset > len_minus_stride { break; } } } while offset < len { + // Safety: Uses len invariant here and below let code_unit = *(src.add(offset)); if code_unit > 127 { + // Safety-usable invariant upheld here return Some((code_unit, offset)); } *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } None } }; } #[allow(unused_macros)] macro_rules! latin1_simd_unalign { + // Safety: stride_neither_aligned must be a function that requires src/dest be valid for unaligned reads/writes for SIMD_STRIDE_SIZE elements of type src_unit/dest_unit ($name:ident, $src_unit:ty, $dst_unit:ty, $stride_neither_aligned:ident) => { + /// Safety: src and dst must be valid for unaligned reads/writes of len elements of type src_unit/dst_unit #[inline(always)] pub unsafe fn $name(src: *const $src_unit, dst: *mut $dst_unit, len: usize) { let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading/writing at least `stride` elements. if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; loop { + // Safety: We know we're valid for `stride` reads/writes, so we can call this function. We don't need alignment. $stride_neither_aligned(src.add(offset), dst.add(offset)); offset += SIMD_STRIDE_SIZE; + // This is `offset > len - stride` which means we always have at least `stride` elements to munch next time. if offset > len_minus_stride { break; } } } while offset < len { + // Safety: Uses len invariant here let code_unit = *(src.add(offset)); *(dst.add(offset)) = code_unit as $dst_unit; offset += 1; } } }; } #[allow(unused_macros)] macro_rules! ascii_to_ascii_simd_stride { + // Safety: load/store must be valid for 16 bytes of read/write, which may be unaligned. (candidates: `(load|store)(16|8)_(unaligned|aligned)` functions) ($name:ident, $load:ident, $store:ident) => { + /// Safety: src and dst must be valid for 16 bytes of read/write according to + /// the $load/$store fn, which may allow for unaligned reads/writes or require + /// alignment to either 16x8 or u8x16. #[inline(always)] pub unsafe fn $name(src: *const u8, dst: *mut u8) -> bool { let simd = $load(src); if !simd_is_ascii(simd) { return false; } $store(dst, simd); true } }; } #[allow(unused_macros)] macro_rules! ascii_to_ascii_simd_double_stride { + // Safety: store must be valid for 32 bytes of write, which may be unaligned (candidates: `store(8|16)_(aligned|unaligned)`) ($name:ident, $store:ident) => { + /// Safety: src must be valid for 32 bytes of aligned u8x16 read + /// dst must be valid for 32 bytes of unaligned write according to + /// the $store fn, which may allow for unaligned writes or require + /// alignment to either 16x8 or u8x16. + /// + /// Safety-usable invariant: Returns Some(index) if the element at `index` is invalid ASCII #[inline(always)] pub unsafe fn $name(src: *const u8, dst: *mut u8) -> Option<usize> { let first = load16_aligned(src); let second = load16_aligned(src.add(SIMD_STRIDE_SIZE)); $store(dst, first); if unlikely(!simd_is_ascii(first | second)) { + // Safety: mask_ascii produces a mask of all the high bits. let mask_first = mask_ascii(first); if mask_first != 0 { + // Safety: on little endian systems this will be the number of ascii bytes + // before the first non-ascii, i.e. valid for indexing src + // TODO SAFETY: What about big-endian systems? return Some(mask_first.trailing_zeros() as usize); } $store(dst.add(SIMD_STRIDE_SIZE), second); let mask_second = mask_ascii(second); + // Safety: on little endian systems this will be the number of ascii bytes + // before the first non-ascii, i.e. valid for indexing src return Some(SIMD_STRIDE_SIZE + mask_second.trailing_zeros() as usize); } $store(dst.add(SIMD_STRIDE_SIZE), second); None } }; } #[allow(unused_macros)] macro_rules! ascii_to_basic_latin_simd_stride { + // Safety: load/store must be valid for 16 bytes of read/write, which may be unaligned. (candidates: `(load|store)(16|8)_(unaligned|aligned)` functions) ($name:ident, $load:ident, $store:ident) => { + /// Safety: src and dst must be valid for 16/32 bytes of read/write according to + /// the $load/$store fn, which may allow for unaligned reads/writes or require + /// alignment to either 16x8 or u8x16. #[inline(always)] pub unsafe fn $name(src: *const u8, dst: *mut u16) -> bool { let simd = $load(src); if !simd_is_ascii(simd) { return false; } let (first, second) = simd_unpack(simd); $store(dst, first); $store(dst.add(8), second); true } }; } #[allow(unused_macros)] macro_rules! ascii_to_basic_latin_simd_double_stride { + // Safety: store must be valid for 16 bytes of write, which may be unaligned ($name:ident, $store:ident) => { + /// Safety: src must be valid for 2*SIMD_STRIDE_SIZE bytes of aligned reads, + /// aligned to either 16x8 or u8x16. + /// dst must be valid for 2*SIMD_STRIDE_SIZE bytes of aligned or unaligned reads #[inline(always)] pub unsafe fn $name(src: *const u8, dst: *mut u16) -> Option<usize> { let first = load16_aligned(src); let second = load16_aligned(src.add(SIMD_STRIDE_SIZE)); let (a, b) = simd_unpack(first); $store(dst, a); + // Safety: divide by 2 since it's a u16 pointer $store(dst.add(SIMD_STRIDE_SIZE / 2), b); if unlikely(!simd_is_ascii(first | second)) { let mask_first = mask_ascii(first); if mask_first != 0 { return Some(mask_first.trailing_zeros() as usize); } let (c, d) = simd_unpack(second); $store(dst.add(SIMD_STRIDE_SIZE), c); @@ -832,47 +1055,59 @@ macro_rules! ascii_to_basic_latin_simd_d $store(dst.add(SIMD_STRIDE_SIZE + (SIMD_STRIDE_SIZE / 2)), d); None } }; } #[allow(unused_macros)] macro_rules! unpack_simd_stride { + // Safety: load/store must be valid for 16 bytes of read/write, which may be unaligned. (candidates: `(load|store)(16|8)_(unaligned|aligned)` functions) ($name:ident, $load:ident, $store:ident) => { + /// Safety: src and dst must be valid for 16 bytes of read/write according to + /// the $load/$store fn, which may allow for unaligned reads/writes or require + /// alignment to either 16x8 or u8x16. #[inline(always)] pub unsafe fn $name(src: *const u8, dst: *mut u16) { let simd = $load(src); let (first, second) = simd_unpack(simd); $store(dst, first); $store(dst.add(8), second); } }; } #[allow(unused_macros)] macro_rules! basic_latin_to_ascii_simd_stride { + // Safety: load/store must be valid for 16 bytes of read/write, which may be unaligned. (candidates: `(load|store)(16|8)_(unaligned|aligned)` functions) ($name:ident, $load:ident, $store:ident) => { + /// Safety: src and dst must be valid for 32/16 bytes of read/write according to + /// the $load/$store fn, which may allow for unaligned reads/writes or require + /// alignment to either 16x8 or u8x16. #[inline(always)] pub unsafe fn $name(src: *const u16, dst: *mut u8) -> bool { let first = $load(src); let second = $load(src.add(8)); if simd_is_basic_latin(first | second) { $store(dst, simd_pack(first, second)); true } else { false } } }; } #[allow(unused_macros)] macro_rules! pack_simd_stride { + // Safety: load/store must be valid for 16 bytes of read/write, which may be unaligned. (candidates: `(load|store)(16|8)_(unaligned|aligned)` functions) ($name:ident, $load:ident, $store:ident) => { + /// Safety: src and dst must be valid for 32/16 bytes of read/write according to + /// the $load/$store fn, which may allow for unaligned reads/writes or require + /// alignment to either 16x8 or u8x16. #[inline(always)] pub unsafe fn $name(src: *const u16, dst: *mut u8) { let first = $load(src); let second = $load(src.add(8)); $store(dst, simd_pack(first, second)); } }; } @@ -888,24 +1123,28 @@ cfg_if! { // pub const ALIGNMENT: usize = 8; pub const ALU_STRIDE_SIZE: usize = 16; pub const ALU_ALIGNMENT: usize = 8; pub const ALU_ALIGNMENT_MASK: usize = 7; + // Safety for stride macros: We stick to the load8_aligned/etc family of functions. We consistently produce + // neither_unaligned variants using only unaligned inputs. ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_neither_aligned, load16_unaligned, store16_unaligned); ascii_to_basic_latin_simd_stride!(ascii_to_basic_latin_stride_neither_aligned, load16_unaligned, store8_unaligned); unpack_simd_stride!(unpack_stride_neither_aligned, load16_unaligned, store8_unaligned); basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_neither_aligned, load8_unaligned, store16_unaligned); pack_simd_stride!(pack_stride_neither_aligned, load8_unaligned, store16_unaligned); + // Safety for conversion macros: We use the unalign macro with unalign functions above. All stride functions were produced + // by stride macros that universally munch a single SIMD_STRIDE_SIZE worth of elements. ascii_simd_unalign!(ascii_to_ascii, u8, u8, ascii_to_ascii_stride_neither_aligned); ascii_simd_unalign!(ascii_to_basic_latin, u8, u16, ascii_to_basic_latin_stride_neither_aligned); ascii_simd_unalign!(basic_latin_to_ascii, u16, u8, basic_latin_to_ascii_stride_neither_aligned); latin1_simd_unalign!(unpack_latin1, u8, u16, unpack_stride_neither_aligned); latin1_simd_unalign!(pack_latin1, u16, u8, pack_stride_neither_aligned); } else if #[cfg(all(feature = "simd-accel", target_endian = "little", target_feature = "neon"))] { // SIMD with different instructions for aligned and unaligned loads and stores. // @@ -914,16 +1153,19 @@ cfg_if! { // but the benchmark results I see don't agree. pub const SIMD_STRIDE_SIZE: usize = 16; pub const MAX_STRIDE_SIZE: usize = 16; pub const SIMD_ALIGNMENT_MASK: usize = 15; + // Safety for stride macros: We stick to the load8_aligned/etc family of functions. We consistently name + // aligned/unaligned functions according to src/dst being aligned/unaligned + ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_both_aligned, load16_aligned, store16_aligned); ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_src_aligned, load16_aligned, store16_unaligned); ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_dst_aligned, load16_unaligned, store16_aligned); ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_neither_aligned, load16_unaligned, store16_unaligned); ascii_to_basic_latin_simd_stride!(ascii_to_basic_latin_stride_both_aligned, load16_aligned, store8_aligned); ascii_to_basic_latin_simd_stride!(ascii_to_basic_latin_stride_src_aligned, load16_aligned, store8_unaligned); ascii_to_basic_latin_simd_stride!(ascii_to_basic_latin_stride_dst_aligned, load16_unaligned, store8_aligned); @@ -939,36 +1181,43 @@ cfg_if! { basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_dst_aligned, load8_unaligned, store16_aligned); basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_neither_aligned, load8_unaligned, store16_unaligned); pack_simd_stride!(pack_stride_both_aligned, load8_aligned, store16_aligned); pack_simd_stride!(pack_stride_src_aligned, load8_aligned, store16_unaligned); pack_simd_stride!(pack_stride_dst_aligned, load8_unaligned, store16_aligned); pack_simd_stride!(pack_stride_neither_aligned, load8_unaligned, store16_unaligned); + // Safety for conversion macros: We use the correct pattern of both/src/dst/neither here. All stride functions were produced + // by stride macros that universally munch a single SIMD_STRIDE_SIZE worth of elements. + ascii_simd_check_align!(ascii_to_ascii, u8, u8, ascii_to_ascii_stride_both_aligned, ascii_to_ascii_stride_src_aligned, ascii_to_ascii_stride_dst_aligned, ascii_to_ascii_stride_neither_aligned); ascii_simd_check_align!(ascii_to_basic_latin, u8, u16, ascii_to_basic_latin_stride_both_aligned, ascii_to_basic_latin_stride_src_aligned, ascii_to_basic_latin_stride_dst_aligned, ascii_to_basic_latin_stride_neither_aligned); ascii_simd_check_align!(basic_latin_to_ascii, u16, u8, basic_latin_to_ascii_stride_both_aligned, basic_latin_to_ascii_stride_src_aligned, basic_latin_to_ascii_stride_dst_aligned, basic_latin_to_ascii_stride_neither_aligned); latin1_simd_check_align!(unpack_latin1, u8, u16, unpack_stride_both_aligned, unpack_stride_src_aligned, unpack_stride_dst_aligned, unpack_stride_neither_aligned); latin1_simd_check_align!(pack_latin1, u16, u8, pack_stride_both_aligned, pack_stride_src_aligned, pack_stride_dst_aligned, pack_stride_neither_aligned); } else if #[cfg(all(feature = "simd-accel", target_feature = "sse2"))] { // SIMD with different instructions for aligned and unaligned loads and stores. // // Newer microarchitectures are not supposed to have a performance difference between // aligned and unaligned SSE2 loads and stores when the address is actually aligned, // but the benchmark results I see don't agree. pub const SIMD_STRIDE_SIZE: usize = 16; + /// Safety-usable invariant: This should be identical to SIMD_STRIDE_SIZE (used by ascii_simd_check_align_unrolled) pub const SIMD_ALIGNMENT: usize = 16; pub const MAX_STRIDE_SIZE: usize = 16; pub const SIMD_ALIGNMENT_MASK: usize = 15; + // Safety for stride macros: We stick to the load8_aligned/etc family of functions. We consistently name + // aligned/unaligned functions according to src/dst being aligned/unaligned + ascii_to_ascii_simd_double_stride!(ascii_to_ascii_simd_double_stride_both_aligned, store16_aligned); ascii_to_ascii_simd_double_stride!(ascii_to_ascii_simd_double_stride_src_aligned, store16_unaligned); ascii_to_basic_latin_simd_double_stride!(ascii_to_basic_latin_simd_double_stride_both_aligned, store8_aligned); ascii_to_basic_latin_simd_double_stride!(ascii_to_basic_latin_simd_double_stride_src_aligned, store8_unaligned); ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_both_aligned, load16_aligned, store16_aligned); ascii_to_ascii_simd_stride!(ascii_to_ascii_stride_src_aligned, load16_aligned, store16_unaligned); @@ -984,33 +1233,43 @@ cfg_if! { basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_both_aligned, load8_aligned, store16_aligned); basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_src_aligned, load8_aligned, store16_unaligned); basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_dst_aligned, load8_unaligned, store16_aligned); basic_latin_to_ascii_simd_stride!(basic_latin_to_ascii_stride_neither_aligned, load8_unaligned, store16_unaligned); pack_simd_stride!(pack_stride_both_aligned, load8_aligned, store16_aligned); pack_simd_stride!(pack_stride_src_aligned, load8_aligned, store16_unaligned); + // Safety for conversion macros: We use the correct pattern of both/src/dst/neither/double_both/double_src here. All stride functions were produced + // by stride macros that universally munch a single SIMD_STRIDE_SIZE worth of elements. + ascii_simd_check_align_unrolled!(ascii_to_ascii, u8, u8, ascii_to_ascii_stride_both_aligned, ascii_to_ascii_stride_src_aligned, ascii_to_ascii_stride_neither_aligned, ascii_to_ascii_simd_double_stride_both_aligned, ascii_to_ascii_simd_double_stride_src_aligned); ascii_simd_check_align_unrolled!(ascii_to_basic_latin, u8, u16, ascii_to_basic_latin_stride_both_aligned, ascii_to_basic_latin_stride_src_aligned, ascii_to_basic_latin_stride_neither_aligned, ascii_to_basic_latin_simd_double_stride_both_aligned, ascii_to_basic_latin_simd_double_stride_src_aligned); ascii_simd_check_align!(basic_latin_to_ascii, u16, u8, basic_latin_to_ascii_stride_both_aligned, basic_latin_to_ascii_stride_src_aligned, basic_latin_to_ascii_stride_dst_aligned, basic_latin_to_ascii_stride_neither_aligned); latin1_simd_check_align_unrolled!(unpack_latin1, u8, u16, unpack_stride_both_aligned, unpack_stride_src_aligned, unpack_stride_dst_aligned, unpack_stride_neither_aligned); latin1_simd_check_align_unrolled!(pack_latin1, u16, u8, pack_stride_both_aligned, pack_stride_src_aligned, pack_stride_dst_aligned, pack_stride_neither_aligned); } else if #[cfg(all(target_endian = "little", target_pointer_width = "64"))] { // Aligned ALU word, little-endian, 64-bit + /// Safety invariant: this is the amount of bytes consumed by + /// unpack_alu. This will be twice the pointer width, as it consumes two usizes. + /// This is also the number of bytes produced by pack_alu. + /// This is also the number of u16 code units produced/consumed by unpack_alu/pack_alu respectively. pub const ALU_STRIDE_SIZE: usize = 16; pub const MAX_STRIDE_SIZE: usize = 16; + // Safety invariant: this is the pointer width in bytes pub const ALU_ALIGNMENT: usize = 8; + // Safety invariant: this is a mask for getting the bits of a pointer not aligned to ALU_ALIGNMENT pub const ALU_ALIGNMENT_MASK: usize = 7; + /// Safety: dst must point to valid space for writing four `usize`s #[inline(always)] unsafe fn unpack_alu(word: usize, second_word: usize, dst: *mut usize) { let first = ((0x0000_0000_FF00_0000usize & word) << 24) | ((0x0000_0000_00FF_0000usize & word) << 16) | ((0x0000_0000_0000_FF00usize & word) << 8) | (0x0000_0000_0000_00FFusize & word); let second = ((0xFF00_0000_0000_0000usize & word) >> 8) | ((0x00FF_0000_0000_0000usize & word) >> 16) | @@ -1019,22 +1278,24 @@ cfg_if! { let third = ((0x0000_0000_FF00_0000usize & second_word) << 24) | ((0x0000_0000_00FF_0000usize & second_word) << 16) | ((0x0000_0000_0000_FF00usize & second_word) << 8) | (0x0000_0000_0000_00FFusize & second_word); let fourth = ((0xFF00_0000_0000_0000usize & second_word) >> 8) | ((0x00FF_0000_0000_0000usize & second_word) >> 16) | ((0x0000_FF00_0000_0000usize & second_word) >> 24) | ((0x0000_00FF_0000_0000usize & second_word) >> 32); + // Safety: fn invariant used here *dst = first; *(dst.add(1)) = second; *(dst.add(2)) = third; *(dst.add(3)) = fourth; } + /// Safety: dst must point to valid space for writing two `usize`s #[inline(always)] unsafe fn pack_alu(first: usize, second: usize, third: usize, fourth: usize, dst: *mut usize) { let word = ((0x00FF_0000_0000_0000usize & second) << 8) | ((0x0000_00FF_0000_0000usize & second) << 16) | ((0x0000_0000_00FF_0000usize & second) << 24) | ((0x0000_0000_0000_00FFusize & second) << 32) | ((0x00FF_0000_0000_0000usize & first) >> 24) | ((0x0000_00FF_0000_0000usize & first) >> 16) | @@ -1043,70 +1304,88 @@ cfg_if! { let second_word = ((0x00FF_0000_0000_0000usize & fourth) << 8) | ((0x0000_00FF_0000_0000usize & fourth) << 16) | ((0x0000_0000_00FF_0000usize & fourth) << 24) | ((0x0000_0000_0000_00FFusize & fourth) << 32) | ((0x00FF_0000_0000_0000usize & third) >> 24) | ((0x0000_00FF_0000_0000usize & third) >> 16) | ((0x0000_0000_00FF_0000usize & third) >> 8) | (0x0000_0000_0000_00FFusize & third); + // Safety: fn invariant used here *dst = word; *(dst.add(1)) = second_word; } } else if #[cfg(all(target_endian = "little", target_pointer_width = "32"))] { // Aligned ALU word, little-endian, 32-bit + /// Safety invariant: this is the amount of bytes consumed by + /// unpack_alu. This will be twice the pointer width, as it consumes two usizes. + /// This is also the number of bytes produced by pack_alu. + /// This is also the number of u16 code units produced/consumed by unpack_alu/pack_alu respectively. pub const ALU_STRIDE_SIZE: usize = 8; pub const MAX_STRIDE_SIZE: usize = 8; + // Safety invariant: this is the pointer width in bytes pub const ALU_ALIGNMENT: usize = 4; + // Safety invariant: this is a mask for getting the bits of a pointer not aligned to ALU_ALIGNMENT pub const ALU_ALIGNMENT_MASK: usize = 3; + /// Safety: dst must point to valid space for writing four `usize`s #[inline(always)] unsafe fn unpack_alu(word: usize, second_word: usize, dst: *mut usize) { let first = ((0x0000_FF00usize & word) << 8) | (0x0000_00FFusize & word); let second = ((0xFF00_0000usize & word) >> 8) | ((0x00FF_0000usize & word) >> 16); let third = ((0x0000_FF00usize & second_word) << 8) | (0x0000_00FFusize & second_word); let fourth = ((0xFF00_0000usize & second_word) >> 8) | ((0x00FF_0000usize & second_word) >> 16); + // Safety: fn invariant used here *dst = first; *(dst.add(1)) = second; *(dst.add(2)) = third; *(dst.add(3)) = fourth; } + /// Safety: dst must point to valid space for writing two `usize`s #[inline(always)] unsafe fn pack_alu(first: usize, second: usize, third: usize, fourth: usize, dst: *mut usize) { let word = ((0x00FF_0000usize & second) << 8) | ((0x0000_00FFusize & second) << 16) | ((0x00FF_0000usize & first) >> 8) | (0x0000_00FFusize & first); let second_word = ((0x00FF_0000usize & fourth) << 8) | ((0x0000_00FFusize & fourth) << 16) | ((0x00FF_0000usize & third) >> 8) | (0x0000_00FFusize & third); + // Safety: fn invariant used here *dst = word; *(dst.add(1)) = second_word; } } else if #[cfg(all(target_endian = "big", target_pointer_width = "64"))] { // Aligned ALU word, big-endian, 64-bit + /// Safety invariant: this is the amount of bytes consumed by + /// unpack_alu. This will be twice the pointer width, as it consumes two usizes. + /// This is also the number of bytes produced by pack_alu. + /// This is also the number of u16 code units produced/consumed by unpack_alu/pack_alu respectively. pub const ALU_STRIDE_SIZE: usize = 16; pub const MAX_STRIDE_SIZE: usize = 16; + // Safety invariant: this is the pointer width in bytes pub const ALU_ALIGNMENT: usize = 8; + // Safety invariant: this is a mask for getting the bits of a pointer not aligned to ALU_ALIGNMENT pub const ALU_ALIGNMENT_MASK: usize = 7; + /// Safety: dst must point to valid space for writing four `usize`s #[inline(always)] unsafe fn unpack_alu(word: usize, second_word: usize, dst: *mut usize) { let first = ((0xFF00_0000_0000_0000usize & word) >> 8) | ((0x00FF_0000_0000_0000usize & word) >> 16) | ((0x0000_FF00_0000_0000usize & word) >> 24) | ((0x0000_00FF_0000_0000usize & word) >> 32); let second = ((0x0000_0000_FF00_0000usize & word) << 24) | ((0x0000_0000_00FF_0000usize & word) << 16) | @@ -1115,22 +1394,24 @@ cfg_if! { let third = ((0xFF00_0000_0000_0000usize & second_word) >> 8) | ((0x00FF_0000_0000_0000usize & second_word) >> 16) | ((0x0000_FF00_0000_0000usize & second_word) >> 24) | ((0x0000_00FF_0000_0000usize & second_word) >> 32); let fourth = ((0x0000_0000_FF00_0000usize & second_word) << 24) | ((0x0000_0000_00FF_0000usize & second_word) << 16) | ((0x0000_0000_0000_FF00usize & second_word) << 8) | (0x0000_0000_0000_00FFusize & second_word); + // Safety: fn invariant used here *dst = first; *(dst.add(1)) = second; *(dst.add(2)) = third; *(dst.add(3)) = fourth; } + /// Safety: dst must point to valid space for writing two `usize`s #[inline(always)] unsafe fn pack_alu(first: usize, second: usize, third: usize, fourth: usize, dst: *mut usize) { let word = ((0x00FF0000_00000000usize & first) << 8) | ((0x000000FF_00000000usize & first) << 16) | ((0x00000000_00FF0000usize & first) << 24) | ((0x00000000_000000FFusize & first) << 32) | ((0x00FF0000_00000000usize & second) >> 24) | ((0x000000FF_00000000usize & second) >> 16) | @@ -1139,67 +1420,80 @@ cfg_if! { let second_word = ((0x00FF0000_00000000usize & third) << 8) | ((0x000000FF_00000000usize & third) << 16) | ((0x00000000_00FF0000usize & third) << 24) | ((0x00000000_000000FFusize & third) << 32) | ((0x00FF0000_00000000usize & fourth) >> 24) | ((0x000000FF_00000000usize & fourth) >> 16) | ((0x00000000_00FF0000usize & fourth) >> 8) | (0x00000000_000000FFusize & fourth); + // Safety: fn invariant used here *dst = word; *(dst.add(1)) = second_word; } } else if #[cfg(all(target_endian = "big", target_pointer_width = "32"))] { // Aligned ALU word, big-endian, 32-bit + /// Safety invariant: this is the amount of bytes consumed by + /// unpack_alu. This will be twice the pointer width, as it consumes two usizes. + /// This is also the number of bytes produced by pack_alu. + /// This is also the number of u16 code units produced/consumed by unpack_alu/pack_alu respectively. pub const ALU_STRIDE_SIZE: usize = 8; pub const MAX_STRIDE_SIZE: usize = 8; + // Safety invariant: this is the pointer width in bytes pub const ALU_ALIGNMENT: usize = 4; + // Safety invariant: this is a mask for getting the bits of a pointer not aligned to ALU_ALIGNMENT pub const ALU_ALIGNMENT_MASK: usize = 3; + /// Safety: dst must point to valid space for writing four `usize`s #[inline(always)] unsafe fn unpack_alu(word: usize, second_word: usize, dst: *mut usize) { let first = ((0xFF00_0000usize & word) >> 8) | ((0x00FF_0000usize & word) >> 16); let second = ((0x0000_FF00usize & word) << 8) | (0x0000_00FFusize & word); let third = ((0xFF00_0000usize & second_word) >> 8) | ((0x00FF_0000usize & second_word) >> 16); let fourth = ((0x0000_FF00usize & second_word) << 8) | (0x0000_00FFusize & second_word); + // Safety: fn invariant used here *dst = first; *(dst.add(1)) = second; *(dst.add(2)) = third; *(dst.add(3)) = fourth; } + /// Safety: dst must point to valid space for writing two `usize`s #[inline(always)] unsafe fn pack_alu(first: usize, second: usize, third: usize, fourth: usize, dst: *mut usize) { let word = ((0x00FF_0000usize & first) << 8) | ((0x0000_00FFusize & first) << 16) | ((0x00FF_0000usize & second) >> 8) | (0x0000_00FFusize & second); let second_word = ((0x00FF_0000usize & third) << 8) | ((0x0000_00FFusize & third) << 16) | ((0x00FF_0000usize & fourth) >> 8) | (0x0000_00FFusize & fourth); + // Safety: fn invariant used here *dst = word; *(dst.add(1)) = second_word; } } else { ascii_naive!(ascii_to_ascii, u8, u8); ascii_naive!(ascii_to_basic_latin, u8, u16); ascii_naive!(basic_latin_to_ascii, u16, u8); } } cfg_if! { + // Safety-usable invariant: this counts the zeroes from the "first byte" of utf-8 data packed into a usize + // with the target endianness if #[cfg(target_endian = "little")] { #[allow(dead_code)] #[inline(always)] fn count_zeros(word: usize) -> u32 { word.trailing_zeros() } } else { #[allow(dead_code)] @@ -1207,208 +1501,272 @@ cfg_if! { fn count_zeros(word: usize) -> u32 { word.leading_zeros() } } } cfg_if! { if #[cfg(all(feature = "simd-accel", target_endian = "little", target_arch = "disabled"))] { + /// Safety-usable invariant: Will return the value and position of the first non-ASCII byte in the slice in a Some if found. + /// In other words, the first element of the Some is always `> 127` #[inline(always)] pub fn validate_ascii(slice: &[u8]) -> Option<(u8, usize)> { let src = slice.as_ptr(); let len = slice.len(); let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading/writing at least `stride` elements. if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; loop { + // Safety: src at offset is valid for a `SIMD_STRIDE_SIZE` read let simd = unsafe { load16_unaligned(src.add(offset)) }; if !simd_is_ascii(simd) { break; } offset += SIMD_STRIDE_SIZE; + // This is `offset > len - SIMD_STRIDE_SIZE` which means we always have at least `SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride { break; } } } while offset < len { let code_unit = slice[offset]; if code_unit > 127 { + // Safety: Safety-usable invariant upheld here return Some((code_unit, offset)); } offset += 1; } None } } else if #[cfg(all(feature = "simd-accel", target_feature = "sse2"))] { + /// Safety-usable invariant: will return Some() when it encounters non-ASCII, with the first element in the Some being + /// guaranteed to be non-ASCII (> 127), and the second being the offset where it is found #[inline(always)] pub fn validate_ascii(slice: &[u8]) -> Option<(u8, usize)> { let src = slice.as_ptr(); let len = slice.len(); let mut offset = 0usize; + // Safety: if this check succeeds we're valid for reading at least `stride` elements. if SIMD_STRIDE_SIZE <= len { // First, process one unaligned vector + // Safety: src is valid for a `SIMD_STRIDE_SIZE` read let simd = unsafe { load16_unaligned(src) }; let mask = mask_ascii(simd); if mask != 0 { offset = mask.trailing_zeros() as usize; let non_ascii = unsafe { *src.add(offset) }; return Some((non_ascii, offset)); } offset = SIMD_STRIDE_SIZE; + // Safety: Now that offset has changed we don't yet know how much it is valid for // We have now seen 16 ASCII bytes. Let's guess that // there will be enough more to justify more expense // in the case of non-ASCII. // Use aligned reads for the sake of old microachitectures. + // Safety: this correctly calculates the number of src_units that need to be read before the remaining list is aligned. + // This is by definition less than SIMD_ALIGNMENT, which is defined to be equal to SIMD_STRIDE_SIZE. let until_alignment = unsafe { (SIMD_ALIGNMENT - ((src.add(offset) as usize) & SIMD_ALIGNMENT_MASK)) & SIMD_ALIGNMENT_MASK }; // This addition won't overflow, because even in the 32-bit PAE case the // address space holds enough code that the slice length can't be that // close to address space size. // offset now equals SIMD_STRIDE_SIZE, hence times 3 below. + // + // Safety: if this check succeeds we're valid for reading at least `2 * SIMD_STRIDE_SIZE` elements plus `until_alignment`. + // The extra SIMD_STRIDE_SIZE in the condition is because `offset` is already `SIMD_STRIDE_SIZE`. if until_alignment + (SIMD_STRIDE_SIZE * 3) <= len { if until_alignment != 0 { + // Safety: this is safe to call since we're valid for this read (and more), and don't care about alignment + // This will copy over bytes that get decoded twice since it's not incrementing `offset` by SIMD_STRIDE_SIZE. This is fine. let simd = unsafe { load16_unaligned(src.add(offset)) }; let mask = mask_ascii(simd); if mask != 0 { offset += mask.trailing_zeros() as usize; let non_ascii = unsafe { *src.add(offset) }; return Some((non_ascii, offset)); } offset += until_alignment; } + // Safety: At this point we're valid for reading 2*SIMD_STRIDE_SIZE elements + // Safety: Now `offset` is aligned for `src` let len_minus_stride_times_two = len - (SIMD_STRIDE_SIZE * 2); loop { + // Safety: We were valid for this read, and were aligned. let first = unsafe { load16_aligned(src.add(offset)) }; let second = unsafe { load16_aligned(src.add(offset + SIMD_STRIDE_SIZE)) }; if !simd_is_ascii(first | second) { + // Safety: mask_ascii produces a mask of all the high bits. let mask_first = mask_ascii(first); if mask_first != 0 { + // Safety: on little endian systems this will be the number of ascii bytes + // before the first non-ascii, i.e. valid for indexing src + // TODO SAFETY: What about big-endian systems? offset += mask_first.trailing_zeros() as usize; } else { let mask_second = mask_ascii(second); + // Safety: on little endian systems this will be the number of ascii bytes + // before the first non-ascii, i.e. valid for indexing src offset += SIMD_STRIDE_SIZE + mask_second.trailing_zeros() as usize; } + // Safety: We know this is non-ASCII, and can uphold the safety-usable invariant here let non_ascii = unsafe { *src.add(offset) }; + return Some((non_ascii, offset)); } offset += SIMD_STRIDE_SIZE * 2; + // Safety: This is `offset > len - 2 * SIMD_STRIDE_SIZE` which means we always have at least `2 * SIMD_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride_times_two { break; } } + // Safety: if this check succeeds we're valid for reading at least `SIMD_STRIDE_SIZE` if offset + SIMD_STRIDE_SIZE <= len { - let simd = unsafe { load16_aligned(src.add(offset)) }; - let mask = mask_ascii(simd); + // Safety: We were valid for this read, and were aligned. + let simd = unsafe { load16_aligned(src.add(offset)) }; + // Safety: mask_ascii produces a mask of all the high bits. + let mask = mask_ascii(simd); if mask != 0 { + // Safety: on little endian systems this will be the number of ascii bytes + // before the first non-ascii, i.e. valid for indexing src offset += mask.trailing_zeros() as usize; let non_ascii = unsafe { *src.add(offset) }; + // Safety: We know this is non-ASCII, and can uphold the safety-usable invariant here return Some((non_ascii, offset)); } offset += SIMD_STRIDE_SIZE; } } else { + // Safety: this is the unaligned branch // At most two iterations, so unroll + // Safety: if this check succeeds we're valid for reading at least `SIMD_STRIDE_SIZE` if offset + SIMD_STRIDE_SIZE <= len { + // Safety: We're valid for this read but must use an unaligned read let simd = unsafe { load16_unaligned(src.add(offset)) }; let mask = mask_ascii(simd); if mask != 0 { offset += mask.trailing_zeros() as usize; let non_ascii = unsafe { *src.add(offset) }; + // Safety-usable invariant upheld here (same as above) return Some((non_ascii, offset)); } offset += SIMD_STRIDE_SIZE; + // Safety: if this check succeeds we're valid for reading at least `SIMD_STRIDE_SIZE` if offset + SIMD_STRIDE_SIZE <= len { + // Safety: We're valid for this read but must use an unaligned read let simd = unsafe { load16_unaligned(src.add(offset)) }; let mask = mask_ascii(simd); if mask != 0 { offset += mask.trailing_zeros() as usize; let non_ascii = unsafe { *src.add(offset) }; + // Safety-usable invariant upheld here (same as above) return Some((non_ascii, offset)); } offset += SIMD_STRIDE_SIZE; } } } } while offset < len { + // Safety: relies straightforwardly on the `len` invariant let code_unit = unsafe { *(src.add(offset)) }; if code_unit > 127 { + // Safety-usable invariant upheld here return Some((code_unit, offset)); } offset += 1; } None } } else { + // Safety-usable invariant: returns byte index of first non-ascii byte #[inline(always)] fn find_non_ascii(word: usize, second_word: usize) -> Option<usize> { let word_masked = word & ASCII_MASK; let second_masked = second_word & ASCII_MASK; if (word_masked | second_masked) == 0 { + // Both are ascii, invariant upheld return None; } if word_masked != 0 { let zeros = count_zeros(word_masked); - // `zeros` now contains 7 (for the seven bits of non-ASCII) + // `zeros` now contains 0 to 7 (for the seven bits of masked ASCII in little endian, + // or up to 7 bits of non-ASCII in big endian if the first byte is non-ASCII) // plus 8 times the number of ASCII in text order before the // non-ASCII byte in the little-endian case or 8 times the number of ASCII in // text order before the non-ASCII byte in the big-endian case. let num_ascii = (zeros >> 3) as usize; + // Safety-usable invariant upheld here return Some(num_ascii); } let zeros = count_zeros(second_masked); - // `zeros` now contains 7 (for the seven bits of non-ASCII) + // `zeros` now contains 0 to 7 (for the seven bits of masked ASCII in little endian, + // or up to 7 bits of non-ASCII in big endian if the first byte is non-ASCII) // plus 8 times the number of ASCII in text order before the // non-ASCII byte in the little-endian case or 8 times the number of ASCII in // text order before the non-ASCII byte in the big-endian case. let num_ascii = (zeros >> 3) as usize; + // Safety-usable invariant upheld here Some(ALU_ALIGNMENT + num_ascii) } + /// Safety: `src` must be valid for the reads of two `usize`s + /// + /// Safety-usable invariant: will return byte index of first non-ascii byte #[inline(always)] unsafe fn validate_ascii_stride(src: *const usize) -> Option<usize> { let word = *src; let second_word = *(src.add(1)); find_non_ascii(word, second_word) } + /// Safety-usable invariant: will return Some() when it encounters non-ASCII, with the first element in the Some being + /// guaranteed to be non-ASCII (> 127), and the second being the offset where it is found #[cfg_attr(feature = "cargo-clippy", allow(cast_ptr_alignment))] #[inline(always)] pub fn validate_ascii(slice: &[u8]) -> Option<(u8, usize)> { let src = slice.as_ptr(); let len = slice.len(); let mut offset = 0usize; let mut until_alignment = (ALU_ALIGNMENT - ((src as usize) & ALU_ALIGNMENT_MASK)) & ALU_ALIGNMENT_MASK; + // Safety: If this check fails we're valid to read `until_alignment + ALU_STRIDE_SIZE` elements if until_alignment + ALU_STRIDE_SIZE <= len { while until_alignment != 0 { let code_unit = slice[offset]; if code_unit > 127 { + // Safety-usable invairant upheld here return Some((code_unit, offset)); } offset += 1; until_alignment -= 1; } + // Safety: At this point we have read until_alignment elements and + // are valid for `ALU_STRIDE_SIZE` more. let len_minus_stride = len - ALU_STRIDE_SIZE; loop { + // Safety: we were valid for this read let ptr = unsafe { src.add(offset) as *const usize }; if let Some(num_ascii) = unsafe { validate_ascii_stride(ptr) } { offset += num_ascii; + // Safety-usable invairant upheld here using the invariant from validate_ascii_stride() return Some((unsafe { *(src.add(offset)) }, offset)); } offset += ALU_STRIDE_SIZE; + // Safety: This is `offset > ALU_STRIDE_SIZE` which means we always have at least `2 * ALU_STRIDE_SIZE` elements to munch next time. if offset > len_minus_stride { break; } } } while offset < len { let code_unit = slice[offset]; if code_unit > 127 { + // Safety-usable invairant upheld here return Some((code_unit, offset)); } offset += 1; } None } } @@ -1423,70 +1781,88 @@ cfg_if! { // vector reads without vector writes. pub const ALU_STRIDE_SIZE: usize = 8; pub const ALU_ALIGNMENT: usize = 4; pub const ALU_ALIGNMENT_MASK: usize = 3; } else { + // Safety: src points to two valid `usize`s, dst points to four valid `usize`s #[inline(always)] unsafe fn unpack_latin1_stride_alu(src: *const usize, dst: *mut usize) { + // Safety: src safety invariant used here let word = *src; let second_word = *(src.add(1)); + // Safety: dst safety invariant passed down unpack_alu(word, second_word, dst); } + // Safety: src points to four valid `usize`s, dst points to two valid `usize`s #[inline(always)] unsafe fn pack_latin1_stride_alu(src: *const usize, dst: *mut usize) { + // Safety: src safety invariant used here let first = *src; let second = *(src.add(1)); let third = *(src.add(2)); let fourth = *(src.add(3)); + // Safety: dst safety invariant passed down pack_alu(first, second, third, fourth, dst); } + // Safety: src points to two valid `usize`s, dst points to four valid `usize`s #[inline(always)] unsafe fn ascii_to_basic_latin_stride_alu(src: *const usize, dst: *mut usize) -> bool { + // Safety: src safety invariant used here let word = *src; let second_word = *(src.add(1)); // Check if the words contains non-ASCII if (word & ASCII_MASK) | (second_word & ASCII_MASK) != 0 { return false; } + // Safety: dst safety invariant passed down unpack_alu(word, second_word, dst); true } + // Safety: src points four valid `usize`s, dst points to two valid `usize`s #[inline(always)] unsafe fn basic_latin_to_ascii_stride_alu(src: *const usize, dst: *mut usize) -> bool { + // Safety: src safety invariant used here let first = *src; let second = *(src.add(1)); let third = *(src.add(2)); let fourth = *(src.add(3)); if (first & BASIC_LATIN_MASK) | (second & BASIC_LATIN_MASK) | (third & BASIC_LATIN_MASK) | (fourth & BASIC_LATIN_MASK) != 0 { return false; } + // Safety: dst safety invariant passed down pack_alu(first, second, third, fourth, dst); true } + // Safety: src, dst both point to two valid `usize`s each + // Safety-usable invariant: Will return byte index of first non-ascii byte. #[inline(always)] unsafe fn ascii_to_ascii_stride(src: *const usize, dst: *mut usize) -> Option<usize> { + // Safety: src safety invariant used here let word = *src; let second_word = *(src.add(1)); + // Safety: src safety invariant used here *dst = word; *(dst.add(1)) = second_word; + // Relies on safety-usable invariant here find_non_ascii(word, second_word) } basic_latin_alu!(ascii_to_basic_latin, u8, u16, ascii_to_basic_latin_stride_alu); basic_latin_alu!(basic_latin_to_ascii, u16, u8, basic_latin_to_ascii_stride_alu); latin1_alu!(unpack_latin1, u8, u16, unpack_latin1_stride_alu); latin1_alu!(pack_latin1, u16, u8, pack_latin1_stride_alu); + // Safety invariant upheld: ascii_to_ascii_stride will return byte index of first non-ascii if found ascii_alu!(ascii_to_ascii, u8, u8, ascii_to_ascii_stride); } } pub fn ascii_valid_up_to(bytes: &[u8]) -> usize { match validate_ascii(bytes) { None => bytes.len(), Some((_, num_valid)) => num_valid, diff --git a/third_party/rust/encoding_rs/src/handles.rs b/third_party/rust/encoding_rs/src/handles.rs --- a/third_party/rust/encoding_rs/src/handles.rs +++ b/third_party/rust/encoding_rs/src/handles.rs @@ -29,17 +29,17 @@ use crate::simd_funcs::*; #[cfg(all( feature = "simd-accel", any( target_feature = "sse2", all(target_endian = "little", target_arch = "aarch64"), all(target_endian = "little", target_feature = "neon") ) ))] -use packed_simd::u16x8; +use core::simd::u16x8; use super::DecoderResult; use super::EncoderResult; use crate::ascii::*; use crate::utf_8::convert_utf8_to_utf16_up_to_invalid; use crate::utf_8::utf8_valid_up_to; pub enum Space<T> { @@ -85,84 +85,100 @@ impl Endian for LittleEndian { const OPPOSITE_ENDIAN: bool = false; #[cfg(target_endian = "big")] const OPPOSITE_ENDIAN: bool = true; } #[derive(Debug, Copy, Clone)] struct UnalignedU16Slice { + // Safety invariant: ptr must be valid for reading 2*len bytes ptr: *const u8, len: usize, } impl UnalignedU16Slice { + /// Safety: ptr must be valid for reading 2*len bytes #[inline(always)] pub unsafe fn new(ptr: *const u8, len: usize) -> UnalignedU16Slice { + // Safety: field invariant passed up to caller here UnalignedU16Slice { ptr, len } } #[inline(always)] pub fn trim_last(&mut self) { assert!(self.len > 0); + // Safety: invariant upheld here: a slice is still valid with a shorter len self.len -= 1; } #[inline(always)] pub fn at(&self, i: usize) -> u16 { use core::mem::MaybeUninit; assert!(i < self.len); unsafe { let mut u: MaybeUninit<u16> = MaybeUninit::uninit(); + // Safety: i is at most len - 1, which works here ::core::ptr::copy_nonoverlapping(self.ptr.add(i * 2), u.as_mut_ptr() as *mut u8, 2); + // Safety: valid read above lets us do this u.assume_init() } } #[cfg(feature = "simd-accel")] #[inline(always)] pub fn simd_at(&self, i: usize) -> u16x8 { + // Safety: i/len are on the scale of u16s, each one corresponds to 2 u8s assert!(i + SIMD_STRIDE_SIZE / 2 <= self.len); let byte_index = i * 2; + // Safety: load16_unaligned needs SIMD_STRIDE_SIZE=16 u8 elements to read, + // or 16/2 = 8 u16 elements to read. + // We have checked that we have at least that many above. + unsafe { to_u16_lanes(load16_unaligned(self.ptr.add(byte_index))) } } #[inline(always)] pub fn len(&self) -> usize { self.len } #[inline(always)] pub fn tail(&self, from: usize) -> UnalignedU16Slice { // XXX the return value should be restricted not to // outlive self. assert!(from <= self.len); + // Safety: This upholds the same invariant: `from` is in bounds and we're returning a shorter slice unsafe { UnalignedU16Slice::new(self.ptr.add(from * 2), self.len - from) } } #[cfg(feature = "simd-accel")] #[inline(always)] pub fn copy_bmp_to<E: Endian>(&self, other: &mut [u16]) -> Option<(u16, usize)> { assert!(self.len <= other.len()); let mut offset = 0; + // Safety: SIMD_STRIDE_SIZE is measured in bytes, whereas len is in u16s. We check we can + // munch SIMD_STRIDE_SIZE / 2 u16s which means we can write SIMD_STRIDE_SIZE u8s if SIMD_STRIDE_SIZE / 2 <= self.len { let len_minus_stride = self.len - SIMD_STRIDE_SIZE / 2; loop { let mut simd = self.simd_at(offset); if E::OPPOSITE_ENDIAN { simd = simd_byte_swap(simd); } + // Safety: we have enough space on the other side to write this unsafe { store8_unaligned(other.as_mut_ptr().add(offset), simd); } if contains_surrogates(simd) { break; } offset += SIMD_STRIDE_SIZE / 2; + // Safety: This ensures we still have space for writing SIMD_STRIDE_SIZE u8s if offset > len_minus_stride { break; } } } while offset < self.len { let unit = swap_if_opposite_endian::<E>(self.at(offset)); other[offset] = unit; @@ -231,33 +247,37 @@ fn copy_unaligned_basic_latin_to_ascii<E #[cfg(feature = "simd-accel")] #[inline(always)] fn copy_unaligned_basic_latin_to_ascii<E: Endian>( src: UnalignedU16Slice, dst: &mut [u8], ) -> CopyAsciiResult<usize, (u16, usize)> { let len = ::core::cmp::min(src.len(), dst.len()); let mut offset = 0; + // Safety: This check ensures we are able to read/write at least SIMD_STRIDE_SIZE elements if SIMD_STRIDE_SIZE <= len { let len_minus_stride = len - SIMD_STRIDE_SIZE; loop { let mut first = src.simd_at(offset); let mut second = src.simd_at(offset + (SIMD_STRIDE_SIZE / 2)); if E::OPPOSITE_ENDIAN { first = simd_byte_swap(first); second = simd_byte_swap(second); } if !simd_is_basic_latin(first | second) { break; } let packed = simd_pack(first, second); + // Safety: We are able to write SIMD_STRIDE_SIZE elements in this iteration unsafe { store16_unaligned(dst.as_mut_ptr().add(offset), packed); } offset += SIMD_STRIDE_SIZE; + // Safety: This is `offset > len - SIMD_STRIDE_SIZE`, which ensures that we can write at least SIMD_STRIDE_SIZE elements + // in the next iteration if offset > len_minus_stride { break; } } } copy_unaligned_basic_latin_to_ascii_alu::<E>(src.tail(offset), &mut dst[offset..], offset) } @@ -632,94 +652,106 @@ impl<'a> Utf16Destination<'a> { #[inline(always)] fn write_astral(&mut self, astral: u32) { debug_assert!(astral > 0xFFFF); debug_assert!(astral <= 0x10_FFFF); self.write_code_unit((0xD7C0 + (astral >> 10)) as u16); self.write_code_unit((0xDC00 + (astral & 0x3FF)) as u16); } #[inline(always)] - pub fn write_surrogate_pair(&mut self, high: u16, low: u16) { + fn write_surrogate_pair(&mut self, high: u16, low: u16) { self.write_code_unit(high); self.write_code_unit(low); } #[inline(always)] fn write_big5_combination(&mut self, combined: u16, combining: u16) { self.write_bmp_excl_ascii(combined); self.write_bmp_excl_ascii(combining); } + // Safety-usable invariant: CopyAsciiResult::GoOn will only contain bytes >=0x80 #[inline(always)] pub fn copy_ascii_from_check_space_bmp<'b>( &'b mut self, source: &mut ByteSource, ) -> CopyAsciiResult<(DecoderResult, usize, usize), (u8, Utf16BmpHandle<'b, 'a>)> { let non_ascii_ret = { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (DecoderResult::OutputFull, dst_remaining.len()) } else { (DecoderResult::InputEmpty, src_remaining.len()) }; + // Safety: This function is documented as needing valid pointers for src/dest and len, which + // is true since we've passed the minumum length of the two match unsafe { ascii_to_basic_latin(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { source.pos += length; self.pos += length; return CopyAsciiResult::Stop((pending, source.pos, self.pos)); } + // Safety: the function is documented as returning bytes >=0x80 in the Some Some((non_ascii, consumed)) => { source.pos += consumed; self.pos += consumed; source.pos += 1; // +1 for non_ascii + // Safety: non-ascii bubbled out here non_ascii } } }; + // Safety: non-ascii returned here CopyAsciiResult::GoOn((non_ascii_ret, Utf16BmpHandle::new(self))) } + // Safety-usable invariant: CopyAsciiResult::GoOn will only contain bytes >=0x80 #[inline(always)] pub fn copy_ascii_from_check_space_astral<'b>( &'b mut self, source: &mut ByteSource, ) -> CopyAsciiResult<(DecoderResult, usize, usize), (u8, Utf16AstralHandle<'b, 'a>)> { let non_ascii_ret = { let dst_len = self.slice.len(); let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (pending, length) = if dst_remaining.len() < src_remaining.len() { (DecoderResult::OutputFull, dst_remaining.len()) } else { (DecoderResult::InputEmpty, src_remaining.len()) }; + // Safety: This function is documented as needing valid pointers for src/dest and len, which + // is true since we've passed the minumum length of the two match unsafe { ascii_to_basic_latin(src_remaining.as_ptr(), dst_remaining.as_mut_ptr(), length) } { None => { source.pos += length; self.pos += length; return CopyAsciiResult::Stop((pending, source.pos, self.pos)); } + // Safety: the function is documented as returning bytes >=0x80 in the Some Some((non_ascii, consumed)) => { source.pos += consumed; self.pos += consumed; if self.pos + 1 < dst_len { source.pos += 1; // +1 for non_ascii + // Safety: non-ascii bubbled out here non_ascii } else { return CopyAsciiResult::Stop(( DecoderResult::OutputFull, source.pos, self.pos, )); } } } }; + // Safety: non-ascii returned here CopyAsciiResult::GoOn((non_ascii_ret, Utf16AstralHandle::new(self))) } #[inline(always)] pub fn copy_utf8_up_to_invalid_from(&mut self, source: &mut ByteSource) { let src_remaining = &source.slice[source.pos..]; let dst_remaining = &mut self.slice[self.pos..]; let (read, written) = convert_utf8_to_utf16_up_to_invalid(src_remaining, dst_remaining); source.pos += read; diff --git a/third_party/rust/encoding_rs/src/lib.rs b/third_party/rust/encoding_rs/src/lib.rs --- a/third_party/rust/encoding_rs/src/lib.rs +++ b/third_party/rust/encoding_rs/src/lib.rs @@ -684,37 +684,26 @@ //! <tr><td>TIS-620</td><td>windows-874</td></tr> //! </tbody> //! </table> //! //! See the section [_UTF-16LE, UTF-16BE and Unicode Encoding Schemes_](#utf-16le-utf-16be-and-unicode-encoding-schemes) //! for discussion about the UTF-16 family. #![no_std] -#![cfg_attr(feature = "simd-accel", feature(core_intrinsics))] +#![cfg_attr(feature = "simd-accel", feature(core_intrinsics, portable_simd))] #[cfg(feature = "alloc")] #[cfg_attr(test, macro_use)] extern crate alloc; extern crate core; #[macro_use] extern crate cfg_if; -#[cfg(all( - feature = "simd-accel", - any( - target_feature = "sse2", - all(target_endian = "little", target_arch = "aarch64"), - all(target_endian = "little", target_feature = "neon") - ) -))] -#[macro_use(shuffle)] -extern crate packed_simd; - #[cfg(feature = "serde")] extern crate serde; #[cfg(all(test, feature = "serde"))] extern crate bincode; #[cfg(all(test, feature = "serde"))] #[macro_use] extern crate serde_derive; diff --git a/third_party/rust/encoding_rs/src/mem.rs b/third_party/rust/encoding_rs/src/mem.rs --- a/third_party/rust/encoding_rs/src/mem.rs +++ b/third_party/rust/encoding_rs/src/mem.rs @@ -111,16 +111,21 @@ macro_rules! by_unit_check_alu { until_alignment -= 1; } if accu >= $bound { return false; } } let len_minus_stride = len - ALU_ALIGNMENT / unit_size; if offset + (4 * (ALU_ALIGNMENT / unit_size)) <= len { + // Safety: the above check lets us perform 4 consecutive reads of + // length ALU_ALIGNMENT / unit_size. ALU_ALIGNMENT is the size of usize, and unit_size + // is the size of the `src` pointer, so this is equal to performing four usize reads. + // + // This invariant is upheld on all loop iterations let len_minus_unroll = len - (4 * (ALU_ALIGNMENT / unit_size)); loop { let unroll_accu = unsafe { *(src.add(offset) as *const usize) } | unsafe { *(src.add(offset + (ALU_ALIGNMENT / unit_size)) as *const usize) } | unsafe { *(src.add(offset + (2 * (ALU_ALIGNMENT / unit_size))) @@ -129,22 +134,24 @@ macro_rules! by_unit_check_alu { | unsafe { *(src.add(offset + (3 * (ALU_ALIGNMENT / unit_size))) as *const usize) }; if unroll_accu & $mask != 0 { return false; } offset += 4 * (ALU_ALIGNMENT / unit_size); + // Safety: this check lets us continue to perform the 4 reads earlier if offset > len_minus_unroll { break; } } } while offset <= len_minus_stride { + // Safety: the above check lets us perform one usize read. accu |= unsafe { *(src.add(offset) as *const usize) }; offset += ALU_ALIGNMENT / unit_size; } } } for &unit in &buffer[offset..] { accu |= unit as usize; } @@ -184,16 +191,21 @@ macro_rules! by_unit_check_simd { until_alignment -= 1; } if accu >= $bound { return false; } } let len_minus_stride = len - SIMD_STRIDE_SIZE / unit_size; if offset + (4 * (SIMD_STRIDE_SIZE / unit_size)) <= len { + // Safety: the above check lets us perform 4 consecutive reads of + // length SIMD_STRIDE_SIZE / unit_size. SIMD_STRIDE_SIZE is the size of $simd_ty, and unit_size + // is the size of the `src` pointer, so this is equal to performing four $simd_ty reads. + // + // This invariant is upheld on all loop iterations let len_minus_unroll = len - (4 * (SIMD_STRIDE_SIZE / unit_size)); loop { let unroll_accu = unsafe { *(src.add(offset) as *const $simd_ty) } | unsafe { *(src.add(offset + (SIMD_STRIDE_SIZE / unit_size)) as *const $simd_ty) } | unsafe { @@ -203,23 +215,25 @@ macro_rules! by_unit_check_simd { | unsafe { *(src.add(offset + (3 * (SIMD_STRIDE_SIZE / unit_size))) as *const $simd_ty) }; if !$func(unroll_accu) { return false; } offset += 4 * (SIMD_STRIDE_SIZE / unit_size); + // Safety: this check lets us continue to perform the 4 reads earlier if offset > len_minus_unroll { break; } } } let mut simd_accu = $splat; while offset <= len_minus_stride { + // Safety: the above check lets us perform one $simd_ty read. simd_accu = simd_accu | unsafe { *(src.add(offset) as *const $simd_ty) }; offset += SIMD_STRIDE_SIZE / unit_size; } if !$func(simd_accu) { return false; } } } @@ -229,18 +243,18 @@ macro_rules! by_unit_check_simd { accu < $bound } }; } cfg_if! { if #[cfg(all(feature = "simd-accel", any(target_feature = "sse2", all(target_endian = "little", target_arch = "aarch64"), all(target_endian = "little", target_feature = "neon"))))] { use crate::simd_funcs::*; - use packed_simd::u8x16; - use packed_simd::u16x8; + use core::simd::u8x16; + use core::simd::u16x8; const SIMD_ALIGNMENT: usize = 16; const SIMD_ALIGNMENT_MASK: usize = 15; by_unit_check_simd!(is_ascii_impl, u8, u8x16::splat(0), u8x16, 0x80, simd_is_ascii); by_unit_check_simd!(is_basic_latin_impl, u16, u16x8::splat(0), u16x8, 0x80, simd_is_basic_latin); by_unit_check_simd!(is_utf16_latin1_impl, u16, u16x8::splat(0), u16x8, 0x100, simd_is_latin1); diff --git a/third_party/rust/encoding_rs/src/simd_funcs.rs b/third_party/rust/encoding_rs/src/simd_funcs.rs --- a/third_party/rust/encoding_rs/src/simd_funcs.rs +++ b/third_party/rust/encoding_rs/src/simd_funcs.rs @@ -2,65 +2,84 @@ // file at the top-level directory of this distribution. // // Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or // https://www.apache.org/licenses/LICENSE-2.0> or the MIT license // <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your // option. This file may not be copied, modified, or distributed // except according to those terms. -use packed_simd::u16x8; -use packed_simd::u8x16; -use packed_simd::IntoBits; +use any_all_workaround::all_mask16x8; +use any_all_workaround::all_mask8x16; +use any_all_workaround::any_mask16x8; +use any_all_workaround::any_mask8x16; +use core::simd::cmp::SimdPartialEq; +use core::simd::cmp::SimdPartialOrd; +use core::simd::mask16x8; +use core::simd::mask8x16; +use core::simd::simd_swizzle; +use core::simd::u16x8; +use core::simd::u8x16; +use core::simd::ToBytes; // TODO: Migrate unaligned access to stdlib code if/when the RFC // https://github.com/rust-lang/rfcs/pull/1725 is implemented. +/// Safety invariant: ptr must be valid for an unaligned read of 16 bytes #[inline(always)] pub unsafe fn load16_unaligned(ptr: *const u8) -> u8x16 { - let mut simd = ::core::mem::uninitialized(); - ::core::ptr::copy_nonoverlapping(ptr, &mut simd as *mut u8x16 as *mut u8, 16); - simd + let mut simd = ::core::mem::MaybeUninit::<u8x16>::uninit(); + ::core::ptr::copy_nonoverlapping(ptr, simd.as_mut_ptr() as *mut u8, 16); + // Safety: copied 16 bytes of initialized memory into this, it is now initialized + simd.assume_init() } +/// Safety invariant: ptr must be valid for an aligned-for-u8x16 read of 16 bytes #[allow(dead_code)] #[inline(always)] pub unsafe fn load16_aligned(ptr: *const u8) -> u8x16 { *(ptr as *const u8x16) } +/// Safety invariant: ptr must be valid for an unaligned store of 16 bytes #[inline(always)] pub unsafe fn store16_unaligned(ptr: *mut u8, s: u8x16) { ::core::ptr::copy_nonoverlapping(&s as *const u8x16 as *const u8, ptr, 16); } +/// Safety invariant: ptr must be valid for an aligned-for-u8x16 store of 16 bytes #[allow(dead_code)] #[inline(always)] pub unsafe fn store16_aligned(ptr: *mut u8, s: u8x16) { *(ptr as *mut u8x16) = s; } +/// Safety invariant: ptr must be valid for an unaligned read of 16 bytes #[inline(always)] pub unsafe fn load8_unaligned(ptr: *const u16) -> u16x8 { - let mut simd = ::core::mem::uninitialized(); - ::core::ptr::copy_nonoverlapping(ptr as *const u8, &mut simd as *mut u16x8 as *mut u8, 16); - simd + let mut simd = ::core::mem::MaybeUninit::<u16x8>::uninit(); + ::core::ptr::copy_nonoverlapping(ptr as *const u8, simd.as_mut_ptr() as *mut u8, 16); + // Safety: copied 16 bytes of initialized memory into this, it is now initialized + simd.assume_init() } +/// Safety invariant: ptr must be valid for an aligned-for-u16x8 read of 16 bytes #[allow(dead_code)] #[inline(always)] pub unsafe fn load8_aligned(ptr: *const u16) -> u16x8 { *(ptr as *const u16x8) } +/// Safety invariant: ptr must be valid for an unaligned store of 16 bytes #[inline(always)] pub unsafe fn store8_unaligned(ptr: *mut u16, s: u16x8) { ::core::ptr::copy_nonoverlapping(&s as *const u16x8 as *const u8, ptr as *mut u8, 16); } +/// Safety invariant: ptr must be valid for an aligned-for-u16x8 store of 16 bytes #[allow(dead_code)] #[inline(always)] pub unsafe fn store8_aligned(ptr: *mut u16, s: u16x8) { *(ptr as *mut u16x8) = s; } cfg_if! { if #[cfg(all(target_feature = "sse2", target_arch = "x86_64"))] { @@ -95,234 +114,241 @@ cfg_if! { pub fn simd_byte_swap(s: u16x8) -> u16x8 { let left = s << 8; let right = s >> 8; left | right } #[inline(always)] pub fn to_u16_lanes(s: u8x16) -> u16x8 { - s.into_bits() + u16x8::from_ne_bytes(s) } cfg_if! { if #[cfg(target_feature = "sse2")] { // Expose low-level mask instead of higher-level conclusion, // because the non-ASCII case would perform less well otherwise. + // Safety-usable invariant: This returned value is whether each high bit is set #[inline(always)] pub fn mask_ascii(s: u8x16) -> i32 { unsafe { - _mm_movemask_epi8(s.into_bits()) + _mm_movemask_epi8(s.into()) } } } else { } } cfg_if! { if #[cfg(target_feature = "sse2")] { #[inline(always)] pub fn simd_is_ascii(s: u8x16) -> bool { unsafe { - _mm_movemask_epi8(s.into_bits()) == 0 + // Safety: We have cfg()d the correct platform + _mm_movemask_epi8(s.into()) == 0 } } } else if #[cfg(target_arch = "aarch64")]{ #[inline(always)] pub fn simd_is_ascii(s: u8x16) -> bool { unsafe { - vmaxvq_u8(s.into_bits()) < 0x80 + // Safety: We have cfg()d the correct platform + vmaxvq_u8(s.into()) < 0x80 } } } else { #[inline(always)] pub fn simd_is_ascii(s: u8x16) -> bool { // This optimizes better on ARM than // the lt formulation. let highest_ascii = u8x16::splat(0x7F); - !s.gt(highest_ascii).any() + !any_mask8x16(s.simd_gt(highest_ascii)) } } } cfg_if! { if #[cfg(target_feature = "sse2")] { #[inline(always)] pub fn simd_is_str_latin1(s: u8x16) -> bool { if simd_is_ascii(s) { return true; } let above_str_latin1 = u8x16::splat(0xC4); - s.lt(above_str_latin1).all() + s.simd_lt(above_str_latin1).all() } } else if #[cfg(target_arch = "aarch64")]{ #[inline(always)] pub fn simd_is_str_latin1(s: u8x16) -> bool { unsafe { - vmaxvq_u8(s.into_bits()) < 0xC4 + // Safety: We have cfg()d the correct platform + vmaxvq_u8(s.into()) < 0xC4 } } } else { #[inline(always)] pub fn simd_is_str_latin1(s: u8x16) -> bool { let above_str_latin1 = u8x16::splat(0xC4); - s.lt(above_str_latin1).all() + all_mask8x16(s.simd_lt(above_str_latin1)) } } } cfg_if! { if #[cfg(target_arch = "aarch64")]{ #[inline(always)] pub fn simd_is_basic_latin(s: u16x8) -> bool { unsafe { - vmaxvq_u16(s.into_bits()) < 0x80 + // Safety: We have cfg()d the correct platform + vmaxvq_u16(s.into()) < 0x80 } } #[inline(always)] pub fn simd_is_latin1(s: u16x8) -> bool { unsafe { - vmaxvq_u16(s.into_bits()) < 0x100 + // Safety: We have cfg()d the correct platform + vmaxvq_u16(s.into()) < 0x100 } } } else { #[inline(always)] pub fn simd_is_basic_latin(s: u16x8) -> bool { let above_ascii = u16x8::splat(0x80); - s.lt(above_ascii).all() + all_mask16x8(s.simd_lt(above_ascii)) } #[inline(always)] pub fn simd_is_latin1(s: u16x8) -> bool { // For some reason, on SSE2 this formulation // seems faster in this case while the above // function is better the other way round... let highest_latin1 = u16x8::splat(0xFF); - !s.gt(highest_latin1).any() + !any_mask16x8(s.simd_gt(highest_latin1)) } } } #[inline(always)] pub fn contains_surrogates(s: u16x8) -> bool { let mask = u16x8::splat(0xF800); let surrogate_bits = u16x8::splat(0xD800); - (s & mask).eq(surrogate_bits).any() + any_mask16x8((s & mask).simd_eq(surrogate_bits)) } cfg_if! { if #[cfg(target_arch = "aarch64")]{ macro_rules! aarch64_return_false_if_below_hebrew { ($s:ident) => ({ unsafe { - if vmaxvq_u16($s.into_bits()) < 0x0590 { + // Safety: We have cfg()d the correct platform + if vmaxvq_u16($s.into()) < 0x0590 { return false; } } }) } macro_rules! non_aarch64_return_false_if_all { ($s:ident) => () } } else { macro_rules! aarch64_return_false_if_below_hebrew { ($s:ident) => () } macro_rules! non_aarch64_return_false_if_all { ($s:ident) => ({ - if $s.all() { + if all_mask16x8($s) { return false; } }) } } } macro_rules! in_range16x8 { ($s:ident, $start:expr, $end:expr) => {{ // SIMD sub is wrapping - ($s - u16x8::splat($start)).lt(u16x8::splat($end - $start)) + ($s - u16x8::splat($start)).simd_lt(u16x8::splat($end - $start)) }}; } #[inline(always)] pub fn is_u16x8_bidi(s: u16x8) -> bool { // We try to first quickly refute the RTLness of the vector. If that // fails, we do the real RTL check, so in that case we end up wasting // the work for the up-front quick checks. Even the quick-check is // two-fold in order to return `false` ASAP if everything is below // Hebrew. aarch64_return_false_if_below_hebrew!(s); - let below_hebrew = s.lt(u16x8::splat(0x0590)); + let below_hebrew = s.simd_lt(u16x8::splat(0x0590)); non_aarch64_return_false_if_all!(below_hebrew); - if (below_hebrew | in_range16x8!(s, 0x0900, 0x200F) | in_range16x8!(s, 0x2068, 0xD802)).all() { + if all_mask16x8( + below_hebrew | in_range16x8!(s, 0x0900, 0x200F) | in_range16x8!(s, 0x2068, 0xD802), + ) { return false; } // Quick refutation failed. Let's do the full check. - (in_range16x8!(s, 0x0590, 0x0900) - | in_range16x8!(s, 0xFB1D, 0xFE00) - | in_range16x8!(s, 0xFE70, 0xFEFF) - | in_range16x8!(s, 0xD802, 0xD804) - | in_range16x8!(s, 0xD83A, 0xD83C) - | s.eq(u16x8::splat(0x200F)) - | s.eq(u16x8::splat(0x202B)) - | s.eq(u16x8::splat(0x202E)) - | s.eq(u16x8::splat(0x2067))) - .any() + any_mask16x8( + (in_range16x8!(s, 0x0590, 0x0900) + | in_range16x8!(s, 0xFB1D, 0xFE00) + | in_range16x8!(s, 0xFE70, 0xFEFF) + | in_range16x8!(s, 0xD802, 0xD804) + | in_range16x8!(s, 0xD83A, 0xD83C) + | s.simd_eq(u16x8::splat(0x200F)) + | s.simd_eq(u16x8::splat(0x202B)) + | s.simd_eq(u16x8::splat(0x202E)) + | s.simd_eq(u16x8::splat(0x2067))), + ) } #[inline(always)] pub fn simd_unpack(s: u8x16) -> (u16x8, u16x8) { - unsafe { - let first: u8x16 = shuffle!( - s, - u8x16::splat(0), - [0, 16, 1, 17, 2, 18, 3, 19, 4, 20, 5, 21, 6, 22, 7, 23] - ); - let second: u8x16 = shuffle!( - s, - u8x16::splat(0), - [8, 24, 9, 25, 10, 26, 11, 27, 12, 28, 13, 29, 14, 30, 15, 31] - ); - (first.into_bits(), second.into_bits()) - } + let first: u8x16 = simd_swizzle!( + s, + u8x16::splat(0), + [0, 16, 1, 17, 2, 18, 3, 19, 4, 20, 5, 21, 6, 22, 7, 23] + ); + let second: u8x16 = simd_swizzle!( + s, + u8x16::splat(0), + [8, 24, 9, 25, 10, 26, 11, 27, 12, 28, 13, 29, 14, 30, 15, 31] + ); + (u16x8::from_ne_bytes(first), u16x8::from_ne_bytes(second)) } cfg_if! { if #[cfg(target_feature = "sse2")] { #[inline(always)] pub fn simd_pack(a: u16x8, b: u16x8) -> u8x16 { unsafe { - _mm_packus_epi16(a.into_bits(), b.into_bits()).into_bits() + // Safety: We have cfg()d the correct platform + _mm_packus_epi16(a.into(), b.into()).into() } } } else { #[inline(always)] pub fn simd_pack(a: u16x8, b: u16x8) -> u8x16 { - unsafe { - let first: u8x16 = a.into_bits(); - let second: u8x16 = b.into_bits(); - shuffle!( - first, - second, - [0, 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30] - ) - } + let first: u8x16 = a.to_ne_bytes(); + let second: u8x16 = b.to_ne_bytes(); + simd_swizzle!( + first, + second, + [0, 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30] + ) } } } #[cfg(test)] mod tests { use super::*; use alloc::vec::Vec; diff --git a/third_party/rust/encoding_rs/src/single_byte.rs b/third_party/rust/encoding_rs/src/single_byte.rs --- a/third_party/rust/encoding_rs/src/single_byte.rs +++ b/third_party/rust/encoding_rs/src/single_byte.rs @@ -48,16 +48,19 @@ impl SingleByteDecoder { CopyAsciiResult::GoOn((mut non_ascii, mut handle)) => 'middle: loop { // Start non-boilerplate // // Since the non-ASCIIness of `non_ascii` is hidden from // the optimizer, it can't figure out that it's OK to // statically omit the bound check when accessing // `[u16; 128]` with an index // `non_ascii as usize - 0x80usize`. + // + // Safety: `non_ascii` is a u8 byte >=0x80, from the invariants + // on Utf8Destination::copy_ascii_from_check_space_bmp() let mapped = unsafe { *(self.table.get_unchecked(non_ascii as usize - 0x80usize)) }; // let mapped = self.table[non_ascii as usize - 0x80usize]; if mapped == 0u16 { return ( DecoderResult::Malformed(1, 0), source.consumed(), handle.written(), @@ -146,82 +149,103 @@ impl SingleByteDecoder { dst: &mut [u16], _last: bool, ) -> (DecoderResult, usize, usize) { let (pending, length) = if dst.len() < src.len() { (DecoderResult::OutputFull, dst.len()) } else { (DecoderResult::InputEmpty, src.len()) }; + // Safety invariant: converted <= length. Quite often we have `converted < length` + // which will be separately marked. let mut converted = 0usize; 'outermost: loop { match unsafe { + // Safety: length is the minimum length, `src/dst + x` will always be valid for reads/writes of `len - x` ascii_to_basic_latin( src.as_ptr().add(converted), dst.as_mut_ptr().add(converted), length - converted, ) } { None => { return (pending, length, length); } Some((mut non_ascii, consumed)) => { + // Safety invariant: `converted <= length` upheld, since this can only consume + // up to `length - converted` bytes. + // + // Furthermore, in this context, + // we can assume `converted < length` since this branch is only ever hit when + // ascii_to_basic_latin fails to consume the entire slice converted += consumed; 'middle: loop { // `converted` doesn't count the reading of `non_ascii` yet. // Since the non-ASCIIness of `non_ascii` is hidden from // the optimizer, it can't figure out that it's OK to // statically omit the bound check when accessing // `[u16; 128]` with an index // `non_ascii as usize - 0x80usize`. + // + // Safety: We can rely on `non_ascii` being between `0x80` and `0xFF` due to + // the invariants of `ascii_to_basic_latin()`, and our table has enough space for that. let mapped = unsafe { *(self.table.get_unchecked(non_ascii as usize - 0x80usize)) }; // let mapped = self.table[non_ascii as usize - 0x80usize]; if mapped == 0u16 { return ( DecoderResult::Malformed(1, 0), converted + 1, // +1 `for non_ascii` converted, ); } unsafe { - // The bound check has already been performed + // Safety: As mentioned above, `converted < length` *(dst.get_unchecked_mut(converted)) = mapped; } + // Safety: `converted <= length` upheld, since `converted < length` before this converted += 1; // Next, handle ASCII punctuation and non-ASCII without // going back to ASCII acceleration. Non-ASCII scripts // use ASCII punctuation, so this avoid going to // acceleration just for punctuation/space and then // failing. This is a significant boost to non-ASCII // scripts. // TODO: Split out Latin converters without this part // this stuff makes Latin script-conversion slower. if converted == length { return (pending, length, length); } + // Safety: We are back to `converted < length` because of the == above + // and can perform this check. let mut b = unsafe { *(src.get_unchecked(converted)) }; + // Safety: `converted < length` is upheld for this loop 'innermost: loop { if b > 127 { non_ascii = b; continue 'middle; } // Testing on Haswell says that we should write the // byte unconditionally instead of trying to unread it // to make it part of the next SIMD stride. unsafe { + // Safety: `converted < length` is true for this loop *(dst.get_unchecked_mut(converted)) = u16::from(b); } + // Safety: We are now at `converted <= length`. We should *not* `continue` + // the loop without reverifying converted += 1; if b < 60 { // We've got punctuation if converted == length { return (pending, length, length); } + // Safety: we're back to `converted <= length` because of the == above b = unsafe { *(src.get_unchecked(converted)) }; + // Safety: The loop continues as `converted < length` continue 'innermost; } // We've got markup or ASCII text continue 'outermost; } } } } @@ -229,16 +253,18 @@ impl SingleByteDecoder { } pub fn latin1_byte_compatible_up_to(&self, buffer: &[u8]) -> usize { let mut bytes = buffer; let mut total = 0; loop { if let Some((non_ascii, offset)) = validate_ascii(bytes) { total += offset; + // Safety: We can rely on `non_ascii` being between `0x80` and `0xFF` due to + // the invariants of `ascii_to_basic_latin()`, and our table has enough space for that. let mapped = unsafe { *(self.table.get_unchecked(non_ascii as usize - 0x80usize)) }; if mapped != u16::from(non_ascii) { return total; } total += 1; bytes = &bytes[offset + 1..]; } else { return total; @@ -379,64 +405,89 @@ impl SingleByteEncoder { dst: &mut [u8], _last: bool, ) -> (EncoderResult, usize, usize) { let (pending, length) = if dst.len() < src.len() { (EncoderResult::OutputFull, dst.len()) } else { (EncoderResult::InputEmpty, src.len()) }; + // Safety invariant: converted <= length. Quite often we have `converted < length` + // which will be separately marked. let mut converted = 0usize; 'outermost: loop { match unsafe { + // Safety: length is the minimum length, `src/dst + x` will always be valid for reads/writes of `len - x` basic_latin_to_ascii( src.as_ptr().add(converted), dst.as_mut_ptr().add(converted), length - converted, ) } { None => { return (pending, length, length); } Some((mut non_ascii, consumed)) => { + // Safety invariant: `converted <= length` upheld, since this can only consume + // up to `length - converted` bytes. + // + // Furthermore, in this context, + // we can assume `converted < length` since this branch is only ever hit when + // ascii_to_basic_latin fails to consume the entire slice converted += consumed; 'middle: loop { // `converted` doesn't count the reading of `non_ascii` yet. match self.encode_u16(non_ascii) { Some(byte) => { unsafe { + // Safety: we're allowed this access since `converted < length` *(dst.get_unchecked_mut(converted)) = byte; } converted += 1; + // `converted <= length` now } None => { // At this point, we need to know if we // have a surrogate. let high_bits = non_ascii & 0xFC00u16; if high_bits == 0xD800u16 { // high surrogate if converted + 1 == length { // End of buffer. This surrogate is unpaired. return ( EncoderResult::Unmappable('\u{FFFD}'), converted + 1, // +1 `for non_ascii` converted, ); } + // Safety: convered < length from outside the match, and `converted + 1 != length`, + // So `converted + 1 < length` as well. We're in bounds let second = u32::from(unsafe { *src.get_unchecked(converted + 1) }); if second & 0xFC00u32 != 0xDC00u32 { return ( EncoderResult::Unmappable('\u{FFFD}'), converted + 1, // +1 `for non_ascii` converted, ); } // The next code unit is a low surrogate. let astral: char = unsafe { + // Safety: We can rely on non_ascii being 0xD800-0xDBFF since the high bits are 0xD800 + // Then, (non_ascii << 10 - 0xD800 << 10) becomes between (0 to 0x3FF) << 10, which is between + // 0x400 to 0xffc00. Adding the 0x10000 gives a range of 0x10400 to 0x10fc00. Subtracting the 0xDC00 + // gives 0x2800 to 0x102000 + // The second term is between 0xDC00 and 0xDFFF from the check above. This gives a maximum + // possible range of (0x10400 + 0xDC00) to (0x102000 + 0xDFFF) which is 0x1E000 to 0x10ffff. + // This is in range. + // + // From a Unicode principles perspective this can also be verified as we have checked that `non_ascii` is a high surrogate + // (0xD800..=0xDBFF), and that `second` is a low surrogate (`0xDC00..=0xDFFF`), and we are applying reverse of the UTC16 transformation + // algorithm <https://en.wikipedia.org/wiki/UTF-16#Code_points_from_U+010000_to_U+10FFFF>, by applying the high surrogate - 0xD800 to the + // high ten bits, and the low surrogate - 0xDc00 to the low ten bits, and then adding 0x10000 ::core::char::from_u32_unchecked( (u32::from(non_ascii) << 10) + second - (((0xD800u32 << 10) - 0x1_0000u32) + 0xDC00u32), ) }; return ( EncoderResult::Unmappable(astral), converted + 2, // +2 `for non_ascii` and `second` @@ -451,52 +502,63 @@ impl SingleByteEncoder { converted, ); } return ( EncoderResult::unmappable_from_bmp(non_ascii), converted + 1, // +1 `for non_ascii` converted, ); + // Safety: This branch diverges, so no need to uphold invariants on `converted` } } // Next, handle ASCII punctuation and non-ASCII without // going back to ASCII acceleration. Non-ASCII scripts // use ASCII punctuation, so this avoid going to // acceleration just for punctuation/space and then // failing. This is a significant boost to non-ASCII // scripts. // TODO: Split out Latin converters without this part // this stuff makes Latin script-conversion slower. if converted == length { return (pending, length, length); } + // Safety: we're back to `converted < length` due to the == above and can perform + // the unchecked read let mut unit = unsafe { *(src.get_unchecked(converted)) }; 'innermost: loop { + // Safety: This loop always begins with `converted < length`, see + // the invariant outside and the comment on the continue below if unit > 127 { non_ascii = unit; continue 'middle; } // Testing on Haswell says that we should write the // byte unconditionally instead of trying to unread it // to make it part of the next SIMD stride. unsafe { + // Safety: Can rely on converted < length *(dst.get_unchecked_mut(converted)) = unit as u8; } converted += 1; + // `converted <= length` here if unit < 60 { // We've got punctuation if converted == length { return (pending, length, length); } + // Safety: `converted < length` due to the == above. The read is safe. unit = unsafe { *(src.get_unchecked(converted)) }; + // Safety: This only happens if `converted < length`, maintaining it continue 'innermost; } // We've got markup or ASCII text continue 'outermost; + // Safety: All other routes to here diverge so the continue is the only + // way to run the innermost loop. } } } } } } } diff --git a/third_party/rust/encoding_rs/src/x_user_defined.rs b/third_party/rust/encoding_rs/src/x_user_defined.rs --- a/third_party/rust/encoding_rs/src/x_user_defined.rs +++ b/third_party/rust/encoding_rs/src/x_user_defined.rs @@ -9,22 +9,23 @@ use super::*; use crate::handles::*; use crate::variant::*; cfg_if! { if #[cfg(feature = "simd-accel")] { use simd_funcs::*; - use packed_simd::u16x8; + use core::simd::u16x8; + use core::simd::cmp::SimdPartialOrd; #[inline(always)] fn shift_upper(unpacked: u16x8) -> u16x8 { let highest_ascii = u16x8::splat(0x7F); - unpacked + unpacked.gt(highest_ascii).select(u16x8::splat(0xF700), u16x8::splat(0)) } + unpacked + unpacked.simd_gt(highest_ascii).select(u16x8::splat(0xF700), u16x8::splat(0)) } } else { } } pub struct UserDefinedDecoder; impl UserDefinedDecoder { pub fn new() -> VariantDecoder { @@ -111,20 +112,25 @@ impl UserDefinedDecoder { } else { (DecoderResult::InputEmpty, src.len()) }; // Not bothering with alignment let tail_start = length & !0xF; let simd_iterations = length >> 4; let src_ptr = src.as_ptr(); let dst_ptr = dst.as_mut_ptr(); + // Safety: This is `for i in 0..length / 16` for i in 0..simd_iterations { + // Safety: This is in bounds: length is the minumum valid length for both src/dst + // and i ranges to length/16, so multiplying by 16 will always be `< length` and can do + // a 16 byte read let input = unsafe { load16_unaligned(src_ptr.add(i * 16)) }; let (first, second) = simd_unpack(input); unsafe { + // Safety: same as above, but this is two consecutive 8-byte reads store8_unaligned(dst_ptr.add(i * 16), shift_upper(first)); store8_unaligned(dst_ptr.add((i * 16) + 8), shift_upper(second)); } } let src_tail = &src[tail_start..length]; let dst_tail = &mut dst[tail_start..length]; src_tail .iter() diff --git a/third_party/rust/packed_simd/.appveyor.yml b/third_party/rust/packed_simd/.appveyor.yml deleted file mode 100644 --- a/third_party/rust/packed_simd/.appveyor.yml +++ /dev/null @@ -1,59 +0,0 @@ -matrix: - allow_failures: - # FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/72 - - TARGET: i686-pc-windows-msvc - - TARGET: i686-pc-windows-gnu - - TARGET: x86_64-pc-windows-gnu - fast_finish: true - -environment: - matrix: - - TARGET: x86_64-pc-windows-msvc - MSYSTEM: MINGW64 - NOVERIFY: "1" - - TARGET: x86_64-pc-windows-msvc - MSYSTEM: MINGW64 - RUSTFLAGS: "-C target-feature=+sse4.2" - NOVERIFY: "1" - - TARGET: x86_64-pc-windows-msvc - MSYSTEM: MINGW64 - RUSTFLAGS: "-C target-feature=+avx" - NOVERIFY: "1" - - TARGET: x86_64-pc-windows-msvc - MSYSTEM: MINGW64 - RUSTFLAGS: "-C target-feature=+avx2" - NOVERIFY: "1" - - - TARGET: i686-pc-windows-msvc - MSYSTEM: MINGW32 - NOVERIFY: "1" - - TARGET: i686-pc-windows-msvc - MSYSTEM: MINGW32 - RUSTFLAGS: "-C target-feature=+sse4.2" - NOVERIFY: "1" - - TARGET: i686-pc-windows-msvc - MSYSTEM: MINGW32 - RUSTFLAGS: "-C target-feature=+avx" - NOVERIFY: "1" - - TARGET: i686-pc-windows-msvc - MSYSTEM: MINGW32 - RUSTFLAGS: "-C target-feature=+avx2" - NOVERIFY: "1" - - - TARGET: x86_64-pc-windows-gnu - MSYSTEM: MINGW64 - - - TARGET: i686-pc-windows-gnu - MSYSTEM: MINGW32 - - TARGET: x86_64-pc-windows-gnu - MSYSTEM: MINGW64 -install: - - ps: if (ls -r . -fi "*.rs" | sls "`t") { throw "Found tab character" } - - ps: Start-FileDownload "https://static.rust-lang.org/dist/rust-nightly-${env:TARGET}.exe" -FileName "rust-install.exe" - - ps: .\rust-install.exe /VERYSILENT /NORESTART /DIR="C:\rust" | Out-Null - - ps: $env:PATH="$env:PATH;C:\rust\bin" - - set PATH=c:\msys64\%MSYSTEM%\bin;c:\msys64\usr\bin;%PATH% - - rustc -vV - - cargo -vV -build: false -test_script: bash -c "ci/run.sh" diff --git a/third_party/rust/packed_simd/.cargo-checksum.json b/third_party/rust/packed_simd/.cargo-checksum.json deleted file mode 100644 --- a/third_party/rust/packed_simd/.cargo-checksum.json +++ /dev/null @@ -1,1 +0,0 @@ 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\ No newline at end of file diff --git a/third_party/rust/packed_simd/.github/workflows/benchmarks.yml b/third_party/rust/packed_simd/.github/workflows/benchmarks.yml deleted file mode 100644 --- a/third_party/rust/packed_simd/.github/workflows/benchmarks.yml +++ /dev/null @@ -1,31 +0,0 @@ -name: benchmarks - -on: - push: - branches: - - master - pull_request: - workflow_dispatch: - -jobs: - x86_64-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - with: - target: x86_64-unknown-linux-gnu - setup_script: ci/setup_benchmarks.sh - script: ci/benchmark.sh - norun: 1 - verify: 1 - # FIXME: figure out how to add downloaded ispc to PATH - # features: ispc - x86_64-apple-darwin: - uses: ./.github/workflows/run-ci-script.yml - with: - target: x86_64-apple-darwin - runner: macos-latest - setup_script: ci/setup_benchmarks.sh - script: ci/benchmark.sh - norun: 1 - verify: 1 - # FIXME: figure out how to add downloaded ispc to PATH - # features: ispc diff --git a/third_party/rust/packed_simd/.github/workflows/ci.yml b/third_party/rust/packed_simd/.github/workflows/ci.yml deleted file mode 100644 --- a/third_party/rust/packed_simd/.github/workflows/ci.yml +++ /dev/null @@ -1,218 +0,0 @@ -name: ci - -# trigger for all PRs and changes to master -on: - push: - branches: - - master - pull_request: - -jobs: - rustfmt: - uses: ./.github/workflows/run-ci-script.yml - with: - script: ci/all.sh check_fmt || true - x86_64-unknown-linux-android: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: x86_64-linux-android - armv7-linux-androideabi: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: armv7-linux-androideabi - aarch64-unknown-linux-android-NEON: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: aarch64-linux-android - rustflags: -Ctarget-feature=+neon - thumbv7neon-linux-androideabi: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: thumbv7neon-linux-androideabi - i586-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: i586-unknown-linux-gnu - rustflags: -Crelocation-model=static - i586-unknown-linux-gnu-SSE: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: i586-unknown-linux-gnu - rustflags: -Crelocation-model=static -Ctarget-feature=+sse - i586-unknown-linux-gnu-SSE2: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: i586-unknown-linux-gnu - rustflags: -Crelocation-model=static -Ctarget-feature=+sse2 - i686-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: i686-unknown-linux-gnu - rustflags: -Crelocation-model=static - i686-unknown-linux-gnu-SSE4_2: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: i686-unknown-linux-gnu - rustflags: -Crelocation-model=static -Ctarget-feature=+sse4.2 - i686-unknown-linux-gnu-AVX2: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: i686-unknown-linux-gnu - rustflags: -Crelocation-model=static -Ctarget-feature=+avx2 - x86_64-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: x86_64-unknown-linux-gnu - x86_64-unknown-linux-gnu-SSE4_2: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: x86_64-unknown-linux-gnu - rustflags: -Ctarget-feature=+sse4.2 - x86_64-unknown-linux-gnu-AVX2: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: x86_64-unknown-linux-gnu - rustflags: -Ctarget-feature=+avx2 - arm-unknown-linux-gnueabihf: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: arm-unknown-linux-gnueabihf - armv7-unknown-linux-gnueabihf: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: armv7-unknown-linux-gnueabihf - armv7-unknown-linux-gnueabihf-NEON: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: armv7-unknown-linux-gnueabihf - rustflags: -Ctarget-feature=+neon - thumbv7neon-unknown-linux-gnueabihf: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: thumbv7neon-unknown-linux-gnueabihf - aarch64-unknown-linux-gnu-NEON: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: aarch64-unknown-linux-gnu - rustflags: -Ctarget-feature=+neon - powerpc-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: powerpc-unknown-linux-gnu - powerpc64-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: powerpc64-unknown-linux-gnu - powerpc64le-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: powerpc64le-unknown-linux-gnu - powerpc64le-unknown-linux-gnu-ALTIVEC: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: powerpc64le-unknown-linux-gnu - rustflags: -Ctarget-feature=+altivec - powerpc64le-unknown-linux-gnu-VSX: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - target: powerpc64le-unknown-linux-gnu - rustflags: -Ctarget-feature=+vsx - s390x-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: s390x-unknown-linux-gnu - sparc64-unknown-linux-gnu: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: sparc64-unknown-linux-gnu - wasm32-unknown-unknown: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: false - with: - target: wasm32-unknown-unknown - x86_64-apple-darwin-SSE4_2: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - runner: macos-latest - script: ci/run.sh - target: x86_64-apple-darwin - rustflags: -Ctarget-feature=+sse4.2 - x86_64-apple-darwin-AVX: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - runner: macos-latest - script: ci/run.sh - target: x86_64-apple-darwin - rustflags: -Ctarget-feature=+avx - x86_64-apple-ios: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - runner: macos-latest - script: ci/run.sh - target: x86_64-apple-ios - aarch64-apple-ios: - uses: ./.github/workflows/run-ci-script.yml - strategy: - fail-fast: true - with: - runner: macos-latest - script: ci/run.sh - target: aarch64-apple-ios - rustflags: -Ctarget-feature=+neon diff --git a/third_party/rust/packed_simd/.github/workflows/docs.yml b/third_party/rust/packed_simd/.github/workflows/docs.yml deleted file mode 100644 --- a/third_party/rust/packed_simd/.github/workflows/docs.yml +++ /dev/null @@ -1,13 +0,0 @@ -name: docs - -on: - push: - branches: - - master - -jobs: - docs: - uses: ./.github/workflows/run-ci-script.yml - with: - setup_script: cargo install mdbook - script: ci/dox.sh diff --git a/third_party/rust/packed_simd/.github/workflows/run-ci-script.yml b/third_party/rust/packed_simd/.github/workflows/run-ci-script.yml deleted file mode 100644 --- a/third_party/rust/packed_simd/.github/workflows/run-ci-script.yml +++ /dev/null @@ -1,86 +0,0 @@ -name: run-ci-script - -on: - workflow_call: - inputs: - runner: - required: false - type: string - default: ubuntu-latest - target: - required: false - type: string - default: '' - rustflags: - required: false - type: string - default: '' - script: - required: false - type: string - default: ci/run-docker.sh - setup_script: - required: false - type: string - norun: - required: false - type: string - default: '' - verify: - required: false - type: string - default: '' - features: - required: false - type: string - default: '' - -jobs: - run-ci-script: - runs-on: ${{ inputs.runner }} - steps: - - name: Checkout - uses: actions/checkout@v2 - - name: Init Rustup Cache - uses: actions/cache@v2 - with: - path: | - ~/.rustup/toolchains - key: ${{ runner.os }}-cargo-${{ hashFiles('**/rust-toolchain') }} - - name: Install Toolchain - uses: dtolnay/rust-toolchain@nightly - with: - # FIXME: change to nightly once https://github.com/rust-lang/packed_simd/pull/350 is merged - # needs to be kept in sync with the toolchain files - targets: ${{ inputs.target }} - components: rustfmt - - name: Generate Lockfile - run: cargo generate-lockfile - - name: Init Cargo Cache - uses: actions/cache@v2 - with: - path: | - ~/.cargo/bin/ - ~/.cargo/registry/index/ - ~/.cargo/registry/cache/ - ~/.cargo/git/db/ - target/ - key: ${{ runner.os }}-cargo-${{ hashFiles('**/Cargo.lock') }} - - name: Setup - if: ${{ inputs.setup_script != '' }} - run: ${{ inputs.setup_script }} - env: - TARGET: ${{ inputs.target }} - RUSTFLAGS: ${{ inputs.rustflags }} - NORUN: ${{ inputs.norun }} - VERIFY: ${{ inputs.verify }} - FEATURES: ${{ inputs.features }} - - name: Run CI Script - timeout-minutes: 30 - run: ${{ inputs.script }} - env: - TARGET: ${{ inputs.target }} - RUSTFLAGS: ${{ inputs.rustflags }} - NORUN: ${{ inputs.norun }} - VERIFY: ${{ inputs.verify }} - FEATURES: ${{ inputs.features }} diff --git a/third_party/rust/packed_simd/.travis.yml b/third_party/rust/packed_simd/.travis.yml deleted file mode 100644 --- a/third_party/rust/packed_simd/.travis.yml +++ /dev/null @@ -1,212 +0,0 @@ -language: rust -rust: nightly -os: linux -dist: focal - -stages: - - tools - - build-test-verify # Passes full test suite, permit no regressions (unless it's rustup :/) - - 32bit-tier1 - - 64bit-tier2 - - 32bit-tier2 - -jobs: - fast_finish: true - include: - # Android: - - env: TARGET=x86_64-linux-android - name: "x86_64-unknown-linux-android + SSE2" - stage: build-test-verify - - env: TARGET=arm-linux-androideabi - name: "arm-linux-androideabi" - stage: build-test-verify - - name: "aarch64-unknown-linux-android + NEON" - env: TARGET=aarch64-linux-android RUSTFLAGS="-C target-feature=+neon" - stage: build-test-verify - - env: TARGET="thumbv7neon-linux-androideabi" - name: "thumbv7neon-linux-androideabi" - stage: 32bit-tier2 - # Linux: - - env: TARGET=i586-unknown-linux-gnu - name: "i586-unknown-linux-gnu" - stage: 32bit-tier2 - - env: TARGET=i586-unknown-linux-gnu RUSTFLAGS="-C target-feature=+sse" - name: "i586-unknown-linux-gnu + SSE" - stage: 32bit-tier2 - - env: TARGET=i586-unknown-linux-gnu RUSTFLAGS="-C target-feature=+sse2" - name: "i586-unknown-linux-gnu + SSE2" - stage: 32bit-tier2 - - env: TARGET=i686-unknown-linux-gnu - name: "i686-unknown-linux-gnu + SSE2" - stage: 32bit-tier1 - - env: TARGET=i686-unknown-linux-gnu RUSTFLAGS="-C target-feature=+sse4.2" - name: "i686-unknown-linux-gnu + SSE4.2" - stage: 32bit-tier1 - - env: TARGET=i686-unknown-linux-gnu RUSTFLAGS="-C target-feature=+avx2" - name: "i686-unknown-linux-gnu + AVX2" - stage: 32bit-tier1 - - env: TARGET=x86_64-unknown-linux-gnu RUSTFLAGS="-C target-feature=+sse4.2" - name: "x86_64-unknown-linux-gnu + SSE4.2" - stage: build-test-verify - - env: TARGET=x86_64-unknown-linux-gnu RUSTFLAGS="-C target-feature=+avx2" - name: "x86_64-unknown-linux-gnu + AVX2" - stage: build-test-verify - - env: TARGET=arm-unknown-linux-gnueabihf - name: "arm-unknown-linux-gnueabihf" - stage: build-test-verify - - env: TARGET=armv7-unknown-linux-gnueabihf - name: "armv7-unknown-linux-gnueabihf" - stage: build-test-verify - - env: TARGET=armv7-unknown-linux-gnueabihf RUSTFLAGS="-C target-feature=+neon" - name: "armv7-unknown-linux-gnueabihf + NEON" - stage: build-test-verify - - env: TARGET="thumbv7neon-unknown-linux-gnueabihf" - name: "thumbv7neon-unknown-linux-gnueabihf" - stage: 32bit-tier2 - - name: "aarch64-unknown-linux-gnu + NEON" - env: TARGET=aarch64-unknown-linux-gnu RUSTFLAGS="-C target-feature=+neon" - stage: build-test-verify - - env: TARGET=mips-unknown-linux-gnu - name: "mips-unknown-linux-gnu" - stage: 32bit-tier2 - - env: TARGET=mipsel-unknown-linux-musl - name: "mipsel-unknown-linux-musl" - stage: 32bit-tier2 - - env: TARGET=mips64-unknown-linux-gnuabi64 - name: "mips64-unknown-linux-gnuabi64" - stage: 64bit-tier2 - - env: TARGET=mips64el-unknown-linux-gnuabi64 - name: "mips64el-unknown-linux-gnuabi64" - stage: 64bit-tier2 - # FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/18 - # env: TARGET=mips64el-unknown-linux-gnuabi64 RUSTFLAGS="-C target-feature=+msa -C target-cpu=mips64r6" - - env: TARGET=powerpc-unknown-linux-gnu - name: "powerpc-unknown-linux-gnu" - stage: 32bit-tier2 - - env: TARGET=powerpc64-unknown-linux-gnu - name: "powerpc64-unknown-linux-gnu" - stage: 64bit-tier2 - - name: "powerpc64le-unknown-linux-gnu" - env: TARGET=powerpc64le-unknown-linux-gnu - stage: build-test-verify - - name: "powerpc64le-unknown-linux-gnu + ALTIVEC" - env: TARGET=powerpc64le-unknown-linux-gnu RUSTFLAGS="-C target-feature=+altivec" - stage: build-test-verify - - name: "powerpc64le-unknown-linux-gnu + VSX" - env: TARGET=powerpc64le-unknown-linux-gnu RUSTFLAGS="-C target-feature=+vsx" - stage: build-test-verify - - name: "s390x-unknown-linux-gnu" - env: TARGET=s390x-unknown-linux-gnu - stage: 64bit-tier2 - - env: TARGET=sparc64-unknown-linux-gnu - name: "sparc64-unknown-linux-gnu" - stage: 64bit-tier2 - # WebAssembly: - - env: TARGET=wasm32-unknown-unknown - name: "wasm32-unknown-unknown" - stage: 32bit-tier2 - # MacOSX: - - os: osx - env: TARGET=x86_64-apple-darwin RUSTFLAGS="-C target-feature=+sse4.2" - name: "x86_64-apple-darwin + SSE4.2" - install: true - script: ci/run.sh - osx_image: xcode10 - stage: build-test-verify - # Travis-CI OSX build bots do not support AVX2: - - os: osx - env: TARGET=x86_64-apple-darwin RUSTFLAGS="-C target-feature=+avx" - name: "x86_64-apple-darwin + AVX" - install: true - script: ci/run.sh - osx_image: xcode10 - stage: build-test-verify - # *BSDs: - #- env: TARGET=i686-unknown-freebsd NORUN=1 - # script: ci/run.sh - #- env: TARGET=x86_64-unknown-freebsd NORUN=1 - # script: ci/run.sh - #- env: TARGET=x86_64-unknown-netbsd NORUN=1 - # script: ci/run.sh - # Solaris: - #- env: TARGET=x86_64-sun-solaris NORUN=1 - # script: ci/run.sh - # iOS: - - os: osx - env: TARGET=x86_64-apple-ios - name: "x86_64-apple-ios + SSE2" - script: ci/run.sh - osx_image: xcode9.4 - stage: 64bit-tier2 - - name: "aarch64-apple-ios + NEON" - env: TARGET=aarch64-apple-ios RUSTFLAGS="-C target-feature=+neon" - os: osx - osx_image: xcode9.4 - script: ci/run.sh - stage: 64bit-tier2 - # BENCHMARKS: - - name: "Benchmarks - x86_64-unknown-linux-gnu" - install: TARGET=x86_64-unknown-linux-gnu ./ci/setup_benchmarks.sh - # FIXME: Use `core_arch,sleef-sys` features once they works again - script: PATH=$(pwd):$PATH NORUN=1 VERIFY=1 FEATURES=ispc ci/benchmark.sh - stage: tools - - name: "Benchmarks - x86_64-apple-darwin" - install: TARGET=x86_64-apple-darwin ./ci/setup_benchmarks.sh - # FIXME: Use `core_arch,sleef-sys` features once they works again - script: PATH=$(pwd):$PATH NORUN=1 VERIFY=1 FEATURES=ispc ci/benchmark.sh - os: osx - osx_image: xcode9.4 - stage: tools - # TOOLS: - - name: "Documentation" - before_install: - - sudo add-apt-repository -y ppa:deadsnakes/ppa - - sudo apt-get update -y - - sudo apt-get install -y python3.9 - install: - - cargo install mdbook - script: ci/dox.sh - stage: tools - - name: "rustfmt" - install: true - script: | - rustup toolchain install nightly -c rustfmt --allow-downgrade - ci/all.sh check_fmt || true - stage: tools - - allow_failures: - # FIXME: ISPC cannot be found? - - name: "Benchmarks - x86_64-apple-darwin" - # FIXME: i686 fails in inlining, apparently - - stage: 32bit-tier1 - #- env: TARGET=i686-unknown-freebsd NORUN=1 - #- env: TARGET=x86_64-unknown-freebsd NORUN=1 - #- env: TARGET=x86_64-unknown-netbsd NORUN=1 - #- env: TARGET=x86_64-sun-solaris NORUN=1 - - # FIXME: TBD - - stage: 64bit-tier2 - - stage: 32bit-tier2 - - # FIXME: iOS - # https://github.com/rust-lang-nursery/packed_simd/issues/26 - - env: TARGET=x86_64-apple-ios - # Is this related to the above? Mysterious test failure - - name: "aarch64-apple-ios + NEON" - -install: travis_retry rustup target add $TARGET -before_script: cargo generate-lockfile -script: travis_wait 50 ci/run-docker.sh -after_script: sleep 5 - -env: - global: - secure: "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" -branches: - only: - - staging # bors r+ - - trying # bors try - - master -notifications: - email: - on_success: never diff --git a/third_party/rust/packed_simd/Cargo.toml b/third_party/rust/packed_simd/Cargo.toml deleted file mode 100644 --- a/third_party/rust/packed_simd/Cargo.toml +++ /dev/null @@ -1,46 +0,0 @@ -[package] -name = "packed_simd" -version = "0.3.9" -description = "Portable Packed SIMD vectors" -documentation = "https://docs.rs/crate/packed_simd/" -homepage = "https://github.com/rust-lang/packed_simd" -repository = "https://github.com/rust-lang/packed_simd" -keywords = ["simd", "vector", "portability"] -categories = ["hardware-support", "concurrency", "no-std", "data-structures"] -license = "MIT OR Apache-2.0" -build = "build.rs" -edition = "2018" - -[package.metadata.docs.rs] -features = ["into_bits"] -rustdoc-args = ["--cfg", "doc_cfg"] -# To build locally: -# RUSTDOCFLAGS="--cfg doc_cfg" cargo +nightly doc --features into_bits --no-deps --open - -[badges] -is-it-maintained-issue-resolution = { repository = "rust-lang/packed_simd" } -is-it-maintained-open-issues = { repository = "rust-lang/packed_simd" } -maintenance = { status = "experimental" } - -[dependencies] -cfg-if = "1.0.0" -core_arch = { version = "0.1.5", optional = true } -num-traits = { version = "0.2.14", default-features = false } - -[features] -default = [] -into_bits = [] -libcore_neon = [] - -[dev-dependencies] -paste = "^1" -arrayvec = { version = "^0.5", default-features = false } - -[target.'cfg(target_arch = "x86_64")'.dependencies.sleef-sys] -version = "0.1.2" -optional = true - -[target.wasm32-unknown-unknown.dev-dependencies] -# Keep in sync with the version on Dockerfile. -wasm-bindgen = "=0.2.87" -wasm-bindgen-test = "=0.3.37" -diff --git a/third_party/rust/packed_simd/README.md b/third_party/rust/packed_simd/README.md deleted file mode 100644 --- a/third_party/rust/packed_simd/README.md +++ /dev/null @@ -1,144 +0,0 @@ -# `Simd<[T; N]>` - -## Implementation of [Rust RFC #2366: `std::simd`][rfc2366] - -[![Latest Version]][crates.io] [![docs]][master_docs] - -**WARNING**: this crate only supports the most recent nightly Rust toolchain -and will be superseded by [`#![feature(portable_simd)]`](https://github.com/rust-lang/portable-simd). - -## Documentation - -* [API docs (`master` branch)][master_docs] -* [Performance guide][perf_guide] -* [API docs (`docs.rs`)][docs.rs] -* [RFC2366 `std::simd`][rfc2366]: - contains motivation, design rationale, - discussion, etc. - -## Examples - -Most of the examples come with both a scalar and a vectorized implementation. - -* [`aobench`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/aobench) -* [`fannkuch_redux`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/fannkuch_redux) -* [`matrix inverse`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/matrix_inverse) -* [`mandelbrot`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/mandelbrot) -* [`n-body`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/nbody) -* [`options_pricing`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/options_pricing) -* [`spectral_norm`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/spectral_norm) -* [`triangle transform`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/triangle_xform) -* [`stencil`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/stencil) -* [`vector dot product`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/dot_product) - -## Cargo features - -* `into_bits` (default: disabled): enables `FromBits`/`IntoBits` trait - implementations for the vector types. These allow reinterpreting the bits of a - vector type as those of another vector type safely by just using the - `.into_bits()` method. - -## Performance - -The following [ISPC] examples are also part of `packed_simd`'s -[`examples/`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples/) -directory, where `packed_simd`+[`rayon`][rayon] are used to emulate [ISPC]'s -Single-Program-Multiple-Data (SPMD) programming model. The performance results -on different hardware is shown in the `readme.md` of each example. The following -table summarizes the performance ranges, where `+` means speed-up and `-` -slowdown: - -* `aobench`: `[-1.02x, +1.53x]`, -* `stencil`: `[+1.06x, +1.72x]`, -* `mandelbrot`: `[-1.74x, +1.2x]`, -* `options_pricing`: - * `black_scholes`: `+1.0x` - * `binomial_put`: `+1.4x` - - While SPMD is not the intended use case for `packed_simd`, it is possible to - combine the library with [`rayon`][rayon] to poorly emulate [ISPC]'s SPMD programming - model in Rust. Writing performant code is not as straightforward as with - [ISPC], but with some care (e.g. see the [Performance Guide][perf_guide]) one - can easily match and often out-perform [ISPC]'s "default performance". - -## Platform support - -The following table describes the supported platforms: `build` shows whether -the library compiles without issues for a given target, while `run` shows -whether the test suite passes for a given target. - -| **Linux** | **build** | **run** | -|---------------------------------------|-----------|---------| -| `i586-unknown-linux-gnu` | ✓ | ✗ | -| `i686-unknown-linux-gnu` | ✓ | ✗ | -| `x86_64-unknown-linux-gnu` | ✓ | ✓ | -| `arm-unknown-linux-gnueabihf` | ✓ | ✓ | -| `armv7-unknown-linux-gnueabi` | ✓ | ✓ | -| `aarch64-unknown-linux-gnu` | ✓ | ✓ | -| `powerpc-unknown-linux-gnu` | ✓ | ✗ | -| `powerpc64-unknown-linux-gnu` | ✓ | ✗ | -| `powerpc64le-unknown-linux-gnu` | ✓ | ✓ | -| `s390x-unknown-linux-gnu` | ✓ | ✗ | -| `sparc64-unknown-linux-gnu` | ✓ | ✗ | -| `thumbv7neon-unknown-linux-gnueabihf` | ✓ | ✓ | -| **MacOSX** | **build** | **run** | -| `x86_64-apple-darwin` | ✓ | ✓ | -| **Android** | **build** | **run** | -| `x86_64-linux-android` | ✓ | ✓ | -| `armv7-linux-androideabi` | ✓ | ✗ | -| `aarch64-linux-android` | ✓ | ✗ | -| `thumbv7neon-linux-androideabi` | ✓ | ✗ | -| **iOS** | **build** | **run** | -| `x86_64-apple-ios` | ✗ | ✗ | -| `aarch64-apple-ios` | ✗ | ✗ | - - -## Machine code verification - -The -[`verify/`](https://github.com/rust-lang-nursery/packed_simd/tree/master/verify) -crate tests disassembles the portable packed vector APIs at run-time and -compares the generated machine code against the desired one to make sure that -this crate remains efficient. - -## License - -This project is licensed under either of - -* [Apache License, Version 2.0](http://www.apache.org/licenses/LICENSE-2.0) - ([LICENSE-APACHE](LICENSE-APACHE)) - -* [MIT License](http://opensource.org/licenses/MIT) - ([LICENSE-MIT](LICENSE-MIT)) - -at your option. - -## Contributing - -We welcome all people who want to contribute. -Please see the [contributing instructions] for more information. - -Contributions in any form (issues, pull requests, etc.) to this project -must adhere to Rust's [Code of Conduct]. - -Unless you explicitly state otherwise, any contribution intentionally submitted -for inclusion in `packed_simd` by you, as defined in the Apache-2.0 license, shall be -dual licensed as above, without any additional terms or conditions. - -[travis]: https://travis-ci.com/rust-lang/packed_simd -[Travis-CI Status]: https://travis-ci.com/rust-lang/packed_simd.svg?branch=master -[appveyor]: https://ci.appveyor.com/project/gnzlbg/packed-simd -[Appveyor Status]: https://ci.appveyor.com/api/projects/status/hd7v9dvr442hgdix?svg=true -[Latest Version]: https://img.shields.io/crates/v/packed_simd.svg -[crates.io]: https://crates.io/crates/packed_simd -[docs]: https://docs.rs/packed_simd/badge.svg -[docs.rs]: https://docs.rs/packed_simd -[master_docs]: https://rust-lang-nursery.github.io/packed_simd/packed_simd/ -[perf_guide]: https://rust-lang-nursery.github.io/packed_simd/perf-guide/ -[rfc2366]: https://github.com/rust-lang/rfcs/pull/2366 -[ISPC]: https://ispc.github.io/ -[rayon]: https://crates.io/crates/rayon -[boost_license]: https://www.boost.org/LICENSE_1_0.txt -[SLEEF]: https://sleef.org/ -[sleef_sys]: https://crates.io/crates/sleef-sys -[contributing instructions]: contributing.md -[Code of Conduct]: https://www.rust-lang.org/en-US/conduct.html diff --git a/third_party/rust/packed_simd/bors.toml b/third_party/rust/packed_simd/bors.toml deleted file mode 100644 --- a/third_party/rust/packed_simd/bors.toml +++ /dev/null @@ -1,3 +0,0 @@ -status = [ - "continuous-integration/travis-ci/push" -] \ No newline at end of file diff --git a/third_party/rust/packed_simd/build.rs b/third_party/rust/packed_simd/build.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/build.rs +++ /dev/null @@ -1,6 +0,0 @@ -fn main() { - let target = std::env::var("TARGET").expect("TARGET environment variable not defined"); - if target.contains("neon") { - println!("cargo:rustc-cfg=libcore_neon"); - } -} diff --git a/third_party/rust/packed_simd/ci/all.sh b/third_party/rust/packed_simd/ci/all.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/all.sh +++ /dev/null @@ -1,71 +0,0 @@ -#!/usr/bin/env bash -# -# Performs an operation on all targets - -set -ex - -: "${1?The all.sh script requires one argument.}" - -op=$1 - -cargo_clean() { - cargo clean -} - -cargo_check_fmt() { - cargo fmt --all -- --check -} - -cargo_fmt() { - cargo fmt --all -} - -cargo_clippy() { - cargo clippy --all -- -D clippy::perf -} - -CMD="-1" - -case $op in - clean*) - CMD=cargo_clean - ;; - check_fmt*) - CMD=cargo_check_fmt - ;; - fmt*) - CMD=cargo_fmt - ;; - clippy) - CMD=cargo_clippy - ;; - *) - echo "Unknown operation: \"${op}\"" - exit 1 - ;; -esac - -echo "Operation is: ${CMD}" - -# On src/ -$CMD - -# Check examples/ -for dir in examples/*/ -do - dir=${dir%*/} - ( - cd "${dir%*/}" - $CMD - ) -done - -( - cd verify/verify - $CMD -) - -( - cd micro_benchmarks - $CMD -) diff --git a/third_party/rust/packed_simd/ci/android-install-ndk.sh b/third_party/rust/packed_simd/ci/android-install-ndk.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/android-install-ndk.sh +++ /dev/null @@ -1,21 +0,0 @@ -#!/usr/bin/env sh -# Copyright 2016 The Rust Project Developers. See the COPYRIGHT -# file at the top-level directory of this distribution and at -# http://rust-lang.org/COPYRIGHT. -# -# Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or -# http://www.apache.org/licenses/LICENSE-2.0> or the MIT license -# <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your -# option. This file may not be copied, modified, or distributed -# except according to those terms. - -set -ex - -ANDROID_NDK_URL=https://dl.google.com/android/repository -ANDROID_NDK_ARCHIVE=android-ndk-r25b-linux.zip - -curl -fO "$ANDROID_NDK_URL/$ANDROID_NDK_ARCHIVE" -unzip -q $ANDROID_NDK_ARCHIVE -rm $ANDROID_NDK_ARCHIVE -mv android-ndk-* ndk -rm -rf android-ndk-* diff --git a/third_party/rust/packed_simd/ci/android-install-sdk.sh b/third_party/rust/packed_simd/ci/android-install-sdk.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/android-install-sdk.sh +++ /dev/null @@ -1,60 +0,0 @@ -#!/usr/bin/env sh -# Copyright 2016 The Rust Project Developers. See the COPYRIGHT -# file at the top-level directory of this distribution and at -# http://rust-lang.org/COPYRIGHT. -# -# Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or -# http://www.apache.org/licenses/LICENSE-2.0> or the MIT license -# <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your -# option. This file may not be copied, modified, or distributed -# except according to those terms. - -set -ex - -# Prep the SDK and emulator -# -# Note that the update process requires that we accept a bunch of licenses, and -# we can't just pipe `yes` into it for some reason, so we take the same strategy -# located in https://github.com/appunite/docker by just wrapping it in a script -# which apparently magically accepts the licenses. - -mkdir sdk -curl --retry 5 https://dl.google.com/android/repository/sdk-tools-linux-3859397.zip -O -unzip -d sdk sdk-tools-linux-3859397.zip - -case "$1" in - arm | armv7) - abi=armeabi-v7a - ;; - - aarch64) - abi=arm64-v8a - ;; - - i686) - abi=x86 - ;; - - x86_64) - abi=x86_64 - ;; - - *) - echo "invalid arch: $1" - exit 1 - ;; -esac; - -# --no_https avoids - # javax.net.ssl.SSLHandshakeException: sun.security.validator.ValidatorException: No trusted certificate found -yes | ./sdk/tools/bin/sdkmanager --licenses --no_https -yes | ./sdk/tools/bin/sdkmanager --no_https \ - "emulator" \ - "platform-tools" \ - "platforms;android-24" \ - "system-images;android-24;default;$abi" - -echo "no" | - ./sdk/tools/bin/avdmanager create avd \ - --name "${1}" \ - --package "system-images;android-24;default;$abi" diff --git a/third_party/rust/packed_simd/ci/android-sysimage.sh b/third_party/rust/packed_simd/ci/android-sysimage.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/android-sysimage.sh +++ /dev/null @@ -1,56 +0,0 @@ -#!/usr/bin/env bash - -# Copyright 2017 The Rust Project Developers. See the COPYRIGHT -# file at the top-level directory of this distribution and at -# http://rust-lang.org/COPYRIGHT. -# -# Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or -# http://www.apache.org/licenses/LICENSE-2.0> or the MIT license -# <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your -# option. This file may not be copied, modified, or distributed -# except according to those terms. - -set -ex - -URL=https://dl.google.com/android/repository/sys-img/android - -main() { - local arch="${1}" - local name="${2}" - local dest=/system - local td - td="$(mktemp -d)" - - apt-get install --no-install-recommends e2tools - - pushd "${td}" - curl --retry 5 -O "${URL}/${name}" - unzip -q "${name}" - - local system - system="$(find . -name system.img)" - mkdir -p ${dest}/{bin,lib,lib64} - - # Extract android linker and libraries to /system - # This allows android executables to be run directly (or with qemu) - if [ "${arch}" = "x86_64" ] || [ "${arch}" = "arm64" ]; then - e2cp -p "${system}:/bin/linker64" "${dest}/bin/" - e2cp -p "${system}:/lib64/libdl.so" "${dest}/lib64/" - e2cp -p "${system}:/lib64/libc.so" "${dest}/lib64/" - e2cp -p "${system}:/lib64/libm.so" "${dest}/lib64/" - else - e2cp -p "${system}:/bin/linker" "${dest}/bin/" - e2cp -p "${system}:/lib/libdl.so" "${dest}/lib/" - e2cp -p "${system}:/lib/libc.so" "${dest}/lib/" - e2cp -p "${system}:/lib/libm.so" "${dest}/lib/" - fi - - # clean up - apt-get purge --auto-remove -y e2tools - - popd - - rm -rf "${td}" -} - -main "${@}" diff --git a/third_party/rust/packed_simd/ci/benchmark.sh b/third_party/rust/packed_simd/ci/benchmark.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/benchmark.sh +++ /dev/null @@ -1,32 +0,0 @@ -#!/usr/bin/env bash -# -# Runs all benchmarks. Controlled by the following environment variables: -# -# FEATURES={} - cargo features to pass to all benchmarks (e.g. core_arch,sleef-sys,ispc) -# NORUN={1} - only builds the benchmarks - -set -ex - -if [[ ${NORUN} != 1 ]]; then - # Most benchmarks require hyperfine; require it upfront. - hash hyperfine 2>/dev/null || { echo >&2 "hyperfine is not in PATH."; exit 1; } -fi - - -# If the ispc benchmark feature is enabled, ispc must be in the path of the -# benchmarks. -if echo "$FEATURES" | grep -q "ispc"; then - hash ispc 2>/dev/null || { echo >&2 "ispc is not in PATH."; exit 1; } -fi - -# An example with a benchmark.sh is a benchmark: -for dir in examples/*/ -do - dir=${dir%*/} - cd ${dir%*/} - if [ -f "benchmark.sh" ]; then - ./benchmark.sh - fi - cd - -done - diff --git a/third_party/rust/packed_simd/ci/deploy_and_run_on_ios_simulator.rs b/third_party/rust/packed_simd/ci/deploy_and_run_on_ios_simulator.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/deploy_and_run_on_ios_simulator.rs +++ /dev/null @@ -1,176 +0,0 @@ -// Copyright 2017 The Rust Project Developers. See the COPYRIGHT -// file at the top-level directory of this distribution and at -// http://rust-lang.org/COPYRIGHT. -// -// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or -// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license -// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your -// option. This file may not be copied, modified, or distributed -// except according to those terms. - -// This is a script to deploy and execute a binary on an iOS simulator. -// The primary use of this is to be able to run unit tests on the simulator and -// retrieve the results. -// -// To do this through Cargo instead, use Dinghy -// (https://github.com/snipsco/dinghy): cargo dinghy install, then cargo dinghy -// test. - -use std::env; -use std::fs::{self, File}; -use std::io::Write; -use std::path::Path; -use std::process; -use std::process::Command; - -macro_rules! t { - ($e:expr) => (match $e { - Ok(e) => e, - Err(e) => panic!("{} failed with: {}", stringify!($e), e), - }) -} - -// Step one: Wrap as an app -fn package_as_simulator_app(crate_name: &str, test_binary_path: &Path) { - println!("Packaging simulator app"); - drop(fs::remove_dir_all("ios_simulator_app")); - t!(fs::create_dir("ios_simulator_app")); - t!(fs::copy(test_binary_path, - Path::new("ios_simulator_app").join(crate_name))); - - let mut f = t!(File::create("ios_simulator_app/Info.plist")); - t!(f.write_all(format!(r#" - <?xml version="1.0" encoding="UTF-8"?> - <!DOCTYPE plist PUBLIC - "-//Apple//DTD PLIST 1.0//EN" - "http://www.apple.com/DTDs/PropertyList-1.0.dtd"> - <plist version="1.0"> - <dict> - <key>CFBundleExecutable</key> - <string>{}</string> - <key>CFBundleIdentifier</key> - <string>com.rust.unittests</string> - </dict> - </plist> - "#, crate_name).as_bytes())); -} - -// Step two: Start the iOS simulator -fn start_simulator() { - println!("Looking for iOS simulator"); - let output = t!(Command::new("xcrun").arg("simctl").arg("list").output()); - assert!(output.status.success()); - let mut simulator_exists = false; - let mut simulator_booted = false; - let mut found_rust_sim = false; - let stdout = t!(String::from_utf8(output.stdout)); - for line in stdout.lines() { - if line.contains("rust_ios") { - if found_rust_sim { - panic!("Duplicate rust_ios simulators found. Please \ - double-check xcrun simctl list."); - } - simulator_exists = true; - simulator_booted = line.contains("(Booted)"); - found_rust_sim = true; - } - } - - if simulator_exists == false { - println!("Creating iOS simulator"); - Command::new("xcrun") - .arg("simctl") - .arg("create") - .arg("rust_ios") - .arg("com.apple.CoreSimulator.SimDeviceType.iPhone-SE") - .arg("com.apple.CoreSimulator.SimRuntime.iOS-10-2") - .check_status(); - } else if simulator_booted == true { - println!("Shutting down already-booted simulator"); - Command::new("xcrun") - .arg("simctl") - .arg("shutdown") - .arg("rust_ios") - .check_status(); - } - - println!("Starting iOS simulator"); - // We can't uninstall the app (if present) as that will hang if the - // simulator isn't completely booted; just erase the simulator instead. - Command::new("xcrun").arg("simctl").arg("erase").arg("rust_ios").check_status(); - Command::new("xcrun").arg("simctl").arg("boot").arg("rust_ios").check_status(); -} - -// Step three: Install the app -fn install_app_to_simulator() { - println!("Installing app to simulator"); - Command::new("xcrun") - .arg("simctl") - .arg("install") - .arg("booted") - .arg("ios_simulator_app/") - .check_status(); -} - -// Step four: Run the app -fn run_app_on_simulator() { - println!("Running app"); - let output = t!(Command::new("xcrun") - .arg("simctl") - .arg("launch") - .arg("--console") - .arg("booted") - .arg("com.rust.unittests") - .output()); - - println!("stdout --\n{}\n", String::from_utf8_lossy(&output.stdout)); - println!("stderr --\n{}\n", String::from_utf8_lossy(&output.stderr)); - - let stdout = String::from_utf8_lossy(&output.stdout); - let failed = stdout.lines() - .find(|l| l.contains("FAILED")) - .map(|l| l.contains("FAILED")) - .unwrap_or(false); - - let passed = stdout.lines() - .find(|l| l.contains("test result: ok")) - .map(|l| l.contains("test result: ok")) - .unwrap_or(false); - - println!("Shutting down simulator"); - Command::new("xcrun") - .arg("simctl") - .arg("shutdown") - .arg("rust_ios") - .check_status(); - if !(passed && !failed) { - panic!("tests didn't pass"); - } -} - -trait CheckStatus { - fn check_status(&mut self); -} - -impl CheckStatus for Command { - fn check_status(&mut self) { - println!("\trunning: {:?}", self); - assert!(t!(self.status()).success()); - } -} - -fn main() { - let args: Vec<String> = env::args().collect(); - if args.len() != 2 { - println!("Usage: {} <executable>", args[0]); - process::exit(-1); - } - - let test_binary_path = Path::new(&args[1]); - let crate_name = test_binary_path.file_name().unwrap(); - - package_as_simulator_app(crate_name.to_str().unwrap(), test_binary_path); - start_simulator(); - install_app_to_simulator(); - run_app_on_simulator(); -} diff --git a/third_party/rust/packed_simd/ci/docker/aarch64-linux-android/Dockerfile b/third_party/rust/packed_simd/ci/docker/aarch64-linux-android/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/aarch64-linux-android/Dockerfile +++ /dev/null @@ -1,47 +0,0 @@ -FROM ubuntu:16.04 - -RUN dpkg --add-architecture i386 && \ - apt-get update && \ - apt-get install -y --no-install-recommends \ - file \ - make \ - curl \ - ca-certificates \ - python \ - unzip \ - expect \ - openjdk-9-jre \ - libstdc++6:i386 \ - libpulse0 \ - gcc \ - libc6-dev - -WORKDIR /android/ -COPY android* /android/ - -ENV ANDROID_ARCH=aarch64 -ENV PATH=$PATH:/android/ndk-$ANDROID_ARCH/bin:/android/sdk/tools:/android/sdk/platform-tools - -RUN sh /android/android-install-ndk.sh $ANDROID_ARCH -RUN sh /android/android-install-sdk.sh $ANDROID_ARCH -RUN mv /root/.android /tmp -RUN chmod 777 -R /tmp/.android -RUN chmod 755 /android/sdk/tools/* /android/sdk/emulator/qemu/linux-x86_64/* - -ENV PATH=$PATH:/rust/bin \ - CARGO_TARGET_AARCH64_LINUX_ANDROID_LINKER=aarch64-linux-android-gcc \ - CARGO_TARGET_AARCH64_LINUX_ANDROID_RUNNER=/tmp/runtest \ - OBJDUMP=aarch64-linux-android-objdump \ - HOME=/tmp - -ADD runtest-android.rs /tmp/runtest.rs -ENTRYPOINT [ \ - "bash", \ - "-c", \ - # set SHELL so android can detect a 64bits system, see - # http://stackoverflow.com/a/41789144 - "SHELL=/bin/dash /android/sdk/emulator/emulator @aarch64 -no-window & \ - rustc /tmp/runtest.rs -o /tmp/runtest && \ - exec \"$@\"", \ - "--" \ -] diff --git a/third_party/rust/packed_simd/ci/docker/aarch64-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/aarch64-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/aarch64-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,14 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - ca-certificates \ - libc6-dev \ - gcc-aarch64-linux-gnu \ - libc6-dev-arm64-cross \ - qemu-user \ - make \ - file - -ENV CARGO_TARGET_AARCH64_UNKNOWN_LINUX_GNU_LINKER=aarch64-linux-gnu-gcc \ - CARGO_TARGET_AARCH64_UNKNOWN_LINUX_GNU_RUNNER="qemu-aarch64 -L /usr/aarch64-linux-gnu" \ - OBJDUMP=aarch64-linux-gnu-objdump diff --git a/third_party/rust/packed_simd/ci/docker/arm-unknown-linux-gnueabi/Dockerfile b/third_party/rust/packed_simd/ci/docker/arm-unknown-linux-gnueabi/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/arm-unknown-linux-gnueabi/Dockerfile +++ /dev/null @@ -1,15 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - ca-certificates \ - libc6-dev \ - libc6-armel-cross \ - libc6-dev-armel-cross \ - binutils-arm-linux-gnueabi \ - gcc-arm-linux-gnueabi \ - qemu-user \ - make \ - file -ENV CARGO_TARGET_ARM_UNKNOWN_LINUX_GNUEABI_LINKER=arm-linux-gnueabi-gcc \ - CARGO_TARGET_ARM_UNKNOWN_LINUX_GNUEABI_RUNNER="qemu-arm -L /usr/arm-linux-gnueabi" \ - OBJDUMP=arm-linux-gnueabi-objdump diff --git a/third_party/rust/packed_simd/ci/docker/arm-unknown-linux-gnueabihf/Dockerfile b/third_party/rust/packed_simd/ci/docker/arm-unknown-linux-gnueabihf/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/arm-unknown-linux-gnueabihf/Dockerfile +++ /dev/null @@ -1,13 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - ca-certificates \ - libc6-dev \ - gcc-arm-linux-gnueabihf \ - libc6-dev-armhf-cross \ - qemu-user \ - make \ - file -ENV CARGO_TARGET_ARM_UNKNOWN_LINUX_GNUEABIHF_LINKER=arm-linux-gnueabihf-gcc \ - CARGO_TARGET_ARM_UNKNOWN_LINUX_GNUEABIHF_RUNNER="qemu-arm -L /usr/arm-linux-gnueabihf" \ - OBJDUMP=arm-linux-gnueabihf-objdump diff --git a/third_party/rust/packed_simd/ci/docker/armv7-linux-androideabi/Dockerfile b/third_party/rust/packed_simd/ci/docker/armv7-linux-androideabi/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/armv7-linux-androideabi/Dockerfile +++ /dev/null @@ -1,47 +0,0 @@ -FROM ubuntu:16.04 - -RUN dpkg --add-architecture i386 && \ - apt-get update && \ - apt-get install -y --no-install-recommends \ - file \ - make \ - curl \ - ca-certificates \ - python \ - unzip \ - expect \ - openjdk-9-jre \ - libstdc++6:i386 \ - libpulse0 \ - gcc \ - libc6-dev - -WORKDIR /android/ -COPY android* /android/ - -ENV ANDROID_ARCH=arm -ENV PATH=$PATH:/android/ndk-$ANDROID_ARCH/bin:/android/sdk/tools:/android/sdk/platform-tools - -RUN sh /android/android-install-ndk.sh $ANDROID_ARCH -RUN sh /android/android-install-sdk.sh $ANDROID_ARCH -RUN mv /root/.android /tmp -RUN chmod 777 -R /tmp/.android -RUN chmod 755 /android/sdk/tools/* /android/sdk/emulator/qemu/linux-x86_64/* - -ENV PATH=$PATH:/rust/bin \ - CARGO_TARGET_ARM_LINUX_ANDROIDEABI_LINKER=arm-linux-androideabi-gcc \ - CARGO_TARGET_ARM_LINUX_ANDROIDEABI_RUNNER=/tmp/runtest \ - OBJDUMP=arm-linux-androideabi-objdump \ - HOME=/tmp - -ADD runtest-android.rs /tmp/runtest.rs -ENTRYPOINT [ \ - "bash", \ - "-c", \ - # set SHELL so android can detect a 64bits system, see - # http://stackoverflow.com/a/41789144 - "SHELL=/bin/dash /android/sdk/emulator/emulator @arm -no-window & \ - rustc /tmp/runtest.rs -o /tmp/runtest && \ - exec \"$@\"", \ - "--" \ -] diff --git a/third_party/rust/packed_simd/ci/docker/armv7-unknown-linux-gnueabihf/Dockerfile b/third_party/rust/packed_simd/ci/docker/armv7-unknown-linux-gnueabihf/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/armv7-unknown-linux-gnueabihf/Dockerfile +++ /dev/null @@ -1,13 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - ca-certificates \ - libc6-dev \ - gcc-arm-linux-gnueabihf \ - libc6-dev-armhf-cross \ - qemu-user \ - make \ - file -ENV CARGO_TARGET_ARMV7_UNKNOWN_LINUX_GNUEABIHF_LINKER=arm-linux-gnueabihf-gcc \ - CARGO_TARGET_ARMV7_UNKNOWN_LINUX_GNUEABIHF_RUNNER="qemu-arm -L /usr/arm-linux-gnueabihf" \ - OBJDUMP=arm-linux-gnueabihf-objdump diff --git a/third_party/rust/packed_simd/ci/docker/i586-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/i586-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/i586-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,7 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc-multilib \ - libc6-dev \ - file \ - make \ - ca-certificates diff --git a/third_party/rust/packed_simd/ci/docker/i686-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/i686-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/i686-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,7 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc-multilib \ - libc6-dev \ - file \ - make \ - ca-certificates diff --git a/third_party/rust/packed_simd/ci/docker/mips-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/mips-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/mips-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,13 +0,0 @@ -FROM ubuntu:18.04 - -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc libc6-dev qemu-user ca-certificates \ - gcc-mips-linux-gnu libc6-dev-mips-cross \ - qemu-system-mips \ - qemu-user \ - make \ - file - -ENV CARGO_TARGET_MIPS_UNKNOWN_LINUX_GNU_LINKER=mips-linux-gnu-gcc \ - CARGO_TARGET_MIPS_UNKNOWN_LINUX_GNU_RUNNER="qemu-mips -L /usr/mips-linux-gnu" \ - OBJDUMP=mips-linux-gnu-objdump \ No newline at end of file diff --git a/third_party/rust/packed_simd/ci/docker/mips64-unknown-linux-gnuabi64/Dockerfile b/third_party/rust/packed_simd/ci/docker/mips64-unknown-linux-gnuabi64/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/mips64-unknown-linux-gnuabi64/Dockerfile +++ /dev/null @@ -1,10 +0,0 @@ -FROM ubuntu:18.04 - -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc libc6-dev qemu-user ca-certificates \ - gcc-mips64-linux-gnuabi64 libc6-dev-mips64-cross \ - qemu-system-mips64 qemu-user - -ENV CARGO_TARGET_MIPS64_UNKNOWN_LINUX_GNUABI64_LINKER=mips64-linux-gnuabi64-gcc \ - CARGO_TARGET_MIPS64_UNKNOWN_LINUX_GNUABI64_RUNNER="qemu-mips64 -L /usr/mips64-linux-gnuabi64" \ - OBJDUMP=mips64-linux-gnuabi64-objdump \ No newline at end of file diff --git a/third_party/rust/packed_simd/ci/docker/mips64el-unknown-linux-gnuabi64/Dockerfile b/third_party/rust/packed_simd/ci/docker/mips64el-unknown-linux-gnuabi64/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/mips64el-unknown-linux-gnuabi64/Dockerfile +++ /dev/null @@ -1,10 +0,0 @@ -FROM ubuntu:18.04 - -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc libc6-dev qemu-user ca-certificates \ - gcc-mips64el-linux-gnuabi64 libc6-dev-mips64el-cross \ - qemu-system-mips64el - -ENV CARGO_TARGET_MIPS64EL_UNKNOWN_LINUX_GNUABI64_LINKER=mips64el-linux-gnuabi64-gcc \ - CARGO_TARGET_MIPS64EL_UNKNOWN_LINUX_GNUABI64_RUNNER="qemu-mips64el -L /usr/mips64el-linux-gnuabi64" \ - OBJDUMP=mips64el-linux-gnuabi64-objdump \ No newline at end of file diff --git a/third_party/rust/packed_simd/ci/docker/mipsel-unknown-linux-musl/Dockerfile b/third_party/rust/packed_simd/ci/docker/mipsel-unknown-linux-musl/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/mipsel-unknown-linux-musl/Dockerfile +++ /dev/null @@ -1,25 +0,0 @@ -FROM ubuntu:18.10 - -RUN apt-get update && \ - apt-get install -y --no-install-recommends \ - ca-certificates \ - gcc \ - libc6-dev \ - make \ - qemu-user \ - qemu-system-mips \ - bzip2 \ - curl \ - file - -RUN mkdir /toolchain - -# Note that this originally came from: -# https://downloads.openwrt.org/snapshots/trunk/malta/generic/OpenWrt-Toolchain-malta-le_gcc-5.3.0_musl-1.1.15.Linux-x86_64.tar.bz2 -RUN curl -L https://ci-mirrors.rust-lang.org/libc/OpenWrt-Toolchain-malta-le_gcc-5.3.0_musl-1.1.15.Linux-x86_64.tar.bz2 | \ - tar xjf - -C /toolchain --strip-components=2 - -ENV PATH=$PATH:/rust/bin:/toolchain/bin \ - CC_mipsel_unknown_linux_musl=mipsel-openwrt-linux-gcc \ - CARGO_TARGET_MIPSEL_UNKNOWN_LINUX_MUSL_LINKER=mipsel-openwrt-linux-gcc \ - CARGO_TARGET_MIPSEL_UNKNOWN_LINUX_MUSL_RUNNER="qemu-mipsel -L /toolchain" diff --git a/third_party/rust/packed_simd/ci/docker/powerpc-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/powerpc-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/powerpc-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,13 +0,0 @@ -FROM ubuntu:22.04 - -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc libc6-dev qemu-user ca-certificates \ - gcc-powerpc-linux-gnu libc6-dev-powerpc-cross \ - qemu-system-ppc \ - make \ - file - -ENV CARGO_TARGET_POWERPC_UNKNOWN_LINUX_GNU_LINKER=powerpc-linux-gnu-gcc \ - CARGO_TARGET_POWERPC_UNKNOWN_LINUX_GNU_RUNNER="qemu-ppc -cpu Vger -L /usr/powerpc-linux-gnu" \ - CC=powerpc-linux-gnu-gcc \ - OBJDUMP=powerpc-linux-gnu-objdump diff --git a/third_party/rust/packed_simd/ci/docker/powerpc64-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/powerpc64-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/powerpc64-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,17 +0,0 @@ -FROM ubuntu:22.04 - -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - ca-certificates \ - libc6-dev \ - gcc-powerpc64-linux-gnu \ - libc6-dev-ppc64-cross \ - qemu-user \ - qemu-system-ppc \ - make \ - file - -ENV CARGO_TARGET_POWERPC64_UNKNOWN_LINUX_GNU_LINKER=powerpc64-linux-gnu-gcc \ - CARGO_TARGET_POWERPC64_UNKNOWN_LINUX_GNU_RUNNER="qemu-ppc64 -L /usr/powerpc64-linux-gnu" \ - CC=powerpc64-linux-gnu-gcc \ - OBJDUMP=powerpc64-linux-gnu-objdump diff --git a/third_party/rust/packed_simd/ci/docker/powerpc64le-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/powerpc64le-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/powerpc64le-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,11 +0,0 @@ -FROM ubuntu:22.04 - -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc libc6-dev qemu-user ca-certificates \ - gcc-powerpc64le-linux-gnu libc6-dev-ppc64el-cross \ - qemu-system-ppc file make - -ENV CARGO_TARGET_POWERPC64LE_UNKNOWN_LINUX_GNU_LINKER=powerpc64le-linux-gnu-gcc \ - CARGO_TARGET_POWERPC64LE_UNKNOWN_LINUX_GNU_RUNNER="qemu-ppc64le -L /usr/powerpc64le-linux-gnu" \ - CC=powerpc64le-linux-gnu-gcc \ - OBJDUMP=powerpc64le-linux-gnu-objdump diff --git a/third_party/rust/packed_simd/ci/docker/s390x-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/s390x-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/s390x-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,20 +0,0 @@ -FROM ubuntu:22.04 - -RUN apt-get update && \ - apt-get install -y --no-install-recommends \ - ca-certificates \ - curl \ - cmake \ - gcc \ - libc6-dev \ - g++-s390x-linux-gnu \ - libc6-dev-s390x-cross \ - qemu-user \ - make \ - file - -ENV CARGO_TARGET_S390X_UNKNOWN_LINUX_GNU_LINKER=s390x-linux-gnu-gcc \ - CARGO_TARGET_S390X_UNKNOWN_LINUX_GNU_RUNNER="qemu-s390x -L /usr/s390x-linux-gnu" \ - CC_s390x_unknown_linux_gnu=s390x-linux-gnu-gcc \ - CXX_s390x_unknown_linux_gnu=s390x-linux-gnu-g++ \ - OBJDUMP=s390x-linux-gnu-objdump diff --git a/third_party/rust/packed_simd/ci/docker/sparc64-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/sparc64-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/sparc64-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,18 +0,0 @@ -FROM debian:bookworm - -RUN apt-get update && apt-get install -y --no-install-recommends \ - curl ca-certificates \ - gcc libc6-dev \ - gcc-sparc64-linux-gnu libc6-dev-sparc64-cross \ - qemu-system-sparc64 openbios-sparc seabios ipxe-qemu \ - p7zip-full cpio - -COPY linux-sparc64.sh / -RUN bash /linux-sparc64.sh - -COPY test-runner-linux / - -ENV CARGO_TARGET_SPARC64_UNKNOWN_LINUX_GNU_LINKER=sparc64-linux-gnu-gcc \ - CARGO_TARGET_SPARC64_UNKNOWN_LINUX_GNU_RUNNER="/test-runner-linux sparc64" \ - CC_sparc64_unknown_linux_gnu=sparc64-linux-gnu-gcc \ - PATH=$PATH:/rust/bin diff --git a/third_party/rust/packed_simd/ci/docker/thumbv7neon-linux-androideabi/Dockerfile b/third_party/rust/packed_simd/ci/docker/thumbv7neon-linux-androideabi/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/thumbv7neon-linux-androideabi/Dockerfile +++ /dev/null @@ -1,47 +0,0 @@ -FROM ubuntu:16.04 - -RUN dpkg --add-architecture i386 && \ - apt-get update && \ - apt-get install -y --no-install-recommends \ - file \ - make \ - curl \ - ca-certificates \ - python \ - unzip \ - expect \ - openjdk-9-jre \ - libstdc++6:i386 \ - libpulse0 \ - gcc \ - libc6-dev - -WORKDIR /android/ -COPY android* /android/ - -ENV ANDROID_ARCH=arm -ENV PATH=$PATH:/android/ndk-$ANDROID_ARCH/bin:/android/sdk/tools:/android/sdk/platform-tools - -RUN sh /android/android-install-ndk.sh $ANDROID_ARCH -RUN sh /android/android-install-sdk.sh $ANDROID_ARCH -RUN mv /root/.android /tmp -RUN chmod 777 -R /tmp/.android -RUN chmod 755 /android/sdk/tools/* /android/sdk/emulator/qemu/linux-x86_64/* - -ENV PATH=$PATH:/rust/bin \ - CARGO_TARGET_THUMBV7NEON_LINUX_ANDROIDEABI_LINKER=arm-linux-androideabi-gcc \ - CARGO_TARGET_THUMBV7NEON_LINUX_ANDROIDEABI_RUNNER=/tmp/runtest \ - OBJDUMP=arm-linux-androideabi-objdump \ - HOME=/tmp - -ADD runtest-android.rs /tmp/runtest.rs -ENTRYPOINT [ \ - "bash", \ - "-c", \ - # set SHELL so android can detect a 64bits system, see - # http://stackoverflow.com/a/41789144 - "SHELL=/bin/dash /android/sdk/emulator/emulator @arm -no-window & \ - rustc /tmp/runtest.rs -o /tmp/runtest && \ - exec \"$@\"", \ - "--" \ -] diff --git a/third_party/rust/packed_simd/ci/docker/thumbv7neon-unknown-linux-gnueabihf/Dockerfile b/third_party/rust/packed_simd/ci/docker/thumbv7neon-unknown-linux-gnueabihf/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/thumbv7neon-unknown-linux-gnueabihf/Dockerfile +++ /dev/null @@ -1,13 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - ca-certificates \ - libc6-dev \ - gcc-arm-linux-gnueabihf \ - libc6-dev-armhf-cross \ - qemu-user \ - make \ - file -ENV CARGO_TARGET_THUMBV7NEON_UNKNOWN_LINUX_GNUEABIHF_LINKER=arm-linux-gnueabihf-gcc \ - CARGO_TARGET_THUMBV7NEON_UNKNOWN_LINUX_GNUEABIHF_RUNNER="qemu-arm -L /usr/arm-linux-gnueabihf" \ - OBJDUMP=arm-linux-gnueabihf-objdump diff --git a/third_party/rust/packed_simd/ci/docker/wasm32-unknown-unknown/Dockerfile b/third_party/rust/packed_simd/ci/docker/wasm32-unknown-unknown/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/wasm32-unknown-unknown/Dockerfile +++ /dev/null @@ -1,39 +0,0 @@ -FROM ubuntu:22.04 - -RUN apt-get update -y && apt-get install -y --no-install-recommends \ - ca-certificates \ - clang \ - cmake \ - curl \ - git \ - libc6-dev \ - make \ - ninja-build \ - python-is-python3 \ - xz-utils - -# Install `wasm2wat` -RUN git clone --recursive https://github.com/WebAssembly/wabt -RUN make -C wabt -j$(nproc) -ENV PATH=$PATH:/wabt/bin - -# Install `wasm-bindgen-test-runner` -RUN curl -L https://github.com/rustwasm/wasm-bindgen/releases/download/0.2.87/wasm-bindgen-0.2.87-x86_64-unknown-linux-musl.tar.gz \ - | tar xzf - -# Keep in sync with the version on Cargo.toml. -ENV PATH=$PATH:/wasm-bindgen-0.2.87-x86_64-unknown-linux-musl -ENV CARGO_TARGET_WASM32_UNKNOWN_UNKNOWN_RUNNER=wasm-bindgen-test-runner - -# Install `node` -RUN curl https://nodejs.org/dist/v14.16.0/node-v14.16.0-linux-x64.tar.xz | tar xJf - -ENV PATH=$PATH:/node-v14.16.0-linux-x64/bin - -# We use a shim linker that removes `--strip-debug` when passed to LLD. While -# this typically results in invalid debug information in release mode it doesn't -# result in an invalid names section which is what we're interested in. -COPY lld-shim.rs / -ENV CARGO_TARGET_WASM32_UNKNOWN_UNKNOWN_LINKER=/tmp/lld-shim - -# Rustc isn't available until this container starts, so defer compilation of the -# shim. -ENTRYPOINT /rust/bin/rustc /lld-shim.rs -o /tmp/lld-shim && exec bash "$@" diff --git a/third_party/rust/packed_simd/ci/docker/x86_64-linux-android/Dockerfile b/third_party/rust/packed_simd/ci/docker/x86_64-linux-android/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/x86_64-linux-android/Dockerfile +++ /dev/null @@ -1,31 +0,0 @@ -FROM ubuntu:20.04 - -RUN apt-get update && \ - apt-get install -y --no-install-recommends \ - ca-certificates \ - curl \ - gcc \ - libc-dev \ - python \ - unzip \ - file \ - make - -WORKDIR /android/ -ENV ANDROID_ARCH=x86_64 -COPY android-install-ndk.sh /android/ -RUN sh /android/android-install-ndk.sh - -ENV STDARCH_ASSERT_INSTR_LIMIT=30 - -# We do not run x86_64-linux-android tests on an android emulator. -# See ci/android-sysimage.sh for informations about how tests are run. -COPY android-sysimage.sh /android/ -RUN bash /android/android-sysimage.sh x86_64 x86_64-24_r07.zip - -ENV PATH=$PATH:/rust/bin:/android/ndk/toolchains/llvm/prebuilt/linux-x86_64/bin \ - CARGO_TARGET_X86_64_LINUX_ANDROID_LINKER=x86_64-linux-android21-clang \ - CC_x86_64_linux_android=x86_64-linux-android21-clang \ - CXX_x86_64_linux_android=x86_64-linux-android21-clang++ \ - OBJDUMP=llvm-objdump \ - HOME=/tmp diff --git a/third_party/rust/packed_simd/ci/docker/x86_64-unknown-linux-gnu-emulated/Dockerfile b/third_party/rust/packed_simd/ci/docker/x86_64-unknown-linux-gnu-emulated/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/x86_64-unknown-linux-gnu-emulated/Dockerfile +++ /dev/null @@ -1,16 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - libc6-dev \ - file \ - make \ - ca-certificates \ - wget \ - bzip2 \ - cmake \ - libclang-dev \ - clang - -RUN wget https://github.com/gnzlbg/intel_sde/raw/master/sde-external-8.16.0-2018-01-30-lin.tar.bz2 -RUN tar -xjf sde-external-8.16.0-2018-01-30-lin.tar.bz2 -ENV CARGO_TARGET_X86_64_UNKNOWN_LINUX_GNU_RUNNER="/sde-external-8.16.0-2018-01-30-lin/sde64 --" diff --git a/third_party/rust/packed_simd/ci/docker/x86_64-unknown-linux-gnu/Dockerfile b/third_party/rust/packed_simd/ci/docker/x86_64-unknown-linux-gnu/Dockerfile deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/docker/x86_64-unknown-linux-gnu/Dockerfile +++ /dev/null @@ -1,10 +0,0 @@ -FROM ubuntu:18.04 -RUN apt-get update && apt-get install -y --no-install-recommends \ - gcc \ - libc6-dev \ - file \ - make \ - ca-certificates \ - cmake \ - libclang-dev \ - clang diff --git a/third_party/rust/packed_simd/ci/dox.sh b/third_party/rust/packed_simd/ci/dox.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/dox.sh +++ /dev/null @@ -1,27 +0,0 @@ -#!/bin/sh - -set -ex - -rm -rf target/doc -mkdir -p target/doc - -# Build API documentation -cargo doc --features=into_bits - -# Build Performance Guide -# FIXME: https://github.com/rust-lang-nursery/mdBook/issues/780 -# mdbook build perf-guide -d target/doc/perf-guide -cd perf-guide -mdbook build -cd - -cp -r perf-guide/book target/doc/perf-guide - -# If we're on travis, not a PR, and on the right branch, publish! -if [ "$TRAVIS_PULL_REQUEST" = "false" ] && [ "$TRAVIS_BRANCH" = "master" ]; then - python3 -vV - pip -vV - python3.9 -vV - pip install ghp_import --user - ghp-import -n target/doc - git push -qf https://${GH_PAGES}@github.com/${TRAVIS_REPO_SLUG}.git gh-pages -fi diff --git a/third_party/rust/packed_simd/ci/linux-s390x.sh b/third_party/rust/packed_simd/ci/linux-s390x.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/linux-s390x.sh +++ /dev/null @@ -1,18 +0,0 @@ -set -ex - -mkdir -m 777 /qemu -cd /qemu - -curl -LO https://github.com/qemu/qemu/raw/master/pc-bios/s390-ccw.img -curl -LO http://ftp.debian.org/debian/dists/testing/main/installer-s390x/20170828/images/generic/kernel.debian -curl -LO http://ftp.debian.org/debian/dists/testing/main/installer-s390x/20170828/images/generic/initrd.debian - -mv kernel.debian kernel -mv initrd.debian initrd.gz - -mkdir init -cd init -gunzip -c ../initrd.gz | cpio -id -rm ../initrd.gz -cp /usr/s390x-linux-gnu/lib/libgcc_s.so.1 usr/lib/ -chmod a+w . diff --git a/third_party/rust/packed_simd/ci/linux-sparc64.sh b/third_party/rust/packed_simd/ci/linux-sparc64.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/linux-sparc64.sh +++ /dev/null @@ -1,17 +0,0 @@ -set -ex - -mkdir -m 777 /qemu -cd /qemu - -curl -LO https://cdimage.debian.org/cdimage/ports/9.0/sparc64/iso-cd/debian-9.0-sparc64-NETINST-1.iso -7z e debian-9.0-sparc64-NETINST-1.iso boot/initrd.gz -7z e debian-9.0-sparc64-NETINST-1.iso boot/sparc64 -mv sparc64 kernel -rm debian-9.0-sparc64-NETINST-1.iso - -mkdir init -cd init -gunzip -c ../initrd.gz | cpio -id -rm ../initrd.gz -cp /usr/sparc64-linux-gnu/lib/libgcc_s.so.1 usr/lib/ -chmod a+w . diff --git a/third_party/rust/packed_simd/ci/lld-shim.rs b/third_party/rust/packed_simd/ci/lld-shim.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/lld-shim.rs +++ /dev/null @@ -1,11 +0,0 @@ -use std::os::unix::prelude::*; -use std::process::Command; -use std::env; - -fn main() { - let args = env::args() - .skip(1) - .filter(|s| s != "--strip-debug") - .collect::<Vec<_>>(); - panic!("failed to exec: {}", Command::new("rust-lld").args(&args).exec()); -} diff --git a/third_party/rust/packed_simd/ci/max_line_width.sh b/third_party/rust/packed_simd/ci/max_line_width.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/max_line_width.sh +++ /dev/null @@ -1,17 +0,0 @@ -#!/usr/bin/env sh - -set -x - -export success=true - -find . -iname '*.rs' | while read -r file; do - result=$(grep '.\{79\}' "${file}" | grep --invert 'http') - if [ "${result}" = "" ] - then - : - else - echo "file \"${file}\": $result" - exit 1 - fi -done - diff --git a/third_party/rust/packed_simd/ci/run-docker.sh b/third_party/rust/packed_simd/ci/run-docker.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/run-docker.sh +++ /dev/null @@ -1,38 +0,0 @@ -# Small script to run tests for a target (or all targets) inside all the -# respective docker images. - -set -ex - -run() { - echo "Building docker container for TARGET=${TARGET} RUSTFLAGS=${RUSTFLAGS}" - docker build -t packed_simd -f ci/docker/${TARGET}/Dockerfile ci/ - mkdir -p target - target=$(echo "${TARGET}" | sed 's/-emulated//') - echo "Running docker" - docker run \ - --user `id -u`:`id -g` \ - --rm \ - --init \ - --volume $HOME/.cargo:/cargo \ - --env CARGO_HOME=/cargo \ - --volume `rustc --print sysroot`:/rust:ro \ - --env TARGET=$target \ - --env NORUN \ - --env NOVERIFY \ - --env RUSTFLAGS \ - --volume `pwd`:/checkout:ro \ - --volume `pwd`/target:/checkout/target \ - --workdir /checkout \ - --privileged \ - packed_simd \ - bash \ - -c 'PATH=$PATH:/rust/bin exec ci/run.sh' -} - -if [ -z "${TARGET}" ]; then - for d in `ls ci/docker/`; do - run $d - done -else - run ${TARGET} -fi diff --git a/third_party/rust/packed_simd/ci/run.sh b/third_party/rust/packed_simd/ci/run.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/run.sh +++ /dev/null @@ -1,99 +0,0 @@ -#!/usr/bin/env bash - -set -ex - -: ${TARGET?"The TARGET environment variable must be set."} - -# Tests are all super fast anyway, and they fault often enough on travis that -# having only one thread increases debuggability to be worth it. -#export RUST_TEST_THREADS=1 -#export RUST_BACKTRACE=full -#export RUST_TEST_NOCAPTURE=1 - -# Some appveyor builds run out-of-memory; this attempts to mitigate that: -# https://github.com/rust-lang-nursery/packed_simd/issues/39 -# export RUSTFLAGS="${RUSTFLAGS} -C codegen-units=1" -# export CARGO_BUILD_JOBS=1 - -export CARGO_SUBCMD=test -if [[ "${NORUN}" == "1" ]]; then - export CARGO_SUBCMD=build -fi - -if [[ ${TARGET} == "x86_64-apple-ios" ]] || [[ ${TARGET} == "i386-apple-ios" ]]; then - export RUSTFLAGS="${RUSTFLAGS} -Clink-arg=-mios-simulator-version-min=7.0" - rustc ./ci/deploy_and_run_on_ios_simulator.rs -o $HOME/runtest - export CARGO_TARGET_X86_64_APPLE_IOS_RUNNER=$HOME/runtest - export CARGO_TARGET_I386_APPLE_IOS_RUNNER=$HOME/runtest -fi - -# The source directory is read-only. Need to copy internal crates to the target -# directory for their Cargo.lock to be properly written. -mkdir target || true - -rustc --version -cargo --version -echo "TARGET=${TARGET}" -echo "HOST=${HOST}" -echo "RUSTFLAGS=${RUSTFLAGS}" -echo "NORUN=${NORUN}" -echo "NOVERIFY=${NOVERIFY}" -echo "CARGO_SUBCMD=${CARGO_SUBCMD}" -echo "CARGO_BUILD_JOBS=${CARGO_BUILD_JOBS}" -echo "CARGO_INCREMENTAL=${CARGO_INCREMENTAL}" -echo "RUST_TEST_THREADS=${RUST_TEST_THREADS}" -echo "RUST_BACKTRACE=${RUST_BACKTRACE}" -echo "RUST_TEST_NOCAPTURE=${RUST_TEST_NOCAPTURE}" - -cargo_test() { - cmd="cargo ${CARGO_SUBCMD} --verbose --target=${TARGET} ${@}" - if [ "${NORUN}" != "1" ] - then - if [ "$TARGET" != "wasm32-unknown-unknown" ] - then - cmd="$cmd -- --quiet" - fi - fi - mkdir target || true - ${cmd} 2>&1 | tee > target/output - if [[ ${PIPESTATUS[0]} != 0 ]]; then - cat target/output - return 1 - fi -} - -cargo_test_impl() { - ORIGINAL_RUSTFLAGS=${RUSTFLAGS} - RUSTFLAGS="${ORIGINAL_RUSTFLAGS} --cfg test_v16 --cfg test_v32 --cfg test_v64" cargo_test ${@} - RUSTFLAGS="${ORIGINAL_RUSTFLAGS} --cfg test_v128 --cfg test_v256" cargo_test ${@} - RUSTFLAGS="${ORIGINAL_RUSTFLAGS} --cfg test_v512" cargo_test ${@} - RUSTFLAGS=${ORIGINAL_RUSTFLAGS} -} - -# Debug run: -if [[ "${TARGET}" != "wasm32-unknown-unknown" ]]; then - # Run wasm32-unknown-unknown in release mode only - cargo_test_impl -fi - -if [[ "${TARGET}" == "x86_64-unknown-linux-gnu" ]] || [[ "${TARGET}" == "x86_64-pc-windows-msvc" ]]; then - # use sleef on linux and windows x86_64 builds - # FIXME: Use `core_arch,sleef-sys` features once they works again - cargo_test_impl --release --features=into_bits -else - # FIXME: Use `core_arch` feature once it works again - cargo_test_impl --release --features=into_bits -fi - -# Verify code generation -if [[ "${NOVERIFY}" != "1" ]]; then - cp -r verify/verify target/verify - export STDSIMD_ASSERT_INSTR_LIMIT=30 - if [[ "${TARGET}" == "i586-unknown-linux-gnu" ]]; then - export STDSIMD_ASSERT_INSTR_LIMIT=50 - fi - cargo_test --release --manifest-path=target/verify/Cargo.toml -fi - -# FIXME: Figure out which examples take too long to run and ignore or adjust those -#. ci/run_examples.sh diff --git a/third_party/rust/packed_simd/ci/run_examples.sh b/third_party/rust/packed_simd/ci/run_examples.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/run_examples.sh +++ /dev/null @@ -1,51 +0,0 @@ -# Runs all examples. - -# FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/55 -# All examples fail to build for `armv7-apple-ios`. -if [[ ${TARGET} == "armv7-apple-ios" ]]; then - exit 0 -fi - -# FIXME: travis exceeds 50 minutes on these targets -# Skipping the examples is an attempt at preventing travis from timing-out -if [[ ${TARGET} == "arm-linux-androidabi" ]] || [[ ${TARGET} == "aarch64-linux-androidabi" ]] \ - || [[ ${TARGET} == "sparc64-unknown-linux-gnu" ]]; then - exit 0 -fi - -if [[ ${TARGET} == "wasm32-unknown-unknown" ]]; then - exit 0 -fi - -cp -r examples/aobench target/aobench -cargo_test --manifest-path=target/aobench/Cargo.toml --release --no-default-features -cargo_test --manifest-path=target/aobench/Cargo.toml --release --features=256bit - -cp -r examples/dot_product target/dot_product -cargo_test --manifest-path=target/dot_product/Cargo.toml --release - -cp -r examples/fannkuch_redux target/fannkuch_redux -cargo_test --manifest-path=target/fannkuch_redux/Cargo.toml --release - -# FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/56 -if [[ ${TARGET} != "i586-unknown-linux-gnu" ]]; then - cp -r examples/mandelbrot target/mandelbrot - cargo_test --manifest-path=target/mandelbrot/Cargo.toml --release -fi - -cp -r examples/matrix_inverse target/matrix_inverse -cargo_test --manifest-path=target/matrix_inverse/Cargo.toml --release - -cp -r examples/nbody target/nbody -cargo_test --manifest-path=target/nbody/Cargo.toml --release - -cp -r examples/spectral_norm target/spectral_norm -cargo_test --manifest-path=target/spectral_norm/Cargo.toml --release - -if [[ ${TARGET} != "i586-unknown-linux-gnu" ]]; then - cp -r examples/stencil target/stencil - cargo_test --manifest-path=target/stencil/Cargo.toml --release -fi - -cp -r examples/triangle_xform target/triangle_xform -cargo_test --manifest-path=target/triangle_xform/Cargo.toml --release diff --git a/third_party/rust/packed_simd/ci/runtest-android.rs b/third_party/rust/packed_simd/ci/runtest-android.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/runtest-android.rs +++ /dev/null @@ -1,45 +0,0 @@ -use std::env; -use std::process::Command; -use std::path::{Path, PathBuf}; - -fn main() { - let args = env::args_os() - .skip(1) - .filter(|arg| arg != "--quiet") - .collect::<Vec<_>>(); - assert_eq!(args.len(), 1); - let test = PathBuf::from(&args[0]); - let dst = Path::new("/data/local/tmp").join(test.file_name().unwrap()); - - let status = Command::new("adb") - .arg("wait-for-device") - .status() - .expect("failed to run: adb wait-for-device"); - assert!(status.success()); - - let status = Command::new("adb") - .arg("push") - .arg(&test) - .arg(&dst) - .status() - .expect("failed to run: adb pushr"); - assert!(status.success()); - - let output = Command::new("adb") - .arg("shell") - .arg(&dst) - .output() - .expect("failed to run: adb shell"); - assert!(status.success()); - - println!("status: {}\nstdout ---\n{}\nstderr ---\n{}", - output.status, - String::from_utf8_lossy(&output.stdout), - String::from_utf8_lossy(&output.stderr)); - - let stdout = String::from_utf8_lossy(&output.stdout); - let mut lines = stdout.lines().filter(|l| l.starts_with("test result")); - if !lines.all(|l| l.contains("test result: ok") && l.contains("0 failed")) { - panic!("failed to find successful test run"); - } -} diff --git a/third_party/rust/packed_simd/ci/setup_benchmarks.sh b/third_party/rust/packed_simd/ci/setup_benchmarks.sh deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/setup_benchmarks.sh +++ /dev/null @@ -1,7 +0,0 @@ -#!/usr/bin/env bash - -set -ex - -# Get latest ISPC binary for the target and put it in the path -git clone https://github.com/gnzlbg/ispc-binaries -cp ispc-binaries/ispc-${TARGET} ispc diff --git a/third_party/rust/packed_simd/ci/test-runner-linux b/third_party/rust/packed_simd/ci/test-runner-linux deleted file mode 100644 --- a/third_party/rust/packed_simd/ci/test-runner-linux +++ /dev/null @@ -1,24 +0,0 @@ -#!/bin/sh - -set -e - -arch=$1 -prog=$2 - -cd /qemu/init -cp -f $2 prog -find . | cpio --create --format='newc' --quiet | gzip > ../initrd.gz -cd .. - -timeout 30s qemu-system-$arch \ - -m 1024 \ - -nographic \ - -kernel kernel \ - -initrd initrd.gz \ - -append init=/prog > output || true - -# remove kernel messages -tr -d '\r' < output | egrep -v '^\[' - -# if the output contains a failure, return error -! grep FAILED output > /dev/null diff --git a/third_party/rust/packed_simd/contributing.md b/third_party/rust/packed_simd/contributing.md deleted file mode 100644 --- a/third_party/rust/packed_simd/contributing.md +++ /dev/null @@ -1,67 +0,0 @@ -# Contributing to `packed_simd` - -Welcome! If you are reading this document, it means you are interested in contributing -to the `packed_simd` crate. - -## Reporting issues - -All issues with this crate are tracked using GitHub's [Issue Tracker]. - -You can use issues to bring bugs to the attention of the maintainers, to discuss -certain problems encountered with the crate, or to request new features (although -feature requests should be limited to things mentioned in the [RFC]). - -One thing to keep in mind is to always use the **latest** nightly toolchain when -working on this crate. Due to the nature of this project, we use a lot of unstable -features, meaning breakage happens often. - -[Issue Tracker]: https://github.com/rust-lang-nursery/packed_simd/issues -[RFC]: https://github.com/rust-lang/rfcs/pull/2366 - -### LLVM issues - -The Rust compiler relies on [LLVM](https://llvm.org/) for machine code generation, -and quite a few LLVM bugs have been discovered during the development of this project. - -If you encounter issues with incorrect/suboptimal codegen, which you do not encounter -when using the [SIMD vendor intrinsics](https://doc.rust-lang.org/nightly/std/arch/), -it is likely the issue is with LLVM, or this crate's interaction with it. - -You should first open an issue **in this repo** to help us track the problem, and we -will help determine what is the exact cause of the problem. -If LLVM is indeed the cause, the issue will be reported upstream to the -[LLVM bugtracker](https://bugs.llvm.org/). - -## Submitting Pull Requests - -New code is submitted to the crate using GitHub's [pull request] mechanism. -You should first fork this repository, make your changes (preferably in a new -branch), then use GitHub's web UI to create a new PR. - -[pull request]: https://help.github.com/articles/about-pull-requests/ - -### Examples - -The `examples` directory contains code showcasing SIMD code written with this crate, -usually in comparison to scalar or ISPC code. If you have a project / idea which -uses SIMD, we'd love to add it to the examples list. - -Every example should include a small `README`, describing the example code's purpose. -If your example could potentially work as a benchmark, then add a `benchmark.sh` -script to allow running the example benchmark code in CI. See an existing example's -[`benchmark.sh`](examples/aobench/benchmark.sh) for a sample. - -Don't forget to update the crate's top-level `README` with a link to your example. - -### Perf guide - -The objective of the [performance guide][perf-guide] is to be a comprehensive -resource detailing the process of optimizing Rust code with SIMD support. - -If you believe a certain section could be reworded, or if you have any tips & tricks -related to SIMD which you'd like to share, please open a PR. - -[mdBook] is used to manage the formatting of the guide as a book. - -[perf-guide]: https://rust-lang-nursery.github.io/packed_simd/perf-guide/ -[mdBook]: https://github.com/rust-lang-nursery/mdBook diff --git a/third_party/rust/packed_simd/perf-guide/.gitignore b/third_party/rust/packed_simd/perf-guide/.gitignore deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/.gitignore +++ /dev/null @@ -1,1 +0,0 @@ -/book diff --git a/third_party/rust/packed_simd/perf-guide/book.toml b/third_party/rust/packed_simd/perf-guide/book.toml deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/book.toml +++ /dev/null @@ -1,12 +0,0 @@ -[book] -authors = ["Gonzalo Brito Gadeschi", "Gabriel Majeri"] -multilingual = false -src = "src" -title = "Rust SIMD Performance Guide" -description = "This book describes how to write performant SIMD code in Rust." - -[build] -create-missing = false - -[output.html] -additional-css = ["./src/ascii.css"] diff --git a/third_party/rust/packed_simd/perf-guide/src/SUMMARY.md b/third_party/rust/packed_simd/perf-guide/src/SUMMARY.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/SUMMARY.md +++ /dev/null @@ -1,21 +0,0 @@ -# Summary - -[Introduction](./introduction.md) - -- [Floating-point Math](./float-math/fp.md) - - [Short-vector Math Library](./float-math/svml.md) - - [Approximate functions](./float-math/approx.md) - - [Fused multiply-accumulate](./float-math/fma.md) - -- [Target features](./target-feature/features.md) - - [Using `RUSTFLAGS`](./target-feature/rustflags.md) - - [Using the `target_feature` attribute](./target-feature/attribute.md) - - [Interaction with inlining](./target-feature/inlining.md) - - [Detecting features at runtime](./target-feature/runtime.md) - -- [Bounds checking](./bound_checks.md) -- [Vertical and horizontal operations](./vert-hor-ops.md) - -- [Performance profiling](./prof/profiling.md) - - [Profiling on Linux](./prof/linux.md) - - [Using machine code analyzers](./prof/mca.md) diff --git a/third_party/rust/packed_simd/perf-guide/src/ascii.css b/third_party/rust/packed_simd/perf-guide/src/ascii.css deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/ascii.css +++ /dev/null @@ -1,4 +0,0 @@ -code { - /* "Source Code Pro" breaks ASCII art */ - font-family: Consolas, "Ubuntu Mono", Menlo, "DejaVu Sans Mono", monospace; -} diff --git a/third_party/rust/packed_simd/perf-guide/src/bound_checks.md b/third_party/rust/packed_simd/perf-guide/src/bound_checks.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/bound_checks.md +++ /dev/null @@ -1,22 +0,0 @@ -# Bounds checking - -Reading and writing packed vectors to/from slices is checked by default. -Independently of the configuration options used, the safe functions: - -* `Simd<[T; N]>::from_slice_aligned(& s[..])` -* `Simd<[T; N]>::write_to_slice_aligned(&mut s[..])` - -always check that: - -* the slice is big enough to hold the vector -* the slice is suitably aligned to perform an aligned load/store for a `Simd<[T; - N]>` (this alignment is often much larger than that of `T`). - -There are `_unaligned` versions that use unaligned load and stores, as well as -`unsafe` `_unchecked` that do not perform any checks iff `debug-assertions = -false` / `debug = false`. That is, the `_unchecked` methods do still assert size -and alignment in debug builds and could also do so in release builds depending -on the configuration options. - -These assertions do often significantly impact performance and you should be -aware of them. diff --git a/third_party/rust/packed_simd/perf-guide/src/float-math/approx.md b/third_party/rust/packed_simd/perf-guide/src/float-math/approx.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/float-math/approx.md +++ /dev/null @@ -1,8 +0,0 @@ -# Approximate functions - -<!-- TODO: - -Explain that they exists, that they are often _much_ faster, how to use them, -that people should check whether the error is good enough for their -applications. Explain that this error is currently unstable and might change. ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/float-math/fma.md b/third_party/rust/packed_simd/perf-guide/src/float-math/fma.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/float-math/fma.md +++ /dev/null @@ -1,6 +0,0 @@ -# Fused Multiply Add - -<!-- TODO: -Explain that this is a compound operation, infinite precision, difference -between `mul_add` and `mul_adde`, that LLVM cannot do this by itself, etc. ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/float-math/fp.md b/third_party/rust/packed_simd/perf-guide/src/float-math/fp.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/float-math/fp.md +++ /dev/null @@ -1,3 +0,0 @@ -# Floating-point math - -This chapter contains information pertaining to working with floating-point numbers. diff --git a/third_party/rust/packed_simd/perf-guide/src/float-math/svml.md b/third_party/rust/packed_simd/perf-guide/src/float-math/svml.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/float-math/svml.md +++ /dev/null @@ -1,7 +0,0 @@ -# Short Vector Math Library - -<!-- TODO: -Explain how is short-vector math performed by default (just scalarized libm calls). - -Explain how to enable `sleef`, etc. ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/introduction.md b/third_party/rust/packed_simd/perf-guide/src/introduction.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/introduction.md +++ /dev/null @@ -1,26 +0,0 @@ -# Introduction - -## What is SIMD - -<!-- TODO: -describe what SIMD is, which algorithms can benefit from it, -give usage examples ---> - -## History of SIMD in Rust - -<!-- TODO: -discuss history of unstable std::simd, -stabilization of std::arch, etc. ---> - -## Discover packed_simd - -<!-- TODO: describe scope of this project --> - -Writing fast and portable SIMD algorithms using `packed_simd` is, unfortunately, -not trivial. There are many pitfals that one should be aware of, and some idioms -that help avoid those pitfalls. - -This book attempts to document these best practices and provides practical examples -on how to apply the tips to _your_ code. diff --git a/third_party/rust/packed_simd/perf-guide/src/prof/linux.md b/third_party/rust/packed_simd/perf-guide/src/prof/linux.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/prof/linux.md +++ /dev/null @@ -1,107 +0,0 @@ -# Performance profiling on Linux - -## Using `perf` - -[perf](https://perf.wiki.kernel.org/) is the most powerful performance profiler -for Linux, featuring support for various hardware Performance Monitoring Units, -as well as integration with the kernel's performance events framework. - -We will only look at how can the `perf` command can be used to profile SIMD code. -Full system profiling is outside of the scope of this book. - -### Recording - -The first step is to record a program's execution during an average workload. -It helps if you can isolate the parts of your program which have performance -issues, and set up a benchmark which can be easily (re)run. - -Build the benchmark binary in release mode, after having enabled debug info: - -```sh -$ cargo build --release -Finished release [optimized + debuginfo] target(s) in 0.02s -``` - -Then use the `perf record` subcommand: - -```sh -$ perf record --call-graph=dwarf ./target/release/my-program -[ perf record: Woken up 10 times to write data ] -[ perf record: Captured and wrote 2,356 MB perf.data (292 samples) ] -``` - -Instead of using `--call-graph=dwarf`, which can become pretty slow, you can use -`--call-graph=lbr` if you have a processor with support for Last Branch Record -(i.e. Intel Haswell and newer). - -`perf` will, by default, record the count of CPU cycles it takes to execute -various parts of your program. You can use the `-e` command line option -to enable other performance events, such as `cache-misses`. Use `perf list` -to get a list of all hardware counters supported by your CPU. - -### Viewing the report - -The next step is getting a bird's eye view of the program's execution. -`perf` provides a `ncurses`-based interface which will get you started. - -Use `perf report` to open a visualization of your program's performance: - -```sh -perf report --hierarchy -M intel -``` - -`--hierarchy` will display a tree-like structure of where your program spent -most of its time. `-M intel` enables disassembly output with Intel syntax, which -is subjectively more readable than the default AT&T syntax. - -Here is the output from profiling the `nbody` benchmark: - -``` -- 100,00% nbody - - 94,18% nbody - + 93,48% [.] nbody_lib::simd::advance - + 0,70% [.] nbody_lib::run - + 5,06% libc-2.28.so -``` - -If you move with the arrow keys to any node in the tree, you can the press `a` -to have `perf` _annotate_ that node. This means it will: - -- disassemble the function - -- associate every instruction with the percentage of time which was spent executing it - -- interleaves the disassembly with the source code, - assuming it found the debug symbols - (you can use `s` to toggle this behaviour) - -`perf` will, by default, open the instruction which it identified as being the -hottest spot in the function: - -``` -0,76 │ movapd xmm2,xmm0 -0,38 │ movhlps xmm2,xmm0 - │ addpd xmm2,xmm0 - │ unpcklpd xmm1,xmm2 -12,50 │ sqrtpd xmm0,xmm1 -1,52 │ mulpd xmm0,xmm1 -``` - -In this case, `sqrtpd` will be highlighted in red, since that's the instruction -which the CPU spends most of its time executing. - -## Using Valgrind - -Valgrind is a set of tools which initially helped C/C++ programmers find unsafe -memory accesses in their code. Nowadays the project also has - -- a heap profiler called `massif` - -- a cache utilization profiler called `cachegrind` - -- a call-graph performance profiler called `callgrind` - -<!-- -TODO: explain valgrind's dynamic binary translation, warn about massive -slowdown, talk about `kcachegrind` for a GUI ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/prof/mca.md b/third_party/rust/packed_simd/perf-guide/src/prof/mca.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/prof/mca.md +++ /dev/null @@ -1,100 +0,0 @@ -# Machine code analysis tools - -## The microarchitecture of modern CPUs - -While you might have heard of Instruction Set Architectures, such as `x86` or -`arm` or `mips`, the term _microarchitecture_ (also written here as _µ-arch_), -refers to the internal details of an actual family of CPUs, such as Intel's -_Haswell_ or AMD's _Jaguar_. - -Replacing scalar code with SIMD code will improve performance on all CPUs -supporting the required vector extensions. -However, due to microarchitectural differences, the actual speed-up at -runtime might vary. - -**Example**: a simple example arises when optimizing for AMD K8 CPUs. -The assembly generated for an empty function should look like this: - -```asm -nop -ret -``` - -The `nop` is used to align the `ret` instruction for better performance. -However, the compiler will actually generated the following code: - -```asm -repz ret -``` - -The `repz` instruction will repeat the following instruction until a certain -condition. Of course, in this situation, the function will simply immediately -return, and the `ret` instruction is still aligned. -However, AMD K8's branch predictor performs better with the latter code. - -For those looking to absolutely maximize performance for a certain target µ-arch, -you will have to read some CPU manuals, or ask the compiler to do it for you -with `-C target-cpu`. - -### Summary of CPU internals - -Modern processors are able to execute instructions out-of-order for better performance, -by utilizing tricks such as [branch prediction], [instruction pipelining], -or [superscalar execution]. - -[branch prediction]: https://en.wikipedia.org/wiki/Branch_predictor -[instruction pipelining]: https://en.wikipedia.org/wiki/Instruction_pipelining -[superscalar execution]: https://en.wikipedia.org/wiki/Superscalar_processor - -SIMD instructions are also subject to these optimizations, meaning it can get pretty -difficult to determine where the slowdown happens. -For example, if the profiler reports a store operation is slow, one of two things -could be happening: - -- the store is limited by the CPU's memory bandwidth, which is actually an ideal - scenario, all things considered; - -- memory bandwidth is nowhere near its peak, but the value to be stored is at the - end of a long chain of operations, and this store is where the profiler - encountered the pipeline stall; - -Since most profilers are simple tools which don't understand the subtleties of -instruction scheduling, you - -## Analyzing the machine code - -Certain tools have knowledge of internal CPU microarchitecture, i.e. they know - -- how many physical [register files] a CPU actually has - -- what is the latency / throughtput of an instruction - -- what [µ-ops] are generated for a set of instructions - -and many other architectural details. - -[register files]: https://en.wikipedia.org/wiki/Register_file -[µ-ops]: https://en.wikipedia.org/wiki/Micro-operation - -These tools are therefore able to provide accurate information as to why some -instructions are inefficient, and where the bottleneck is. - -The disadvantage is that the output of these tools requires advanced knowledge -of the target architecture to understand, i.e. they **cannot** point out what -the cause of the issue is explicitly. - -## Intel's Architecture Code Analyzer (IACA) - -[IACA] is a free tool offered by Intel for analyzing the performance of various -computational kernels. - -Being a proprietary, closed source tool, it _only_ supports Intel's µ-arches. - -[IACA]: https://software.intel.com/en-us/articles/intel-architecture-code-analyzer - -## llvm-mca - -<!-- -TODO: once LLVM 7 gets released, write a chapter on using llvm-mca -with SIMD disassembly. ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/prof/profiling.md b/third_party/rust/packed_simd/perf-guide/src/prof/profiling.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/prof/profiling.md +++ /dev/null @@ -1,14 +0,0 @@ -# Performance profiling - -While the rest of the book provides practical advice on how to improve the performance -of SIMD code, this chapter is dedicated to [**performance profiling**][profiling]. -Profiling consists of recording a program's execution in order to identify program -hotspots. - -**Important**: most profilers require debug information in order to accurately -link the program hotspots back to the corresponding source code lines. Rust will -disable debug info generation by default for optimized builds, but you can change -that [in your `Cargo.toml`][cargo-ref]. - -[profiling]: https://en.wikipedia.org/wiki/Profiling_(computer_programming) -[cargo-ref]: https://doc.rust-lang.org/cargo/reference/manifest.html#the-profile-sections diff --git a/third_party/rust/packed_simd/perf-guide/src/target-feature/attribute.md b/third_party/rust/packed_simd/perf-guide/src/target-feature/attribute.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/target-feature/attribute.md +++ /dev/null @@ -1,5 +0,0 @@ -# The `target_feature` attribute - -<!-- TODO: -Explain the `#[target_feature]` attribute ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/target-feature/features.md b/third_party/rust/packed_simd/perf-guide/src/target-feature/features.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/target-feature/features.md +++ /dev/null @@ -1,13 +0,0 @@ -# Enabling target features - -Not all processors of a certain architecture will have SIMD processing units, -and using a SIMD instruction which is not supported will trigger undefined behavior. - -To allow building safe, portable programs, the Rust compiler will **not**, by default, -generate any sort of vector instructions, unless it can statically determine -they are supported. For example, on AMD64, SSE2 support is architecturally guaranteed. -The `x86_64-apple-darwin` target enables up to SSSE3. The get a defintive list of -which features are enabled by default on various platforms, refer to the target -specifications [in the compiler's source code][targets]. - -[targets]: https://github.com/rust-lang/rust/tree/master/src/librustc_target/spec diff --git a/third_party/rust/packed_simd/perf-guide/src/target-feature/inlining.md b/third_party/rust/packed_simd/perf-guide/src/target-feature/inlining.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/target-feature/inlining.md +++ /dev/null @@ -1,5 +0,0 @@ -# Inlining - -<!-- TODO: -Explain how the `#[target_feature]` attribute interacts with inlining ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/target-feature/practice.md b/third_party/rust/packed_simd/perf-guide/src/target-feature/practice.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/target-feature/practice.md +++ /dev/null @@ -1,31 +0,0 @@ -# Target features in practice - -Using `RUSTFLAGS` will allow the crate being compiled, as well as all its -transitive dependencies to use certain target features. - -A tehnique used to avoid undefined behavior at runtime is to compile and -ship multiple binaries, each compiled with a certain set of features. -This might not be feasible in some cases, and can quickly get out of hand -as more and more vector extensions are added to an architecture. - -Rust can be more flexible: you can build a single binary/library which automatically -picks the best supported vector instructions depending on the host machine. -The trick consists of monomorphizing parts of the code during building, and then -using run-time feature detection to select the right code path when running. - -<!-- TODO -Explain how to create efficient functions that dispatch to different -implementations at run-time without issues (e.g. using `#[inline(always)]` for -the impls, wrapping in `#[target_feature]`, and the wrapping those in a function -that does run-time feature detection). ---> - -**NOTE** (x86 specific): because the AVX (256-bit) registers extend the existing -SSE (128-bit) registers, mixing SSE and AVX instructions in a program can cause -performance issues. - -The solution is to compile all code, even the code written with 128-bit vectors, -with the AVX target feature enabled. This will cause the compiler to prefix the -generated instructions with the [VEX] prefix. - -[VEX]: https://en.wikipedia.org/wiki/VEX_prefix diff --git a/third_party/rust/packed_simd/perf-guide/src/target-feature/runtime.md b/third_party/rust/packed_simd/perf-guide/src/target-feature/runtime.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/target-feature/runtime.md +++ /dev/null @@ -1,5 +0,0 @@ -# Detecting host features at runtime - -<!-- TODO: -Explain cost (how it works). ---> diff --git a/third_party/rust/packed_simd/perf-guide/src/target-feature/rustflags.md b/third_party/rust/packed_simd/perf-guide/src/target-feature/rustflags.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/target-feature/rustflags.md +++ /dev/null @@ -1,77 +0,0 @@ -# Using RUSTFLAGS - -One of the easiest ways to benefit from SIMD is to allow the compiler -to generate code using certain vector instruction extensions. - -The environment variable `RUSTFLAGS` can be used to pass options for code -generation to the Rust compiler. These flags will affect **all** compiled crates. - -There are two flags which can be used to enable specific vector extensions: - -## target-feature - -- Syntax: `-C target-feature=<features>` - -- Provides the compiler with a comma-separated set of instruction extensions - to enable. - - **Example**: Use `-C target-feature=+sse3,+avx` to enable generating instructions - for [Streaming SIMD Extensions 3](https://en.wikipedia.org/wiki/SSE3) and - [Advanced Vector Extensions](https://en.wikipedia.org/wiki/Advanced_Vector_Extensions). - -- To list target triples for all targets supported by Rust, use: - - ```sh - rustc --print target-list - ``` - -- To list all support target features for a certain target triple, use: - - ```sh - rustc --target=${TRIPLE} --print target-features - ``` - -- Note that all CPU features are independent, and will have to be enabled individually. - - **Example**: Setting `-C target-feature=+avx2` will _not_ enable `fma`, even though - all CPUs which support AVX2 also support FMA. To enable both, one has to use - `-C target-feature=+avx2,+fma` - -- Some features also depend on other features, which need to be enabled for the - target instructions to be generated. - - **Example**: Unless `v7` is specified as the target CPU (see below), to enable - NEON on ARM it is necessary to use `-C target-feature=+v7,+neon`. - -## target-cpu - -- Syntax: `-C target-cpu=<cpu>` - -- Sets the identifier of a CPU family / model for which to build and optimize the code. - - **Example**: `RUSTFLAGS='-C target-cpu=cortex-a75'` - -- To list all supported target CPUs for a certain target triple, use: - - ```sh - rustc --target=${TRIPLE} --print target-cpus - ``` - - **Example**: - - ```sh - rustc --target=i686-pc-windows-msvc --print target-cpus - ``` - -- The compiler will translate this into a list of target features. Therefore, - individual feature checks (`#[cfg(target_feature = "...")]`) will still - work properly. - -- It will cause the code generator to optimize the generated code for that - specific CPU model. - -- Using `native` as the CPU model will cause Rust to generate and optimize code - for the CPU running the compiler. It is useful when building programs which you - plan to only use locally. This should never be used when the generated programs - are meant to be run on other computers, such as when packaging for distribution - or cross-compiling. diff --git a/third_party/rust/packed_simd/perf-guide/src/vert-hor-ops.md b/third_party/rust/packed_simd/perf-guide/src/vert-hor-ops.md deleted file mode 100644 --- a/third_party/rust/packed_simd/perf-guide/src/vert-hor-ops.md +++ /dev/null @@ -1,76 +0,0 @@ -# Vertical and horizontal operations - -In SIMD terminology, each vector has a certain "width" (number of lanes). -A vector processor is able to perform two kinds of operations on a vector: - -- Vertical operations: - operate on two vectors of the same width, result has same width - -**Example**: vertical addition of two `f32x4` vectors - - %0 == | 2 | -3.5 | 0 | 7 | - + + + + - %1 == | 4 | 1.5 | -1 | 0 | - = = = = - %0 + %1 == | 6 | -2 | -1 | 7 | - -- Horizontal operations: - reduce the elements of two vectors in some way, - the result's elements combine information from the two original ones - -**Example**: horizontal addition of two `u64x2` vectors - - %0 == | 1 | 3 | - └─+───┘ - └───────┐ - │ - %1 == | 4 | -1 | │ - └─+──┘ │ - └───┐ │ - │ │ - ┌─────│───┘ - ▼ ▼ - %0 + %1 == | 4 | 3 | - -## Performance consideration of horizontal operations - -The result of vertical operations, like vector negation: `-a`, for a given lane, -does not depend on the result of the operation for the other lanes. The result -of horizontal operations, like the vector `sum` reduction: `a.sum()`, depends on -the value of all vector lanes. - -In virtually all architectures vertical operations are fast, while horizontal -operations are, by comparison, very slow. - -Consider the following two functions for computing the sum of all `f32` values -in a slice: - -```rust -fn fast_sum(x: &[f32]) -> f32 { - assert!(x.len() % 4 == 0); - let mut sum = f32x4::splat(0.); // [0., 0., 0., 0.] - for i in (0..x.len()).step_by(4) { - sum += f32x4::from_slice_unaligned(&x[i..]); - } - sum.sum() -} - -fn slow_sum(x: &[f32]) -> f32 { - assert!(x.len() % 4 == 0); - let mut sum: f32 = 0.; - for i in (0..x.len()).step_by(4) { - sum += f32x4::from_slice_unaligned(&x[i..]).sum(); - } - sum -} -``` - -The inner loop over the slice is where the bulk of the work actually happens. -There, the `fast_sum` function perform vertical operations into a vector, doing -a single horizontal reduction at the end, while the `slow_sum` function performs -horizontal vector operations inside of the loop. - -On all widely-used architectures, `fast_sum` is a large constant factor faster -than `slow_sum`. You can run the [slice_sum]() example and see for yourself. On -the particular machine tested there the algorithm using the horizontal vector -addition is 2.7x slower than the one using vertical vector operations! diff --git a/third_party/rust/packed_simd/rustfmt.toml b/third_party/rust/packed_simd/rustfmt.toml deleted file mode 100644 --- a/third_party/rust/packed_simd/rustfmt.toml +++ /dev/null @@ -1,5 +0,0 @@ -max_width = 110 -use_small_heuristics = "Max" -wrap_comments = true -edition = "2018" -error_on_line_overflow = true \ No newline at end of file diff --git a/third_party/rust/packed_simd/src/api.rs b/third_party/rust/packed_simd/src/api.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api.rs +++ /dev/null @@ -1,308 +0,0 @@ -//! Implements the Simd<[T; N]> APIs - -#[macro_use] -mod bitmask; -pub(crate) mod cast; -#[macro_use] -mod cmp; -#[macro_use] -mod default; -#[macro_use] -mod fmt; -#[macro_use] -mod from; -#[macro_use] -mod hash; -#[macro_use] -mod math; -#[macro_use] -mod minimal; -#[macro_use] -mod ops; -#[macro_use] -mod ptr; -#[macro_use] -mod reductions; -#[macro_use] -mod select; -#[macro_use] -mod shuffle; -#[macro_use] -mod shuffle1_dyn; -#[macro_use] -mod slice; -#[macro_use] -mod swap_bytes; -#[macro_use] -mod bit_manip; - -#[cfg(feature = "into_bits")] -pub(crate) mod into_bits; - -macro_rules! impl_i { - ([$elem_ty:ident; $elem_n:expr]: $tuple_id:ident, $mask_ty:ident - | $ielem_ty:ident, $ibitmask_ty:ident | $test_tt:tt | $($elem_ids:ident),* - | From: $($from_vec_ty:ident),* | $(#[$doc:meta])*) => { - impl_minimal_iuf!([$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | $($elem_ids),* | $(#[$doc])*); - impl_ops_vector_arithmetic!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_scalar_arithmetic!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (!(0 as $elem_ty), 0) - ); - impl_ops_scalar_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (!(0 as $elem_ty), 0) - ); - impl_ops_vector_shifts!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_scalar_shifts!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_rotates!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_neg!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_int_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt - ); - impl_reduction_integer_arithmetic!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - ); - impl_reduction_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - ); - impl_reduction_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | (|x|{ x as $elem_ty }) | (!(0 as $elem_ty), 0) - ); - impl_fmt_debug!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_lower_hex!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_upper_hex!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_octal!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_binary!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_from_array!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (1, 1)); - impl_from_vectors!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | $($from_vec_ty),* - ); - impl_default!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_hash!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_slice_from_slice!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_slice_write_to_slice!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_swap_bytes!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_bit_manip!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_partial_eq!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (0, 1) - ); - impl_cmp_eq!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (0, 1)); - impl_cmp_vertical!( - [$elem_ty; $elem_n]: $tuple_id, $mask_ty, false, (1, 0) | $test_tt - ); - impl_cmp_partial_ord!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_ord!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (0, 1)); - impl_bitmask!($tuple_id | $ibitmask_ty | (-1, 0) | $test_tt); - - test_select!($elem_ty, $mask_ty, $tuple_id, (1, 2) | $test_tt); - test_cmp_partial_ord_int!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - test_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - } -} - -macro_rules! impl_u { - ([$elem_ty:ident; $elem_n:expr]: $tuple_id:ident, $mask_ty:ident - | $ielem_ty:ident, $ibitmask_ty:ident | $test_tt:tt | $($elem_ids:ident),* - | From: $($from_vec_ty:ident),* | $(#[$doc:meta])*) => { - impl_minimal_iuf!([$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | $($elem_ids),* | $(#[$doc])*); - impl_ops_vector_arithmetic!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_scalar_arithmetic!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (!(0 as $elem_ty), 0) - ); - impl_ops_scalar_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (!(0 as $elem_ty), 0) - ); - impl_ops_vector_shifts!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_scalar_shifts!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_rotates!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_int_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt - ); - impl_reduction_integer_arithmetic!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - ); - impl_reduction_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - ); - impl_reduction_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | (|x|{ x as $elem_ty }) | (!(0 as $elem_ty), 0) - ); - impl_fmt_debug!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_lower_hex!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_upper_hex!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_octal!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_binary!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_from_array!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (1, 1)); - impl_from_vectors!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | $($from_vec_ty),* - ); - impl_default!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_hash!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_slice_from_slice!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_slice_write_to_slice!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_swap_bytes!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_bit_manip!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_partial_eq!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (1, 0) - ); - impl_cmp_eq!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (0, 1)); - impl_cmp_vertical!( - [$elem_ty; $elem_n]: $tuple_id, $mask_ty, false, (1, 0) | $test_tt - ); - impl_cmp_partial_ord!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_ord!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (0, 1)); - impl_bitmask!($tuple_id | $ibitmask_ty | ($ielem_ty::max_value(), 0) | - $test_tt); - - test_select!($elem_ty, $mask_ty, $tuple_id, (1, 2) | $test_tt); - test_cmp_partial_ord_int!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - test_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - } -} - -macro_rules! impl_f { - ([$elem_ty:ident; $elem_n:expr]: $tuple_id:ident, $mask_ty:ident - | $ielem_ty:ident | $test_tt:tt | $($elem_ids:ident),* - | From: $($from_vec_ty:ident),* | $(#[$doc:meta])*) => { - impl_minimal_iuf!([$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | $($elem_ids),* | $(#[$doc])*); - impl_ops_vector_arithmetic!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_scalar_arithmetic!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_neg!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_ops_vector_float_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt - ); - impl_reduction_float_arithmetic!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_reduction_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - ); - impl_fmt_debug!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_from_array!([$elem_ty; $elem_n]: $tuple_id | $test_tt | (1., 1.)); - impl_from_vectors!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | $($from_vec_ty),* - ); - impl_default!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_partial_eq!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (1., 0.) - ); - impl_slice_from_slice!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_slice_write_to_slice!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - - impl_float_consts!([$elem_ty; $elem_n]: $tuple_id); - impl_float_category!([$elem_ty; $elem_n]: $tuple_id, $mask_ty); - - // floating-point math - impl_math_float_abs!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_cos!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_exp!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_ln!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_mul_add!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_mul_adde!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_powf!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_recpre!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_rsqrte!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_sin!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_sqrt!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_math_float_sqrte!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_vertical!( - [$elem_ty; $elem_n]: $tuple_id, $mask_ty, false, (1., 0.) - | $test_tt - ); - - test_select!($elem_ty, $mask_ty, $tuple_id, (1., 2.) | $test_tt); - test_reduction_float_min_max!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt - ); - test_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - } -} - -macro_rules! impl_m { - ([$elem_ty:ident; $elem_n:expr]: $tuple_id:ident - | $ielem_ty:ident, $ibitmask_ty:ident - | $test_tt:tt | $($elem_ids:ident),* | From: $($from_vec_ty:ident),* - | $(#[$doc:meta])*) => { - impl_minimal_mask!( - [$elem_ty; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | $($elem_ids),* | $(#[$doc])* - ); - impl_ops_vector_mask_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (true, false) - ); - impl_ops_scalar_mask_bitwise!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (true, false) - ); - impl_reduction_bitwise!( - [bool; $elem_n]: $tuple_id | $ielem_ty | $test_tt - | (|x|{ x != 0 }) | (true, false) - ); - impl_reduction_mask!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_fmt_debug!([bool; $elem_n]: $tuple_id | $test_tt); - impl_from_array!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt - | (crate::$elem_ty::new(true), true) - ); - impl_from_vectors!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | $($from_vec_ty),* - ); - impl_default!([bool; $elem_n]: $tuple_id | $test_tt); - impl_cmp_partial_eq!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (true, false) - ); - impl_cmp_eq!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (true, false) - ); - impl_cmp_vertical!( - [$elem_ty; $elem_n]: $tuple_id, $tuple_id, true, (true, false) - | $test_tt - ); - impl_select!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_partial_ord!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_cmp_ord!( - [$elem_ty; $elem_n]: $tuple_id | $test_tt | (false, true) - ); - impl_shuffle1_dyn!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - impl_bitmask!($tuple_id | $ibitmask_ty | (true, false) | $test_tt); - - test_cmp_partial_ord_mask!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - test_shuffle1_dyn_mask!([$elem_ty; $elem_n]: $tuple_id | $test_tt); - } -} - -macro_rules! impl_const_p { - ([$elem_ty:ty; $elem_n:expr]: $tuple_id:ident, $mask_ty:ident, - $usize_ty:ident, $isize_ty:ident - | $test_tt:tt | $($elem_ids:ident),* - | From: $($from_vec_ty:ident),* | $(#[$doc:meta])*) => { - impl_minimal_p!( - [$elem_ty; $elem_n]: $tuple_id, $mask_ty, $usize_ty, $isize_ty - | ref_ | $test_tt | $($elem_ids),* - | (1 as $elem_ty, 0 as $elem_ty) | $(#[$doc])* - ); - impl_ptr_read!([$elem_ty; $elem_n]: $tuple_id, $mask_ty | $test_tt); - } -} - -macro_rules! impl_mut_p { - ([$elem_ty:ty; $elem_n:expr]: $tuple_id:ident, $mask_ty:ident, - $usize_ty:ident, $isize_ty:ident - | $test_tt:tt | $($elem_ids:ident),* - | From: $($from_vec_ty:ident),* | $(#[$doc:meta])*) => { - impl_minimal_p!( - [$elem_ty; $elem_n]: $tuple_id, $mask_ty, $usize_ty, $isize_ty - | ref_mut_ | $test_tt | $($elem_ids),* - | (1 as $elem_ty, 0 as $elem_ty) | $(#[$doc])* - ); - impl_ptr_read!([$elem_ty; $elem_n]: $tuple_id, $mask_ty | $test_tt); - impl_ptr_write!([$elem_ty; $elem_n]: $tuple_id, $mask_ty | $test_tt); - } -} diff --git a/third_party/rust/packed_simd/src/api/bit_manip.rs b/third_party/rust/packed_simd/src/api/bit_manip.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/bit_manip.rs +++ /dev/null @@ -1,129 +0,0 @@ -//! Bit manipulations. - -macro_rules! impl_bit_manip { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Returns the number of ones in the binary representation of - /// the lanes of `self`. - #[inline] - pub fn count_ones(self) -> Self { - super::codegen::bit_manip::BitManip::ctpop(self) - } - - /// Returns the number of zeros in the binary representation of - /// the lanes of `self`. - #[inline] - pub fn count_zeros(self) -> Self { - super::codegen::bit_manip::BitManip::ctpop(!self) - } - - /// Returns the number of leading zeros in the binary - /// representation of the lanes of `self`. - #[inline] - pub fn leading_zeros(self) -> Self { - super::codegen::bit_manip::BitManip::ctlz(self) - } - - /// Returns the number of trailing zeros in the binary - /// representation of the lanes of `self`. - #[inline] - pub fn trailing_zeros(self) -> Self { - super::codegen::bit_manip::BitManip::cttz(self) - } - } - - test_if! { - $test_tt: - paste::item! { - #[allow(overflowing_literals)] - pub mod [<$id _bit_manip>] { - #![allow(const_item_mutation)] - use super::*; - - const LANE_WIDTH: usize = mem::size_of::<$elem_ty>() * 8; - - macro_rules! test_func { - ($x:expr, $func:ident) => {{ - let mut actual = $x; - for i in 0..$id::lanes() { - actual = actual.replace( - i, - $x.extract(i).$func() as $elem_ty - ); - } - let expected = $x.$func(); - assert_eq!(actual, expected); - }}; - } - - const BYTES: [u8; 64] = [ - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - 16, 17, 18, 19, 20, 21, 22, 23, - 24, 25, 26, 27, 28, 29, 30, 31, - 32, 33, 34, 35, 36, 37, 38, 39, - 40, 41, 42, 43, 44, 45, 46, 47, - 48, 49, 50, 51, 52, 53, 54, 55, - 56, 57, 58, 59, 60, 61, 62, 63, - ]; - - fn load_bytes() -> $id { - let elems: &mut [$elem_ty] = unsafe { - slice::from_raw_parts_mut( - BYTES.as_mut_ptr() as *mut $elem_ty, - $id::lanes(), - ) - }; - $id::from_slice_unaligned(elems) - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn count_ones() { - test_func!($id::splat(0), count_ones); - test_func!($id::splat(!0), count_ones); - test_func!(load_bytes(), count_ones); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn count_zeros() { - test_func!($id::splat(0), count_zeros); - test_func!($id::splat(!0), count_zeros); - test_func!(load_bytes(), count_zeros); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn leading_zeros() { - test_func!($id::splat(0), leading_zeros); - test_func!($id::splat(1), leading_zeros); - // some implementations use `pshufb` which has unique - // behavior when the 8th bit is set. - test_func!($id::splat(0b1000_0010), leading_zeros); - test_func!($id::splat(!0), leading_zeros); - test_func!( - $id::splat(1 << (LANE_WIDTH - 1)), - leading_zeros - ); - test_func!(load_bytes(), leading_zeros); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn trailing_zeros() { - test_func!($id::splat(0), trailing_zeros); - test_func!($id::splat(1), trailing_zeros); - test_func!($id::splat(0b1000_0010), trailing_zeros); - test_func!($id::splat(!0), trailing_zeros); - test_func!( - $id::splat(1 << (LANE_WIDTH - 1)), - trailing_zeros - ); - test_func!(load_bytes(), trailing_zeros); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/bitmask.rs b/third_party/rust/packed_simd/src/api/bitmask.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/bitmask.rs +++ /dev/null @@ -1,79 +0,0 @@ -//! Bitmask API - -macro_rules! impl_bitmask { - ($id:ident | $ibitmask_ty:ident | ($set:expr, $clear:expr) - | $test_tt:tt) => { - impl $id { - /// Creates a bitmask with the MSB of each vector lane. - /// - /// If the vector has less than 8 lanes, the bits that do not - /// correspond to any vector lanes are cleared. - #[inline] - pub fn bitmask(self) -> $ibitmask_ty { - unsafe { codegen::llvm::simd_bitmask(self.0) } - } - } - - test_if! { - $test_tt: - paste::item! { - #[cfg(not( - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/210 - target_endian = "big" - ))] - pub mod [<$id _bitmask>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn bitmask() { - // clear all lanes - let vec = $id::splat($clear as _); - let bitmask: $ibitmask_ty = 0; - assert_eq!(vec.bitmask(), bitmask); - - // set even lanes - let mut vec = $id::splat($clear as _); - for i in 0..$id::lanes() { - if i % 2 == 0 { - vec = vec.replace(i, $set as _); - } - } - // create bitmask with even lanes set: - let mut bitmask: $ibitmask_ty = 0; - for i in 0..$id::lanes() { - if i % 2 == 0 { - bitmask |= 1 << i; - } - } - assert_eq!(vec.bitmask(), bitmask); - - - // set odd lanes - let mut vec = $id::splat($clear as _); - for i in 0..$id::lanes() { - if i % 2 != 0 { - vec = vec.replace(i, $set as _); - } - } - // create bitmask with odd lanes set: - let mut bitmask: $ibitmask_ty = 0; - for i in 0..$id::lanes() { - if i % 2 != 0 { - bitmask |= 1 << i; - } - } - assert_eq!(vec.bitmask(), bitmask); - - // set all lanes - let vec = $id::splat($set as _); - let mut bitmask: $ibitmask_ty = 0; - for i in 0..$id::lanes() { - bitmask |= 1 << i; - } - assert_eq!(vec.bitmask(), bitmask); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/cast.rs b/third_party/rust/packed_simd/src/api/cast.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast.rs +++ /dev/null @@ -1,108 +0,0 @@ -//! Implementation of `FromCast` and `IntoCast`. -#![allow(clippy::module_name_repetitions)] - -/// Numeric cast from `T` to `Self`. -/// -/// > Note: This is a temporary workaround until the conversion traits -/// specified > in [RFC2484] are implemented. -/// -/// Numeric cast between vectors with the same number of lanes, such that: -/// -/// * casting integer vectors whose lane types have the same size (e.g. `i32xN` -/// -> `u32xN`) is a **no-op**, -/// -/// * casting from a larger integer to a smaller integer (e.g. `u32xN` -> -/// `u8xN`) will **truncate**, -/// -/// * casting from a smaller integer to a larger integer (e.g. `u8xN` -> -/// `u32xN`) will: -/// * **zero-extend** if the source is unsigned, or -/// * **sign-extend** if the source is signed, -/// -/// * casting from a float to an integer will **round the float towards zero**, -/// -/// * casting from an integer to float will produce the floating point -/// representation of the integer, **rounding to nearest, ties to even**, -/// -/// * casting from an `f32` to an `f64` is perfect and lossless, -/// -/// * casting from an `f64` to an `f32` **rounds to nearest, ties to even**. -/// -/// [RFC2484]: https://github.com/rust-lang/rfcs/pull/2484 -pub trait FromCast<T>: crate::marker::Sized { - /// Numeric cast from `T` to `Self`. - fn from_cast(_: T) -> Self; -} - -/// Numeric cast from `Self` to `T`. -/// -/// > Note: This is a temporary workaround until the conversion traits -/// specified > in [RFC2484] are implemented. -/// -/// Numeric cast between vectors with the same number of lanes, such that: -/// -/// * casting integer vectors whose lane types have the same size (e.g. `i32xN` -/// -> `u32xN`) is a **no-op**, -/// -/// * casting from a larger integer to a smaller integer (e.g. `u32xN` -> -/// `u8xN`) will **truncate**, -/// -/// * casting from a smaller integer to a larger integer (e.g. `u8xN` -> -/// `u32xN`) will: -/// * **zero-extend** if the source is unsigned, or -/// * **sign-extend** if the source is signed, -/// -/// * casting from a float to an integer will **round the float towards zero**, -/// -/// * casting from an integer to float will produce the floating point -/// representation of the integer, **rounding to nearest, ties to even**, -/// -/// * casting from an `f32` to an `f64` is perfect and lossless, -/// -/// * casting from an `f64` to an `f32` **rounds to nearest, ties to even**. -/// -/// [RFC2484]: https://github.com/rust-lang/rfcs/pull/2484 -pub trait Cast<T>: crate::marker::Sized { - /// Numeric cast from `self` to `T`. - fn cast(self) -> T; -} - -/// `FromCast` implies `Cast`. -impl<T, U> Cast<U> for T -where - U: FromCast<T>, -{ - #[inline] - fn cast(self) -> U { - U::from_cast(self) - } -} - -/// `FromCast` and `Cast` are reflexive -impl<T> FromCast<T> for T { - #[inline] - fn from_cast(t: Self) -> Self { - t - } -} - -#[macro_use] -mod macros; - -mod v16; -pub use self::v16::*; - -mod v32; -pub use self::v32::*; - -mod v64; -pub use self::v64::*; - -mod v128; -pub use self::v128::*; - -mod v256; -pub use self::v256::*; - -mod v512; -pub use self::v512::*; diff --git a/third_party/rust/packed_simd/src/api/cast/macros.rs b/third_party/rust/packed_simd/src/api/cast/macros.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/macros.rs +++ /dev/null @@ -1,82 +0,0 @@ -//! Macros implementing `FromCast` - -macro_rules! impl_from_cast_ { - ($id:ident[$test_tt:tt]: $from_ty:ident) => { - impl crate::api::cast::FromCast<$from_ty> for $id { - #[inline] - fn from_cast(x: $from_ty) -> Self { - use crate::llvm::simd_cast; - debug_assert_eq!($from_ty::lanes(), $id::lanes()); - Simd(unsafe { simd_cast(x.0) }) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _from_cast_ $from_ty>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn test() { - assert_eq!($id::lanes(), $from_ty::lanes()); - } - } - } - } - }; -} - -macro_rules! impl_from_cast { - ($id:ident[$test_tt:tt]: $($from_ty:ident),*) => { - $( - impl_from_cast_!($id[$test_tt]: $from_ty); - )* - } -} - -macro_rules! impl_from_cast_mask_ { - ($id:ident[$test_tt:tt]: $from_ty:ident) => { - impl crate::api::cast::FromCast<$from_ty> for $id { - #[inline] - fn from_cast(x: $from_ty) -> Self { - debug_assert_eq!($from_ty::lanes(), $id::lanes()); - x.ne($from_ty::default()) - .select($id::splat(true), $id::splat(false)) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _from_cast_ $from_ty>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn test() { - assert_eq!($id::lanes(), $from_ty::lanes()); - - let x = $from_ty::default(); - let m: $id = x.cast(); - assert!(m.none()); - } - } - } - } - }; -} - -macro_rules! impl_from_cast_mask { - ($id:ident[$test_tt:tt]: $($from_ty:ident),*) => { - $( - impl_from_cast_mask_!($id[$test_tt]: $from_ty); - )* - } -} - -#[allow(unused)] -macro_rules! impl_into_cast { - ($id:ident[$test_tt:tt]: $($from_ty:ident),*) => { - $( - impl_from_cast_!($from_ty[$test_tt]: $id); - )* - } -} diff --git a/third_party/rust/packed_simd/src/api/cast/v128.rs b/third_party/rust/packed_simd/src/api/cast/v128.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/v128.rs +++ /dev/null @@ -1,302 +0,0 @@ -//! `FromCast` and `IntoCast` implementations for portable 128-bit wide vectors -#[rustfmt::skip] - -use crate::*; - -impl_from_cast!(i8x16[test_v128]: u8x16, m8x16, i16x16, u16x16, m16x16, i32x16, u32x16, f32x16, m32x16); -impl_from_cast!(u8x16[test_v128]: i8x16, m8x16, i16x16, u16x16, m16x16, i32x16, u32x16, f32x16, m32x16); -impl_from_cast_mask!(m8x16[test_v128]: i8x16, u8x16, i16x16, u16x16, m16x16, i32x16, u32x16, f32x16, m32x16); - -impl_from_cast!( - i16x8[test_v128]: i8x8, - u8x8, - m8x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast!( - u16x8[test_v128]: i8x8, - u8x8, - m8x8, - i16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast_mask!( - m16x8[test_v128]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); - -impl_from_cast!( - i32x4[test_v128]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - u32x4[test_v128]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - f32x4[test_v128]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast_mask!( - m32x4[test_v128]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); - -impl_from_cast!( - i64x2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - u64x2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - f64x2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast_mask!( - m64x2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); - -impl_from_cast!( - isizex2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - usizex2, - msizex2 -); -impl_from_cast!( - usizex2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - msizex2 -); -impl_from_cast_mask!( - msizex2[test_v128]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2 -); - -// FIXME[test_v128]: 64-bit single element vectors into_cast impls -impl_from_cast!(i128x1[test_v128]: u128x1, m128x1); -impl_from_cast!(u128x1[test_v128]: i128x1, m128x1); -impl_from_cast!(m128x1[test_v128]: i128x1, u128x1); diff --git a/third_party/rust/packed_simd/src/api/cast/v16.rs b/third_party/rust/packed_simd/src/api/cast/v16.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/v16.rs +++ /dev/null @@ -1,68 +0,0 @@ -//! `FromCast` and `IntoCast` implementations for portable 16-bit wide vectors -#[rustfmt::skip] - -use crate::*; - -impl_from_cast!( - i8x2[test_v16]: u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - u8x2[test_v16]: i8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast_mask!( - m8x2[test_v16]: i8x2, - u8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); diff --git a/third_party/rust/packed_simd/src/api/cast/v256.rs b/third_party/rust/packed_simd/src/api/cast/v256.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/v256.rs +++ /dev/null @@ -1,298 +0,0 @@ -//! `FromCast` and `IntoCast` implementations for portable 256-bit wide vectors -#[rustfmt::skip] - -use crate::*; - -impl_from_cast!(i8x32[test_v256]: u8x32, m8x32, i16x32, u16x32, m16x32); -impl_from_cast!(u8x32[test_v256]: i8x32, m8x32, i16x32, u16x32, m16x32); -impl_from_cast_mask!(m8x32[test_v256]: i8x32, u8x32, i16x32, u16x32, m16x32); - -impl_from_cast!(i16x16[test_v256]: i8x16, u8x16, m8x16, u16x16, m16x16, i32x16, u32x16, f32x16, m32x16); -impl_from_cast!(u16x16[test_v256]: i8x16, u8x16, m8x16, i16x16, m16x16, i32x16, u32x16, f32x16, m32x16); -impl_from_cast_mask!(m16x16[test_v256]: i8x16, u8x16, m8x16, i16x16, u16x16, i32x16, u32x16, f32x16, m32x16); - -impl_from_cast!( - i32x8[test_v256]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast!( - u32x8[test_v256]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast!( - f32x8[test_v256]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast_mask!( - m32x8[test_v256]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); - -impl_from_cast!( - i64x4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - u64x4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - f64x4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast_mask!( - m64x4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); - -impl_from_cast!( - i128x2[test_v256]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - u128x2[test_v256]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast_mask!( - m128x2[test_v256]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - m64x2, - f64x2, - i128x2, - u128x2, - isizex2, - usizex2, - msizex2 -); - -impl_from_cast!( - isizex4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - usizex4, - msizex4 -); -impl_from_cast!( - usizex4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - msizex4 -); -impl_from_cast_mask!( - msizex4[test_v256]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4 -); diff --git a/third_party/rust/packed_simd/src/api/cast/v32.rs b/third_party/rust/packed_simd/src/api/cast/v32.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/v32.rs +++ /dev/null @@ -1,132 +0,0 @@ -//! `FromCast` and `IntoCast` implementations for portable 32-bit wide vectors -#[rustfmt::skip] - -use crate::*; - -impl_from_cast!( - i8x4[test_v32]: u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - u8x4[test_v32]: i8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast_mask!( - m8x4[test_v32]: i8x4, - u8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); - -impl_from_cast!( - i16x2[test_v32]: i8x2, - u8x2, - m8x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - u16x2[test_v32]: i8x2, - u8x2, - m8x2, - i16x2, - m16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast_mask!( - m16x2[test_v32]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - i32x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); diff --git a/third_party/rust/packed_simd/src/api/cast/v512.rs b/third_party/rust/packed_simd/src/api/cast/v512.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/v512.rs +++ /dev/null @@ -1,209 +0,0 @@ -//! `FromCast` and `IntoCast` implementations for portable 512-bit wide vectors -#[rustfmt::skip] - -use crate::*; - -impl_from_cast!(i8x64[test_v512]: u8x64, m8x64); -impl_from_cast!(u8x64[test_v512]: i8x64, m8x64); -impl_from_cast_mask!(m8x64[test_v512]: i8x64, u8x64); - -impl_from_cast!(i16x32[test_v512]: i8x32, u8x32, m8x32, u16x32, m16x32); -impl_from_cast!(u16x32[test_v512]: i8x32, u8x32, m8x32, i16x32, m16x32); -impl_from_cast_mask!(m16x32[test_v512]: i8x32, u8x32, m8x32, i16x32, u16x32); - -impl_from_cast!(i32x16[test_v512]: i8x16, u8x16, m8x16, i16x16, u16x16, m16x16, u32x16, f32x16, m32x16); -impl_from_cast!(u32x16[test_v512]: i8x16, u8x16, m8x16, i16x16, u16x16, m16x16, i32x16, f32x16, m32x16); -impl_from_cast!(f32x16[test_v512]: i8x16, u8x16, m8x16, i16x16, u16x16, m16x16, i32x16, u32x16, m32x16); -impl_from_cast_mask!(m32x16[test_v512]: i8x16, u8x16, m8x16, i16x16, u16x16, m16x16, i32x16, u32x16, f32x16); - -impl_from_cast!( - i64x8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast!( - u64x8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast!( - f64x8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast_mask!( - m64x8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - isizex8, - usizex8, - msizex8 -); - -impl_from_cast!( - i128x4[test_v512]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - u128x4[test_v512]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast_mask!( - m128x4[test_v512]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - m64x4, - f64x4, - i128x4, - u128x4, - isizex4, - usizex4, - msizex4 -); - -impl_from_cast!( - isizex8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - usizex8, - msizex8 -); -impl_from_cast!( - usizex8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - msizex8 -); -impl_from_cast_mask!( - msizex8[test_v512]: i8x8, - u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8 -); diff --git a/third_party/rust/packed_simd/src/api/cast/v64.rs b/third_party/rust/packed_simd/src/api/cast/v64.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cast/v64.rs +++ /dev/null @@ -1,208 +0,0 @@ -//! `FromCast` and `IntoCast` implementations for portable 64-bit wide vectors -#[rustfmt::skip] - -use crate::*; - -impl_from_cast!( - i8x8[test_v64]: u8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast!( - u8x8[test_v64]: i8x8, - m8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); -impl_from_cast_mask!( - m8x8[test_v64]: i8x8, - u8x8, - i16x8, - u16x8, - m16x8, - i32x8, - u32x8, - f32x8, - m32x8, - i64x8, - u64x8, - f64x8, - m64x8, - isizex8, - usizex8, - msizex8 -); - -impl_from_cast!( - i16x4[test_v64]: i8x4, - u8x4, - m8x4, - u16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast!( - u16x4[test_v64]: i8x4, - u8x4, - m8x4, - i16x4, - m16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); -impl_from_cast_mask!( - m16x4[test_v64]: i8x4, - u8x4, - m8x4, - i16x4, - u16x4, - i32x4, - u32x4, - f32x4, - m32x4, - i64x4, - u64x4, - f64x4, - m64x4, - i128x4, - u128x4, - m128x4, - isizex4, - usizex4, - msizex4 -); - -impl_from_cast!( - i32x2[test_v64]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - u32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - u32x2[test_v64]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - f32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast!( - f32x2[test_v64]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - m32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); -impl_from_cast_mask!( - m32x2[test_v64]: i8x2, - u8x2, - m8x2, - i16x2, - u16x2, - m16x2, - i32x2, - u32x2, - f32x2, - i64x2, - u64x2, - f64x2, - m64x2, - i128x2, - u128x2, - m128x2, - isizex2, - usizex2, - msizex2 -); diff --git a/third_party/rust/packed_simd/src/api/cmp.rs b/third_party/rust/packed_simd/src/api/cmp.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cmp.rs +++ /dev/null @@ -1,16 +0,0 @@ -//! Implement cmp traits for vector types - -#[macro_use] -mod partial_eq; - -#[macro_use] -mod eq; - -#[macro_use] -mod partial_ord; - -#[macro_use] -mod ord; - -#[macro_use] -mod vertical; diff --git a/third_party/rust/packed_simd/src/api/cmp/eq.rs b/third_party/rust/packed_simd/src/api/cmp/eq.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cmp/eq.rs +++ /dev/null @@ -1,27 +0,0 @@ -//! Implements `Eq` for vector types. - -macro_rules! impl_cmp_eq { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - impl crate::cmp::Eq for $id {} - impl crate::cmp::Eq for LexicographicallyOrdered<$id> {} - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_eq>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn eq() { - fn foo<E: crate::cmp::Eq>(_: E) {} - let a = $id::splat($false); - foo(a); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/cmp/ord.rs b/third_party/rust/packed_simd/src/api/cmp/ord.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cmp/ord.rs +++ /dev/null @@ -1,43 +0,0 @@ -//! Implements `Ord` for vector types. - -macro_rules! impl_cmp_ord { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - impl $id { - /// Returns a wrapper that implements `Ord`. - #[inline] - pub fn lex_ord(&self) -> LexicographicallyOrdered<$id> { - LexicographicallyOrdered(*self) - } - } - - impl crate::cmp::Ord for LexicographicallyOrdered<$id> { - #[inline] - fn cmp(&self, other: &Self) -> crate::cmp::Ordering { - match self.partial_cmp(other) { - Some(x) => x, - None => unsafe { crate::hint::unreachable_unchecked() }, - } - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_ord>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn eq() { - fn foo<E: crate::cmp::Ord>(_: E) {} - let a = $id::splat($false); - foo(a.partial_lex_ord()); - foo(a.lex_ord()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/cmp/partial_eq.rs b/third_party/rust/packed_simd/src/api/cmp/partial_eq.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cmp/partial_eq.rs +++ /dev/null @@ -1,65 +0,0 @@ -//! Implements `PartialEq` for vector types. - -macro_rules! impl_cmp_partial_eq { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - // FIXME: https://github.com/rust-lang-nursery/rust-clippy/issues/2892 - #[allow(clippy::partialeq_ne_impl)] - impl crate::cmp::PartialEq<$id> for $id { - #[inline] - fn eq(&self, other: &Self) -> bool { - $id::eq(*self, *other).all() - } - #[inline] - fn ne(&self, other: &Self) -> bool { - $id::ne(*self, *other).any() - } - } - - // FIXME: https://github.com/rust-lang-nursery/rust-clippy/issues/2892 - #[allow(clippy::partialeq_ne_impl)] - impl crate::cmp::PartialEq<LexicographicallyOrdered<$id>> for LexicographicallyOrdered<$id> { - #[inline] - fn eq(&self, other: &Self) -> bool { - self.0 == other.0 - } - #[inline] - fn ne(&self, other: &Self) -> bool { - self.0 != other.0 - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _cmp_PartialEq>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn partial_eq() { - let a = $id::splat($false); - let b = $id::splat($true); - - assert!(a != b); - assert!(!(a == b)); - assert!(a == a); - assert!(!(a != a)); - - if $id::lanes() > 1 { - let a = $id::splat($false).replace(0, $true); - let b = $id::splat($true); - - assert!(a != b); - assert!(!(a == b)); - assert!(a == a); - assert!(!(a != a)); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/cmp/partial_ord.rs b/third_party/rust/packed_simd/src/api/cmp/partial_ord.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cmp/partial_ord.rs +++ /dev/null @@ -1,230 +0,0 @@ -//! Implements `PartialOrd` for vector types. -//! -//! This implements a lexicographical order. - -macro_rules! impl_cmp_partial_ord { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Returns a wrapper that implements `PartialOrd`. - #[inline] - pub fn partial_lex_ord(&self) -> LexicographicallyOrdered<$id> { - LexicographicallyOrdered(*self) - } - } - - impl crate::cmp::PartialOrd<LexicographicallyOrdered<$id>> for LexicographicallyOrdered<$id> { - #[inline] - fn partial_cmp(&self, other: &Self) -> Option<crate::cmp::Ordering> { - if PartialEq::eq(self, other) { - Some(crate::cmp::Ordering::Equal) - } else if PartialOrd::lt(self, other) { - Some(crate::cmp::Ordering::Less) - } else if PartialOrd::gt(self, other) { - Some(crate::cmp::Ordering::Greater) - } else { - None - } - } - #[inline] - fn lt(&self, other: &Self) -> bool { - let m_lt = self.0.lt(other.0); - let m_eq = self.0.eq(other.0); - for i in 0..$id::lanes() { - if m_eq.extract(i) { - continue; - } - return m_lt.extract(i); - } - false - } - #[inline] - fn le(&self, other: &Self) -> bool { - self.lt(other) | PartialEq::eq(self, other) - } - #[inline] - fn ge(&self, other: &Self) -> bool { - self.gt(other) | PartialEq::eq(self, other) - } - #[inline] - fn gt(&self, other: &Self) -> bool { - let m_gt = self.0.gt(other.0); - let m_eq = self.0.eq(other.0); - for i in 0..$id::lanes() { - if m_eq.extract(i) { - continue; - } - return m_gt.extract(i); - } - false - } - } - }; -} - -macro_rules! test_cmp_partial_ord_int { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_PartialOrd>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn partial_lex_ord() { - use crate::testing::utils::{test_cmp}; - // constant values - let a = $id::splat(0); - let b = $id::splat(1); - - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - - // variable values: a = [0, 1, 2, 3]; b = [3, 2, 1, 0] - let mut a = $id::splat(0); - let mut b = $id::splat(0); - for i in 0..$id::lanes() { - a = a.replace(i, i as $elem_ty); - b = b.replace(i, ($id::lanes() - i) as $elem_ty); - } - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - - // variable values: a = [0, 1, 2, 3]; b = [0, 1, 2, 4] - let mut b = a; - b = b.replace( - $id::lanes() - 1, - a.extract($id::lanes() - 1) + 1 as $elem_ty - ); - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - - if $id::lanes() > 2 { - // variable values a = [0, 1, 0, 0]; b = [0, 1, 2, 3] - let b = a; - let mut a = $id::splat(0); - a = a.replace(1, 1 as $elem_ty); - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - - // variable values: a = [0, 1, 2, 3]; b = [0, 1, 3, 2] - let mut b = a; - b = b.replace( - 2, a.extract($id::lanes() - 1) + 1 as $elem_ty - ); - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(crate::cmp::Ordering::Equal)); - } - } - } - } - } - }; -} - -macro_rules! test_cmp_partial_ord_mask { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_PartialOrd>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn partial_lex_ord() { - use crate::testing::utils::{test_cmp}; - use crate::cmp::Ordering; - - // constant values - let a = $id::splat(false); - let b = $id::splat(true); - - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Equal)); - - // variable values: - // a = [false, false, false, false]; - // b = [false, false, false, true] - let a = $id::splat(false); - let mut b = $id::splat(false); - b = b.replace($id::lanes() - 1, true); - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Equal)); - - // variable values: - // a = [true, true, true, false]; - // b = [true, true, true, true] - let mut a = $id::splat(true); - let b = $id::splat(true); - a = a.replace($id::lanes() - 1, false); - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Equal)); - - if $id::lanes() > 2 { - // variable values - // a = [false, true, false, false]; - // b = [false, true, true, true] - let mut a = $id::splat(false); - let mut b = $id::splat(true); - a = a.replace(1, true); - b = b.replace(0, false); - test_cmp(a.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Less)); - test_cmp(b.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Greater)); - test_cmp(a.partial_lex_ord(), a.partial_lex_ord(), - Some(Ordering::Equal)); - test_cmp(b.partial_lex_ord(), b.partial_lex_ord(), - Some(Ordering::Equal)); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/cmp/vertical.rs b/third_party/rust/packed_simd/src/api/cmp/vertical.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/cmp/vertical.rs +++ /dev/null @@ -1,114 +0,0 @@ -//! Vertical (lane-wise) vector comparisons returning vector masks. - -macro_rules! impl_cmp_vertical { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident, - $mask_ty:ident, - $is_mask:expr,($true:expr, $false:expr) | $test_tt:tt - ) => { - impl $id { - /// Lane-wise equality comparison. - #[inline] - pub fn eq(self, other: Self) -> $mask_ty { - use crate::llvm::simd_eq; - Simd(unsafe { simd_eq(self.0, other.0) }) - } - - /// Lane-wise inequality comparison. - #[inline] - pub fn ne(self, other: Self) -> $mask_ty { - use crate::llvm::simd_ne; - Simd(unsafe { simd_ne(self.0, other.0) }) - } - - /// Lane-wise less-than comparison. - #[inline] - pub fn lt(self, other: Self) -> $mask_ty { - use crate::llvm::{simd_gt, simd_lt}; - if $is_mask { - Simd(unsafe { simd_gt(self.0, other.0) }) - } else { - Simd(unsafe { simd_lt(self.0, other.0) }) - } - } - - /// Lane-wise less-than-or-equals comparison. - #[inline] - pub fn le(self, other: Self) -> $mask_ty { - use crate::llvm::{simd_ge, simd_le}; - if $is_mask { - Simd(unsafe { simd_ge(self.0, other.0) }) - } else { - Simd(unsafe { simd_le(self.0, other.0) }) - } - } - - /// Lane-wise greater-than comparison. - #[inline] - pub fn gt(self, other: Self) -> $mask_ty { - use crate::llvm::{simd_gt, simd_lt}; - if $is_mask { - Simd(unsafe { simd_lt(self.0, other.0) }) - } else { - Simd(unsafe { simd_gt(self.0, other.0) }) - } - } - - /// Lane-wise greater-than-or-equals comparison. - #[inline] - pub fn ge(self, other: Self) -> $mask_ty { - use crate::llvm::{simd_ge, simd_le}; - if $is_mask { - Simd(unsafe { simd_le(self.0, other.0) }) - } else { - Simd(unsafe { simd_ge(self.0, other.0) }) - } - } - } - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_vertical>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn cmp() { - let a = $id::splat($false); - let b = $id::splat($true); - - let r = a.lt(b); - let e = $mask_ty::splat(true); - assert!(r == e); - let r = a.le(b); - assert!(r == e); - - let e = $mask_ty::splat(false); - let r = a.gt(b); - assert!(r == e); - let r = a.ge(b); - assert!(r == e); - let r = a.eq(b); - assert!(r == e); - - let mut a = a; - let mut b = b; - let mut e = e; - for i in 0..$id::lanes() { - if i % 2 == 0 { - a = a.replace(i, $false); - b = b.replace(i, $true); - e = e.replace(i, true); - } else { - a = a.replace(i, $true); - b = b.replace(i, $false); - e = e.replace(i, false); - } - } - let r = a.lt(b); - assert!(r == e); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/default.rs b/third_party/rust/packed_simd/src/api/default.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/default.rs +++ /dev/null @@ -1,30 +0,0 @@ -//! Implements `Default` for vector types. - -macro_rules! impl_default { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl Default for $id { - #[inline] - fn default() -> Self { - Self::splat($elem_ty::default()) - } - } - - test_if!{ - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _default>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn default() { - let a = $id::default(); - for i in 0..$id::lanes() { - assert_eq!(a.extract(i), $elem_ty::default()); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/fmt.rs b/third_party/rust/packed_simd/src/api/fmt.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/fmt.rs +++ /dev/null @@ -1,12 +0,0 @@ -//! Implements formatting APIs - -#[macro_use] -mod debug; -#[macro_use] -mod lower_hex; -#[macro_use] -mod upper_hex; -#[macro_use] -mod octal; -#[macro_use] -mod binary; diff --git a/third_party/rust/packed_simd/src/api/fmt/binary.rs b/third_party/rust/packed_simd/src/api/fmt/binary.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/fmt/binary.rs +++ /dev/null @@ -1,54 +0,0 @@ -//! Implement Octal formatting - -macro_rules! impl_fmt_binary { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::fmt::Binary for $id { - #[allow(clippy::missing_inline_in_public_items)] - fn fmt(&self, f: &mut crate::fmt::Formatter<'_>) -> crate::fmt::Result { - write!(f, "{}(", stringify!($id))?; - for i in 0..$elem_count { - if i > 0 { - write!(f, ", ")?; - } - self.extract(i).fmt(f)?; - } - write!(f, ")") - } - } - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _fmt_binary>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn binary() { - use arrayvec::{ArrayString,ArrayVec}; - type TinyString = ArrayString<[u8; 512]>; - - use crate::fmt::Write; - let v = $id::splat($elem_ty::default()); - let mut s = TinyString::new(); - write!(&mut s, "{:#b}", v).unwrap(); - - let mut beg = TinyString::new(); - write!(&mut beg, "{}(", stringify!($id)).unwrap(); - assert!(s.starts_with(beg.as_str())); - assert!(s.ends_with(")")); - let s: ArrayVec<[TinyString; 64]> - = s.replace(beg.as_str(), "") - .replace(")", "").split(",") - .map(|v| TinyString::from(v.trim()).unwrap()) - .collect(); - assert_eq!(s.len(), $id::lanes()); - for (index, ss) in s.into_iter().enumerate() { - let mut e = TinyString::new(); - write!(&mut e, "{:#b}", v.extract(index)).unwrap(); - assert_eq!(ss, e); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/fmt/debug.rs b/third_party/rust/packed_simd/src/api/fmt/debug.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/fmt/debug.rs +++ /dev/null @@ -1,60 +0,0 @@ -//! Implement debug formatting - -macro_rules! impl_fmt_debug_tests { - ([$elem_ty:ty; $elem_count:expr]: $id:ident | $test_tt:tt) => { - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _fmt_debug>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn debug() { - use arrayvec::{ArrayString,ArrayVec}; - type TinyString = ArrayString<[u8; 512]>; - - use crate::fmt::Write; - let v = $id::default(); - let mut s = TinyString::new(); - write!(&mut s, "{:?}", v).unwrap(); - - let mut beg = TinyString::new(); - write!(&mut beg, "{}(", stringify!($id)).unwrap(); - assert!(s.starts_with(beg.as_str())); - assert!(s.ends_with(")")); - let s: ArrayVec<[TinyString; 64]> - = s.replace(beg.as_str(), "") - .replace(")", "").split(",") - .map(|v| TinyString::from(v.trim()).unwrap()) - .collect(); - assert_eq!(s.len(), $id::lanes()); - for (index, ss) in s.into_iter().enumerate() { - let mut e = TinyString::new(); - write!(&mut e, "{:?}", v.extract(index)).unwrap(); - assert_eq!(ss, e); - } - } - } - } - } - }; -} - -macro_rules! impl_fmt_debug { - ([$elem_ty:ty; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::fmt::Debug for $id { - #[allow(clippy::missing_inline_in_public_items)] - fn fmt(&self, f: &mut crate::fmt::Formatter<'_>) -> crate::fmt::Result { - write!(f, "{}(", stringify!($id))?; - for i in 0..$elem_count { - if i > 0 { - write!(f, ", ")?; - } - self.extract(i).fmt(f)?; - } - write!(f, ")") - } - } - impl_fmt_debug_tests!([$elem_ty; $elem_count]: $id | $test_tt); - }; -} diff --git a/third_party/rust/packed_simd/src/api/fmt/lower_hex.rs b/third_party/rust/packed_simd/src/api/fmt/lower_hex.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/fmt/lower_hex.rs +++ /dev/null @@ -1,54 +0,0 @@ -//! Implement `LowerHex` formatting - -macro_rules! impl_fmt_lower_hex { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::fmt::LowerHex for $id { - #[allow(clippy::missing_inline_in_public_items)] - fn fmt(&self, f: &mut crate::fmt::Formatter<'_>) -> crate::fmt::Result { - write!(f, "{}(", stringify!($id))?; - for i in 0..$elem_count { - if i > 0 { - write!(f, ", ")?; - } - self.extract(i).fmt(f)?; - } - write!(f, ")") - } - } - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _fmt_lower_hex>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn lower_hex() { - use arrayvec::{ArrayString,ArrayVec}; - type TinyString = ArrayString<[u8; 512]>; - - use crate::fmt::Write; - let v = $id::splat($elem_ty::default()); - let mut s = TinyString::new(); - write!(&mut s, "{:#x}", v).unwrap(); - - let mut beg = TinyString::new(); - write!(&mut beg, "{}(", stringify!($id)).unwrap(); - assert!(s.starts_with(beg.as_str())); - assert!(s.ends_with(")")); - let s: ArrayVec<[TinyString; 64]> - = s.replace(beg.as_str(), "").replace(")", "") - .split(",") - .map(|v| TinyString::from(v.trim()).unwrap()) - .collect(); - assert_eq!(s.len(), $id::lanes()); - for (index, ss) in s.into_iter().enumerate() { - let mut e = TinyString::new(); - write!(&mut e, "{:#x}", v.extract(index)).unwrap(); - assert_eq!(ss, e); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/fmt/octal.rs b/third_party/rust/packed_simd/src/api/fmt/octal.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/fmt/octal.rs +++ /dev/null @@ -1,54 +0,0 @@ -//! Implement Octal formatting - -macro_rules! impl_fmt_octal { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::fmt::Octal for $id { - #[allow(clippy::missing_inline_in_public_items)] - fn fmt(&self, f: &mut crate::fmt::Formatter<'_>) -> crate::fmt::Result { - write!(f, "{}(", stringify!($id))?; - for i in 0..$elem_count { - if i > 0 { - write!(f, ", ")?; - } - self.extract(i).fmt(f)?; - } - write!(f, ")") - } - } - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _fmt_octal>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn octal_hex() { - use arrayvec::{ArrayString,ArrayVec}; - type TinyString = ArrayString<[u8; 512]>; - - use crate::fmt::Write; - let v = $id::splat($elem_ty::default()); - let mut s = TinyString::new(); - write!(&mut s, "{:#o}", v).unwrap(); - - let mut beg = TinyString::new(); - write!(&mut beg, "{}(", stringify!($id)).unwrap(); - assert!(s.starts_with(beg.as_str())); - assert!(s.ends_with(")")); - let s: ArrayVec<[TinyString; 64]> - = s.replace(beg.as_str(), "").replace(")", "") - .split(",") - .map(|v| TinyString::from(v.trim()).unwrap()) - .collect(); - assert_eq!(s.len(), $id::lanes()); - for (index, ss) in s.into_iter().enumerate() { - let mut e = TinyString::new(); - write!(&mut e, "{:#o}", v.extract(index)).unwrap(); - assert_eq!(ss, e); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/fmt/upper_hex.rs b/third_party/rust/packed_simd/src/api/fmt/upper_hex.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/fmt/upper_hex.rs +++ /dev/null @@ -1,54 +0,0 @@ -//! Implement `UpperHex` formatting - -macro_rules! impl_fmt_upper_hex { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::fmt::UpperHex for $id { - #[allow(clippy::missing_inline_in_public_items)] - fn fmt(&self, f: &mut crate::fmt::Formatter<'_>) -> crate::fmt::Result { - write!(f, "{}(", stringify!($id))?; - for i in 0..$elem_count { - if i > 0 { - write!(f, ", ")?; - } - self.extract(i).fmt(f)?; - } - write!(f, ")") - } - } - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _fmt_upper_hex>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn upper_hex() { - use arrayvec::{ArrayString,ArrayVec}; - type TinyString = ArrayString<[u8; 512]>; - - use crate::fmt::Write; - let v = $id::splat($elem_ty::default()); - let mut s = TinyString::new(); - write!(&mut s, "{:#X}", v).unwrap(); - - let mut beg = TinyString::new(); - write!(&mut beg, "{}(", stringify!($id)).unwrap(); - assert!(s.starts_with(beg.as_str())); - assert!(s.ends_with(")")); - let s: ArrayVec<[TinyString; 64]> - = s.replace(beg.as_str(), "").replace(")", "") - .split(",") - .map(|v| TinyString::from(v.trim()).unwrap()) - .collect(); - assert_eq!(s.len(), $id::lanes()); - for (index, ss) in s.into_iter().enumerate() { - let mut e = TinyString::new(); - write!(&mut e, "{:#X}", v.extract(index)).unwrap(); - assert_eq!(ss, e); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/from.rs b/third_party/rust/packed_simd/src/api/from.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/from.rs +++ /dev/null @@ -1,7 +0,0 @@ -//! Implementations of the `From` and `Into` traits - -#[macro_use] -mod from_array; - -#[macro_use] -mod from_vector; diff --git a/third_party/rust/packed_simd/src/api/from/from_array.rs b/third_party/rust/packed_simd/src/api/from/from_array.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/from/from_array.rs +++ /dev/null @@ -1,124 +0,0 @@ -//! Implements `From<[T; N]>` and `Into<[T; N]>` for vector types. - -macro_rules! impl_from_array { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt - | ($non_default_array:expr, $non_default_vec:expr)) => { - impl From<[$elem_ty; $elem_count]> for $id { - #[inline] - fn from(array: [$elem_ty; $elem_count]) -> Self { - union U { - array: [$elem_ty; $elem_count], - vec: $id, - } - unsafe { U { array }.vec } - } - } - - impl From<$id> for [$elem_ty; $elem_count] { - #[inline] - fn from(vec: $id) -> Self { - union U { - array: [$elem_ty; $elem_count], - vec: $id, - } - unsafe { U { vec }.array } - } - } - - // FIXME: `Into::into` is not inline, but due to - // the blanket impl in `std`, which is not - // marked `default`, we cannot override it here with - // specialization. - /* - impl Into<[$elem_ty; $elem_count]> for $id { - #[inline] - fn into(self) -> [$elem_ty; $elem_count] { - union U { - array: [$elem_ty; $elem_count], - vec: $id, - } - unsafe { U { vec: self }.array } - } - } - - impl Into<$id> for [$elem_ty; $elem_count] { - #[inline] - fn into(self) -> $id { - union U { - array: [$elem_ty; $elem_count], - vec: $id, - } - unsafe { U { array: self }.vec } - } - } - */ - - test_if! { - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - mod [<$id _from>] { - use super::*; - #[test] - #[cfg_attr(miri, ignore)] - fn array() { - let vec: $id = Default::default(); - - // FIXME: Workaround for arrays with more than 32 - // elements. - // - // Safe because we never take a reference to any - // uninitialized element. - union W { - array: [$elem_ty; $elem_count], - other: () - } - let mut array = W { other: () }; - for i in 0..$elem_count { - let default: $elem_ty = Default::default(); - // note: array.other is the active member and - // initialized so we can take a reference to it: - let p = unsafe { - &mut array.other as *mut () as *mut $elem_ty - }; - // note: default is a valid bit-pattern for - // $elem_ty: - unsafe { - crate::ptr::write(p.wrapping_add(i), default) - }; - } - // note: the array variant of the union is properly - // initialized: - let mut array = unsafe { - array.array - }; - - array[0] = $non_default_array; - let vec = vec.replace(0, $non_default_vec); - - let vec_from_array = $id::from(array); - assert_eq!(vec_from_array, vec); - let array_from_vec - = <[$elem_ty; $elem_count]>::from(vec); - // FIXME: Workaround for arrays with more than 32 - // elements. - for i in 0..$elem_count { - assert_eq!(array_from_vec[i], array[i]); - } - - let vec_from_into_array: $id = array.into(); - assert_eq!(vec_from_into_array, vec); - let array_from_into_vec: [$elem_ty; $elem_count] - = vec.into(); - // FIXME: Workaround for arrays with more than 32 - // elements. - for i in 0..$elem_count { - assert_eq!(array_from_into_vec[i], array[i]); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/from/from_vector.rs b/third_party/rust/packed_simd/src/api/from/from_vector.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/from/from_vector.rs +++ /dev/null @@ -1,67 +0,0 @@ -//! Implements `From` and `Into` for vector types. - -macro_rules! impl_from_vector { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt - | $source:ident) => { - impl From<$source> for $id { - #[inline] - fn from(source: $source) -> Self { - fn static_assert_same_number_of_lanes<T, U>() - where - T: crate::sealed::Simd, - U: crate::sealed::Simd<LanesType = T::LanesType>, - { - } - use crate::llvm::simd_cast; - static_assert_same_number_of_lanes::<$id, $source>(); - Simd(unsafe { simd_cast(source.0) }) - } - } - - // FIXME: `Into::into` is not inline, but due to the blanket impl in - // `std`, which is not marked `default`, we cannot override it here - // with specialization. - - /* - impl Into<$id> for $source { - #[inline] - fn into(self) -> $id { - unsafe { simd_cast(self) } - } - } - */ - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _from_ $source>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from() { - assert_eq!($id::lanes(), $source::lanes()); - let source: $source = Default::default(); - let vec: $id = Default::default(); - - let e = $id::from(source); - assert_eq!(e, vec); - - let e: $id = source.into(); - assert_eq!(e, vec); - } - } - } - } - }; -} - -macro_rules! impl_from_vectors { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt - | $($source:ident),*) => { - $( - impl_from_vector!( - [$elem_ty; $elem_count]: $id | $test_tt | $source - ); - )* - } -} diff --git a/third_party/rust/packed_simd/src/api/hash.rs b/third_party/rust/packed_simd/src/api/hash.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/hash.rs +++ /dev/null @@ -1,49 +0,0 @@ -//! Implements `Hash` for vector types. - -macro_rules! impl_hash { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::hash::Hash for $id { - #[inline] - fn hash<H: crate::hash::Hasher>(&self, state: &mut H) { - unsafe { - union A { - data: [$elem_ty; $id::lanes()], - vec: $id, - } - A { vec: *self }.data.hash(state) - } - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _hash>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn hash() { - use crate::hash::{Hash, Hasher}; - #[allow(deprecated)] - use crate::hash::{SipHasher13}; - type A = [$elem_ty; $id::lanes()]; - let a: A = [42 as $elem_ty; $id::lanes()]; - assert_eq!( - crate::mem::size_of::<A>(), - crate::mem::size_of::<$id>() - ); - #[allow(deprecated)] - let mut a_hash = SipHasher13::new(); - let mut v_hash = a_hash.clone(); - a.hash(&mut a_hash); - - // Integer within mantissa^1 range. - #[allow(clippy::float_cmp)] - let v = $id::splat(42 as $elem_ty); - v.hash(&mut v_hash); - assert_eq!(a_hash.finish(), v_hash.finish()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/into_bits.rs b/third_party/rust/packed_simd/src/api/into_bits.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits.rs +++ /dev/null @@ -1,59 +0,0 @@ -//! Implementation of `FromBits` and `IntoBits`. - -/// Safe lossless bitwise conversion from `T` to `Self`. -#[cfg_attr(doc_cfg, doc(cfg(feature = "into_bits")))] -pub trait FromBits<T>: crate::marker::Sized { - /// Safe lossless bitwise transmute from `T` to `Self`. - fn from_bits(t: T) -> Self; -} - -/// Safe lossless bitwise conversion from `Self` to `T`. -#[cfg_attr(doc_cfg, doc(cfg(feature = "into_bits")))] -pub trait IntoBits<T>: crate::marker::Sized { - /// Safe lossless bitwise transmute from `self` to `T`. - fn into_bits(self) -> T; -} - -/// `FromBits` implies `IntoBits`. -impl<T, U> IntoBits<U> for T -where - U: FromBits<T>, -{ - #[inline] - fn into_bits(self) -> U { - debug_assert!(crate::mem::size_of::<Self>() == crate::mem::size_of::<U>()); - U::from_bits(self) - } -} - -/// `FromBits` and `IntoBits` are reflexive -impl<T> FromBits<T> for T { - #[inline] - fn from_bits(t: Self) -> Self { - t - } -} - -#[macro_use] -mod macros; - -mod v16; -pub use self::v16::*; - -mod v32; -pub use self::v32::*; - -mod v64; -pub use self::v64::*; - -mod v128; -pub use self::v128::*; - -mod v256; -pub use self::v256::*; - -mod v512; -pub use self::v512::*; - -mod arch_specific; -pub use self::arch_specific::*; diff --git a/third_party/rust/packed_simd/src/api/into_bits/arch_specific.rs b/third_party/rust/packed_simd/src/api/into_bits/arch_specific.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/arch_specific.rs +++ /dev/null @@ -1,345 +0,0 @@ -//! `FromBits` and `IntoBits` between portable vector types and the -//! architecture-specific vector types. -#[rustfmt::skip] - -// FIXME: MIPS FromBits/IntoBits - -#[allow(unused)] -use crate::*; - -/// This macro implements FromBits for the portable and the architecture -/// specific vector types. -/// -/// The "leaf" case is at the bottom, and the most generic case is at the top. -/// The generic case is split into smaller cases recursively. -macro_rules! impl_arch { - ([$arch_head_i:ident[$arch_head_tt:tt]: $($arch_head_ty:ident),*], - $([$arch_tail_i:ident[$arch_tail_tt:tt]: $($arch_tail_ty:ident),*]),* | - from: $($from_ty:ident),* | into: $($into_ty:ident),* | - test: $test_tt:tt) => { - impl_arch!( - [$arch_head_i[$arch_head_tt]: $($arch_head_ty),*] | - from: $($from_ty),* | - into: $($into_ty),* | - test: $test_tt - ); - impl_arch!( - $([$arch_tail_i[$arch_tail_tt]: $($arch_tail_ty),*]),* | - from: $($from_ty),* | - into: $($into_ty),* | - test: $test_tt - ); - }; - ([$arch:ident[$arch_tt:tt]: $($arch_ty:ident),*] | - from: $($from_ty:ident),* | into: $($into_ty:ident),* | - test: $test_tt:tt) => { - // note: if target is "arm", "+v7,+neon" must be enabled - // and the std library must be recompiled with them - #[cfg(any( - not(target_arch = "arm"), - all(target_feature = "v7", target_feature = "neon", - any(feature = "core_arch", libcore_neon))) - )] - // note: if target is "powerpc", "altivec" must be enabled - // and the std library must be recompiled with it - #[cfg(any( - not(target_arch = "powerpc"), - all(target_feature = "altivec", feature = "core_arch"), - ))] - #[cfg(target_arch = $arch_tt)] - use crate::arch::$arch::{ - $($arch_ty),* - }; - - #[cfg(any( - not(target_arch = "arm"), - all(target_feature = "v7", target_feature = "neon", - any(feature = "core_arch", libcore_neon))) - )] - #[cfg(any( - not(target_arch = "powerpc"), - all(target_feature = "altivec", feature = "core_arch"), - ))] - #[cfg(target_arch = $arch_tt)] - impl_arch!($($arch_ty),* | $($from_ty),* | $($into_ty),* | - test: $test_tt); - }; - ($arch_head:ident, $($arch_tail:ident),* | $($from_ty:ident),* - | $($into_ty:ident),* | test: $test_tt:tt) => { - impl_arch!($arch_head | $($from_ty),* | $($into_ty),* | - test: $test_tt); - impl_arch!($($arch_tail),* | $($from_ty),* | $($into_ty),* | - test: $test_tt); - }; - ($arch_head:ident | $($from_ty:ident),* | $($into_ty:ident),* | - test: $test_tt:tt) => { - impl_from_bits!($arch_head[$test_tt]: $($from_ty),*); - impl_into_bits!($arch_head[$test_tt]: $($into_ty),*); - }; -} - -//////////////////////////////////////////////////////////////////////////////// -// Implementations for the 64-bit wide vector types: - -// FIXME: 64-bit single element types -// FIXME: arm/aarch float16x4_t missing -impl_arch!( - [ - arm["arm"]: int8x8_t, - uint8x8_t, - poly8x8_t, - int16x4_t, - uint16x4_t, - poly16x4_t, - int32x2_t, - uint32x2_t, - float32x2_t, - int64x1_t, - uint64x1_t - ], - [ - aarch64["aarch64"]: int8x8_t, - uint8x8_t, - poly8x8_t, - int16x4_t, - uint16x4_t, - poly16x4_t, - int32x2_t, - uint32x2_t, - float32x2_t, - int64x1_t, - uint64x1_t, - float64x1_t - ] | from: i8x8, - u8x8, - m8x8, - i16x4, - u16x4, - m16x4, - i32x2, - u32x2, - f32x2, - m32x2 | into: i8x8, - u8x8, - i16x4, - u16x4, - i32x2, - u32x2, - f32x2 | test: test_v64 -); - -//////////////////////////////////////////////////////////////////////////////// -// Implementations for the 128-bit wide vector types: - -// FIXME: arm/aarch float16x8_t missing -// FIXME: ppc vector_pixel missing -// FIXME: ppc64 vector_Float16 missing -// FIXME: ppc64 vector_signed_long_long missing -// FIXME: ppc64 vector_unsigned_long_long missing -// FIXME: ppc64 vector_bool_long_long missing -// FIXME: ppc64 vector_signed___int128 missing -// FIXME: ppc64 vector_unsigned___int128 missing -impl_arch!( - [x86["x86"]: __m128, __m128i, __m128d], - [x86_64["x86_64"]: __m128, __m128i, __m128d], - [ - arm["arm"]: int8x16_t, - uint8x16_t, - poly8x16_t, - int16x8_t, - uint16x8_t, - poly16x8_t, - int32x4_t, - uint32x4_t, - float32x4_t, - int64x2_t, - uint64x2_t - ], - [ - aarch64["aarch64"]: int8x16_t, - uint8x16_t, - poly8x16_t, - int16x8_t, - uint16x8_t, - poly16x8_t, - int32x4_t, - uint32x4_t, - float32x4_t, - int64x2_t, - uint64x2_t, - float64x2_t - ], - [ - powerpc["powerpc"]: vector_signed_char, - vector_unsigned_char, - vector_signed_short, - vector_unsigned_short, - vector_signed_int, - vector_unsigned_int, - vector_float - ], - [ - powerpc64["powerpc64"]: vector_signed_char, - vector_unsigned_char, - vector_signed_short, - vector_unsigned_short, - vector_signed_int, - vector_unsigned_int, - vector_float, - vector_signed_long, - vector_unsigned_long, - vector_double - ] | from: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 | into: i8x16, - u8x16, - i16x8, - u16x8, - i32x4, - u32x4, - f32x4, - i64x2, - u64x2, - f64x2, - i128x1, - u128x1 | test: test_v128 -); - -impl_arch!( - [powerpc["powerpc"]: vector_bool_char], - [powerpc64["powerpc64"]: vector_bool_char] | from: m8x16, - m16x8, - m32x4, - m64x2, - m128x1 | into: i8x16, - u8x16, - i16x8, - u16x8, - i32x4, - u32x4, - f32x4, - i64x2, - u64x2, - f64x2, - i128x1, - u128x1, - // Masks: - m8x16 | test: test_v128 -); - -impl_arch!( - [powerpc["powerpc"]: vector_bool_short], - [powerpc64["powerpc64"]: vector_bool_short] | from: m16x8, - m32x4, - m64x2, - m128x1 | into: i8x16, - u8x16, - i16x8, - u16x8, - i32x4, - u32x4, - f32x4, - i64x2, - u64x2, - f64x2, - i128x1, - u128x1, - // Masks: - m8x16, - m16x8 | test: test_v128 -); - -impl_arch!( - [powerpc["powerpc"]: vector_bool_int], - [powerpc64["powerpc64"]: vector_bool_int] | from: m32x4, - m64x2, - m128x1 | into: i8x16, - u8x16, - i16x8, - u16x8, - i32x4, - u32x4, - f32x4, - i64x2, - u64x2, - f64x2, - i128x1, - u128x1, - // Masks: - m8x16, - m16x8, - m32x4 | test: test_v128 -); - -impl_arch!( - [powerpc64["powerpc64"]: vector_bool_long] | from: m64x2, - m128x1 | into: i8x16, - u8x16, - i16x8, - u16x8, - i32x4, - u32x4, - f32x4, - i64x2, - u64x2, - f64x2, - i128x1, - u128x1, - // Masks: - m8x16, - m16x8, - m32x4, - m64x2 | test: test_v128 -); - -//////////////////////////////////////////////////////////////////////////////// -// Implementations for the 256-bit wide vector types - -impl_arch!( - [x86["x86"]: __m256, __m256i, __m256d], - [x86_64["x86_64"]: __m256, __m256i, __m256d] | from: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 | into: i8x32, - u8x32, - i16x16, - u16x16, - i32x8, - u32x8, - f32x8, - i64x4, - u64x4, - f64x4, - i128x2, - u128x2 | test: test_v256 -); - -//////////////////////////////////////////////////////////////////////////////// -// FIXME: Implementations for the 512-bit wide vector types diff --git a/third_party/rust/packed_simd/src/api/into_bits/macros.rs b/third_party/rust/packed_simd/src/api/into_bits/macros.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/macros.rs +++ /dev/null @@ -1,74 +0,0 @@ -//! Macros implementing `FromBits` - -macro_rules! impl_from_bits_ { - ($id:ident[$test_tt:tt]: $from_ty:ident) => { - impl crate::api::into_bits::FromBits<$from_ty> for $id { - #[inline] - fn from_bits(x: $from_ty) -> Self { - unsafe { crate::mem::transmute(x) } - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _from_bits_ $from_ty>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn test() { - use crate::{ - ptr::{read_unaligned}, - mem::{size_of, zeroed} - }; - use crate::IntoBits; - assert_eq!(size_of::<$id>(), - size_of::<$from_ty>()); - // This is safe because we never create a reference to - // uninitialized memory: - let a: $from_ty = unsafe { zeroed() }; - - let b_0: $id = crate::FromBits::from_bits(a); - let b_1: $id = a.into_bits(); - - // Check that these are byte-wise equal, that is, - // that the bit patterns are identical: - for i in 0..size_of::<$id>() { - // This is safe because we only read initialized - // memory in bounds. Also, taking a reference to - // `b_i` is ok because the fields are initialized. - unsafe { - let b_0_v: u8 = read_unaligned( - (&b_0 as *const $id as *const u8) - .wrapping_add(i) - ); - let b_1_v: u8 = read_unaligned( - (&b_1 as *const $id as *const u8) - .wrapping_add(i) - ); - assert_eq!(b_0_v, b_1_v); - } - } - } - } - } - } - }; -} - -macro_rules! impl_from_bits { - ($id:ident[$test_tt:tt]: $($from_ty:ident),*) => { - $( - impl_from_bits_!($id[$test_tt]: $from_ty); - )* - } -} - -#[allow(unused)] -macro_rules! impl_into_bits { - ($id:ident[$test_tt:tt]: $($from_ty:ident),*) => { - $( - impl_from_bits_!($from_ty[$test_tt]: $id); - )* - } -} diff --git a/third_party/rust/packed_simd/src/api/into_bits/v128.rs b/third_party/rust/packed_simd/src/api/into_bits/v128.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/v128.rs +++ /dev/null @@ -1,232 +0,0 @@ -//! `FromBits` and `IntoBits` implementations for portable 128-bit wide vectors -#[rustfmt::skip] - -#[allow(unused)] // wasm_bindgen_test -use crate::*; - -impl_from_bits!( - i8x16[test_v128]: u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!( - u8x16[test_v128]: i8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!(m8x16[test_v128]: m16x8, m32x4, m64x2, m128x1); - -impl_from_bits!( - i16x8[test_v128]: i8x16, - u8x16, - m8x16, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!( - u16x8[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!(m16x8[test_v128]: m32x4, m64x2, m128x1); - -impl_from_bits!( - i32x4[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!( - u32x4[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!( - f32x4[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!(m32x4[test_v128]: m64x2, m128x1); - -impl_from_bits!( - i64x2[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - u64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!( - u64x2[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - f64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!( - f64x2[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - m64x2, - i128x1, - u128x1, - m128x1 -); -impl_from_bits!(m64x2[test_v128]: m128x1); - -impl_from_bits!( - i128x1[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - u128x1, - m128x1 -); -impl_from_bits!( - u128x1[test_v128]: i8x16, - u8x16, - m8x16, - i16x8, - u16x8, - m16x8, - i32x4, - u32x4, - f32x4, - m32x4, - i64x2, - u64x2, - f64x2, - m64x2, - i128x1, - m128x1 -); -// note: m128x1 cannot be constructed from all the other masks bit patterns in -// here diff --git a/third_party/rust/packed_simd/src/api/into_bits/v16.rs b/third_party/rust/packed_simd/src/api/into_bits/v16.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/v16.rs +++ /dev/null @@ -1,9 +0,0 @@ -//! `FromBits` and `IntoBits` implementations for portable 16-bit wide vectors -#[rustfmt::skip] - -#[allow(unused)] // wasm_bindgen_test -use crate::*; - -impl_from_bits!(i8x2[test_v16]: u8x2, m8x2); -impl_from_bits!(u8x2[test_v16]: i8x2, m8x2); -// note: m8x2 cannot be constructed from all i8x2 or u8x2 bit patterns diff --git a/third_party/rust/packed_simd/src/api/into_bits/v256.rs b/third_party/rust/packed_simd/src/api/into_bits/v256.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/v256.rs +++ /dev/null @@ -1,232 +0,0 @@ -//! `FromBits` and `IntoBits` implementations for portable 256-bit wide vectors -#[rustfmt::skip] - -#[allow(unused)] // wasm_bindgen_test -use crate::*; - -impl_from_bits!( - i8x32[test_v256]: u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!( - u8x32[test_v256]: i8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!(m8x32[test_v256]: m16x16, m32x8, m64x4, m128x2); - -impl_from_bits!( - i16x16[test_v256]: i8x32, - u8x32, - m8x32, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!( - u16x16[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!(m16x16[test_v256]: m32x8, m64x4, m128x2); - -impl_from_bits!( - i32x8[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!( - u32x8[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!( - f32x8[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!(m32x8[test_v256]: m64x4, m128x2); - -impl_from_bits!( - i64x4[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - u64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!( - u64x4[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - f64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!( - f64x4[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - m64x4, - i128x2, - u128x2, - m128x2 -); -impl_from_bits!(m64x4[test_v256]: m128x2); - -impl_from_bits!( - i128x2[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - u128x2, - m128x2 -); -impl_from_bits!( - u128x2[test_v256]: i8x32, - u8x32, - m8x32, - i16x16, - u16x16, - m16x16, - i32x8, - u32x8, - f32x8, - m32x8, - i64x4, - u64x4, - f64x4, - m64x4, - i128x2, - m128x2 -); -// note: m128x2 cannot be constructed from all the other masks bit patterns in -// here diff --git a/third_party/rust/packed_simd/src/api/into_bits/v32.rs b/third_party/rust/packed_simd/src/api/into_bits/v32.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/v32.rs +++ /dev/null @@ -1,13 +0,0 @@ -//! `FromBits` and `IntoBits` implementations for portable 32-bit wide vectors -#[rustfmt::skip] - -#[allow(unused)] // wasm_bindgen_test -use crate::*; - -impl_from_bits!(i8x4[test_v32]: u8x4, m8x4, i16x2, u16x2, m16x2); -impl_from_bits!(u8x4[test_v32]: i8x4, m8x4, i16x2, u16x2, m16x2); -impl_from_bits!(m8x4[test_v32]: m16x2); - -impl_from_bits!(i16x2[test_v32]: i8x4, u8x4, m8x4, u16x2, m16x2); -impl_from_bits!(u16x2[test_v32]: i8x4, u8x4, m8x4, i16x2, m16x2); -// note: m16x2 cannot be constructed from all m8x4 bit patterns diff --git a/third_party/rust/packed_simd/src/api/into_bits/v512.rs b/third_party/rust/packed_simd/src/api/into_bits/v512.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/v512.rs +++ /dev/null @@ -1,232 +0,0 @@ -//! `FromBits` and `IntoBits` implementations for portable 512-bit wide vectors -#[rustfmt::skip] - -#[allow(unused)] // wasm_bindgen_test -use crate::*; - -impl_from_bits!( - i8x64[test_v512]: u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!( - u8x64[test_v512]: i8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!(m8x64[test_v512]: m16x32, m32x16, m64x8, m128x4); - -impl_from_bits!( - i16x32[test_v512]: i8x64, - u8x64, - m8x64, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!( - u16x32[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!(m16x32[test_v512]: m32x16, m64x8, m128x4); - -impl_from_bits!( - i32x16[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!( - u32x16[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!( - f32x16[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!(m32x16[test_v512]: m64x8, m128x4); - -impl_from_bits!( - i64x8[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - u64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!( - u64x8[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - f64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!( - f64x8[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - m64x8, - i128x4, - u128x4, - m128x4 -); -impl_from_bits!(m64x8[test_v512]: m128x4); - -impl_from_bits!( - i128x4[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - u128x4, - m128x4 -); -impl_from_bits!( - u128x4[test_v512]: i8x64, - u8x64, - m8x64, - i16x32, - u16x32, - m16x32, - i32x16, - u32x16, - f32x16, - m32x16, - i64x8, - u64x8, - f64x8, - m64x8, - i128x4, - m128x4 -); -// note: m128x4 cannot be constructed from all the other masks bit patterns in -// here diff --git a/third_party/rust/packed_simd/src/api/into_bits/v64.rs b/third_party/rust/packed_simd/src/api/into_bits/v64.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/into_bits/v64.rs +++ /dev/null @@ -1,18 +0,0 @@ -//! `FromBits` and `IntoBits` implementations for portable 64-bit wide vectors -#[rustfmt::skip] - -#[allow(unused)] // wasm_bindgen_test -use crate::*; - -impl_from_bits!(i8x8[test_v64]: u8x8, m8x8, i16x4, u16x4, m16x4, i32x2, u32x2, f32x2, m32x2); -impl_from_bits!(u8x8[test_v64]: i8x8, m8x8, i16x4, u16x4, m16x4, i32x2, u32x2, f32x2, m32x2); -impl_from_bits!(m8x8[test_v64]: m16x4, m32x2); - -impl_from_bits!(i16x4[test_v64]: i8x8, u8x8, m8x8, u16x4, m16x4, i32x2, u32x2, f32x2, m32x2); -impl_from_bits!(u16x4[test_v64]: i8x8, u8x8, m8x8, i16x4, m16x4, i32x2, u32x2, f32x2, m32x2); -impl_from_bits!(m16x4[test_v64]: m32x2); - -impl_from_bits!(i32x2[test_v64]: i8x8, u8x8, m8x8, i16x4, u16x4, m16x4, u32x2, f32x2, m32x2); -impl_from_bits!(u32x2[test_v64]: i8x8, u8x8, m8x8, i16x4, u16x4, m16x4, i32x2, f32x2, m32x2); -impl_from_bits!(f32x2[test_v64]: i8x8, u8x8, m8x8, i16x4, u16x4, m16x4, i32x2, u32x2, m32x2); -// note: m32x2 cannot be constructed from all m16x4 or m8x8 bit patterns diff --git a/third_party/rust/packed_simd/src/api/math.rs b/third_party/rust/packed_simd/src/api/math.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math.rs +++ /dev/null @@ -1,4 +0,0 @@ -//! Implements vertical math operations - -#[macro_use] -mod float; diff --git a/third_party/rust/packed_simd/src/api/math/float.rs b/third_party/rust/packed_simd/src/api/math/float.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float.rs +++ /dev/null @@ -1,61 +0,0 @@ -//! Implements vertical floating-point math operations. - -#[macro_use] -mod abs; - -#[macro_use] -mod consts; - -#[macro_use] -mod cos; - -#[macro_use] -mod exp; - -#[macro_use] -mod powf; - -#[macro_use] -mod ln; - -#[macro_use] -mod mul_add; - -#[macro_use] -mod mul_adde; - -#[macro_use] -mod recpre; - -#[macro_use] -mod rsqrte; - -#[macro_use] -mod sin; - -#[macro_use] -mod sqrt; - -#[macro_use] -mod sqrte; - -macro_rules! impl_float_category { - ([$elem_ty:ident; $elem_count:expr]: $id:ident, $mask_ty:ident) => { - impl $id { - #[inline] - pub fn is_nan(self) -> $mask_ty { - self.ne(self) - } - - #[inline] - pub fn is_infinite(self) -> $mask_ty { - self.eq(Self::INFINITY) | self.eq(Self::NEG_INFINITY) - } - - #[inline] - pub fn is_finite(self) -> $mask_ty { - !(self.is_nan() | self.is_infinite()) - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/abs.rs b/third_party/rust/packed_simd/src/api/math/float/abs.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/abs.rs +++ /dev/null @@ -1,31 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `abs`. - -macro_rules! impl_math_float_abs { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Absolute value. - #[inline] - pub fn abs(self) -> Self { - use crate::codegen::math::float::abs::Abs; - Abs::abs(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_abs>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn abs() { - let o = $id::splat(1 as $elem_ty); - assert_eq!(o, o.abs()); - - let mo = $id::splat(-1 as $elem_ty); - assert_eq!(o, mo.abs()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/consts.rs b/third_party/rust/packed_simd/src/api/math/float/consts.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/consts.rs +++ /dev/null @@ -1,74 +0,0 @@ -macro_rules! impl_float_consts { - ([$elem_ty:ident; $elem_count:expr]: $id:ident) => { - impl $id { - /// Machine epsilon value. - pub const EPSILON: $id = $id::splat(core::$elem_ty::EPSILON); - - /// Smallest finite value. - pub const MIN: $id = $id::splat(core::$elem_ty::MIN); - - /// Smallest positive normal value. - pub const MIN_POSITIVE: $id = $id::splat(core::$elem_ty::MIN_POSITIVE); - - /// Largest finite value. - pub const MAX: $id = $id::splat(core::$elem_ty::MAX); - - /// Not a Number (NaN). - pub const NAN: $id = $id::splat(core::$elem_ty::NAN); - - /// Infinity (∞). - pub const INFINITY: $id = $id::splat(core::$elem_ty::INFINITY); - - /// Negative infinity (-∞). - pub const NEG_INFINITY: $id = $id::splat(core::$elem_ty::NEG_INFINITY); - - /// Archimedes' constant (π) - pub const PI: $id = $id::splat(core::$elem_ty::consts::PI); - - /// π/2 - pub const FRAC_PI_2: $id = $id::splat(core::$elem_ty::consts::FRAC_PI_2); - - /// π/3 - pub const FRAC_PI_3: $id = $id::splat(core::$elem_ty::consts::FRAC_PI_3); - - /// π/4 - pub const FRAC_PI_4: $id = $id::splat(core::$elem_ty::consts::FRAC_PI_4); - - /// π/6 - pub const FRAC_PI_6: $id = $id::splat(core::$elem_ty::consts::FRAC_PI_6); - - /// π/8 - pub const FRAC_PI_8: $id = $id::splat(core::$elem_ty::consts::FRAC_PI_8); - - /// 1/π - pub const FRAC_1_PI: $id = $id::splat(core::$elem_ty::consts::FRAC_1_PI); - - /// 2/π - pub const FRAC_2_PI: $id = $id::splat(core::$elem_ty::consts::FRAC_2_PI); - - /// 2/sqrt(π) - pub const FRAC_2_SQRT_PI: $id = $id::splat(core::$elem_ty::consts::FRAC_2_SQRT_PI); - - /// sqrt(2) - pub const SQRT_2: $id = $id::splat(core::$elem_ty::consts::SQRT_2); - - /// 1/sqrt(2) - pub const FRAC_1_SQRT_2: $id = $id::splat(core::$elem_ty::consts::FRAC_1_SQRT_2); - - /// Euler's number (e) - pub const E: $id = $id::splat(core::$elem_ty::consts::E); - - /// log<sub>2</sub>(e) - pub const LOG2_E: $id = $id::splat(core::$elem_ty::consts::LOG2_E); - - /// log<sub>10</sub>(e) - pub const LOG10_E: $id = $id::splat(core::$elem_ty::consts::LOG10_E); - - /// ln(2) - pub const LN_2: $id = $id::splat(core::$elem_ty::consts::LN_2); - - /// ln(10) - pub const LN_10: $id = $id::splat(core::$elem_ty::consts::LN_10); - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/cos.rs b/third_party/rust/packed_simd/src/api/math/float/cos.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/cos.rs +++ /dev/null @@ -1,44 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `cos`. - -macro_rules! impl_math_float_cos { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Cosine. - #[inline] - pub fn cos(self) -> Self { - use crate::codegen::math::float::cos::Cos; - Cos::cos(self) - } - - /// Cosine of `self * PI`. - #[inline] - pub fn cos_pi(self) -> Self { - use crate::codegen::math::float::cos_pi::CosPi; - CosPi::cos_pi(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_cos>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn cos() { - use crate::$elem_ty::consts::PI; - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let p = $id::splat(PI as $elem_ty); - let ph = $id::splat(PI as $elem_ty / 2.); - let z_r = $id::splat((PI as $elem_ty / 2.).cos()); - let o_r = $id::splat((PI as $elem_ty).cos()); - - assert_eq!(o, z.cos()); - assert_eq!(z_r, ph.cos()); - assert_eq!(o_r, p.cos()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/exp.rs b/third_party/rust/packed_simd/src/api/math/float/exp.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/exp.rs +++ /dev/null @@ -1,33 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `exp`. - -macro_rules! impl_math_float_exp { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Returns the exponential function of `self`: `e^(self)`. - #[inline] - pub fn exp(self) -> Self { - use crate::codegen::math::float::exp::Exp; - Exp::exp(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_exp>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn exp() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - assert_eq!(o, z.exp()); - - let e = $id::splat(crate::f64::consts::E as $elem_ty); - let tol = $id::splat(2.4e-4 as $elem_ty); - assert!((e - o.exp()).abs().le(tol).all()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/ln.rs b/third_party/rust/packed_simd/src/api/math/float/ln.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/ln.rs +++ /dev/null @@ -1,33 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `ln`. - -macro_rules! impl_math_float_ln { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Returns the natural logarithm of `self`. - #[inline] - pub fn ln(self) -> Self { - use crate::codegen::math::float::ln::Ln; - Ln::ln(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_ln>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ln() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - assert_eq!(z, o.ln()); - - let e = $id::splat(crate::f64::consts::E as $elem_ty); - let tol = $id::splat(2.4e-4 as $elem_ty); - assert!((o - e.ln()).abs().le(tol).all()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/mul_add.rs b/third_party/rust/packed_simd/src/api/math/float/mul_add.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/mul_add.rs +++ /dev/null @@ -1,44 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `mul_add`. - -macro_rules! impl_math_float_mul_add { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Fused multiply add: `self * y + z` - #[inline] - pub fn mul_add(self, y: Self, z: Self) -> Self { - use crate::codegen::math::float::mul_add::MulAdd; - MulAdd::mul_add(self, y, z) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_mul_add>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn mul_add() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let t3 = $id::splat(3 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - assert_eq!(z, z.mul_add(z, z)); - assert_eq!(o, o.mul_add(o, z)); - assert_eq!(o, o.mul_add(z, o)); - assert_eq!(o, z.mul_add(o, o)); - - assert_eq!(t, o.mul_add(o, o)); - assert_eq!(t, o.mul_add(t, z)); - assert_eq!(t, t.mul_add(o, z)); - - assert_eq!(f, t.mul_add(t, z)); - assert_eq!(f, t.mul_add(o, t)); - assert_eq!(t3, t.mul_add(o, o)); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/mul_adde.rs b/third_party/rust/packed_simd/src/api/math/float/mul_adde.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/mul_adde.rs +++ /dev/null @@ -1,48 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `mul_adde`. - -macro_rules! impl_math_float_mul_adde { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Fused multiply add estimate: ~= `self * y + z` - /// - /// While fused multiply-add (`fma`) has infinite precision, - /// `mul_adde` has _at worst_ the same precision of a multiply followed by an add. - /// This might be more efficient on architectures that do not have an `fma` instruction. - #[inline] - pub fn mul_adde(self, y: Self, z: Self) -> Self { - use crate::codegen::math::float::mul_adde::MulAddE; - MulAddE::mul_adde(self, y, z) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_mul_adde>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn mul_adde() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let t3 = $id::splat(3 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - assert_eq!(z, z.mul_adde(z, z)); - assert_eq!(o, o.mul_adde(o, z)); - assert_eq!(o, o.mul_adde(z, o)); - assert_eq!(o, z.mul_adde(o, o)); - - assert_eq!(t, o.mul_adde(o, o)); - assert_eq!(t, o.mul_adde(t, z)); - assert_eq!(t, t.mul_adde(o, z)); - - assert_eq!(f, t.mul_adde(t, z)); - assert_eq!(f, t.mul_adde(o, t)); - assert_eq!(t3, t.mul_adde(o, o)); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/powf.rs b/third_party/rust/packed_simd/src/api/math/float/powf.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/powf.rs +++ /dev/null @@ -1,36 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `powf`. - -macro_rules! impl_math_float_powf { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Raises `self` number to the floating point power of `x`. - #[inline] - pub fn powf(self, x: Self) -> Self { - use crate::codegen::math::float::powf::Powf; - Powf::powf(self, x) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_powf>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn powf() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - assert_eq!(o, o.powf(z)); - assert_eq!(o, t.powf(z)); - assert_eq!(o, o.powf(o)); - assert_eq!(t, t.powf(o)); - - let f = $id::splat(4 as $elem_ty); - assert_eq!(f, t.powf(t)); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/recpre.rs b/third_party/rust/packed_simd/src/api/math/float/recpre.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/recpre.rs +++ /dev/null @@ -1,36 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `recpre`. - -macro_rules! impl_math_float_recpre { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Reciprocal estimate: `~= 1. / self`. - /// - /// FIXME: The precision of the estimate is currently unspecified. - #[inline] - pub fn recpre(self) -> Self { - $id::splat(1.) / self - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_recpre>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn recpre() { - let tol = $id::splat(2.4e-4 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let error = (o - o.recpre()).abs(); - assert!(error.le(tol).all()); - - let t = $id::splat(2 as $elem_ty); - let e = 0.5; - let error = (e - t.recpre()).abs(); - assert!(error.le(tol).all()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/rsqrte.rs b/third_party/rust/packed_simd/src/api/math/float/rsqrte.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/rsqrte.rs +++ /dev/null @@ -1,40 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `rsqrte`. - -macro_rules! impl_math_float_rsqrte { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Reciprocal square-root estimate: `~= 1. / self.sqrt()`. - /// - /// FIXME: The precision of the estimate is currently unspecified. - #[inline] - pub fn rsqrte(self) -> Self { - unsafe { - use crate::llvm::simd_fsqrt; - $id::splat(1.) / Simd(simd_fsqrt(self.0)) - } - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_rsqrte>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn rsqrte() { - use crate::$elem_ty::consts::SQRT_2; - let tol = $id::splat(2.4e-4 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let error = (o - o.rsqrte()).abs(); - assert!(error.le(tol).all()); - - let t = $id::splat(2 as $elem_ty); - let e = 1. / SQRT_2; - let error = (e - t.rsqrte()).abs(); - assert!(error.le(tol).all()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/sin.rs b/third_party/rust/packed_simd/src/api/math/float/sin.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/sin.rs +++ /dev/null @@ -1,50 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `sin`. - -macro_rules! impl_math_float_sin { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Sine. - #[inline] - pub fn sin(self) -> Self { - use crate::codegen::math::float::sin::Sin; - Sin::sin(self) - } - - /// Sine of `self * PI`. - #[inline] - pub fn sin_pi(self) -> Self { - use crate::codegen::math::float::sin_pi::SinPi; - SinPi::sin_pi(self) - } - - /// Sine and cosine of `self * PI`. - #[inline] - pub fn sin_cos_pi(self) -> (Self, Self) { - use crate::codegen::math::float::sin_cos_pi::SinCosPi; - SinCosPi::sin_cos_pi(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_sin>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn sin() { - use crate::$elem_ty::consts::PI; - let z = $id::splat(0 as $elem_ty); - let p = $id::splat(PI as $elem_ty); - let ph = $id::splat(PI as $elem_ty / 2.); - let o_r = $id::splat((PI as $elem_ty / 2.).sin()); - let z_r = $id::splat((PI as $elem_ty).sin()); - - assert_eq!(z, z.sin()); - assert_eq!(o_r, ph.sin()); - assert_eq!(z_r, p.sin()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/sqrt.rs b/third_party/rust/packed_simd/src/api/math/float/sqrt.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/sqrt.rs +++ /dev/null @@ -1,35 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `sqrt`. - -macro_rules! impl_math_float_sqrt { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - #[inline] - pub fn sqrt(self) -> Self { - use crate::codegen::math::float::sqrt::Sqrt; - Sqrt::sqrt(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_sqrt>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn sqrt() { - use crate::$elem_ty::consts::SQRT_2; - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - assert_eq!(z, z.sqrt()); - assert_eq!(o, o.sqrt()); - - let t = $id::splat(2 as $elem_ty); - let e = $id::splat(SQRT_2); - assert_eq!(e, t.sqrt()); - - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/math/float/sqrte.rs b/third_party/rust/packed_simd/src/api/math/float/sqrte.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/math/float/sqrte.rs +++ /dev/null @@ -1,44 +0,0 @@ -//! Implements vertical (lane-wise) floating-point `sqrte`. - -macro_rules! impl_math_float_sqrte { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Square-root estimate. - /// - /// FIXME: The precision of the estimate is currently unspecified. - #[inline] - pub fn sqrte(self) -> Self { - use crate::codegen::math::float::sqrte::Sqrte; - Sqrte::sqrte(self) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _math_sqrte>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn sqrte() { - use crate::$elem_ty::consts::SQRT_2; - let tol = $id::splat(2.4e-4 as $elem_ty); - - let z = $id::splat(0 as $elem_ty); - let error = (z - z.sqrte()).abs(); - assert!(error.le(tol).all()); - - let o = $id::splat(1 as $elem_ty); - let error = (o - o.sqrte()).abs(); - assert!(error.le(tol).all()); - - let t = $id::splat(2 as $elem_ty); - let e = $id::splat(SQRT_2 as $elem_ty); - let error = (e - t.sqrte()).abs(); - - assert!(error.le(tol).all()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/minimal.rs b/third_party/rust/packed_simd/src/api/minimal.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/minimal.rs +++ /dev/null @@ -1,6 +0,0 @@ -#[macro_use] -mod iuf; -#[macro_use] -mod mask; -#[macro_use] -mod ptr; diff --git a/third_party/rust/packed_simd/src/api/minimal/iuf.rs b/third_party/rust/packed_simd/src/api/minimal/iuf.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/minimal/iuf.rs +++ /dev/null @@ -1,169 +0,0 @@ -//! Minimal API of signed integer, unsigned integer, and floating-point -//! vectors. - -macro_rules! impl_minimal_iuf { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $ielem_ty:ident | - $test_tt:tt | $($elem_name:ident),+ | $(#[$doc:meta])*) => { - - $(#[$doc])* - pub type $id = Simd<[$elem_ty; $elem_count]>; - - impl sealed::Simd for $id { - type Element = $elem_ty; - const LANES: usize = $elem_count; - type LanesType = [u32; $elem_count]; - } - - impl $id { - /// Creates a new instance with each vector elements initialized - /// with the provided values. - #[inline] - #[allow(clippy::too_many_arguments)] - pub const fn new($($elem_name: $elem_ty),*) -> Self { - Simd(codegen::$id($($elem_name as $ielem_ty),*)) - } - - /// Returns the number of vector lanes. - #[inline] - pub const fn lanes() -> usize { - $elem_count - } - - /// Constructs a new instance with each element initialized to - /// `value`. - #[inline] - pub const fn splat(value: $elem_ty) -> Self { - Simd(codegen::$id($({ - #[allow(non_camel_case_types, dead_code)] - struct $elem_name; - value as $ielem_ty - }),*)) - } - - /// Extracts the value at `index`. - /// - /// # Panics - /// - /// If `index >= Self::lanes()`. - #[inline] - pub fn extract(self, index: usize) -> $elem_ty { - assert!(index < $elem_count); - unsafe { self.extract_unchecked(index) } - } - - /// Extracts the value at `index`. - /// - /// # Safety - /// - /// If `index >= Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn extract_unchecked(self, index: usize) -> $elem_ty { - use crate::llvm::simd_extract; - let e: $ielem_ty = simd_extract(self.0, index as u32); - e as $elem_ty - } - - /// Returns a new vector where the value at `index` is replaced by `new_value`. - /// - /// # Panics - /// - /// If `index >= Self::lanes()`. - #[inline] - #[must_use = "replace does not modify the original value - \ - it returns a new vector with the value at `index` \ - replaced by `new_value`d" - ] - pub fn replace(self, index: usize, new_value: $elem_ty) -> Self { - assert!(index < $elem_count); - unsafe { self.replace_unchecked(index, new_value) } - } - - /// Returns a new vector where the value at `index` is replaced by `new_value`. - /// - /// # Safety - /// - /// If `index >= Self::lanes()` the behavior is undefined. - #[inline] - #[must_use = "replace_unchecked does not modify the original value - \ - it returns a new vector with the value at `index` \ - replaced by `new_value`d" - ] - pub unsafe fn replace_unchecked( - self, - index: usize, - new_value: $elem_ty, - ) -> Self { - use crate::llvm::simd_insert; - Simd(simd_insert(self.0, index as u32, new_value as $ielem_ty)) - } - } - - test_if!{ - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _minimal>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn minimal() { - // lanes: - assert_eq!($elem_count, $id::lanes()); - - // splat and extract / extract_unchecked: - const VAL: $elem_ty = 7 as $elem_ty; - const VEC: $id = $id::splat(VAL); - for i in 0..$id::lanes() { - assert_eq!(VAL, VEC.extract(i)); - assert_eq!( - VAL, unsafe { VEC.extract_unchecked(i) } - ); - } - - // replace / replace_unchecked - let new_vec = VEC.replace(0, 42 as $elem_ty); - for i in 0..$id::lanes() { - if i == 0 { - assert_eq!(42 as $elem_ty, new_vec.extract(i)); - } else { - assert_eq!(VAL, new_vec.extract(i)); - } - } - let new_vec = unsafe { - VEC.replace_unchecked(0, 42 as $elem_ty) - }; - for i in 0..$id::lanes() { - if i == 0 { - assert_eq!(42 as $elem_ty, new_vec.extract(i)); - } else { - assert_eq!(VAL, new_vec.extract(i)); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn extract_panic_oob() { - const VAL: $elem_ty = 7 as $elem_ty; - const VEC: $id = $id::splat(VAL); - let _ = VEC.extract($id::lanes()); - } - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn replace_panic_oob() { - const VAL: $elem_ty = 7 as $elem_ty; - const VEC: $id = $id::splat(VAL); - let _ = VEC.replace($id::lanes(), 42 as $elem_ty); - } - } - } - } - } -} diff --git a/third_party/rust/packed_simd/src/api/minimal/mask.rs b/third_party/rust/packed_simd/src/api/minimal/mask.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/minimal/mask.rs +++ /dev/null @@ -1,176 +0,0 @@ -//! Minimal API of mask vectors. - -macro_rules! impl_minimal_mask { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $ielem_ty:ident - | $test_tt:tt | $($elem_name:ident),+ | $(#[$doc:meta])*) => { - $(#[$doc])* - pub type $id = Simd<[$elem_ty; $elem_count]>; - - impl sealed::Simd for $id { - type Element = $elem_ty; - const LANES: usize = $elem_count; - type LanesType = [u32; $elem_count]; - } - - impl $id { - /// Creates a new instance with each vector elements initialized - /// with the provided values. - #[inline] - #[allow(clippy::too_many_arguments)] - pub const fn new($($elem_name: bool),*) -> Self { - Simd(codegen::$id($(Self::bool_to_internal($elem_name)),*)) - } - - /// Converts a boolean type into the type of the vector lanes. - #[inline] - #[allow(clippy::indexing_slicing)] - const fn bool_to_internal(x: bool) -> $ielem_ty { - [0 as $ielem_ty, !(0 as $ielem_ty)][x as usize] - } - - /// Returns the number of vector lanes. - #[inline] - pub const fn lanes() -> usize { - $elem_count - } - - /// Constructs a new instance with each element initialized to - /// `value`. - #[inline] - pub const fn splat(value: bool) -> Self { - Simd(codegen::$id($({ - #[allow(non_camel_case_types, dead_code)] - struct $elem_name; - Self::bool_to_internal(value) - }),*)) - } - - /// Extracts the value at `index`. - /// - /// # Panics - /// - /// If `index >= Self::lanes()`. - #[inline] - pub fn extract(self, index: usize) -> bool { - assert!(index < $elem_count); - unsafe { self.extract_unchecked(index) } - } - - /// Extracts the value at `index`. - /// - /// # Safety - /// - /// If `index >= Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn extract_unchecked(self, index: usize) -> bool { - use crate::llvm::simd_extract; - let x: $ielem_ty = simd_extract(self.0, index as u32); - x != 0 - } - - /// Returns a new vector where the value at `index` is replaced by - /// `new_value`. - /// - /// # Panics - /// - /// If `index >= Self::lanes()`. - #[inline] - #[must_use = "replace does not modify the original value - \ - it returns a new vector with the value at `index` \ - replaced by `new_value`d" - ] - pub fn replace(self, index: usize, new_value: bool) -> Self { - assert!(index < $elem_count); - unsafe { self.replace_unchecked(index, new_value) } - } - - /// Returns a new vector where the value at `index` is replaced by - /// `new_value`. - /// - /// # Safety - /// - /// If `index >= Self::lanes()` the behavior is undefined. - #[inline] - #[must_use = "replace_unchecked does not modify the original value - \ - it returns a new vector with the value at `index` \ - replaced by `new_value`d" - ] - pub unsafe fn replace_unchecked( - self, - index: usize, - new_value: bool, - ) -> Self { - use crate::llvm::simd_insert; - Simd(simd_insert(self.0, index as u32, - Self::bool_to_internal(new_value))) - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _minimal>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn minimal() { - // TODO: test new - - // lanes: - assert_eq!($elem_count, $id::lanes()); - - // splat and extract / extract_unchecked: - let vec = $id::splat(true); - for i in 0..$id::lanes() { - assert_eq!(true, vec.extract(i)); - assert_eq!(true, - unsafe { vec.extract_unchecked(i) } - ); - } - - // replace / replace_unchecked - let new_vec = vec.replace(0, false); - for i in 0..$id::lanes() { - if i == 0 { - assert_eq!(false, new_vec.extract(i)); - } else { - assert_eq!(true, new_vec.extract(i)); - } - } - let new_vec = unsafe { - vec.replace_unchecked(0, false) - }; - for i in 0..$id::lanes() { - if i == 0 { - assert_eq!(false, new_vec.extract(i)); - } else { - assert_eq!(true, new_vec.extract(i)); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn extract_panic_oob() { - let vec = $id::splat(false); - let _ = vec.extract($id::lanes()); - } - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn replace_panic_oob() { - let vec = $id::splat(false); - let _ = vec.replace($id::lanes(), true); - } - } - } - } - } -} diff --git a/third_party/rust/packed_simd/src/api/minimal/ptr.rs b/third_party/rust/packed_simd/src/api/minimal/ptr.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/minimal/ptr.rs +++ /dev/null @@ -1,1373 +0,0 @@ -//! Minimal API of pointer vectors. - -macro_rules! impl_minimal_p { - ([$elem_ty:ty; $elem_count:expr]: $id:ident, $mask_ty:ident, - $usize_ty:ident, $isize_ty:ident | $ref:ident | $test_tt:tt - | $($elem_name:ident),+ | ($true:expr, $false:expr) | - $(#[$doc:meta])*) => { - - $(#[$doc])* - pub type $id<T> = Simd<[$elem_ty; $elem_count]>; - - impl<T> sealed::Simd for $id<T> { - type Element = $elem_ty; - const LANES: usize = $elem_count; - type LanesType = [u32; $elem_count]; - } - - impl<T> $id<T> { - /// Creates a new instance with each vector elements initialized - /// with the provided values. - #[inline] - #[allow(clippy::too_many_arguments)] - pub const fn new($($elem_name: $elem_ty),*) -> Self { - Simd(codegen::$id($($elem_name),*)) - } - - /// Returns the number of vector lanes. - #[inline] - pub const fn lanes() -> usize { - $elem_count - } - - /// Constructs a new instance with each element initialized to - /// `value`. - #[inline] - pub const fn splat(value: $elem_ty) -> Self { - Simd(codegen::$id($({ - #[allow(non_camel_case_types, dead_code)] - struct $elem_name; - value - }),*)) - } - - /// Constructs a new instance with each element initialized to - /// `null`. - #[inline] - pub const fn null() -> Self { - Self::splat(crate::ptr::null_mut() as $elem_ty) - } - - /// Returns a mask that selects those lanes that contain `null` - /// pointers. - #[inline] - pub fn is_null(self) -> $mask_ty { - self.eq(Self::null()) - } - - /// Extracts the value at `index`. - /// - /// # Panics - /// - /// If `index >= Self::lanes()`. - #[inline] - pub fn extract(self, index: usize) -> $elem_ty { - assert!(index < $elem_count); - unsafe { self.extract_unchecked(index) } - } - - /// Extracts the value at `index`. - /// - /// # Safety - /// - /// If `index >= Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn extract_unchecked(self, index: usize) -> $elem_ty { - use crate::llvm::simd_extract; - simd_extract(self.0, index as u32) - } - - /// Returns a new vector where the value at `index` is replaced by - /// `new_value`. - /// - /// # Panics - /// - /// If `index >= Self::lanes()`. - #[inline] - #[must_use = "replace does not modify the original value - \ - it returns a new vector with the value at `index` \ - replaced by `new_value`d" - ] - #[allow(clippy::not_unsafe_ptr_arg_deref)] - pub fn replace(self, index: usize, new_value: $elem_ty) -> Self { - assert!(index < $elem_count); - unsafe { self.replace_unchecked(index, new_value) } - } - - /// Returns a new vector where the value at `index` is replaced by `new_value`. - /// - /// # Safety - /// - /// If `index >= Self::lanes()` the behavior is undefined. - #[inline] - #[must_use = "replace_unchecked does not modify the original value - \ - it returns a new vector with the value at `index` \ - replaced by `new_value`d" - ] - pub unsafe fn replace_unchecked( - self, - index: usize, - new_value: $elem_ty, - ) -> Self { - use crate::llvm::simd_insert; - Simd(simd_insert(self.0, index as u32, new_value)) - } - } - - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _minimal>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn minimal() { - // lanes: - assert_eq!($elem_count, $id::<i32>::lanes()); - - // splat and extract / extract_unchecked: - let VAL7: <$id<i32> as sealed::Simd>::Element - = $ref!(7); - let VAL42: <$id<i32> as sealed::Simd>::Element - = $ref!(42); - let VEC: $id<i32> = $id::splat(VAL7); - for i in 0..$id::<i32>::lanes() { - assert_eq!(VAL7, VEC.extract(i)); - assert_eq!( - VAL7, unsafe { VEC.extract_unchecked(i) } - ); - } - - // replace / replace_unchecked - let new_vec = VEC.replace(0, VAL42); - for i in 0..$id::<i32>::lanes() { - if i == 0 { - assert_eq!(VAL42, new_vec.extract(i)); - } else { - assert_eq!(VAL7, new_vec.extract(i)); - } - } - let new_vec = unsafe { - VEC.replace_unchecked(0, VAL42) - }; - for i in 0..$id::<i32>::lanes() { - if i == 0 { - assert_eq!(VAL42, new_vec.extract(i)); - } else { - assert_eq!(VAL7, new_vec.extract(i)); - } - } - - let mut n = $id::<i32>::null(); - assert_eq!( - n, - $id::<i32>::splat(unsafe { crate::mem::zeroed() }) - ); - assert!(n.is_null().all()); - n = n.replace( - 0, unsafe { crate::mem::transmute(1_isize) } - ); - assert!(!n.is_null().all()); - if $id::<i32>::lanes() > 1 { - assert!(n.is_null().any()); - } else { - assert!(!n.is_null().any()); - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn extract_panic_oob() { - let VAL: <$id<i32> as sealed::Simd>::Element - = $ref!(7); - let VEC: $id<i32> = $id::splat(VAL); - let _ = VEC.extract($id::<i32>::lanes()); - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn replace_panic_oob() { - let VAL: <$id<i32> as sealed::Simd>::Element - = $ref!(7); - let VAL42: <$id<i32> as sealed::Simd>::Element - = $ref!(42); - let VEC: $id<i32> = $id::splat(VAL); - let _ = VEC.replace($id::<i32>::lanes(), VAL42); - } - } - } - } - - impl<T> crate::fmt::Debug for $id<T> { - #[allow(clippy::missing_inline_in_public_items)] - fn fmt(&self, f: &mut crate::fmt::Formatter<'_>) - -> crate::fmt::Result { - write!( - f, - "{}<{}>(", - stringify!($id), - crate::intrinsics::type_name::<T>() - )?; - for i in 0..$elem_count { - if i > 0 { - write!(f, ", ")?; - } - self.extract(i).fmt(f)?; - } - write!(f, ")") - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _fmt_debug>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn debug() { - use arrayvec::{ArrayString,ArrayVec}; - type TinyString = ArrayString<[u8; 512]>; - - use crate::fmt::Write; - let v = $id::<i32>::default(); - let mut s = TinyString::new(); - write!(&mut s, "{:?}", v).unwrap(); - - let mut beg = TinyString::new(); - write!(&mut beg, "{}<i32>(", stringify!($id)).unwrap(); - assert!( - s.starts_with(beg.as_str()), - "s = {} (should start with = {})", s, beg - ); - assert!(s.ends_with(")")); - let s: ArrayVec<[TinyString; 64]> - = s.replace(beg.as_str(), "") - .replace(")", "").split(",") - .map(|v| TinyString::from(v.trim()).unwrap()) - .collect(); - assert_eq!(s.len(), $id::<i32>::lanes()); - for (index, ss) in s.into_iter().enumerate() { - let mut e = TinyString::new(); - write!(&mut e, "{:?}", v.extract(index)).unwrap(); - assert_eq!(ss, e); - } - } - } - } - } - - impl<T> Default for $id<T> { - #[inline] - fn default() -> Self { - // FIXME: ptrs do not implement default - Self::null() - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _default>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn default() { - let a = $id::<i32>::default(); - for i in 0..$id::<i32>::lanes() { - assert_eq!( - a.extract(i), unsafe { crate::mem::zeroed() } - ); - } - } - } - } - } - - impl<T> $id<T> { - /// Lane-wise equality comparison. - #[inline] - pub fn eq(self, other: Self) -> $mask_ty { - unsafe { - use crate::llvm::simd_eq; - let a: $usize_ty = crate::mem::transmute(self); - let b: $usize_ty = crate::mem::transmute(other); - Simd(simd_eq(a.0, b.0)) - } - } - - /// Lane-wise inequality comparison. - #[inline] - pub fn ne(self, other: Self) -> $mask_ty { - unsafe { - use crate::llvm::simd_ne; - let a: $usize_ty = crate::mem::transmute(self); - let b: $usize_ty = crate::mem::transmute(other); - Simd(simd_ne(a.0, b.0)) - } - } - - /// Lane-wise less-than comparison. - #[inline] - pub fn lt(self, other: Self) -> $mask_ty { - unsafe { - use crate::llvm::simd_lt; - let a: $usize_ty = crate::mem::transmute(self); - let b: $usize_ty = crate::mem::transmute(other); - Simd(simd_lt(a.0, b.0)) - } - } - - /// Lane-wise less-than-or-equals comparison. - #[inline] - pub fn le(self, other: Self) -> $mask_ty { - unsafe { - use crate::llvm::simd_le; - let a: $usize_ty = crate::mem::transmute(self); - let b: $usize_ty = crate::mem::transmute(other); - Simd(simd_le(a.0, b.0)) - } - } - - /// Lane-wise greater-than comparison. - #[inline] - pub fn gt(self, other: Self) -> $mask_ty { - unsafe { - use crate::llvm::simd_gt; - let a: $usize_ty = crate::mem::transmute(self); - let b: $usize_ty = crate::mem::transmute(other); - Simd(simd_gt(a.0, b.0)) - } - } - - /// Lane-wise greater-than-or-equals comparison. - #[inline] - pub fn ge(self, other: Self) -> $mask_ty { - unsafe { - use crate::llvm::simd_ge; - let a: $usize_ty = crate::mem::transmute(self); - let b: $usize_ty = crate::mem::transmute(other); - Simd(simd_ge(a.0, b.0)) - } - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_vertical>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn cmp() { - let a = $id::<i32>::null(); - let b = $id::<i32>::splat(unsafe { - crate::mem::transmute(1_isize) - }); - - let r = a.lt(b); - let e = $mask_ty::splat(true); - assert!(r == e); - let r = a.le(b); - assert!(r == e); - - let e = $mask_ty::splat(false); - let r = a.gt(b); - assert!(r == e); - let r = a.ge(b); - assert!(r == e); - let r = a.eq(b); - assert!(r == e); - - let mut a = a; - let mut b = b; - let mut e = e; - for i in 0..$id::<i32>::lanes() { - if i % 2 == 0 { - a = a.replace( - i, - unsafe { crate::mem::transmute(0_isize) } - ); - b = b.replace( - i, - unsafe { crate::mem::transmute(1_isize) } - ); - e = e.replace(i, true); - } else { - a = a.replace( - i, - unsafe { crate::mem::transmute(1_isize) } - ); - b = b.replace( - i, - unsafe { crate::mem::transmute(0_isize) } - ); - e = e.replace(i, false); - } - } - let r = a.lt(b); - assert!(r == e); - } - } - } - } - - #[allow(clippy::partialeq_ne_impl)] - impl<T> crate::cmp::PartialEq<$id<T>> for $id<T> { - #[inline] - fn eq(&self, other: &Self) -> bool { - $id::<T>::eq(*self, *other).all() - } - #[inline] - fn ne(&self, other: &Self) -> bool { - $id::<T>::ne(*self, *other).any() - } - } - - // FIXME: https://github.com/rust-lang-nursery/rust-clippy/issues/2892 - #[allow(clippy::partialeq_ne_impl)] - impl<T> crate::cmp::PartialEq<LexicographicallyOrdered<$id<T>>> - for LexicographicallyOrdered<$id<T>> - { - #[inline] - fn eq(&self, other: &Self) -> bool { - self.0 == other.0 - } - #[inline] - fn ne(&self, other: &Self) -> bool { - self.0 != other.0 - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_PartialEq>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn partial_eq() { - let a = $id::<i32>::null(); - let b = $id::<i32>::splat(unsafe { - crate::mem::transmute(1_isize) - }); - - assert!(a != b); - assert!(!(a == b)); - assert!(a == a); - assert!(!(a != a)); - - if $id::<i32>::lanes() > 1 { - let a = $id::<i32>::null().replace(0, unsafe { - crate::mem::transmute(1_isize) - }); - let b = $id::<i32>::splat(unsafe { - crate::mem::transmute(1_isize) - }); - - assert!(a != b); - assert!(!(a == b)); - assert!(a == a); - assert!(!(a != a)); - } - } - } - } - } - - impl<T> crate::cmp::Eq for $id<T> {} - impl<T> crate::cmp::Eq for LexicographicallyOrdered<$id<T>> {} - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _cmp_eq>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn eq() { - fn foo<E: crate::cmp::Eq>(_: E) {} - let a = $id::<i32>::null(); - foo(a); - } - } - } - } - - impl<T> From<[$elem_ty; $elem_count]> for $id<T> { - #[inline] - fn from(array: [$elem_ty; $elem_count]) -> Self { - unsafe { - // FIXME: unnecessary zeroing; better than UB. - let mut u: Self = crate::mem::zeroed(); - crate::ptr::copy_nonoverlapping( - &array as *const [$elem_ty; $elem_count] as *const u8, - &mut u as *mut Self as *mut u8, - crate::mem::size_of::<Self>() - ); - u - } - } - } - impl<T> Into<[$elem_ty; $elem_count]> for $id<T> { - #[inline] - fn into(self) -> [$elem_ty; $elem_count] { - unsafe { - // FIXME: unnecessary zeroing; better than UB. - let mut u: [$elem_ty; $elem_count] = crate::mem::zeroed(); - crate::ptr::copy_nonoverlapping( - &self as *const $id<T> as *const u8, - &mut u as *mut [$elem_ty; $elem_count] as *mut u8, - crate::mem::size_of::<Self>() - ); - u - } - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _from>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn array() { - let values = [1_i32; $elem_count]; - - let mut vec: $id<i32> = Default::default(); - let mut array = [ - $id::<i32>::null().extract(0); $elem_count - ]; - - for i in 0..$elem_count { - let ptr = &values[i] as *const i32 as *mut i32; - vec = vec.replace(i, ptr); - array[i] = ptr; - } - - // FIXME: there is no impl of From<$id<T>> for [$elem_ty; N] - // let a0 = From::from(vec); - // assert_eq!(a0, array); - #[allow(unused_assignments)] - let mut a1 = array; - a1 = vec.into(); - assert_eq!(a1, array); - - let v0: $id<i32> = From::from(array); - assert_eq!(v0, vec); - let v1: $id<i32> = array.into(); - assert_eq!(v1, vec); - } - } - } - } - - impl<T> $id<T> { - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not aligned - /// to an `align_of::<Self>()` boundary. - #[inline] - pub fn from_slice_aligned(slice: &[$elem_ty]) -> Self { - unsafe { - assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_ptr(); - assert!( - target_ptr.align_offset(crate::mem::align_of::<Self>()) - == 0 - ); - Self::from_slice_aligned_unchecked(slice) - } - } - - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()`. - #[inline] - pub fn from_slice_unaligned(slice: &[$elem_ty]) -> Self { - unsafe { - assert!(slice.len() >= $elem_count); - Self::from_slice_unaligned_unchecked(slice) - } - } - - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not aligned - /// to an `align_of::<Self>()` boundary, the behavior is undefined. - #[inline] - pub unsafe fn from_slice_aligned_unchecked(slice: &[$elem_ty]) - -> Self { - #[allow(clippy::cast_ptr_alignment)] - *(slice.as_ptr().cast()) - } - - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn from_slice_unaligned_unchecked( - slice: &[$elem_ty], - ) -> Self { - use crate::mem::size_of; - let target_ptr = slice.as_ptr().cast(); - let mut x = Self::splat(crate::ptr::null_mut() as $elem_ty); - let self_ptr = &mut x as *mut Self as *mut u8; - crate::ptr::copy_nonoverlapping( - target_ptr, - self_ptr, - size_of::<Self>(), - ); - x - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _slice_from_slice>] { - use super::*; - use crate::iter::Iterator; - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from_slice_unaligned() { - let (null, non_null) = ptr_vals!($id<i32>); - - let mut unaligned = [ - non_null; $id::<i32>::lanes() + 1 - ]; - unaligned[0] = null; - let vec = $id::<i32>::from_slice_unaligned( - &unaligned[1..] - ); - for (index, &b) in unaligned.iter().enumerate() { - if index == 0 { - assert_eq!(b, null); - } else { - assert_eq!(b, non_null); - assert_eq!(b, vec.extract(index - 1)); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn from_slice_unaligned_fail() { - let (_null, non_null) = ptr_vals!($id<i32>); - let unaligned = [non_null; $id::<i32>::lanes() + 1]; - // the slice is not large enough => panic - let _vec = $id::<i32>::from_slice_unaligned( - &unaligned[2..] - ); - } - - union A { - data: [<$id<i32> as sealed::Simd>::Element; - 2 * $id::<i32>::lanes()], - _vec: $id<i32>, - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from_slice_aligned() { - let (null, non_null) = ptr_vals!($id<i32>); - let mut aligned = A { - data: [null; 2 * $id::<i32>::lanes()], - }; - for i in - $id::<i32>::lanes()..(2 * $id::<i32>::lanes()) { - unsafe { - aligned.data[i] = non_null; - } - } - - let vec = unsafe { - $id::<i32>::from_slice_aligned( - &aligned.data[$id::<i32>::lanes()..] - ) - }; - for (index, &b) in unsafe { - aligned.data.iter().enumerate() - } { - if index < $id::<i32>::lanes() { - assert_eq!(b, null); - } else { - assert_eq!(b, non_null); - assert_eq!( - b, vec.extract(index - $id::<i32>::lanes()) - ); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn from_slice_aligned_fail_lanes() { - let (_null, non_null) = ptr_vals!($id<i32>); - let aligned = A { - data: [non_null; 2 * $id::<i32>::lanes()], - }; - // the slice is not large enough => panic - let _vec = unsafe { - $id::<i32>::from_slice_aligned( - &aligned.data[2 * $id::<i32>::lanes()..] - ) - }; - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn from_slice_aligned_fail_align() { - unsafe { - let (null, _non_null) = ptr_vals!($id<i32>); - let aligned = A { - data: [null; 2 * $id::<i32>::lanes()], - }; - - // get a pointer to the front of data - let ptr = aligned.data.as_ptr(); - // offset pointer by one element - let ptr = ptr.wrapping_add(1); - - if ptr.align_offset( - crate::mem::align_of::<$id<i32>>() - ) == 0 { - // the pointer is properly aligned, so - // from_slice_aligned won't fail here (e.g. this - // can happen for i128x1). So we panic to make - // the "should_fail" test pass: - panic!("ok"); - } - - // create a slice - this is safe, because the - // elements of the slice exist, are properly - // initialized, and properly aligned: - let s = slice::from_raw_parts( - ptr, $id::<i32>::lanes() - ); - // this should always panic because the slice - // alignment does not match the alignment - // requirements for the vector type: - let _vec = $id::<i32>::from_slice_aligned(s); - } - } - } - } - } - - impl<T> $id<T> { - /// Writes the values of the vector to the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not - /// aligned to an `align_of::<Self>()` boundary. - #[inline] - pub fn write_to_slice_aligned(self, slice: &mut [$elem_ty]) { - unsafe { - assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_mut_ptr(); - assert!( - target_ptr.align_offset(crate::mem::align_of::<Self>()) - == 0 - ); - self.write_to_slice_aligned_unchecked(slice); - } - } - - /// Writes the values of the vector to the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()`. - #[inline] - pub fn write_to_slice_unaligned(self, slice: &mut [$elem_ty]) { - unsafe { - assert!(slice.len() >= $elem_count); - self.write_to_slice_unaligned_unchecked(slice); - } - } - - /// Writes the values of the vector to the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not - /// aligned to an `align_of::<Self>()` boundary, the behavior is - /// undefined. - #[inline] - pub unsafe fn write_to_slice_aligned_unchecked( - self, slice: &mut [$elem_ty], - ) { - #[allow(clippy::cast_ptr_alignment)] - *(slice.as_mut_ptr().cast()) = self; - } - - /// Writes the values of the vector to the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn write_to_slice_unaligned_unchecked( - self, slice: &mut [$elem_ty], - ) { - let target_ptr = slice.as_mut_ptr().cast(); - let self_ptr = &self as *const Self as *const u8; - crate::ptr::copy_nonoverlapping( - self_ptr, - target_ptr, - crate::mem::size_of::<Self>(), - ); - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _slice_write_to_slice>] { - use super::*; - use crate::iter::Iterator; - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn write_to_slice_unaligned() { - let (null, non_null) = ptr_vals!($id<i32>); - let mut unaligned = [null; $id::<i32>::lanes() + 1]; - let vec = $id::<i32>::splat(non_null); - vec.write_to_slice_unaligned(&mut unaligned[1..]); - for (index, &b) in unaligned.iter().enumerate() { - if index == 0 { - assert_eq!(b, null); - } else { - assert_eq!(b, non_null); - assert_eq!(b, vec.extract(index - 1)); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn write_to_slice_unaligned_fail() { - let (null, non_null) = ptr_vals!($id<i32>); - let mut unaligned = [null; $id::<i32>::lanes() + 1]; - let vec = $id::<i32>::splat(non_null); - // the slice is not large enough => panic - vec.write_to_slice_unaligned(&mut unaligned[2..]); - } - - union A { - data: [<$id<i32> as sealed::Simd>::Element; - 2 * $id::<i32>::lanes()], - _vec: $id<i32>, - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn write_to_slice_aligned() { - let (null, non_null) = ptr_vals!($id<i32>); - let mut aligned = A { - data: [null; 2 * $id::<i32>::lanes()], - }; - let vec = $id::<i32>::splat(non_null); - unsafe { - vec.write_to_slice_aligned( - &mut aligned.data[$id::<i32>::lanes()..] - ) - }; - for (index, &b) in - unsafe { aligned.data.iter().enumerate() } { - if index < $id::<i32>::lanes() { - assert_eq!(b, null); - } else { - assert_eq!(b, non_null); - assert_eq!( - b, vec.extract(index - $id::<i32>::lanes()) - ); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn write_to_slice_aligned_fail_lanes() { - let (null, non_null) = ptr_vals!($id<i32>); - let mut aligned = A { - data: [null; 2 * $id::<i32>::lanes()], - }; - let vec = $id::<i32>::splat(non_null); - // the slice is not large enough => panic - unsafe { - vec.write_to_slice_aligned( - &mut aligned.data[2 * $id::<i32>::lanes()..] - ) - }; - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn write_to_slice_aligned_fail_align() { - let (null, non_null) = ptr_vals!($id<i32>); - unsafe { - let mut aligned = A { - data: [null; 2 * $id::<i32>::lanes()], - }; - - // get a pointer to the front of data - let ptr = aligned.data.as_mut_ptr(); - // offset pointer by one element - let ptr = ptr.wrapping_add(1); - - if ptr.align_offset( - crate::mem::align_of::<$id<i32>>() - ) == 0 { - // the pointer is properly aligned, so - // write_to_slice_aligned won't fail here (e.g. - // this can happen for i128x1). So we panic to - // make the "should_fail" test pass: - panic!("ok"); - } - - // create a slice - this is safe, because the - // elements of the slice exist, are properly - // initialized, and properly aligned: - let s = slice::from_raw_parts_mut( - ptr, $id::<i32>::lanes() - ); - // this should always panic because the slice - // alignment does not match the alignment - // requirements for the vector type: - let vec = $id::<i32>::splat(non_null); - vec.write_to_slice_aligned(s); - } - } - } - } - } - - impl<T> crate::hash::Hash for $id<T> { - #[inline] - fn hash<H: crate::hash::Hasher>(&self, state: &mut H) { - let s: $usize_ty = unsafe { crate::mem::transmute(*self) }; - s.hash(state) - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _hash>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn hash() { - use crate::hash::{Hash, Hasher}; - #[allow(deprecated)] - use crate::hash::{SipHasher13}; - - let values = [1_i32; $elem_count]; - - let mut vec: $id<i32> = Default::default(); - let mut array = [ - $id::<i32>::null().extract(0); - $elem_count - ]; - - for i in 0..$elem_count { - let ptr = &values[i] as *const i32 as *mut i32; - vec = vec.replace(i, ptr); - array[i] = ptr; - } - - #[allow(deprecated)] - let mut a_hash = SipHasher13::new(); - let mut v_hash = a_hash.clone(); - array.hash(&mut a_hash); - vec.hash(&mut v_hash); - assert_eq!(a_hash.finish(), v_hash.finish()); - } - } - } - } - - impl<T> $id<T> { - /// Calculates the offset from a pointer. - /// - /// `count` is in units of `T`; e.g. a count of `3` represents a - /// pointer offset of `3 * size_of::<T>()` bytes. - /// - /// # Safety - /// - /// If any of the following conditions are violated, the result is - /// Undefined Behavior: - /// - /// * Both the starting and resulting pointer must be either in - /// bounds or one byte past the end of an allocated object. - /// - /// * The computed offset, in bytes, cannot overflow an `isize`. - /// - /// * The offset being in bounds cannot rely on "wrapping around" - /// the address space. That is, the infinite-precision sum, in bytes - /// must fit in a `usize`. - /// - /// The compiler and standard library generally tries to ensure - /// allocations never reach a size where an offset is a concern. For - /// instance, `Vec` and `Box` ensure they never allocate more than - /// `isize::MAX` bytes, so `vec.as_ptr().offset(vec.len() as isize)` - /// is always safe. - /// - /// Most platforms fundamentally can't even construct such an - /// allocation. For instance, no known 64-bit platform can ever - /// serve a request for 263 bytes due to page-table limitations or - /// splitting the address space. However, some 32-bit and 16-bit - /// platforms may successfully serve a request for more than - /// `isize::MAX` bytes with things like Physical Address Extension. - /// As such, memory acquired directly from allocators or memory - /// mapped files may be too large to handle with this function. - /// - /// Consider using `wrapping_offset` instead if these constraints - /// are difficult to satisfy. The only advantage of this method is - /// that it enables more aggressive compiler optimizations. - #[inline] - pub unsafe fn offset(self, count: $isize_ty) -> Self { - // FIXME: should use LLVM's `add nsw nuw` - self.wrapping_offset(count) - } - - /// Calculates the offset from a pointer using wrapping arithmetic. - /// - /// `count` is in units of `T`; e.g. a count of `3` represents a - /// pointer offset of `3 * size_of::<T>()` bytes. - /// - /// # Safety - /// - /// The resulting pointer does not need to be in bounds, but it is - /// potentially hazardous to dereference (which requires unsafe). - /// - /// Always use `.offset(count)` instead when possible, because - /// offset allows the compiler to optimize better. - #[inline] - pub fn wrapping_offset(self, count: $isize_ty) -> Self { - unsafe { - let x: $isize_ty = crate::mem::transmute(self); - // note: {+,*} currently performs a `wrapping_{add, mul}` - crate::mem::transmute( - x + (count * crate::mem::size_of::<T>() as isize) - ) - } - } - - /// Calculates the distance between two pointers. - /// - /// The returned value is in units of `T`: the distance in bytes is - /// divided by `mem::size_of::<T>()`. - /// - /// This function is the inverse of offset. - /// - /// # Safety - /// - /// If any of the following conditions are violated, the result is - /// Undefined Behavior: - /// - /// * Both the starting and other pointer must be either in bounds - /// or one byte past the end of the same allocated object. - /// - /// * The distance between the pointers, in bytes, cannot overflow - /// an `isize`. - /// - /// * The distance between the pointers, in bytes, must be an exact - /// multiple of the size of `T`. - /// - /// * The distance being in bounds cannot rely on "wrapping around" - /// the address space. - /// - /// The compiler and standard library generally try to ensure - /// allocations never reach a size where an offset is a concern. For - /// instance, `Vec` and `Box` ensure they never allocate more than - /// `isize::MAX` bytes, so `ptr_into_vec.offset_from(vec.as_ptr())` - /// is always safe. - /// - /// Most platforms fundamentally can't even construct such an - /// allocation. For instance, no known 64-bit platform can ever - /// serve a request for 263 bytes due to page-table limitations or - /// splitting the address space. However, some 32-bit and 16-bit - /// platforms may successfully serve a request for more than - /// `isize::MAX` bytes with things like Physical Address Extension. - /// As such, memory acquired directly from allocators or memory - /// mapped files may be too large to handle with this function. - /// - /// Consider using `wrapping_offset_from` instead if these constraints - /// are difficult to satisfy. The only advantage of this method is - /// that it enables more aggressive compiler optimizations. - #[inline] - pub unsafe fn offset_from(self, origin: Self) -> $isize_ty { - // FIXME: should use LLVM's `sub nsw nuw`. - self.wrapping_offset_from(origin) - } - - /// Calculates the distance between two pointers. - /// - /// The returned value is in units of `T`: the distance in bytes is - /// divided by `mem::size_of::<T>()`. - /// - /// If the address different between the two pointers is not a - /// multiple of `mem::size_of::<T>()` then the result of the - /// division is rounded towards zero. - /// - /// Though this method is safe for any two pointers, note that its - /// result will be mostly useless if the two pointers aren't into - /// the same allocated object, for example if they point to two - /// different local variables. - #[inline] - pub fn wrapping_offset_from(self, origin: Self) -> $isize_ty { - let x: $isize_ty = unsafe { crate::mem::transmute(self) }; - let y: $isize_ty = unsafe { crate::mem::transmute(origin) }; - // note: {-,/} currently perform wrapping_{sub, div} - (y - x) / (crate::mem::size_of::<T>() as isize) - } - - /// Calculates the offset from a pointer (convenience for - /// `.offset(count as isize)`). - /// - /// `count` is in units of `T`; e.g. a count of 3 represents a - /// pointer offset of `3 * size_of::<T>()` bytes. - /// - /// # Safety - /// - /// If any of the following conditions are violated, the result is - /// Undefined Behavior: - /// - /// * Both the starting and resulting pointer must be either in - /// bounds or one byte past the end of an allocated object. - /// - /// * The computed offset, in bytes, cannot overflow an `isize`. - /// - /// * The offset being in bounds cannot rely on "wrapping around" - /// the address space. That is, the infinite-precision sum must fit - /// in a `usize`. - /// - /// The compiler and standard library generally tries to ensure - /// allocations never reach a size where an offset is a concern. For - /// instance, `Vec` and `Box` ensure they never allocate more than - /// `isize::MAX` bytes, so `vec.as_ptr().add(vec.len())` is always - /// safe. - /// - /// Most platforms fundamentally can't even construct such an - /// allocation. For instance, no known 64-bit platform can ever - /// serve a request for 263 bytes due to page-table limitations or - /// splitting the address space. However, some 32-bit and 16-bit - /// platforms may successfully serve a request for more than - /// `isize::MAX` bytes with things like Physical Address Extension. - /// As such, memory acquired directly from allocators or memory - /// mapped files may be too large to handle with this function. - /// - /// Consider using `wrapping_offset` instead if these constraints - /// are difficult to satisfy. The only advantage of this method is - /// that it enables more aggressive compiler optimizations. - #[inline] - #[allow(clippy::should_implement_trait)] - pub unsafe fn add(self, count: $usize_ty) -> Self { - self.offset(count.cast()) - } - - /// Calculates the offset from a pointer (convenience for - /// `.offset((count as isize).wrapping_neg())`). - /// - /// `count` is in units of T; e.g. a `count` of 3 represents a - /// pointer offset of `3 * size_of::<T>()` bytes. - /// - /// # Safety - /// - /// If any of the following conditions are violated, the result is - /// Undefined Behavior: - /// - /// * Both the starting and resulting pointer must be either in - /// bounds or one byte past the end of an allocated object. - /// - /// * The computed offset cannot exceed `isize::MAX` **bytes**. - /// - /// * The offset being in bounds cannot rely on "wrapping around" - /// the address space. That is, the infinite-precision sum must fit - /// in a usize. - /// - /// The compiler and standard library generally tries to ensure - /// allocations never reach a size where an offset is a concern. For - /// instance, `Vec` and `Box` ensure they never allocate more than - /// `isize::MAX` bytes, so - /// `vec.as_ptr().add(vec.len()).sub(vec.len())` is always safe. - /// - /// Most platforms fundamentally can't even construct such an - /// allocation. For instance, no known 64-bit platform can ever - /// serve a request for 2<sup>63</sup> bytes due to page-table - /// limitations or splitting the address space. However, some 32-bit - /// and 16-bit platforms may successfully serve a request for more - /// than `isize::MAX` bytes with things like Physical Address - /// Extension. As such, memory acquired directly from allocators or - /// memory mapped files *may* be too large to handle with this - /// function. - /// - /// Consider using `wrapping_offset` instead if these constraints - /// are difficult to satisfy. The only advantage of this method is - /// that it enables more aggressive compiler optimizations. - #[inline] - #[allow(clippy::should_implement_trait)] - pub unsafe fn sub(self, count: $usize_ty) -> Self { - let x: $isize_ty = count.cast(); - // note: - is currently wrapping_neg - self.offset(-x) - } - - /// Calculates the offset from a pointer using wrapping arithmetic. - /// (convenience for `.wrapping_offset(count as isize)`) - /// - /// `count` is in units of T; e.g. a `count` of 3 represents a - /// pointer offset of `3 * size_of::<T>()` bytes. - /// - /// # Safety - /// - /// The resulting pointer does not need to be in bounds, but it is - /// potentially hazardous to dereference (which requires `unsafe`). - /// - /// Always use `.add(count)` instead when possible, because `add` - /// allows the compiler to optimize better. - #[inline] - pub fn wrapping_add(self, count: $usize_ty) -> Self { - self.wrapping_offset(count.cast()) - } - - /// Calculates the offset from a pointer using wrapping arithmetic. - /// (convenience for `.wrapping_offset((count as - /// isize).wrapping_sub())`) - /// - /// `count` is in units of T; e.g. a `count` of 3 represents a - /// pointer offset of `3 * size_of::<T>()` bytes. - /// - /// # Safety - /// - /// The resulting pointer does not need to be in bounds, but it is - /// potentially hazardous to dereference (which requires `unsafe`). - /// - /// Always use `.sub(count)` instead when possible, because `sub` - /// allows the compiler to optimize better. - #[inline] - pub fn wrapping_sub(self, count: $usize_ty) -> Self { - let x: $isize_ty = count.cast(); - self.wrapping_offset(-1 * x) - } - } - - impl<T> $id<T> { - /// Shuffle vector elements according to `indices`. - #[inline] - pub fn shuffle1_dyn<I>(self, indices: I) -> Self - where - Self: codegen::shuffle1_dyn::Shuffle1Dyn<Indices = I>, - { - codegen::shuffle1_dyn::Shuffle1Dyn::shuffle1_dyn(self, indices) - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _shuffle1_dyn>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn shuffle1_dyn() { - let (null, non_null) = ptr_vals!($id<i32>); - - // alternating = [non_null, null, non_null, null, ...] - let mut alternating = $id::<i32>::splat(null); - for i in 0..$id::<i32>::lanes() { - if i % 2 == 0 { - alternating = alternating.replace(i, non_null); - } - } - - type Indices = <$id<i32> - as codegen::shuffle1_dyn::Shuffle1Dyn>::Indices; - // even = [0, 0, 2, 2, 4, 4, ..] - let even = { - let mut v = Indices::splat(0); - for i in 0..$id::<i32>::lanes() { - if i % 2 == 0 { - v = v.replace(i, (i as u8).into()); - } else { - v = v.replace(i, (i as u8 - 1).into()); - } - } - v - }; - // odd = [1, 1, 3, 3, 5, 5, ...] - let odd = { - let mut v = Indices::splat(0); - for i in 0..$id::<i32>::lanes() { - if i % 2 != 0 { - v = v.replace(i, (i as u8).into()); - } else { - v = v.replace(i, (i as u8 + 1).into()); - } - } - v - }; - - assert_eq!( - alternating.shuffle1_dyn(even), - $id::<i32>::splat(non_null) - ); - if $id::<i32>::lanes() > 1 { - assert_eq!( - alternating.shuffle1_dyn(odd), - $id::<i32>::splat(null) - ); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops.rs b/third_party/rust/packed_simd/src/api/ops.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops.rs +++ /dev/null @@ -1,32 +0,0 @@ -//! Implementation of the `ops` traits -#[macro_use] -mod vector_mask_bitwise; -#[macro_use] -mod scalar_mask_bitwise; - -#[macro_use] -mod vector_arithmetic; -#[macro_use] -mod scalar_arithmetic; - -#[macro_use] -mod vector_bitwise; -#[macro_use] -mod scalar_bitwise; - -#[macro_use] -mod vector_shifts; -#[macro_use] -mod scalar_shifts; - -#[macro_use] -mod vector_rotates; - -#[macro_use] -mod vector_neg; - -#[macro_use] -mod vector_int_min_max; - -#[macro_use] -mod vector_float_min_max; diff --git a/third_party/rust/packed_simd/src/api/ops/scalar_arithmetic.rs b/third_party/rust/packed_simd/src/api/ops/scalar_arithmetic.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/scalar_arithmetic.rs +++ /dev/null @@ -1,203 +0,0 @@ -//! Vertical (lane-wise) vector-scalar / scalar-vector arithmetic operations. - -macro_rules! impl_ops_scalar_arithmetic { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::ops::Add<$elem_ty> for $id { - type Output = Self; - #[inline] - fn add(self, other: $elem_ty) -> Self { - self + $id::splat(other) - } - } - impl crate::ops::Add<$id> for $elem_ty { - type Output = $id; - #[inline] - fn add(self, other: $id) -> $id { - $id::splat(self) + other - } - } - - impl crate::ops::Sub<$elem_ty> for $id { - type Output = Self; - #[inline] - fn sub(self, other: $elem_ty) -> Self { - self - $id::splat(other) - } - } - impl crate::ops::Sub<$id> for $elem_ty { - type Output = $id; - #[inline] - fn sub(self, other: $id) -> $id { - $id::splat(self) - other - } - } - - impl crate::ops::Mul<$elem_ty> for $id { - type Output = Self; - #[inline] - fn mul(self, other: $elem_ty) -> Self { - self * $id::splat(other) - } - } - impl crate::ops::Mul<$id> for $elem_ty { - type Output = $id; - #[inline] - fn mul(self, other: $id) -> $id { - $id::splat(self) * other - } - } - - impl crate::ops::Div<$elem_ty> for $id { - type Output = Self; - #[inline] - fn div(self, other: $elem_ty) -> Self { - self / $id::splat(other) - } - } - impl crate::ops::Div<$id> for $elem_ty { - type Output = $id; - #[inline] - fn div(self, other: $id) -> $id { - $id::splat(self) / other - } - } - - impl crate::ops::Rem<$elem_ty> for $id { - type Output = Self; - #[inline] - fn rem(self, other: $elem_ty) -> Self { - self % $id::splat(other) - } - } - impl crate::ops::Rem<$id> for $elem_ty { - type Output = $id; - #[inline] - fn rem(self, other: $id) -> $id { - $id::splat(self) % other - } - } - - impl crate::ops::AddAssign<$elem_ty> for $id { - #[inline] - fn add_assign(&mut self, other: $elem_ty) { - *self = *self + other; - } - } - - impl crate::ops::SubAssign<$elem_ty> for $id { - #[inline] - fn sub_assign(&mut self, other: $elem_ty) { - *self = *self - other; - } - } - - impl crate::ops::MulAssign<$elem_ty> for $id { - #[inline] - fn mul_assign(&mut self, other: $elem_ty) { - *self = *self * other; - } - } - - impl crate::ops::DivAssign<$elem_ty> for $id { - #[inline] - fn div_assign(&mut self, other: $elem_ty) { - *self = *self / other; - } - } - - impl crate::ops::RemAssign<$elem_ty> for $id { - #[inline] - fn rem_assign(&mut self, other: $elem_ty) { - *self = *self % other; - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_scalar_arith>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ops_scalar_arithmetic() { - let zi = 0 as $elem_ty; - let oi = 1 as $elem_ty; - let ti = 2 as $elem_ty; - let fi = 4 as $elem_ty; - let z = $id::splat(zi); - let o = $id::splat(oi); - let t = $id::splat(ti); - let f = $id::splat(fi); - - // add - assert_eq!(zi + z, z); - assert_eq!(z + zi, z); - assert_eq!(oi + z, o); - assert_eq!(o + zi, o); - assert_eq!(ti + z, t); - assert_eq!(t + zi, t); - assert_eq!(ti + t, f); - assert_eq!(t + ti, f); - // sub - assert_eq!(zi - z, z); - assert_eq!(z - zi, z); - assert_eq!(oi - z, o); - assert_eq!(o - zi, o); - assert_eq!(ti - z, t); - assert_eq!(t - zi, t); - assert_eq!(fi - t, t); - assert_eq!(f - ti, t); - assert_eq!(f - o - o, t); - assert_eq!(f - oi - oi, t); - // mul - assert_eq!(zi * z, z); - assert_eq!(z * zi, z); - assert_eq!(zi * o, z); - assert_eq!(z * oi, z); - assert_eq!(zi * t, z); - assert_eq!(z * ti, z); - assert_eq!(oi * t, t); - assert_eq!(o * ti, t); - assert_eq!(ti * t, f); - assert_eq!(t * ti, f); - // div - assert_eq!(zi / o, z); - assert_eq!(z / oi, z); - assert_eq!(ti / o, t); - assert_eq!(t / oi, t); - assert_eq!(fi / o, f); - assert_eq!(f / oi, f); - assert_eq!(ti / t, o); - assert_eq!(t / ti, o); - assert_eq!(fi / t, t); - assert_eq!(f / ti, t); - // rem - assert_eq!(oi % o, z); - assert_eq!(o % oi, z); - assert_eq!(fi % t, z); - assert_eq!(f % ti, z); - - { - let mut v = z; - assert_eq!(v, z); - v += oi; // add_assign - assert_eq!(v, o); - v -= oi; // sub_assign - assert_eq!(v, z); - v = t; - v *= oi; // mul_assign - assert_eq!(v, t); - v *= ti; - assert_eq!(v, f); - v /= oi; // div_assign - assert_eq!(v, f); - v /= ti; - assert_eq!(v, t); - v %= ti; // rem_assign - assert_eq!(v, z); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/scalar_bitwise.rs b/third_party/rust/packed_simd/src/api/ops/scalar_bitwise.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/scalar_bitwise.rs +++ /dev/null @@ -1,162 +0,0 @@ -//! Vertical (lane-wise) vector-scalar / scalar-vector bitwise operations. - -macro_rules! impl_ops_scalar_bitwise { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - impl crate::ops::BitXor<$elem_ty> for $id { - type Output = Self; - #[inline] - fn bitxor(self, other: $elem_ty) -> Self { - self ^ $id::splat(other) - } - } - impl crate::ops::BitXor<$id> for $elem_ty { - type Output = $id; - #[inline] - fn bitxor(self, other: $id) -> $id { - $id::splat(self) ^ other - } - } - - impl crate::ops::BitAnd<$elem_ty> for $id { - type Output = Self; - #[inline] - fn bitand(self, other: $elem_ty) -> Self { - self & $id::splat(other) - } - } - impl crate::ops::BitAnd<$id> for $elem_ty { - type Output = $id; - #[inline] - fn bitand(self, other: $id) -> $id { - $id::splat(self) & other - } - } - - impl crate::ops::BitOr<$elem_ty> for $id { - type Output = Self; - #[inline] - fn bitor(self, other: $elem_ty) -> Self { - self | $id::splat(other) - } - } - impl crate::ops::BitOr<$id> for $elem_ty { - type Output = $id; - #[inline] - fn bitor(self, other: $id) -> $id { - $id::splat(self) | other - } - } - - impl crate::ops::BitAndAssign<$elem_ty> for $id { - #[inline] - fn bitand_assign(&mut self, other: $elem_ty) { - *self = *self & other; - } - } - impl crate::ops::BitOrAssign<$elem_ty> for $id { - #[inline] - fn bitor_assign(&mut self, other: $elem_ty) { - *self = *self | other; - } - } - impl crate::ops::BitXorAssign<$elem_ty> for $id { - #[inline] - fn bitxor_assign(&mut self, other: $elem_ty) { - *self = *self ^ other; - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_scalar_bitwise>] { - use super::*; - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ops_scalar_bitwise() { - let zi = 0 as $elem_ty; - let oi = 1 as $elem_ty; - let ti = 2 as $elem_ty; - let z = $id::splat(zi); - let o = $id::splat(oi); - let t = $id::splat(ti); - - // BitAnd: - assert_eq!(oi & o, o); - assert_eq!(o & oi, o); - assert_eq!(oi & z, z); - assert_eq!(o & zi, z); - assert_eq!(zi & o, z); - assert_eq!(z & oi, z); - assert_eq!(zi & z, z); - assert_eq!(z & zi, z); - - assert_eq!(ti & t, t); - assert_eq!(t & ti, t); - assert_eq!(ti & o, z); - assert_eq!(t & oi, z); - assert_eq!(oi & t, z); - assert_eq!(o & ti, z); - - // BitOr: - assert_eq!(oi | o, o); - assert_eq!(o | oi, o); - assert_eq!(oi | z, o); - assert_eq!(o | zi, o); - assert_eq!(zi | o, o); - assert_eq!(z | oi, o); - assert_eq!(zi | z, z); - assert_eq!(z | zi, z); - - assert_eq!(ti | t, t); - assert_eq!(t | ti, t); - assert_eq!(zi | t, t); - assert_eq!(z | ti, t); - assert_eq!(ti | z, t); - assert_eq!(t | zi, t); - - // BitXOR: - assert_eq!(oi ^ o, z); - assert_eq!(o ^ oi, z); - assert_eq!(zi ^ z, z); - assert_eq!(z ^ zi, z); - assert_eq!(zi ^ o, o); - assert_eq!(z ^ oi, o); - assert_eq!(oi ^ z, o); - assert_eq!(o ^ zi, o); - - assert_eq!(ti ^ t, z); - assert_eq!(t ^ ti, z); - assert_eq!(ti ^ z, t); - assert_eq!(t ^ zi, t); - assert_eq!(zi ^ t, t); - assert_eq!(z ^ ti, t); - - { - // AndAssign: - let mut v = o; - v &= ti; - assert_eq!(v, z); - } - { - // OrAssign: - let mut v = z; - v |= oi; - assert_eq!(v, o); - } - { - // XORAssign: - let mut v = z; - v ^= oi; - assert_eq!(v, o); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/scalar_mask_bitwise.rs b/third_party/rust/packed_simd/src/api/ops/scalar_mask_bitwise.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/scalar_mask_bitwise.rs +++ /dev/null @@ -1,140 +0,0 @@ -//! Vertical (lane-wise) vector-vector bitwise operations. - -macro_rules! impl_ops_scalar_mask_bitwise { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - impl crate::ops::BitXor<bool> for $id { - type Output = Self; - #[inline] - fn bitxor(self, other: bool) -> Self { - self ^ $id::splat(other) - } - } - impl crate::ops::BitXor<$id> for bool { - type Output = $id; - #[inline] - fn bitxor(self, other: $id) -> $id { - $id::splat(self) ^ other - } - } - - impl crate::ops::BitAnd<bool> for $id { - type Output = Self; - #[inline] - fn bitand(self, other: bool) -> Self { - self & $id::splat(other) - } - } - impl crate::ops::BitAnd<$id> for bool { - type Output = $id; - #[inline] - fn bitand(self, other: $id) -> $id { - $id::splat(self) & other - } - } - - impl crate::ops::BitOr<bool> for $id { - type Output = Self; - #[inline] - fn bitor(self, other: bool) -> Self { - self | $id::splat(other) - } - } - impl crate::ops::BitOr<$id> for bool { - type Output = $id; - #[inline] - fn bitor(self, other: $id) -> $id { - $id::splat(self) | other - } - } - - impl crate::ops::BitAndAssign<bool> for $id { - #[inline] - fn bitand_assign(&mut self, other: bool) { - *self = *self & other; - } - } - impl crate::ops::BitOrAssign<bool> for $id { - #[inline] - fn bitor_assign(&mut self, other: bool) { - *self = *self | other; - } - } - impl crate::ops::BitXorAssign<bool> for $id { - #[inline] - fn bitxor_assign(&mut self, other: bool) { - *self = *self ^ other; - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_scalar_mask_bitwise>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ops_scalar_mask_bitwise() { - let ti = true; - let fi = false; - let t = $id::splat(ti); - let f = $id::splat(fi); - assert!(t != f); - assert!(!(t == f)); - - // BitAnd: - assert_eq!(ti & f, f); - assert_eq!(t & fi, f); - assert_eq!(fi & t, f); - assert_eq!(f & ti, f); - assert_eq!(ti & t, t); - assert_eq!(t & ti, t); - assert_eq!(fi & f, f); - assert_eq!(f & fi, f); - - // BitOr: - assert_eq!(ti | f, t); - assert_eq!(t | fi, t); - assert_eq!(fi | t, t); - assert_eq!(f | ti, t); - assert_eq!(ti | t, t); - assert_eq!(t | ti, t); - assert_eq!(fi | f, f); - assert_eq!(f | fi, f); - - // BitXOR: - assert_eq!(ti ^ f, t); - assert_eq!(t ^ fi, t); - assert_eq!(fi ^ t, t); - assert_eq!(f ^ ti, t); - assert_eq!(ti ^ t, f); - assert_eq!(t ^ ti, f); - assert_eq!(fi ^ f, f); - assert_eq!(f ^ fi, f); - - { - // AndAssign: - let mut v = f; - v &= ti; - assert_eq!(v, f); - } - { - // OrAssign: - let mut v = f; - v |= ti; - assert_eq!(v, t); - } - { - // XORAssign: - let mut v = f; - v ^= ti; - assert_eq!(v, t); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/scalar_shifts.rs b/third_party/rust/packed_simd/src/api/ops/scalar_shifts.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/scalar_shifts.rs +++ /dev/null @@ -1,106 +0,0 @@ -//! Vertical (lane-wise) vector-scalar shifts operations. - -macro_rules! impl_ops_scalar_shifts { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::ops::Shl<u32> for $id { - type Output = Self; - #[inline] - fn shl(self, other: u32) -> Self { - self << $id::splat(other as $elem_ty) - } - } - impl crate::ops::Shr<u32> for $id { - type Output = Self; - #[inline] - fn shr(self, other: u32) -> Self { - self >> $id::splat(other as $elem_ty) - } - } - - impl crate::ops::ShlAssign<u32> for $id { - #[inline] - fn shl_assign(&mut self, other: u32) { - *self = *self << other; - } - } - impl crate::ops::ShrAssign<u32> for $id { - #[inline] - fn shr_assign(&mut self, other: u32) { - *self = *self >> other; - } - } - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_scalar_shifts>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg_attr(any(target_arch = "s390x", target_arch = "sparc64"), - allow(unreachable_code, unused_variables) - )] - #[cfg(not(target_arch = "aarch64"))] - //~^ FIXME: https://github.com/rust-lang/packed_simd/issues/317 - fn ops_scalar_shifts() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - { - let zi = 0 as u32; - let oi = 1 as u32; - let ti = 2 as u32; - let maxi - = (mem::size_of::<$elem_ty>() * 8 - 1) as u32; - - // shr - assert_eq!(z >> zi, z); - assert_eq!(z >> oi, z); - assert_eq!(z >> ti, z); - assert_eq!(z >> ti, z); - - #[cfg(any(target_arch = "s390x", target_arch = "sparc64"))] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/13 - return; - } - - assert_eq!(o >> zi, o); - assert_eq!(t >> zi, t); - assert_eq!(f >> zi, f); - assert_eq!(f >> maxi, z); - - assert_eq!(o >> oi, z); - assert_eq!(t >> oi, o); - assert_eq!(t >> ti, z); - assert_eq!(f >> oi, t); - assert_eq!(f >> ti, o); - assert_eq!(f >> maxi, z); - - // shl - assert_eq!(z << zi, z); - assert_eq!(o << zi, o); - assert_eq!(t << zi, t); - assert_eq!(f << zi, f); - assert_eq!(f << maxi, z); - - assert_eq!(o << oi, t); - assert_eq!(o << ti, f); - assert_eq!(t << oi, f); - - { // shr_assign - let mut v = o; - v >>= oi; - assert_eq!(v, z); - } - { // shl_assign - let mut v = o; - v <<= oi; - assert_eq!(v, t); - } - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_arithmetic.rs b/third_party/rust/packed_simd/src/api/ops/vector_arithmetic.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_arithmetic.rs +++ /dev/null @@ -1,148 +0,0 @@ -//! Vertical (lane-wise) vector-vector arithmetic operations. - -macro_rules! impl_ops_vector_arithmetic { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::ops::Add for $id { - type Output = Self; - #[inline] - fn add(self, other: Self) -> Self { - use crate::llvm::simd_add; - unsafe { Simd(simd_add(self.0, other.0)) } - } - } - - impl crate::ops::Sub for $id { - type Output = Self; - #[inline] - fn sub(self, other: Self) -> Self { - use crate::llvm::simd_sub; - unsafe { Simd(simd_sub(self.0, other.0)) } - } - } - - impl crate::ops::Mul for $id { - type Output = Self; - #[inline] - fn mul(self, other: Self) -> Self { - use crate::llvm::simd_mul; - unsafe { Simd(simd_mul(self.0, other.0)) } - } - } - - impl crate::ops::Div for $id { - type Output = Self; - #[inline] - fn div(self, other: Self) -> Self { - use crate::llvm::simd_div; - unsafe { Simd(simd_div(self.0, other.0)) } - } - } - - impl crate::ops::Rem for $id { - type Output = Self; - #[inline] - fn rem(self, other: Self) -> Self { - use crate::llvm::simd_rem; - unsafe { Simd(simd_rem(self.0, other.0)) } - } - } - - impl crate::ops::AddAssign for $id { - #[inline] - fn add_assign(&mut self, other: Self) { - *self = *self + other; - } - } - - impl crate::ops::SubAssign for $id { - #[inline] - fn sub_assign(&mut self, other: Self) { - *self = *self - other; - } - } - - impl crate::ops::MulAssign for $id { - #[inline] - fn mul_assign(&mut self, other: Self) { - *self = *self * other; - } - } - - impl crate::ops::DivAssign for $id { - #[inline] - fn div_assign(&mut self, other: Self) { - *self = *self / other; - } - } - - impl crate::ops::RemAssign for $id { - #[inline] - fn rem_assign(&mut self, other: Self) { - *self = *self % other; - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_vector_arith>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ops_vector_arithmetic() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - // add - assert_eq!(z + z, z); - assert_eq!(o + z, o); - assert_eq!(t + z, t); - assert_eq!(t + t, f); - // sub - assert_eq!(z - z, z); - assert_eq!(o - z, o); - assert_eq!(t - z, t); - assert_eq!(f - t, t); - assert_eq!(f - o - o, t); - // mul - assert_eq!(z * z, z); - assert_eq!(z * o, z); - assert_eq!(z * t, z); - assert_eq!(o * t, t); - assert_eq!(t * t, f); - // div - assert_eq!(z / o, z); - assert_eq!(t / o, t); - assert_eq!(f / o, f); - assert_eq!(t / t, o); - assert_eq!(f / t, t); - // rem - assert_eq!(o % o, z); - assert_eq!(f % t, z); - - { - let mut v = z; - assert_eq!(v, z); - v += o; // add_assign - assert_eq!(v, o); - v -= o; // sub_assign - assert_eq!(v, z); - v = t; - v *= o; // mul_assign - assert_eq!(v, t); - v *= t; - assert_eq!(v, f); - v /= o; // div_assign - assert_eq!(v, f); - v /= t; - assert_eq!(v, t); - v %= t; // rem_assign - assert_eq!(v, z); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_bitwise.rs b/third_party/rust/packed_simd/src/api/ops/vector_bitwise.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_bitwise.rs +++ /dev/null @@ -1,129 +0,0 @@ -//! Vertical (lane-wise) vector-vector bitwise operations. - -macro_rules! impl_ops_vector_bitwise { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - impl crate::ops::Not for $id { - type Output = Self; - #[inline] - fn not(self) -> Self { - Self::splat($true) ^ self - } - } - impl crate::ops::BitXor for $id { - type Output = Self; - #[inline] - fn bitxor(self, other: Self) -> Self { - use crate::llvm::simd_xor; - unsafe { Simd(simd_xor(self.0, other.0)) } - } - } - impl crate::ops::BitAnd for $id { - type Output = Self; - #[inline] - fn bitand(self, other: Self) -> Self { - use crate::llvm::simd_and; - unsafe { Simd(simd_and(self.0, other.0)) } - } - } - impl crate::ops::BitOr for $id { - type Output = Self; - #[inline] - fn bitor(self, other: Self) -> Self { - use crate::llvm::simd_or; - unsafe { Simd(simd_or(self.0, other.0)) } - } - } - impl crate::ops::BitAndAssign for $id { - #[inline] - fn bitand_assign(&mut self, other: Self) { - *self = *self & other; - } - } - impl crate::ops::BitOrAssign for $id { - #[inline] - fn bitor_assign(&mut self, other: Self) { - *self = *self | other; - } - } - impl crate::ops::BitXorAssign for $id { - #[inline] - fn bitxor_assign(&mut self, other: Self) { - *self = *self ^ other; - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_vector_bitwise>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ops_vector_bitwise() { - - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let m = $id::splat(!z.extract(0)); - - // Not: - assert_eq!(!z, m); - assert_eq!(!m, z); - - // BitAnd: - assert_eq!(o & o, o); - assert_eq!(o & z, z); - assert_eq!(z & o, z); - assert_eq!(z & z, z); - - assert_eq!(t & t, t); - assert_eq!(t & o, z); - assert_eq!(o & t, z); - - // BitOr: - assert_eq!(o | o, o); - assert_eq!(o | z, o); - assert_eq!(z | o, o); - assert_eq!(z | z, z); - - assert_eq!(t | t, t); - assert_eq!(z | t, t); - assert_eq!(t | z, t); - - // BitXOR: - assert_eq!(o ^ o, z); - assert_eq!(z ^ z, z); - assert_eq!(z ^ o, o); - assert_eq!(o ^ z, o); - - assert_eq!(t ^ t, z); - assert_eq!(t ^ z, t); - assert_eq!(z ^ t, t); - - { - // AndAssign: - let mut v = o; - v &= t; - assert_eq!(v, z); - } - { - // OrAssign: - let mut v = z; - v |= o; - assert_eq!(v, o); - } - { - // XORAssign: - let mut v = z; - v ^= o; - assert_eq!(v, o); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_float_min_max.rs b/third_party/rust/packed_simd/src/api/ops/vector_float_min_max.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_float_min_max.rs +++ /dev/null @@ -1,74 +0,0 @@ -//! Vertical (lane-wise) vector `min` and `max` for floating-point vectors. - -macro_rules! impl_ops_vector_float_min_max { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Minimum of two vectors. - /// - /// Returns a new vector containing the minimum value of each of - /// the input vector lanes. - #[inline] - pub fn min(self, x: Self) -> Self { - use crate::llvm::simd_fmin; - unsafe { Simd(simd_fmin(self.0, x.0)) } - } - - /// Maximum of two vectors. - /// - /// Returns a new vector containing the maximum value of each of - /// the input vector lanes. - #[inline] - pub fn max(self, x: Self) -> Self { - use crate::llvm::simd_fmax; - unsafe { Simd(simd_fmax(self.0, x.0)) } - } - } - test_if!{ - $test_tt: - paste::item! { - #[cfg(not(any( - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/223 - all(target_arch = "mips", target_endian = "big"), - target_arch = "mips64", - )))] - pub mod [<$id _ops_vector_min_max>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn min_max() { - let n = crate::$elem_ty::NAN; - let o = $id::splat(1. as $elem_ty); - let t = $id::splat(2. as $elem_ty); - - let mut m = o; // [1., 2., 1., 2., ...] - let mut on = o; - for i in 0..$id::lanes() { - if i % 2 == 0 { - m = m.replace(i, 2. as $elem_ty); - on = on.replace(i, n); - } - } - - assert_eq!(o.min(t), o); - assert_eq!(t.min(o), o); - assert_eq!(m.min(o), o); - assert_eq!(o.min(m), o); - assert_eq!(m.min(t), m); - assert_eq!(t.min(m), m); - - assert_eq!(o.max(t), t); - assert_eq!(t.max(o), t); - assert_eq!(m.max(o), m); - assert_eq!(o.max(m), m); - assert_eq!(m.max(t), t); - assert_eq!(t.max(m), t); - - assert_eq!(on.min(o), o); - assert_eq!(o.min(on), o); - assert_eq!(on.max(o), o); - assert_eq!(o.max(on), o); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_int_min_max.rs b/third_party/rust/packed_simd/src/api/ops/vector_int_min_max.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_int_min_max.rs +++ /dev/null @@ -1,57 +0,0 @@ -//! Vertical (lane-wise) vector `min` and `max` for integer vectors. - -macro_rules! impl_ops_vector_int_min_max { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Minimum of two vectors. - /// - /// Returns a new vector containing the minimum value of each of - /// the input vector lanes. - #[inline] - pub fn min(self, x: Self) -> Self { - self.lt(x).select(self, x) - } - - /// Maximum of two vectors. - /// - /// Returns a new vector containing the maximum value of each of - /// the input vector lanes. - #[inline] - pub fn max(self, x: Self) -> Self { - self.gt(x).select(self, x) - } - } - test_if!{$test_tt: - paste::item! { - pub mod [<$id _ops_vector_min_max>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn min_max() { - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - - let mut m = o; - for i in 0..$id::lanes() { - if i % 2 == 0 { - m = m.replace(i, 2 as $elem_ty); - } - } - assert_eq!(o.min(t), o); - assert_eq!(t.min(o), o); - assert_eq!(m.min(o), o); - assert_eq!(o.min(m), o); - assert_eq!(m.min(t), m); - assert_eq!(t.min(m), m); - - assert_eq!(o.max(t), t); - assert_eq!(t.max(o), t); - assert_eq!(m.max(o), m); - assert_eq!(o.max(m), m); - assert_eq!(m.max(t), t); - assert_eq!(t.max(m), t); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_mask_bitwise.rs b/third_party/rust/packed_simd/src/api/ops/vector_mask_bitwise.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_mask_bitwise.rs +++ /dev/null @@ -1,116 +0,0 @@ -//! Vertical (lane-wise) vector-vector bitwise operations. - -macro_rules! impl_ops_vector_mask_bitwise { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $test_tt:tt | - ($true:expr, $false:expr) - ) => { - impl crate::ops::Not for $id { - type Output = Self; - #[inline] - fn not(self) -> Self { - Self::splat($true) ^ self - } - } - impl crate::ops::BitXor for $id { - type Output = Self; - #[inline] - fn bitxor(self, other: Self) -> Self { - use crate::llvm::simd_xor; - unsafe { Simd(simd_xor(self.0, other.0)) } - } - } - impl crate::ops::BitAnd for $id { - type Output = Self; - #[inline] - fn bitand(self, other: Self) -> Self { - use crate::llvm::simd_and; - unsafe { Simd(simd_and(self.0, other.0)) } - } - } - impl crate::ops::BitOr for $id { - type Output = Self; - #[inline] - fn bitor(self, other: Self) -> Self { - use crate::llvm::simd_or; - unsafe { Simd(simd_or(self.0, other.0)) } - } - } - impl crate::ops::BitAndAssign for $id { - #[inline] - fn bitand_assign(&mut self, other: Self) { - *self = *self & other; - } - } - impl crate::ops::BitOrAssign for $id { - #[inline] - fn bitor_assign(&mut self, other: Self) { - *self = *self | other; - } - } - impl crate::ops::BitXorAssign for $id { - #[inline] - fn bitxor_assign(&mut self, other: Self) { - *self = *self ^ other; - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_vector_mask_bitwise>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn ops_vector_mask_bitwise() { - let t = $id::splat(true); - let f = $id::splat(false); - assert!(t != f); - assert!(!(t == f)); - - // Not: - assert_eq!(!t, f); - assert_eq!(t, !f); - - // BitAnd: - assert_eq!(t & f, f); - assert_eq!(f & t, f); - assert_eq!(t & t, t); - assert_eq!(f & f, f); - - // BitOr: - assert_eq!(t | f, t); - assert_eq!(f | t, t); - assert_eq!(t | t, t); - assert_eq!(f | f, f); - - // BitXOR: - assert_eq!(t ^ f, t); - assert_eq!(f ^ t, t); - assert_eq!(t ^ t, f); - assert_eq!(f ^ f, f); - - { - // AndAssign: - let mut v = f; - v &= t; - assert_eq!(v, f); - } - { - // OrAssign: - let mut v = f; - v |= t; - assert_eq!(v, t); - } - { - // XORAssign: - let mut v = f; - v ^= t; - assert_eq!(v, t); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_neg.rs b/third_party/rust/packed_simd/src/api/ops/vector_neg.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_neg.rs +++ /dev/null @@ -1,43 +0,0 @@ -//! Vertical (lane-wise) vector `Neg`. - -macro_rules! impl_ops_vector_neg { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::ops::Neg for $id { - type Output = Self; - #[inline] - fn neg(self) -> Self { - Self::splat(-1 as $elem_ty) * self - } - } - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_vector_neg>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn neg() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - let nz = $id::splat(-(0 as $elem_ty)); - let no = $id::splat(-(1 as $elem_ty)); - let nt = $id::splat(-(2 as $elem_ty)); - let nf = $id::splat(-(4 as $elem_ty)); - - assert_eq!(-z, nz); - assert_eq!(-o, no); - assert_eq!(-t, nt); - assert_eq!(-f, nf); - - assert_eq!(z, -nz); - assert_eq!(o, -no); - assert_eq!(t, -nt); - assert_eq!(f, -nf); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_rotates.rs b/third_party/rust/packed_simd/src/api/ops/vector_rotates.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_rotates.rs +++ /dev/null @@ -1,92 +0,0 @@ -//! Vertical (lane-wise) vector rotates operations. -#![allow(unused)] - -macro_rules! impl_ops_vector_rotates { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Shifts the bits of each lane to the left by the specified - /// amount in the corresponding lane of `n`, wrapping the - /// truncated bits to the end of the resulting integer. - /// - /// Note: this is neither the same operation as `<<` nor equivalent - /// to `slice::rotate_left`. - #[inline] - pub fn rotate_left(self, n: $id) -> $id { - const LANE_WIDTH: $elem_ty = - crate::mem::size_of::<$elem_ty>() as $elem_ty * 8; - // Protect against undefined behavior for over-long bit shifts - let n = n % LANE_WIDTH; - (self << n) | (self >> ((LANE_WIDTH - n) % LANE_WIDTH)) - } - - /// Shifts the bits of each lane to the right by the specified - /// amount in the corresponding lane of `n`, wrapping the - /// truncated bits to the beginning of the resulting integer. - /// - /// Note: this is neither the same operation as `>>` nor equivalent - /// to `slice::rotate_right`. - #[inline] - pub fn rotate_right(self, n: $id) -> $id { - const LANE_WIDTH: $elem_ty = - crate::mem::size_of::<$elem_ty>() as $elem_ty * 8; - // Protect against undefined behavior for over-long bit shifts - let n = n % LANE_WIDTH; - (self >> n) | (self << ((LANE_WIDTH - n) % LANE_WIDTH)) - } - } - - test_if!{ - $test_tt: - paste::item! { - // FIXME: - // https://github.com/rust-lang-nursery/packed_simd/issues/75 - #[cfg(not(any( - target_arch = "s390x", - target_arch = "sparc64", - )))] - pub mod [<$id _ops_vector_rotate>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "aarch64"))] - //~^ FIXME: https://github.com/rust-lang/packed_simd/issues/317 - fn rotate_ops() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - let max = $id::splat( - (mem::size_of::<$elem_ty>() * 8 - 1) as $elem_ty); - - // rotate_right - assert_eq!(z.rotate_right(z), z); - assert_eq!(z.rotate_right(o), z); - assert_eq!(z.rotate_right(t), z); - - assert_eq!(o.rotate_right(z), o); - assert_eq!(t.rotate_right(z), t); - assert_eq!(f.rotate_right(z), f); - assert_eq!(f.rotate_right(max), f << 1); - - assert_eq!(o.rotate_right(o), o << max); - assert_eq!(t.rotate_right(o), o); - assert_eq!(t.rotate_right(t), o << max); - assert_eq!(f.rotate_right(o), t); - assert_eq!(f.rotate_right(t), o); - - // rotate_left - assert_eq!(z.rotate_left(z), z); - assert_eq!(o.rotate_left(z), o); - assert_eq!(t.rotate_left(z), t); - assert_eq!(f.rotate_left(z), f); - assert_eq!(f.rotate_left(max), t); - - assert_eq!(o.rotate_left(o), t); - assert_eq!(o.rotate_left(t), f); - assert_eq!(t.rotate_left(o), f); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ops/vector_shifts.rs b/third_party/rust/packed_simd/src/api/ops/vector_shifts.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ops/vector_shifts.rs +++ /dev/null @@ -1,106 +0,0 @@ -//! Vertical (lane-wise) vector-vector shifts operations. - -macro_rules! impl_ops_vector_shifts { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl crate::ops::Shl<$id> for $id { - type Output = Self; - #[inline] - fn shl(self, other: Self) -> Self { - use crate::llvm::simd_shl; - unsafe { Simd(simd_shl(self.0, other.0)) } - } - } - impl crate::ops::Shr<$id> for $id { - type Output = Self; - #[inline] - fn shr(self, other: Self) -> Self { - use crate::llvm::simd_shr; - unsafe { Simd(simd_shr(self.0, other.0)) } - } - } - impl crate::ops::ShlAssign<$id> for $id { - #[inline] - fn shl_assign(&mut self, other: Self) { - *self = *self << other; - } - } - impl crate::ops::ShrAssign<$id> for $id { - #[inline] - fn shr_assign(&mut self, other: Self) { - *self = *self >> other; - } - } - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _ops_vector_shifts>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg_attr(any(target_arch = "s390x", target_arch = "sparc64"), - allow(unreachable_code, unused_variables) - )] - #[cfg(not(target_arch = "aarch64"))] - //~^ FIXME: https://github.com/rust-lang/packed_simd/issues/317 - fn ops_vector_shifts() { - let z = $id::splat(0 as $elem_ty); - let o = $id::splat(1 as $elem_ty); - let t = $id::splat(2 as $elem_ty); - let f = $id::splat(4 as $elem_ty); - - let max =$id::splat( - (mem::size_of::<$elem_ty>() * 8 - 1) as $elem_ty - ); - - // shr - assert_eq!(z >> z, z); - assert_eq!(z >> o, z); - assert_eq!(z >> t, z); - assert_eq!(z >> t, z); - - #[cfg(any(target_arch = "s390x", target_arch = "sparc64"))] { - // FIXME: rust produces bad codegen for shifts: - // https://github.com/rust-lang-nursery/packed_simd/issues/13 - return; - } - - assert_eq!(o >> z, o); - assert_eq!(t >> z, t); - assert_eq!(f >> z, f); - assert_eq!(f >> max, z); - - assert_eq!(o >> o, z); - assert_eq!(t >> o, o); - assert_eq!(t >> t, z); - assert_eq!(f >> o, t); - assert_eq!(f >> t, o); - assert_eq!(f >> max, z); - - // shl - assert_eq!(z << z, z); - assert_eq!(o << z, o); - assert_eq!(t << z, t); - assert_eq!(f << z, f); - assert_eq!(f << max, z); - - assert_eq!(o << o, t); - assert_eq!(o << t, f); - assert_eq!(t << o, f); - - { - // shr_assign - let mut v = o; - v >>= o; - assert_eq!(v, z); - } - { - // shl_assign - let mut v = o; - v <<= o; - assert_eq!(v, t); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/ptr.rs b/third_party/rust/packed_simd/src/api/ptr.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ptr.rs +++ /dev/null @@ -1,4 +0,0 @@ -//! Vector of pointers - -#[macro_use] -mod gather_scatter; diff --git a/third_party/rust/packed_simd/src/api/ptr/gather_scatter.rs b/third_party/rust/packed_simd/src/api/ptr/gather_scatter.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/ptr/gather_scatter.rs +++ /dev/null @@ -1,216 +0,0 @@ -//! Implements masked gather and scatters for vectors of pointers - -macro_rules! impl_ptr_read { - ([$elem_ty:ty; $elem_count:expr]: $id:ident, $mask_ty:ident - | $test_tt:tt) => { - impl<T> $id<T> - where - [T; $elem_count]: sealed::SimdArray, - { - /// Reads selected vector elements from memory. - /// - /// Instantiates a new vector by reading the values from `self` for - /// those lanes whose `mask` is `true`, and using the elements of - /// `value` otherwise. - /// - /// No memory is accessed for those lanes of `self` whose `mask` is - /// `false`. - /// - /// # Safety - /// - /// This method is unsafe because it dereferences raw pointers. The - /// pointers must be aligned to `mem::align_of::<T>()`. - #[inline] - pub unsafe fn read<M>( - self, - mask: Simd<[M; $elem_count]>, - value: Simd<[T; $elem_count]>, - ) -> Simd<[T; $elem_count]> - where - M: sealed::Mask, - [M; $elem_count]: sealed::SimdArray, - { - use crate::llvm::simd_gather; - Simd(simd_gather(value.0, self.0, mask.0)) - } - } - - test_if! { - $test_tt: - paste::item! { - mod [<$id _read>] { - use super::*; - #[test] - fn read() { - let mut v = [0_i32; $elem_count]; - for i in 0..$elem_count { - v[i] = i as i32; - } - - let mut ptr = $id::<i32>::null(); - - for i in 0..$elem_count { - ptr = ptr.replace(i, - &v[i] as *const i32 as *mut i32 - ); - } - - // all mask elements are true: - let mask = $mask_ty::splat(true); - let def = Simd::<[i32; $elem_count]>::splat(42_i32); - let r: Simd<[i32; $elem_count]> = unsafe { - ptr.read(mask, def) - }; - assert_eq!( - r, - Simd::<[i32; $elem_count]>::from_slice_unaligned( - &v - ) - ); - - let mut mask = mask; - for i in 0..$elem_count { - if i % 2 != 0 { - mask = mask.replace(i, false); - } - } - - // even mask elements are true, odd ones are false: - let r: Simd<[i32; $elem_count]> = unsafe { - ptr.read(mask, def) - }; - let mut e = v; - for i in 0..$elem_count { - if i % 2 != 0 { - e[i] = 42; - } - } - assert_eq!( - r, - Simd::<[i32; $elem_count]>::from_slice_unaligned( - &e - ) - ); - - // all mask elements are false: - let mask = $mask_ty::splat(false); - let def = Simd::<[i32; $elem_count]>::splat(42_i32); - let r: Simd<[i32; $elem_count]> = unsafe { - ptr.read(mask, def) } - ; - assert_eq!(r, def); - } - } - } - } - }; -} - -macro_rules! impl_ptr_write { - ([$elem_ty:ty; $elem_count:expr]: $id:ident, $mask_ty:ident - | $test_tt:tt) => { - impl<T> $id<T> - where - [T; $elem_count]: sealed::SimdArray, - { - /// Writes selected vector elements to memory. - /// - /// Writes the lanes of `values` for which the mask is `true` to - /// their corresponding memory addresses in `self`. - /// - /// No memory is accessed for those lanes of `self` whose `mask` is - /// `false`. - /// - /// Overlapping memory addresses of `self` are written to in order - /// from the lest-significant to the most-significant element. - /// - /// # Safety - /// - /// This method is unsafe because it dereferences raw pointers. The - /// pointers must be aligned to `mem::align_of::<T>()`. - #[inline] - pub unsafe fn write<M>(self, mask: Simd<[M; $elem_count]>, value: Simd<[T; $elem_count]>) - where - M: sealed::Mask, - [M; $elem_count]: sealed::SimdArray, - { - use crate::llvm::simd_scatter; - simd_scatter(value.0, self.0, mask.0) - } - } - - test_if! { - $test_tt: - paste::item! { - mod [<$id _write>] { - use super::*; - #[test] - fn write() { - // forty_two = [42, 42, 42, ...] - let forty_two - = Simd::<[i32; $elem_count]>::splat(42_i32); - - // This test will write to this array - let mut arr = [0_i32; $elem_count]; - for i in 0..$elem_count { - arr[i] = i as i32; - } - // arr = [0, 1, 2, ...] - - let mut ptr = $id::<i32>::null(); - for i in 0..$elem_count { - ptr = ptr.replace(i, unsafe { - arr.as_ptr().add(i) as *mut i32 - }); - } - // ptr = [&arr[0], &arr[1], ...] - - // write `forty_two` to all elements of `v` - { - let backup = arr; - unsafe { - ptr.write($mask_ty::splat(true), forty_two) - }; - assert_eq!(arr, [42_i32; $elem_count]); - arr = backup; // arr = [0, 1, 2, ...] - } - - // write 42 to even elements of arr: - { - // set odd elements of the mask to false - let mut mask = $mask_ty::splat(true); - for i in 0..$elem_count { - if i % 2 != 0 { - mask = mask.replace(i, false); - } - } - // mask = [true, false, true, false, ...] - - // expected result r = [42, 1, 42, 3, 42, 5, ...] - let mut r = arr; - for i in 0..$elem_count { - if i % 2 == 0 { - r[i] = 42; - } - } - - let backup = arr; - unsafe { ptr.write(mask, forty_two) }; - assert_eq!(arr, r); - arr = backup; // arr = [0, 1, 2, 3, ...] - } - - // write 42 to no elements of arr - { - let backup = arr; - unsafe { - ptr.write($mask_ty::splat(false), forty_two) - }; - assert_eq!(arr, backup); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/reductions.rs b/third_party/rust/packed_simd/src/api/reductions.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/reductions.rs +++ /dev/null @@ -1,12 +0,0 @@ -//! Reductions - -#[macro_use] -mod float_arithmetic; -#[macro_use] -mod integer_arithmetic; -#[macro_use] -mod bitwise; -#[macro_use] -mod mask; -#[macro_use] -mod min_max; diff --git a/third_party/rust/packed_simd/src/api/reductions/bitwise.rs b/third_party/rust/packed_simd/src/api/reductions/bitwise.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/reductions/bitwise.rs +++ /dev/null @@ -1,151 +0,0 @@ -//! Implements portable horizontal bitwise vector reductions. -#![allow(unused)] - -macro_rules! impl_reduction_bitwise { - ( - [$elem_ty:ident; $elem_count:expr]: - $id:ident | $ielem_ty:ident | $test_tt:tt | - ($convert:expr) | - ($true:expr, $false:expr) - ) => { - impl $id { - /// Lane-wise bitwise `and` of the vector elements. - /// - /// Note: if the vector has one lane, the first element of the - /// vector is returned. - #[inline] - pub fn and(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_and; - let r: $ielem_ty = unsafe { simd_reduce_and(self.0) }; - $convert(r) - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on aarch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x &= self.extract(i) as $elem_ty; - } - x - } - } - - /// Lane-wise bitwise `or` of the vector elements. - /// - /// Note: if the vector has one lane, the first element of the - /// vector is returned. - #[inline] - pub fn or(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_or; - let r: $ielem_ty = unsafe { simd_reduce_or(self.0) }; - $convert(r) - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on aarch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x |= self.extract(i) as $elem_ty; - } - x - } - } - - /// Lane-wise bitwise `xor` of the vector elements. - /// - /// Note: if the vector has one lane, the first element of the - /// vector is returned. - #[inline] - pub fn xor(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_xor; - let r: $ielem_ty = unsafe { simd_reduce_xor(self.0) }; - $convert(r) - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on aarch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x ^= self.extract(i) as $elem_ty; - } - x - } - } - } - - test_if!{ - $test_tt: - paste::item! { - pub mod [<$id _reduction_bitwise>] { - use super::*; - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn and() { - let v = $id::splat($false); - assert_eq!(v.and(), $false); - let v = $id::splat($true); - assert_eq!(v.and(), $true); - let v = $id::splat($false); - let v = v.replace(0, $true); - if $id::lanes() > 1 { - assert_eq!(v.and(), $false); - } else { - assert_eq!(v.and(), $true); - } - let v = $id::splat($true); - let v = v.replace(0, $false); - assert_eq!(v.and(), $false); - - } - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn or() { - let v = $id::splat($false); - assert_eq!(v.or(), $false); - let v = $id::splat($true); - assert_eq!(v.or(), $true); - let v = $id::splat($false); - let v = v.replace(0, $true); - assert_eq!(v.or(), $true); - let v = $id::splat($true); - let v = v.replace(0, $false); - if $id::lanes() > 1 { - assert_eq!(v.or(), $true); - } else { - assert_eq!(v.or(), $false); - } - } - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn xor() { - let v = $id::splat($false); - assert_eq!(v.xor(), $false); - let v = $id::splat($true); - if $id::lanes() > 1 { - assert_eq!(v.xor(), $false); - } else { - assert_eq!(v.xor(), $true); - } - let v = $id::splat($false); - let v = v.replace(0, $true); - assert_eq!(v.xor(), $true); - let v = $id::splat($true); - let v = v.replace(0, $false); - if $id::lanes() > 1 { - assert_eq!(v.xor(), $true); - } else { - assert_eq!(v.xor(), $false); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/reductions/float_arithmetic.rs b/third_party/rust/packed_simd/src/api/reductions/float_arithmetic.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/reductions/float_arithmetic.rs +++ /dev/null @@ -1,313 +0,0 @@ -//! Implements portable horizontal float vector arithmetic reductions. - -macro_rules! impl_reduction_float_arithmetic { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Horizontal sum of the vector elements. - /// - /// The intrinsic performs a tree-reduction of the vector elements. - /// That is, for an 8 element vector: - /// - /// > ((x0 + x1) + (x2 + x3)) + ((x4 + x5) + (x6 + x7)) - /// - /// If one of the vector element is `NaN` the reduction returns - /// `NaN`. The resulting `NaN` is not required to be equal to any - /// of the `NaN`s in the vector. - #[inline] - pub fn sum(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_add_ordered; - unsafe { simd_reduce_add_ordered(self.0, 0 as $elem_ty) } - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on AArch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x += self.extract(i) as $elem_ty; - } - x - } - } - - /// Horizontal product of the vector elements. - /// - /// The intrinsic performs a tree-reduction of the vector elements. - /// That is, for an 8 element vector: - /// - /// > ((x0 * x1) * (x2 * x3)) * ((x4 * x5) * (x6 * x7)) - /// - /// If one of the vector element is `NaN` the reduction returns - /// `NaN`. The resulting `NaN` is not required to be equal to any - /// of the `NaN`s in the vector. - #[inline] - pub fn product(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_mul_ordered; - unsafe { simd_reduce_mul_ordered(self.0, 1 as $elem_ty) } - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on AArch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x *= self.extract(i) as $elem_ty; - } - x - } - } - } - - impl crate::iter::Sum for $id { - #[inline] - fn sum<I: Iterator<Item = $id>>(iter: I) -> $id { - iter.fold($id::splat(0.), crate::ops::Add::add) - } - } - - impl crate::iter::Product for $id { - #[inline] - fn product<I: Iterator<Item = $id>>(iter: I) -> $id { - iter.fold($id::splat(1.), crate::ops::Mul::mul) - } - } - - impl<'a> crate::iter::Sum<&'a $id> for $id { - #[inline] - fn sum<I: Iterator<Item = &'a $id>>(iter: I) -> $id { - iter.fold($id::splat(0.), |a, b| crate::ops::Add::add(a, *b)) - } - } - - impl<'a> crate::iter::Product<&'a $id> for $id { - #[inline] - fn product<I: Iterator<Item = &'a $id>>(iter: I) -> $id { - iter.fold($id::splat(1.), |a, b| crate::ops::Mul::mul(a, *b)) - } - } - - test_if! { - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _reduction_float_arith>] { - use super::*; - fn alternating(x: usize) -> $id { - let mut v = $id::splat(1 as $elem_ty); - for i in 0..$id::lanes() { - if i % x == 0 { - v = v.replace(i, 2 as $elem_ty); - } - } - v - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn sum() { - let v = $id::splat(0 as $elem_ty); - assert_eq!(v.sum(), 0 as $elem_ty); - let v = $id::splat(1 as $elem_ty); - assert_eq!(v.sum(), $id::lanes() as $elem_ty); - let v = alternating(2); - assert_eq!( - v.sum(), - ($id::lanes() / 2 + $id::lanes()) as $elem_ty - ); - } - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn product() { - let v = $id::splat(0 as $elem_ty); - assert_eq!(v.product(), 0 as $elem_ty); - let v = $id::splat(1 as $elem_ty); - assert_eq!(v.product(), 1 as $elem_ty); - let f = match $id::lanes() { - 64 => 16, - 32 => 8, - 16 => 4, - _ => 2, - }; - let v = alternating(f); - assert_eq!( - v.product(), - (2_usize.pow(($id::lanes() / f) as u32) - as $elem_ty) - ); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[allow(unreachable_code)] - fn sum_nan() { - // FIXME: https://bugs.llvm.org/show_bug.cgi?id=36732 - // https://github.com/rust-lang-nursery/packed_simd/issues/6 - return; - - let n0 = crate::$elem_ty::NAN; - let v0 = $id::splat(-3.0); - for i in 0..$id::lanes() { - let mut v = v0.replace(i, n0); - // If the vector contains a NaN the result is NaN: - assert!( - v.sum().is_nan(), - "nan at {} => {} | {:?}", - i, - v.sum(), - v - ); - for j in 0..i { - v = v.replace(j, n0); - assert!(v.sum().is_nan()); - } - } - let v = $id::splat(n0); - assert!(v.sum().is_nan(), "all nans | {:?}", v); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[allow(unreachable_code)] - fn product_nan() { - // FIXME: https://bugs.llvm.org/show_bug.cgi?id=36732 - // https://github.com/rust-lang-nursery/packed_simd/issues/6 - return; - - let n0 = crate::$elem_ty::NAN; - let v0 = $id::splat(-3.0); - for i in 0..$id::lanes() { - let mut v = v0.replace(i, n0); - // If the vector contains a NaN the result is NaN: - assert!( - v.product().is_nan(), - "nan at {} => {} | {:?}", - i, - v.product(), - v - ); - for j in 0..i { - v = v.replace(j, n0); - assert!(v.product().is_nan()); - } - } - let v = $id::splat(n0); - assert!(v.product().is_nan(), "all nans | {:?}", v); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[allow(unused, dead_code)] - fn sum_roundoff() { - // Performs a tree-reduction - fn tree_reduce_sum(a: &[$elem_ty]) -> $elem_ty { - assert!(!a.is_empty()); - if a.len() == 1 { - a[0] - } else if a.len() == 2 { - a[0] + a[1] - } else { - let mid = a.len() / 2; - let (left, right) = a.split_at(mid); - tree_reduce_sum(left) + tree_reduce_sum(right) - } - } - - let mut start = crate::$elem_ty::EPSILON; - let mut scalar_reduction = 0. as $elem_ty; - - let mut v = $id::splat(0. as $elem_ty); - for i in 0..$id::lanes() { - let c = if i % 2 == 0 { 1e3 } else { -1. }; - start *= ::core::$elem_ty::consts::PI * c; - scalar_reduction += start; - v = v.replace(i, start); - } - let simd_reduction = v.sum(); - - let mut a = [0. as $elem_ty; $id::lanes()]; - v.write_to_slice_unaligned(&mut a); - let tree_reduction = tree_reduce_sum(&a); - - // tolerate 1 ULP difference: - let red_bits = simd_reduction.to_bits(); - let tree_bits = tree_reduction.to_bits(); - assert!( - if red_bits > tree_bits { - red_bits - tree_bits - } else { - tree_bits - red_bits - } < 2, - "vector: {:?} | simd_reduction: {:?} | \ -tree_reduction: {} | scalar_reduction: {}", - v, - simd_reduction, - tree_reduction, - scalar_reduction - ); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[allow(unused, dead_code)] - fn product_roundoff() { - use ::core::convert::TryInto; - // Performs a tree-reduction - fn tree_reduce_product(a: &[$elem_ty]) -> $elem_ty { - assert!(!a.is_empty()); - if a.len() == 1 { - a[0] - } else if a.len() == 2 { - a[0] * a[1] - } else { - let mid = a.len() / 2; - let (left, right) = a.split_at(mid); - tree_reduce_product(left) - * tree_reduce_product(right) - } - } - - let mut start = crate::$elem_ty::EPSILON; - let mut scalar_reduction = 1. as $elem_ty; - - let mut v = $id::splat(0. as $elem_ty); - for i in 0..$id::lanes() { - let c = if i % 2 == 0 { 1e3 } else { -1. }; - start *= ::core::$elem_ty::consts::PI * c; - scalar_reduction *= start; - v = v.replace(i, start); - } - let simd_reduction = v.product(); - - let mut a = [0. as $elem_ty; $id::lanes()]; - v.write_to_slice_unaligned(&mut a); - let tree_reduction = tree_reduce_product(&a); - - // FIXME: Too imprecise, even only for product(f32x8). - // Figure out how to narrow this down. - let ulp_limit = $id::lanes() / 2; - let red_bits = simd_reduction.to_bits(); - let tree_bits = tree_reduction.to_bits(); - assert!( - if red_bits > tree_bits { - red_bits - tree_bits - } else { - tree_bits - red_bits - } < ulp_limit.try_into().unwrap(), - "vector: {:?} | simd_reduction: {:?} | \ -tree_reduction: {} | scalar_reduction: {}", - v, - simd_reduction, - tree_reduction, - scalar_reduction - ); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/reductions/integer_arithmetic.rs b/third_party/rust/packed_simd/src/api/reductions/integer_arithmetic.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/reductions/integer_arithmetic.rs +++ /dev/null @@ -1,193 +0,0 @@ -//! Implements portable horizontal integer vector arithmetic reductions. - -macro_rules! impl_reduction_integer_arithmetic { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $ielem_ty:ident - | $test_tt:tt) => { - impl $id { - /// Horizontal wrapping sum of the vector elements. - /// - /// The intrinsic performs a tree-reduction of the vector elements. - /// That is, for an 8 element vector: - /// - /// > ((x0 + x1) + (x2 + x3)) + ((x4 + x5) + (x6 + x7)) - /// - /// If an operation overflows it returns the mathematical result - /// modulo `2^n` where `n` is the number of times it overflows. - #[inline] - pub fn wrapping_sum(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_add_ordered; - let v: $ielem_ty = unsafe { simd_reduce_add_ordered(self.0, 0 as $ielem_ty) }; - v as $elem_ty - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on AArch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x = x.wrapping_add(self.extract(i) as $elem_ty); - } - x - } - } - - /// Horizontal wrapping product of the vector elements. - /// - /// The intrinsic performs a tree-reduction of the vector elements. - /// That is, for an 8 element vector: - /// - /// > ((x0 * x1) * (x2 * x3)) * ((x4 * x5) * (x6 * x7)) - /// - /// If an operation overflows it returns the mathematical result - /// modulo `2^n` where `n` is the number of times it overflows. - #[inline] - pub fn wrapping_product(self) -> $elem_ty { - #[cfg(not(target_arch = "aarch64"))] - { - use crate::llvm::simd_reduce_mul_ordered; - let v: $ielem_ty = unsafe { simd_reduce_mul_ordered(self.0, 1 as $ielem_ty) }; - v as $elem_ty - } - #[cfg(target_arch = "aarch64")] - { - // FIXME: broken on AArch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - let mut x = self.extract(0) as $elem_ty; - for i in 1..$id::lanes() { - x = x.wrapping_mul(self.extract(i) as $elem_ty); - } - x - } - } - } - - impl crate::iter::Sum for $id { - #[inline] - fn sum<I: Iterator<Item = $id>>(iter: I) -> $id { - iter.fold($id::splat(0), crate::ops::Add::add) - } - } - - impl crate::iter::Product for $id { - #[inline] - fn product<I: Iterator<Item = $id>>(iter: I) -> $id { - iter.fold($id::splat(1), crate::ops::Mul::mul) - } - } - - impl<'a> crate::iter::Sum<&'a $id> for $id { - #[inline] - fn sum<I: Iterator<Item = &'a $id>>(iter: I) -> $id { - iter.fold($id::splat(0), |a, b| crate::ops::Add::add(a, *b)) - } - } - - impl<'a> crate::iter::Product<&'a $id> for $id { - #[inline] - fn product<I: Iterator<Item = &'a $id>>(iter: I) -> $id { - iter.fold($id::splat(1), |a, b| crate::ops::Mul::mul(a, *b)) - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _reduction_int_arith>] { - use super::*; - - fn alternating(x: usize) -> $id { - let mut v = $id::splat(1 as $elem_ty); - for i in 0..$id::lanes() { - if i % x == 0 { - v = v.replace(i, 2 as $elem_ty); - } - } - v - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn wrapping_sum() { - let v = $id::splat(0 as $elem_ty); - assert_eq!(v.wrapping_sum(), 0 as $elem_ty); - let v = $id::splat(1 as $elem_ty); - assert_eq!(v.wrapping_sum(), $id::lanes() as $elem_ty); - let v = alternating(2); - if $id::lanes() > 1 { - assert_eq!( - v.wrapping_sum(), - ($id::lanes() / 2 + $id::lanes()) as $elem_ty - ); - } else { - assert_eq!( - v.wrapping_sum(), - 2 as $elem_ty - ); - } - } - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn wrapping_sum_overflow() { - let start = $elem_ty::max_value() - - ($id::lanes() as $elem_ty / 2); - - let v = $id::splat(start as $elem_ty); - let vwrapping_sum = v.wrapping_sum(); - - let mut wrapping_sum = start; - for _ in 1..$id::lanes() { - wrapping_sum = wrapping_sum.wrapping_add(start); - } - assert_eq!(wrapping_sum, vwrapping_sum, "v = {:?}", v); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn wrapping_product() { - let v = $id::splat(0 as $elem_ty); - assert_eq!(v.wrapping_product(), 0 as $elem_ty); - let v = $id::splat(1 as $elem_ty); - assert_eq!(v.wrapping_product(), 1 as $elem_ty); - let f = match $id::lanes() { - 64 => 16, - 32 => 8, - 16 => 4, - _ => 2, - }; - let v = alternating(f); - if $id::lanes() > 1 { - assert_eq!( - v.wrapping_product(), - (2_usize.pow(($id::lanes() / f) as u32) - as $elem_ty) - ); - } else { - assert_eq!( - v.wrapping_product(), - 2 as $elem_ty - ); - } - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn wrapping_product_overflow() { - let start = $elem_ty::max_value() - - ($id::lanes() as $elem_ty / 2); - - let v = $id::splat(start as $elem_ty); - let vmul = v.wrapping_product(); - - let mut mul = start; - for _ in 1..$id::lanes() { - mul = mul.wrapping_mul(start); - } - assert_eq!(mul, vmul, "v = {:?}", v); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/reductions/mask.rs b/third_party/rust/packed_simd/src/api/reductions/mask.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/reductions/mask.rs +++ /dev/null @@ -1,89 +0,0 @@ -//! Implements portable horizontal mask reductions. - -macro_rules! impl_reduction_mask { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Are `all` vector lanes `true`? - #[inline] - pub fn all(self) -> bool { - unsafe { crate::codegen::reductions::mask::All::all(self) } - } - /// Is `any` vector lane `true`? - #[inline] - pub fn any(self) -> bool { - unsafe { crate::codegen::reductions::mask::Any::any(self) } - } - /// Are `all` vector lanes `false`? - #[inline] - pub fn none(self) -> bool { - !self.any() - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _reduction>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn all() { - let a = $id::splat(true); - assert!(a.all()); - let a = $id::splat(false); - assert!(!a.all()); - - if $id::lanes() > 1 { - for i in 0..$id::lanes() { - let mut a = $id::splat(true); - a = a.replace(i, false); - assert!(!a.all()); - let mut a = $id::splat(false); - a = a.replace(i, true); - assert!(!a.all()); - } - } - } - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn any() { - let a = $id::splat(true); - assert!(a.any()); - let a = $id::splat(false); - assert!(!a.any()); - - if $id::lanes() > 1 { - for i in 0..$id::lanes() { - let mut a = $id::splat(true); - a = a.replace(i, false); - assert!(a.any()); - let mut a = $id::splat(false); - a = a.replace(i, true); - assert!(a.any()); - } - } - } - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn none() { - let a = $id::splat(true); - assert!(!a.none()); - let a = $id::splat(false); - assert!(a.none()); - - if $id::lanes() > 1 { - for i in 0..$id::lanes() { - let mut a = $id::splat(true); - a = a.replace(i, false); - assert!(!a.none()); - let mut a = $id::splat(false); - a = a.replace(i, true); - assert!(!a.none()); - } - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/reductions/min_max.rs b/third_party/rust/packed_simd/src/api/reductions/min_max.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/reductions/min_max.rs +++ /dev/null @@ -1,360 +0,0 @@ -//! Implements portable horizontal vector min/max reductions. - -macro_rules! impl_reduction_min_max { - ([$elem_ty:ident; $elem_count:expr]: $id:ident - | $ielem_ty:ident | $test_tt:tt) => { - impl $id { - /// Largest vector element value. - #[inline] - pub fn max_element(self) -> $elem_ty { - #[cfg(not(any( - target_arch = "aarch64", - target_arch = "arm", - target_arch = "powerpc64", - target_arch = "wasm32", - )))] - { - use crate::llvm::simd_reduce_max; - let v: $ielem_ty = unsafe { simd_reduce_max(self.0) }; - v as $elem_ty - } - #[cfg(any( - target_arch = "aarch64", - target_arch = "arm", - target_arch = "powerpc64", - target_arch = "wasm32", - ))] - { - // FIXME: broken on AArch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - // FIXME: broken on WASM32 - // https://github.com/rust-lang-nursery/packed_simd/issues/91 - let mut x = self.extract(0); - for i in 1..$id::lanes() { - x = x.max(self.extract(i)); - } - x - } - } - - /// Smallest vector element value. - #[inline] - pub fn min_element(self) -> $elem_ty { - #[cfg(not(any( - target_arch = "aarch64", - target_arch = "arm", - all(target_arch = "x86", not(target_feature = "sse2")), - target_arch = "powerpc64", - target_arch = "wasm32", - ),))] - { - use crate::llvm::simd_reduce_min; - let v: $ielem_ty = unsafe { simd_reduce_min(self.0) }; - v as $elem_ty - } - #[cfg(any( - target_arch = "aarch64", - target_arch = "arm", - all(target_arch = "x86", not(target_feature = "sse2")), - target_arch = "powerpc64", - target_arch = "wasm32", - ))] - { - // FIXME: broken on AArch64 - // https://github.com/rust-lang-nursery/packed_simd/issues/15 - // FIXME: broken on i586-unknown-linux-gnu - // https://github.com/rust-lang-nursery/packed_simd/issues/22 - // FIXME: broken on WASM32 - // https://github.com/rust-lang-nursery/packed_simd/issues/91 - let mut x = self.extract(0); - for i in 1..$id::lanes() { - x = x.min(self.extract(i)); - } - x - } - } - } - test_if! {$test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _reduction_min_max>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - pub fn max_element() { - let v = $id::splat(0 as $elem_ty); - assert_eq!(v.max_element(), 0 as $elem_ty); - if $id::lanes() > 1 { - let v = v.replace(1, 1 as $elem_ty); - assert_eq!(v.max_element(), 1 as $elem_ty); - } - let v = v.replace(0, 2 as $elem_ty); - assert_eq!(v.max_element(), 2 as $elem_ty); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - pub fn min_element() { - let v = $id::splat(0 as $elem_ty); - assert_eq!(v.min_element(), 0 as $elem_ty); - if $id::lanes() > 1 { - let v = v.replace(1, 1 as $elem_ty); - assert_eq!(v.min_element(), 0 as $elem_ty); - } - let v = $id::splat(1 as $elem_ty); - let v = v.replace(0, 2 as $elem_ty); - if $id::lanes() > 1 { - assert_eq!(v.min_element(), 1 as $elem_ty); - } else { - assert_eq!(v.min_element(), 2 as $elem_ty); - } - if $id::lanes() > 1 { - let v = $id::splat(2 as $elem_ty); - let v = v.replace(1, 1 as $elem_ty); - assert_eq!(v.min_element(), 1 as $elem_ty); - } - } - } - } - } - }; -} - -macro_rules! test_reduction_float_min_max { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - test_if! { - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _reduction_min_max_nan>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn min_element_test() { - let n = crate::$elem_ty::NAN; - - assert_eq!(n.min(-3.), -3.); - assert_eq!((-3. as $elem_ty).min(n), -3.); - - let v0 = $id::splat(-3.); - - let target_with_broken_last_lane_nan = !cfg!(any( - target_arch = "arm", target_arch = "aarch64", - all(target_arch = "x86", - not(target_feature = "sse2") - ), - target_arch = "powerpc64", - target_arch = "wasm32", - )); - - // The vector is initialized to `-3.`s: [-3, -3, -3, -3] - for i in 0..$id::lanes() { - // We replace the i-th element of the vector with - // `NaN`: [-3, -3, -3, NaN] - let mut v = v0.replace(i, n); - - // If the NaN is in the last place, the LLVM - // implementation of these methods is broken on some - // targets: - if i == $id::lanes() - 1 && - target_with_broken_last_lane_nan { - assert_eq!(v.min_element(), -3., - "[A]: nan at {} => {} | {:?}", - i, v.min_element(), v); - - // If we replace all the elements in the vector - // up-to the `i-th` lane with `NaN`s, the result - // is still always `-3.` unless all elements of - // the vector are `NaN`s: - for j in 0..i { - v = v.replace(j, n); - if j == i-1 { - assert!(v.min_element().is_nan(), - "[B]: nan at {} => {} | {:?}", - i, v.min_element(), v); - } else { - assert_eq!(v.min_element(), -3., - "[B]: nan at {} => {} | {:?}", - i, v.min_element(), v); - } - } - - // We are done here, since we were in the last - // lane which is the last iteration of the loop. - break - } - - // We are not in the last lane, and there is only - // one `NaN` in the vector. - - // If the vector has one lane, the result is `NaN`: - if $id::lanes() == 1 { - assert!(v.min_element().is_nan(), - "[C]: all nans | v={:?} | min={} | \ -is_nan: {}", - v, v.min_element(), - v.min_element().is_nan() - ); - - // And we are done, since the vector only has - // one lane anyways. - break; - } - - // The vector has more than one lane, since there is - // only one `NaN` in the vector, the result is - // always `-3`. - assert_eq!(v.min_element(), -3., - "[D]: nan at {} => {} | {:?}", - i, v.min_element(), v); - - // If we replace all the elements in the vector - // up-to the `i-th` lane with `NaN`s, the result is - // still always `-3.` unless all elements of the - // vector are `NaN`s: - for j in 0..i { - v = v.replace(j, n); - - if i == $id::lanes() - 1 && j == i - 1 { - // All elements of the vector are `NaN`s, - // therefore the result is NaN as well. - // - // Note: the #lanes of the vector is > 1, so - // "i - 1" does not overflow. - assert!(v.min_element().is_nan(), - "[E]: all nans | v={:?} | min={} | \ -is_nan: {}", - v, v.min_element(), - v.min_element().is_nan()); - } else { - // There are non-`NaN` elements in the - // vector, therefore the result is `-3.`: - assert_eq!(v.min_element(), -3., - "[F]: nan at {} => {} | {:?}", - i, v.min_element(), v); - } - } - } - - // If the vector contains all NaNs the result is NaN: - assert!($id::splat(n).min_element().is_nan(), - "all nans | v={:?} | min={} | is_nan: {}", - $id::splat(n), $id::splat(n).min_element(), - $id::splat(n).min_element().is_nan()); - } - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn max_element_test() { - let n = crate::$elem_ty::NAN; - - assert_eq!(n.max(-3.), -3.); - assert_eq!((-3. as $elem_ty).max(n), -3.); - - let v0 = $id::splat(-3.); - - let target_with_broken_last_lane_nan = !cfg!(any( - target_arch = "arm", target_arch = "aarch64", - target_arch = "powerpc64", target_arch = "wasm32", - )); - - // The vector is initialized to `-3.`s: [-3, -3, -3, -3] - for i in 0..$id::lanes() { - // We replace the i-th element of the vector with - // `NaN`: [-3, -3, -3, NaN] - let mut v = v0.replace(i, n); - - // If the NaN is in the last place, the LLVM - // implementation of these methods is broken on some - // targets: - if i == $id::lanes() - 1 && - target_with_broken_last_lane_nan { - assert_eq!(v.max_element(), -3., - "[A]: nan at {} => {} | {:?}", - i, v.max_element(), v); - - // If we replace all the elements in the vector - // up-to the `i-th` lane with `NaN`s, the result - // is still always `-3.` unless all elements of - // the vector are `NaN`s: - for j in 0..i { - v = v.replace(j, n); - if j == i-1 { - assert!(v.min_element().is_nan(), - "[B]: nan at {} => {} | {:?}", - i, v.min_element(), v); - } else { - assert_eq!(v.max_element(), -3., - "[B]: nan at {} => {} | {:?}", - i, v.max_element(), v); - } - } - - // We are done here, since we were in the last - // lane which is the last iteration of the loop. - break - } - - // We are not in the last lane, and there is only - // one `NaN` in the vector. - - // If the vector has one lane, the result is `NaN`: - if $id::lanes() == 1 { - assert!(v.max_element().is_nan(), - "[C]: all nans | v={:?} | min={} | \ -is_nan: {}", - v, v.max_element(), - v.max_element().is_nan()); - - // And we are done, since the vector only has - // one lane anyways. - break; - } - - // The vector has more than one lane, since there is - // only one `NaN` in the vector, the result is - // always `-3`. - assert_eq!(v.max_element(), -3., - "[D]: nan at {} => {} | {:?}", - i, v.max_element(), v); - - // If we replace all the elements in the vector - // up-to the `i-th` lane with `NaN`s, the result is - // still always `-3.` unless all elements of the - // vector are `NaN`s: - for j in 0..i { - v = v.replace(j, n); - - if i == $id::lanes() - 1 && j == i - 1 { - // All elements of the vector are `NaN`s, - // therefore the result is NaN as well. - // - // Note: the #lanes of the vector is > 1, so - // "i - 1" does not overflow. - assert!(v.max_element().is_nan(), - "[E]: all nans | v={:?} | max={} | \ -is_nan: {}", - v, v.max_element(), - v.max_element().is_nan()); - } else { - // There are non-`NaN` elements in the - // vector, therefore the result is `-3.`: - assert_eq!(v.max_element(), -3., - "[F]: nan at {} => {} | {:?}", - i, v.max_element(), v); - } - } - } - - // If the vector contains all NaNs the result is NaN: - assert!($id::splat(n).max_element().is_nan(), - "all nans | v={:?} | max={} | is_nan: {}", - $id::splat(n), $id::splat(n).max_element(), - $id::splat(n).max_element().is_nan()); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/select.rs b/third_party/rust/packed_simd/src/api/select.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/select.rs +++ /dev/null @@ -1,73 +0,0 @@ -//! Implements mask's `select`. - -/// Implements mask select method -macro_rules! impl_select { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Selects elements of `a` and `b` using mask. - /// - /// The lanes of the result for which the mask is `true` contain - /// the values of `a`. The remaining lanes contain the values of - /// `b`. - #[inline] - pub fn select<T>(self, a: Simd<T>, b: Simd<T>) -> Simd<T> - where - T: sealed::SimdArray<NT = <[$elem_ty; $elem_count] as sealed::SimdArray>::NT>, - { - use crate::llvm::simd_select; - Simd(unsafe { simd_select(self.0, a.0, b.0) }) - } - } - - test_select!(bool, $id, $id, (false, true) | $test_tt); - }; -} - -macro_rules! test_select { - ( - $elem_ty:ident, - $mask_ty:ident, - $vec_ty:ident,($small:expr, $large:expr) | - $test_tt:tt - ) => { - test_if! { - $test_tt: - paste::item! { - pub mod [<$vec_ty _select>] { - use super::*; - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn select() { - let o = $small as $elem_ty; - let t = $large as $elem_ty; - - let a = $vec_ty::splat(o); - let b = $vec_ty::splat(t); - let m = a.lt(b); - assert_eq!(m.select(a, b), a); - - let m = b.lt(a); - assert_eq!(m.select(b, a), a); - - let mut c = a; - let mut d = b; - let mut m_e = $mask_ty::splat(false); - for i in 0..$vec_ty::lanes() { - if i % 2 == 0 { - let c_tmp = c.extract(i); - c = c.replace(i, d.extract(i)); - d = d.replace(i, c_tmp); - } else { - m_e = m_e.replace(i, true); - } - } - - let m = c.lt(d); - assert_eq!(m_e, m); - assert_eq!(m.select(c, d), a); - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/shuffle.rs b/third_party/rust/packed_simd/src/api/shuffle.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/shuffle.rs +++ /dev/null @@ -1,184 +0,0 @@ -//! Implements portable vector shuffles with immediate indices. - -// FIXME: comprehensive tests -// https://github.com/rust-lang-nursery/packed_simd/issues/20 - -/// Shuffles vector elements. -/// -/// This macro returns a new vector that contains a shuffle of the elements in -/// one (`shuffle!(vec, [indices...])`) or two (`shuffle!(vec0, vec1, -/// [indices...])`) input vectors. -/// -/// The type of `vec0` and `vec1` must be equal, and the element type of the -/// resulting vector is the element type of the input vector. -/// -/// The number of `indices` must be a power-of-two in range `[0, 64)`, since -/// currently, the largest vector supported by the library has 64 lanes. The -/// length of the resulting vector equals the number of indices provided. -/// -/// The indices must be in range `[0, M * N)` where `M` is the number of input -/// vectors (`1` or `2`) and `N` is the number of lanes of the input vectors. -/// The indices `i` in range `[0, N)` refer to the `i`-th element of `vec0`, -/// while the indices in range `[N, 2*N)` refer to the `i - N`-th element of -/// `vec1`. -/// -/// # Examples -/// -/// Shuffling elements of two vectors: -/// -/// ``` -/// # use packed_simd::*; -/// # fn main() { -/// // Shuffle allows reordering the elements: -/// let x = i32x4::new(1, 2, 3, 4); -/// let y = i32x4::new(5, 6, 7, 8); -/// let r = shuffle!(x, y, [4, 0, 5, 1]); -/// assert_eq!(r, i32x4::new(5, 1, 6, 2)); -/// -/// // The resulting vector can als be smaller than the input: -/// let r = shuffle!(x, y, [1, 6]); -/// assert_eq!(r, i32x2::new(2, 7)); -/// -/// // Or larger: -/// let r = shuffle!(x, y, [1, 3, 4, 2, 1, 7, 2, 2]); -/// assert_eq!(r, i32x8::new(2, 4, 5, 3, 2, 8, 3, 3)); -/// // At most 2 * the number of lanes in the input vector. -/// # } -/// ``` -/// -/// Shuffling elements of one vector: -/// -/// ``` -/// # use packed_simd::*; -/// # fn main() { -/// // Shuffle allows reordering the elements of a vector: -/// let x = i32x4::new(1, 2, 3, 4); -/// let r = shuffle!(x, [2, 1, 3, 0]); -/// assert_eq!(r, i32x4::new(3, 2, 4, 1)); -/// -/// // The resulting vector can be smaller than the input: -/// let r = shuffle!(x, [1, 3]); -/// assert_eq!(r, i32x2::new(2, 4)); -/// -/// // Equal: -/// let r = shuffle!(x, [1, 3, 2, 0]); -/// assert_eq!(r, i32x4::new(2, 4, 3, 1)); -/// -/// // Or larger: -/// let r = shuffle!(x, [1, 3, 2, 2, 1, 3, 2, 2]); -/// assert_eq!(r, i32x8::new(2, 4, 3, 3, 2, 4, 3, 3)); -/// // At most 2 * the number of lanes in the input vector. -/// # } -/// ``` -#[macro_export] -macro_rules! shuffle { - ($vec0:expr, $vec1:expr, [$l0:expr, $l1:expr]) => {{ - #[allow(unused_unsafe)] - unsafe { - $crate::Simd($crate::__shuffle_vector2::<{[$l0, $l1]}, _, _>( - $vec0.0, - $vec1.0, - )) - } - }}; - ($vec0:expr, $vec1:expr, [$l0:expr, $l1:expr, $l2:expr, $l3:expr]) => {{ - #[allow(unused_unsafe)] - unsafe { - $crate::Simd($crate::__shuffle_vector4::<{[$l0, $l1, $l2, $l3]}, _, _>( - $vec0.0, - $vec1.0, - )) - } - }}; - ($vec0:expr, $vec1:expr, - [$l0:expr, $l1:expr, $l2:expr, $l3:expr, - $l4:expr, $l5:expr, $l6:expr, $l7:expr]) => {{ - #[allow(unused_unsafe)] - unsafe { - $crate::Simd($crate::__shuffle_vector8::<{[$l0, $l1, $l2, $l3, $l4, $l5, $l6, $l7]}, _, _>( - $vec0.0, - $vec1.0, - )) - } - }}; - ($vec0:expr, $vec1:expr, - [$l0:expr, $l1:expr, $l2:expr, $l3:expr, - $l4:expr, $l5:expr, $l6:expr, $l7:expr, - $l8:expr, $l9:expr, $l10:expr, $l11:expr, - $l12:expr, $l13:expr, $l14:expr, $l15:expr]) => {{ - #[allow(unused_unsafe)] - unsafe { - $crate::Simd($crate::__shuffle_vector16::<{ - [ - $l0, $l1, $l2, $l3, $l4, $l5, $l6, $l7, $l8, $l9, $l10, - $l11, $l12, $l13, $l14, $l15, - ] - }, _, _>( - $vec0.0, - $vec1.0, - )) - } - }}; - ($vec0:expr, $vec1:expr, - [$l0:expr, $l1:expr, $l2:expr, $l3:expr, - $l4:expr, $l5:expr, $l6:expr, $l7:expr, - $l8:expr, $l9:expr, $l10:expr, $l11:expr, - $l12:expr, $l13:expr, $l14:expr, $l15:expr, - $l16:expr, $l17:expr, $l18:expr, $l19:expr, - $l20:expr, $l21:expr, $l22:expr, $l23:expr, - $l24:expr, $l25:expr, $l26:expr, $l27:expr, - $l28:expr, $l29:expr, $l30:expr, $l31:expr]) => {{ - #[allow(unused_unsafe)] - unsafe { - $crate::Simd($crate::__shuffle_vector32::<{ - [ - $l0, $l1, $l2, $l3, $l4, $l5, $l6, $l7, $l8, $l9, $l10, - $l11, $l12, $l13, $l14, $l15, $l16, $l17, $l18, $l19, - $l20, $l21, $l22, $l23, $l24, $l25, $l26, $l27, $l28, - $l29, $l30, $l31, - ] - }, _, _>( - $vec0.0, - $vec1.0, - )) - } - }}; - ($vec0:expr, $vec1:expr, - [$l0:expr, $l1:expr, $l2:expr, $l3:expr, - $l4:expr, $l5:expr, $l6:expr, $l7:expr, - $l8:expr, $l9:expr, $l10:expr, $l11:expr, - $l12:expr, $l13:expr, $l14:expr, $l15:expr, - $l16:expr, $l17:expr, $l18:expr, $l19:expr, - $l20:expr, $l21:expr, $l22:expr, $l23:expr, - $l24:expr, $l25:expr, $l26:expr, $l27:expr, - $l28:expr, $l29:expr, $l30:expr, $l31:expr, - $l32:expr, $l33:expr, $l34:expr, $l35:expr, - $l36:expr, $l37:expr, $l38:expr, $l39:expr, - $l40:expr, $l41:expr, $l42:expr, $l43:expr, - $l44:expr, $l45:expr, $l46:expr, $l47:expr, - $l48:expr, $l49:expr, $l50:expr, $l51:expr, - $l52:expr, $l53:expr, $l54:expr, $l55:expr, - $l56:expr, $l57:expr, $l58:expr, $l59:expr, - $l60:expr, $l61:expr, $l62:expr, $l63:expr]) => {{ - #[allow(unused_unsafe)] - unsafe { - $crate::Simd($crate::__shuffle_vector64::<{[ - $l0, $l1, $l2, $l3, $l4, $l5, $l6, $l7, $l8, $l9, $l10, - $l11, $l12, $l13, $l14, $l15, $l16, $l17, $l18, $l19, - $l20, $l21, $l22, $l23, $l24, $l25, $l26, $l27, $l28, - $l29, $l30, $l31, $l32, $l33, $l34, $l35, $l36, $l37, - $l38, $l39, $l40, $l41, $l42, $l43, $l44, $l45, $l46, - $l47, $l48, $l49, $l50, $l51, $l52, $l53, $l54, $l55, - $l56, $l57, $l58, $l59, $l60, $l61, $l62, $l63, - ]}, _, _>( - $vec0.0, - $vec1.0, - )) - } - }}; - ($vec:expr, [$($l:expr),*]) => { - match $vec { - v => shuffle!(v, v, [$($l),*]) - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/shuffle1_dyn.rs b/third_party/rust/packed_simd/src/api/shuffle1_dyn.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/shuffle1_dyn.rs +++ /dev/null @@ -1,159 +0,0 @@ -//! Shuffle vector elements according to a dynamic vector of indices. - -macro_rules! impl_shuffle1_dyn { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Shuffle vector elements according to `indices`. - #[inline] - pub fn shuffle1_dyn<I>(self, indices: I) -> Self - where - Self: codegen::shuffle1_dyn::Shuffle1Dyn<Indices = I>, - { - codegen::shuffle1_dyn::Shuffle1Dyn::shuffle1_dyn(self, indices) - } - } - }; -} - -macro_rules! test_shuffle1_dyn { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _shuffle1_dyn>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn shuffle1_dyn() { - let increasing = { - let mut v = $id::splat(0 as $elem_ty); - for i in 0..$id::lanes() { - v = v.replace(i, i as $elem_ty); - } - v - }; - let decreasing = { - let mut v = $id::splat(0 as $elem_ty); - for i in 0..$id::lanes() { - v = v.replace( - i, - ($id::lanes() - 1 - i) as $elem_ty - ); - } - v - }; - - type Indices = < - $id as codegen::shuffle1_dyn::Shuffle1Dyn - >::Indices; - let increasing_ids: Indices = increasing.cast(); - let decreasing_ids: Indices = decreasing.cast(); - - assert_eq!( - increasing.shuffle1_dyn(increasing_ids), - increasing, - "(i,i)=>i" - ); - assert_eq!( - decreasing.shuffle1_dyn(increasing_ids), - decreasing, - "(d,i)=>d" - ); - assert_eq!( - increasing.shuffle1_dyn(decreasing_ids), - decreasing, - "(i,d)=>d" - ); - assert_eq!( - decreasing.shuffle1_dyn(decreasing_ids), - increasing, - "(d,d)=>i" - ); - - for i in 0..$id::lanes() { - let v_ids: Indices - = $id::splat(i as $elem_ty).cast(); - assert_eq!(increasing.shuffle1_dyn(v_ids), - $id::splat(increasing.extract(i)) - ); - assert_eq!(decreasing.shuffle1_dyn(v_ids), - $id::splat(decreasing.extract(i)) - ); - assert_eq!( - $id::splat(i as $elem_ty) - .shuffle1_dyn(increasing_ids), - $id::splat(i as $elem_ty) - ); - assert_eq!( - $id::splat(i as $elem_ty) - .shuffle1_dyn(decreasing_ids), - $id::splat(i as $elem_ty) - ); - } - } - } - } - } - }; -} - -macro_rules! test_shuffle1_dyn_mask { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _shuffle1_dyn>] { - use super::*; - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn shuffle1_dyn() { - // alternating = [true, false, true, false, ...] - let mut alternating = $id::splat(false); - for i in 0..$id::lanes() { - if i % 2 == 0 { - alternating = alternating.replace(i, true); - } - } - - type Indices = < - $id as codegen::shuffle1_dyn::Shuffle1Dyn - >::Indices; - // even = [0, 0, 2, 2, 4, 4, ..] - let even = { - let mut v = Indices::splat(0); - for i in 0..$id::lanes() { - if i % 2 == 0 { - v = v.replace(i, (i as u8).into()); - } else { - v = v.replace(i, (i as u8 - 1).into()); - } - } - v - }; - // odd = [1, 1, 3, 3, 5, 5, ...] - let odd = { - let mut v = Indices::splat(0); - for i in 0..$id::lanes() { - if i % 2 != 0 { - v = v.replace(i, (i as u8).into()); - } else { - v = v.replace(i, (i as u8 + 1).into()); - } - } - v - }; - - assert_eq!( - alternating.shuffle1_dyn(even), - $id::splat(true) - ); - if $id::lanes() > 1 { - assert_eq!( - alternating.shuffle1_dyn(odd), - $id::splat(false) - ); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/slice.rs b/third_party/rust/packed_simd/src/api/slice.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/slice.rs +++ /dev/null @@ -1,7 +0,0 @@ -//! Slice from/to methods - -#[macro_use] -mod from_slice; - -#[macro_use] -mod write_to_slice; diff --git a/third_party/rust/packed_simd/src/api/slice/from_slice.rs b/third_party/rust/packed_simd/src/api/slice/from_slice.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/slice/from_slice.rs +++ /dev/null @@ -1,202 +0,0 @@ -//! Implements methods to read a vector type from a slice. - -macro_rules! impl_slice_from_slice { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not aligned - /// to an `align_of::<Self>()` boundary. - #[inline] - pub fn from_slice_aligned(slice: &[$elem_ty]) -> Self { - unsafe { - assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_ptr(); - assert_eq!(target_ptr.align_offset(crate::mem::align_of::<Self>()), 0); - Self::from_slice_aligned_unchecked(slice) - } - } - - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()`. - #[inline] - pub fn from_slice_unaligned(slice: &[$elem_ty]) -> Self { - unsafe { - assert!(slice.len() >= $elem_count); - Self::from_slice_unaligned_unchecked(slice) - } - } - - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not aligned - /// to an `align_of::<Self>()` boundary, the behavior is undefined. - #[inline] - pub unsafe fn from_slice_aligned_unchecked(slice: &[$elem_ty]) -> Self { - debug_assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_ptr(); - debug_assert_eq!(target_ptr.align_offset(crate::mem::align_of::<Self>()), 0); - - #[allow(clippy::cast_ptr_alignment)] - *(target_ptr as *const Self) - } - - /// Instantiates a new vector with the values of the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn from_slice_unaligned_unchecked(slice: &[$elem_ty]) -> Self { - use crate::mem::size_of; - debug_assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_ptr().cast(); - let mut x = Self::splat(0 as $elem_ty); - let self_ptr = &mut x as *mut Self as *mut u8; - crate::ptr::copy_nonoverlapping(target_ptr, self_ptr, size_of::<Self>()); - x - } - } - - test_if! { - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _slice_from_slice>] { - use super::*; - use crate::iter::Iterator; - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from_slice_unaligned() { - let mut unaligned = [42 as $elem_ty; $id::lanes() + 1]; - unaligned[0] = 0 as $elem_ty; - let vec = $id::from_slice_unaligned(&unaligned[1..]); - for (index, &b) in unaligned.iter().enumerate() { - if index == 0 { - assert_eq!(b, 0 as $elem_ty); - } else { - assert_eq!(b, 42 as $elem_ty); - assert_eq!(b, vec.extract(index - 1)); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn from_slice_unaligned_fail() { - let mut unaligned = [42 as $elem_ty; $id::lanes() + 1]; - unaligned[0] = 0 as $elem_ty; - // the slice is not large enough => panic - let _vec = $id::from_slice_unaligned(&unaligned[2..]); - } - - union A { - data: [$elem_ty; 2 * $id::lanes()], - _vec: $id, - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from_slice_aligned() { - let mut aligned = A { - data: [0 as $elem_ty; 2 * $id::lanes()], - }; - for i in $id::lanes()..(2 * $id::lanes()) { - unsafe { - aligned.data[i] = 42 as $elem_ty; - } - } - - let vec = unsafe { - $id::from_slice_aligned( - &aligned.data[$id::lanes()..] - ) - }; - for (index, &b) in - unsafe { aligned.data.iter().enumerate() } { - if index < $id::lanes() { - assert_eq!(b, 0 as $elem_ty); - } else { - assert_eq!(b, 42 as $elem_ty); - assert_eq!( - b, vec.extract(index - $id::lanes()) - ); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn from_slice_aligned_fail_lanes() { - let aligned = A { - data: [0 as $elem_ty; 2 * $id::lanes()], - }; - let _vec = unsafe { - $id::from_slice_aligned( - &aligned.data[2 * $id::lanes()..] - ) - }; - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn from_slice_aligned_fail_align() { - unsafe { - let aligned = A { - data: [0 as $elem_ty; 2 * $id::lanes()], - }; - - // get a pointer to the front of data - let ptr: *const $elem_ty = aligned.data.as_ptr() - as *const $elem_ty; - // offset pointer by one element - let ptr = ptr.wrapping_add(1); - - if ptr.align_offset( - crate::mem::align_of::<$id>() - ) == 0 { - // the pointer is properly aligned, so - // from_slice_aligned won't fail here (e.g. this - // can happen for i128x1). So we panic to make - // the "should_fail" test pass: - panic!("ok"); - } - - // create a slice - this is safe, because the - // elements of the slice exist, are properly - // initialized, and properly aligned: - let s: &[$elem_ty] = slice::from_raw_parts( - ptr, $id::lanes() - ); - // this should always panic because the slice - // alignment does not match the alignment - // requirements for the vector type: - let _vec = $id::from_slice_aligned(s); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/slice/write_to_slice.rs b/third_party/rust/packed_simd/src/api/slice/write_to_slice.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/slice/write_to_slice.rs +++ /dev/null @@ -1,196 +0,0 @@ -//! Implements methods to write a vector type to a slice. - -macro_rules! impl_slice_write_to_slice { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Writes the values of the vector to the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not - /// aligned to an `align_of::<Self>()` boundary. - #[inline] - pub fn write_to_slice_aligned(self, slice: &mut [$elem_ty]) { - unsafe { - assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_mut_ptr(); - assert_eq!(target_ptr.align_offset(crate::mem::align_of::<Self>()), 0); - self.write_to_slice_aligned_unchecked(slice); - } - } - - /// Writes the values of the vector to the `slice`. - /// - /// # Panics - /// - /// If `slice.len() < Self::lanes()`. - #[inline] - pub fn write_to_slice_unaligned(self, slice: &mut [$elem_ty]) { - unsafe { - assert!(slice.len() >= $elem_count); - self.write_to_slice_unaligned_unchecked(slice); - } - } - - /// Writes the values of the vector to the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` or `&slice[0]` is not - /// aligned to an `align_of::<Self>()` boundary, the behavior is - /// undefined. - #[inline] - pub unsafe fn write_to_slice_aligned_unchecked(self, slice: &mut [$elem_ty]) { - debug_assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_mut_ptr(); - debug_assert_eq!(target_ptr.align_offset(crate::mem::align_of::<Self>()), 0); - - #[allow(clippy::cast_ptr_alignment)] - #[allow(clippy::cast_ptr_alignment)] - #[allow(clippy::cast_ptr_alignment)] - #[allow(clippy::cast_ptr_alignment)] - *(target_ptr as *mut Self) = self; - } - - /// Writes the values of the vector to the `slice`. - /// - /// # Safety - /// - /// If `slice.len() < Self::lanes()` the behavior is undefined. - #[inline] - pub unsafe fn write_to_slice_unaligned_unchecked(self, slice: &mut [$elem_ty]) { - debug_assert!(slice.len() >= $elem_count); - let target_ptr = slice.as_mut_ptr().cast(); - let self_ptr = &self as *const Self as *const u8; - crate::ptr::copy_nonoverlapping(self_ptr, target_ptr, crate::mem::size_of::<Self>()); - } - } - - test_if! { - $test_tt: - paste::item! { - // Comparisons use integer casts within mantissa^1 range. - #[allow(clippy::float_cmp)] - pub mod [<$id _slice_write_to_slice>] { - use super::*; - use crate::iter::Iterator; - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn write_to_slice_unaligned() { - let mut unaligned = [0 as $elem_ty; $id::lanes() + 1]; - let vec = $id::splat(42 as $elem_ty); - vec.write_to_slice_unaligned(&mut unaligned[1..]); - for (index, &b) in unaligned.iter().enumerate() { - if index == 0 { - assert_eq!(b, 0 as $elem_ty); - } else { - assert_eq!(b, 42 as $elem_ty); - assert_eq!(b, vec.extract(index - 1)); - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn write_to_slice_unaligned_fail() { - let mut unaligned = [0 as $elem_ty; $id::lanes() + 1]; - let vec = $id::splat(42 as $elem_ty); - vec.write_to_slice_unaligned(&mut unaligned[2..]); - } - - union A { - data: [$elem_ty; 2 * $id::lanes()], - _vec: $id, - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] - #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn write_to_slice_aligned() { - let mut aligned = A { - data: [0 as $elem_ty; 2 * $id::lanes()], - }; - let vec = $id::splat(42 as $elem_ty); - unsafe { - vec.write_to_slice_aligned( - &mut aligned.data[$id::lanes()..] - ); - for (idx, &b) in aligned.data.iter().enumerate() { - if idx < $id::lanes() { - assert_eq!(b, 0 as $elem_ty); - } else { - assert_eq!(b, 42 as $elem_ty); - assert_eq!( - b, vec.extract(idx - $id::lanes()) - ); - } - } - } - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn write_to_slice_aligned_fail_lanes() { - let mut aligned = A { - data: [0 as $elem_ty; 2 * $id::lanes()], - }; - let vec = $id::splat(42 as $elem_ty); - unsafe { - vec.write_to_slice_aligned( - &mut aligned.data[2 * $id::lanes()..] - ) - }; - } - - // FIXME: wasm-bindgen-test does not support #[should_panic] - // #[cfg_attr(not(target_arch = "wasm32"), test)] - // #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - #[cfg(not(target_arch = "wasm32"))] - #[test] - #[should_panic] - fn write_to_slice_aligned_fail_align() { - unsafe { - let mut aligned = A { - data: [0 as $elem_ty; 2 * $id::lanes()], - }; - - // get a pointer to the front of data - let ptr: *mut $elem_ty - = aligned.data.as_mut_ptr() as *mut $elem_ty; - // offset pointer by one element - let ptr = ptr.wrapping_add(1); - - if ptr.align_offset(crate::mem::align_of::<$id>()) - == 0 { - // the pointer is properly aligned, so - // write_to_slice_aligned won't fail here (e.g. - // this can happen for i128x1). So we panic to - // make the "should_fail" test pass: - panic!("ok"); - } - - // create a slice - this is safe, because the - // elements of the slice exist, are properly - // initialized, and properly aligned: - let s: &mut [$elem_ty] - = slice::from_raw_parts_mut(ptr, $id::lanes()); - // this should always panic because the slice - // alignment does not match the alignment - // requirements for the vector type: - let vec = $id::splat(42 as $elem_ty); - vec.write_to_slice_aligned(s); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/api/swap_bytes.rs b/third_party/rust/packed_simd/src/api/swap_bytes.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/api/swap_bytes.rs +++ /dev/null @@ -1,192 +0,0 @@ -//! Horizontal swap bytes - -macro_rules! impl_swap_bytes { - ([$elem_ty:ident; $elem_count:expr]: $id:ident | $test_tt:tt) => { - impl $id { - /// Reverses the byte order of the vector. - #[inline] - pub fn swap_bytes(self) -> Self { - super::codegen::swap_bytes::SwapBytes::swap_bytes(self) - } - - /// Converts self to little endian from the target's endianness. - /// - /// On little endian this is a no-op. On big endian the bytes are - /// swapped. - #[inline] - pub fn to_le(self) -> Self { - #[cfg(target_endian = "little")] - { - self - } - #[cfg(not(target_endian = "little"))] - { - self.swap_bytes() - } - } - - /// Converts self to big endian from the target's endianness. - /// - /// On big endian this is a no-op. On little endian the bytes are - /// swapped. - #[inline] - pub fn to_be(self) -> Self { - #[cfg(target_endian = "big")] - { - self - } - #[cfg(not(target_endian = "big"))] - { - self.swap_bytes() - } - } - - /// Converts a vector from little endian to the target's endianness. - /// - /// On little endian this is a no-op. On big endian the bytes are - /// swapped. - #[inline] - pub fn from_le(x: Self) -> Self { - #[cfg(target_endian = "little")] - { - x - } - #[cfg(not(target_endian = "little"))] - { - x.swap_bytes() - } - } - - /// Converts a vector from big endian to the target's endianness. - /// - /// On big endian this is a no-op. On little endian the bytes are - /// swapped. - #[inline] - pub fn from_be(x: Self) -> Self { - #[cfg(target_endian = "big")] - { - x - } - #[cfg(not(target_endian = "big"))] - { - x.swap_bytes() - } - } - } - - test_if! { - $test_tt: - paste::item! { - pub mod [<$id _swap_bytes>] { - use super::*; - - const BYTES: [u8; 64] = [ - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - 16, 17, 18, 19, 20, 21, 22, 23, - 24, 25, 26, 27, 28, 29, 30, 31, - 32, 33, 34, 35, 36, 37, 38, 39, - 40, 41, 42, 43, 44, 45, 46, 47, - 48, 49, 50, 51, 52, 53, 54, 55, - 56, 57, 58, 59, 60, 61, 62, 63, - ]; - - macro_rules! swap { - ($func: ident) => {{ - // catch possible future >512 vectors - assert!(mem::size_of::<$id>() <= 64); - - let mut actual = BYTES; - let elems: &mut [$elem_ty] = unsafe { - slice::from_raw_parts_mut( - actual.as_mut_ptr() as *mut $elem_ty, - $id::lanes(), - ) - }; - - let vec = $id::from_slice_unaligned(elems); - $id::$func(vec).write_to_slice_unaligned(elems); - - actual - }}; - } - - macro_rules! test_swap { - ($func: ident) => {{ - let actual = swap!($func); - let expected = - BYTES.iter().rev() - .skip(64 - crate::mem::size_of::<$id>()); - assert!(actual.iter().zip(expected) - .all(|(x, y)| x == y)); - }}; - } - - macro_rules! test_no_swap { - ($func: ident) => {{ - let actual = swap!($func); - let expected = BYTES.iter() - .take(mem::size_of::<$id>()); - - assert!(actual.iter().zip(expected) - .all(|(x, y)| x == y)); - }}; - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn swap_bytes() { - test_swap!(swap_bytes); - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn to_le() { - #[cfg(target_endian = "little")] - { - test_no_swap!(to_le); - } - #[cfg(not(target_endian = "little"))] - { - test_swap!(to_le); - } - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn to_be() { - #[cfg(target_endian = "big")] - { - test_no_swap!(to_be); - } - #[cfg(not(target_endian = "big"))] - { - test_swap!(to_be); - } - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from_le() { - #[cfg(target_endian = "little")] - { - test_no_swap!(from_le); - } - #[cfg(not(target_endian = "little"))] - { - test_swap!(from_le); - } - } - - #[cfg_attr(not(target_arch = "wasm32"), test)] #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] - fn from_be() { - #[cfg(target_endian = "big")] - { - test_no_swap!(from_be); - } - #[cfg(not(target_endian = "big"))] - { - test_swap!(from_be); - } - } - } - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen.rs b/third_party/rust/packed_simd/src/codegen.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen.rs +++ /dev/null @@ -1,62 +0,0 @@ -//! Code-generation utilities - -pub(crate) mod bit_manip; -pub(crate) mod llvm; -pub(crate) mod math; -pub(crate) mod reductions; -pub(crate) mod shuffle; -pub(crate) mod shuffle1_dyn; -pub(crate) mod swap_bytes; - -macro_rules! impl_simd_array { - ([$elem_ty:ident; $elem_count:expr]: - $tuple_id:ident | $($elem_tys:ident),*) => { - #[derive(Copy, Clone)] - #[repr(simd)] - pub struct $tuple_id($(pub(crate) $elem_tys),*); - //^^^^^^^ leaked through SimdArray - - impl crate::sealed::Seal for [$elem_ty; $elem_count] {} - - impl crate::sealed::SimdArray for [$elem_ty; $elem_count] { - type Tuple = $tuple_id; - type T = $elem_ty; - const N: usize = $elem_count; - type NT = [u32; $elem_count]; - } - - impl crate::sealed::Seal for $tuple_id {} - impl crate::sealed::Simd for $tuple_id { - type Element = $elem_ty; - const LANES: usize = $elem_count; - type LanesType = [u32; $elem_count]; - } - - } -} - -pub(crate) mod pointer_sized_int; - -pub(crate) mod v16; -pub(crate) use self::v16::*; - -pub(crate) mod v32; -pub(crate) use self::v32::*; - -pub(crate) mod v64; -pub(crate) use self::v64::*; - -pub(crate) mod v128; -pub(crate) use self::v128::*; - -pub(crate) mod v256; -pub(crate) use self::v256::*; - -pub(crate) mod v512; -pub(crate) use self::v512::*; - -pub(crate) mod vSize; -pub(crate) use self::vSize::*; - -pub(crate) mod vPtr; -pub(crate) use self::vPtr::*; diff --git a/third_party/rust/packed_simd/src/codegen/bit_manip.rs b/third_party/rust/packed_simd/src/codegen/bit_manip.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/bit_manip.rs +++ /dev/null @@ -1,347 +0,0 @@ -//! LLVM bit manipulation intrinsics. -#[rustfmt::skip] - -pub(crate) use crate::*; - -#[allow(improper_ctypes, dead_code)] -extern "C" { - #[link_name = "llvm.ctlz.v2i8"] - fn ctlz_u8x2(x: u8x2, is_zero_undef: bool) -> u8x2; - #[link_name = "llvm.ctlz.v4i8"] - fn ctlz_u8x4(x: u8x4, is_zero_undef: bool) -> u8x4; - #[link_name = "llvm.ctlz.v8i8"] - fn ctlz_u8x8(x: u8x8, is_zero_undef: bool) -> u8x8; - #[link_name = "llvm.ctlz.v16i8"] - fn ctlz_u8x16(x: u8x16, is_zero_undef: bool) -> u8x16; - #[link_name = "llvm.ctlz.v32i8"] - fn ctlz_u8x32(x: u8x32, is_zero_undef: bool) -> u8x32; - #[link_name = "llvm.ctlz.v64i8"] - fn ctlz_u8x64(x: u8x64, is_zero_undef: bool) -> u8x64; - - #[link_name = "llvm.ctlz.v2i16"] - fn ctlz_u16x2(x: u16x2, is_zero_undef: bool) -> u16x2; - #[link_name = "llvm.ctlz.v4i16"] - fn ctlz_u16x4(x: u16x4, is_zero_undef: bool) -> u16x4; - #[link_name = "llvm.ctlz.v8i16"] - fn ctlz_u16x8(x: u16x8, is_zero_undef: bool) -> u16x8; - #[link_name = "llvm.ctlz.v16i16"] - fn ctlz_u16x16(x: u16x16, is_zero_undef: bool) -> u16x16; - #[link_name = "llvm.ctlz.v32i16"] - fn ctlz_u16x32(x: u16x32, is_zero_undef: bool) -> u16x32; - - #[link_name = "llvm.ctlz.v2i32"] - fn ctlz_u32x2(x: u32x2, is_zero_undef: bool) -> u32x2; - #[link_name = "llvm.ctlz.v4i32"] - fn ctlz_u32x4(x: u32x4, is_zero_undef: bool) -> u32x4; - #[link_name = "llvm.ctlz.v8i32"] - fn ctlz_u32x8(x: u32x8, is_zero_undef: bool) -> u32x8; - #[link_name = "llvm.ctlz.v16i32"] - fn ctlz_u32x16(x: u32x16, is_zero_undef: bool) -> u32x16; - - #[link_name = "llvm.ctlz.v2i64"] - fn ctlz_u64x2(x: u64x2, is_zero_undef: bool) -> u64x2; - #[link_name = "llvm.ctlz.v4i64"] - fn ctlz_u64x4(x: u64x4, is_zero_undef: bool) -> u64x4; - #[link_name = "llvm.ctlz.v8i64"] - fn ctlz_u64x8(x: u64x8, is_zero_undef: bool) -> u64x8; - - #[link_name = "llvm.ctlz.v1i128"] - fn ctlz_u128x1(x: u128x1, is_zero_undef: bool) -> u128x1; - #[link_name = "llvm.ctlz.v2i128"] - fn ctlz_u128x2(x: u128x2, is_zero_undef: bool) -> u128x2; - #[link_name = "llvm.ctlz.v4i128"] - fn ctlz_u128x4(x: u128x4, is_zero_undef: bool) -> u128x4; - - #[link_name = "llvm.cttz.v2i8"] - fn cttz_u8x2(x: u8x2, is_zero_undef: bool) -> u8x2; - #[link_name = "llvm.cttz.v4i8"] - fn cttz_u8x4(x: u8x4, is_zero_undef: bool) -> u8x4; - #[link_name = "llvm.cttz.v8i8"] - fn cttz_u8x8(x: u8x8, is_zero_undef: bool) -> u8x8; - #[link_name = "llvm.cttz.v16i8"] - fn cttz_u8x16(x: u8x16, is_zero_undef: bool) -> u8x16; - #[link_name = "llvm.cttz.v32i8"] - fn cttz_u8x32(x: u8x32, is_zero_undef: bool) -> u8x32; - #[link_name = "llvm.cttz.v64i8"] - fn cttz_u8x64(x: u8x64, is_zero_undef: bool) -> u8x64; - - #[link_name = "llvm.cttz.v2i16"] - fn cttz_u16x2(x: u16x2, is_zero_undef: bool) -> u16x2; - #[link_name = "llvm.cttz.v4i16"] - fn cttz_u16x4(x: u16x4, is_zero_undef: bool) -> u16x4; - #[link_name = "llvm.cttz.v8i16"] - fn cttz_u16x8(x: u16x8, is_zero_undef: bool) -> u16x8; - #[link_name = "llvm.cttz.v16i16"] - fn cttz_u16x16(x: u16x16, is_zero_undef: bool) -> u16x16; - #[link_name = "llvm.cttz.v32i16"] - fn cttz_u16x32(x: u16x32, is_zero_undef: bool) -> u16x32; - - #[link_name = "llvm.cttz.v2i32"] - fn cttz_u32x2(x: u32x2, is_zero_undef: bool) -> u32x2; - #[link_name = "llvm.cttz.v4i32"] - fn cttz_u32x4(x: u32x4, is_zero_undef: bool) -> u32x4; - #[link_name = "llvm.cttz.v8i32"] - fn cttz_u32x8(x: u32x8, is_zero_undef: bool) -> u32x8; - #[link_name = "llvm.cttz.v16i32"] - fn cttz_u32x16(x: u32x16, is_zero_undef: bool) -> u32x16; - - #[link_name = "llvm.cttz.v2i64"] - fn cttz_u64x2(x: u64x2, is_zero_undef: bool) -> u64x2; - #[link_name = "llvm.cttz.v4i64"] - fn cttz_u64x4(x: u64x4, is_zero_undef: bool) -> u64x4; - #[link_name = "llvm.cttz.v8i64"] - fn cttz_u64x8(x: u64x8, is_zero_undef: bool) -> u64x8; - - #[link_name = "llvm.cttz.v1i128"] - fn cttz_u128x1(x: u128x1, is_zero_undef: bool) -> u128x1; - #[link_name = "llvm.cttz.v2i128"] - fn cttz_u128x2(x: u128x2, is_zero_undef: bool) -> u128x2; - #[link_name = "llvm.cttz.v4i128"] - fn cttz_u128x4(x: u128x4, is_zero_undef: bool) -> u128x4; - - #[link_name = "llvm.ctpop.v2i8"] - fn ctpop_u8x2(x: u8x2) -> u8x2; - #[link_name = "llvm.ctpop.v4i8"] - fn ctpop_u8x4(x: u8x4) -> u8x4; - #[link_name = "llvm.ctpop.v8i8"] - fn ctpop_u8x8(x: u8x8) -> u8x8; - #[link_name = "llvm.ctpop.v16i8"] - fn ctpop_u8x16(x: u8x16) -> u8x16; - #[link_name = "llvm.ctpop.v32i8"] - fn ctpop_u8x32(x: u8x32) -> u8x32; - #[link_name = "llvm.ctpop.v64i8"] - fn ctpop_u8x64(x: u8x64) -> u8x64; - - #[link_name = "llvm.ctpop.v2i16"] - fn ctpop_u16x2(x: u16x2) -> u16x2; - #[link_name = "llvm.ctpop.v4i16"] - fn ctpop_u16x4(x: u16x4) -> u16x4; - #[link_name = "llvm.ctpop.v8i16"] - fn ctpop_u16x8(x: u16x8) -> u16x8; - #[link_name = "llvm.ctpop.v16i16"] - fn ctpop_u16x16(x: u16x16) -> u16x16; - #[link_name = "llvm.ctpop.v32i16"] - fn ctpop_u16x32(x: u16x32) -> u16x32; - - #[link_name = "llvm.ctpop.v2i32"] - fn ctpop_u32x2(x: u32x2) -> u32x2; - #[link_name = "llvm.ctpop.v4i32"] - fn ctpop_u32x4(x: u32x4) -> u32x4; - #[link_name = "llvm.ctpop.v8i32"] - fn ctpop_u32x8(x: u32x8) -> u32x8; - #[link_name = "llvm.ctpop.v16i32"] - fn ctpop_u32x16(x: u32x16) -> u32x16; - - #[link_name = "llvm.ctpop.v2i64"] - fn ctpop_u64x2(x: u64x2) -> u64x2; - #[link_name = "llvm.ctpop.v4i64"] - fn ctpop_u64x4(x: u64x4) -> u64x4; - #[link_name = "llvm.ctpop.v8i64"] - fn ctpop_u64x8(x: u64x8) -> u64x8; - - #[link_name = "llvm.ctpop.v1i128"] - fn ctpop_u128x1(x: u128x1) -> u128x1; - #[link_name = "llvm.ctpop.v2i128"] - fn ctpop_u128x2(x: u128x2) -> u128x2; - #[link_name = "llvm.ctpop.v4i128"] - fn ctpop_u128x4(x: u128x4) -> u128x4; -} - -pub(crate) trait BitManip { - fn ctpop(self) -> Self; - fn ctlz(self) -> Self; - fn cttz(self) -> Self; -} - -macro_rules! impl_bit_manip { - (inner: $ty:ident, $scalar:ty, $uty:ident, - $ctpop:ident, $ctlz:ident, $cttz:ident) => { - // FIXME: several LLVM intrinsics break on s390x https://github.com/rust-lang-nursery/packed_simd/issues/192 - #[cfg(target_arch = "s390x")] - impl_bit_manip! { scalar: $ty, $scalar } - #[cfg(not(target_arch = "s390x"))] - impl BitManip for $ty { - #[inline] - fn ctpop(self) -> Self { - let y: $uty = self.cast(); - unsafe { $ctpop(y).cast() } - } - - #[inline] - fn ctlz(self) -> Self { - let y: $uty = self.cast(); - // the ctxx intrinsics need compile-time constant - // `is_zero_undef` - unsafe { $ctlz(y, false).cast() } - } - - #[inline] - fn cttz(self) -> Self { - let y: $uty = self.cast(); - unsafe { $cttz(y, false).cast() } - } - } - }; - (sized_inner: $ty:ident, $scalar:ty, $uty:ident) => { - #[cfg(target_arch = "s390x")] - impl_bit_manip! { scalar: $ty, $scalar } - #[cfg(not(target_arch = "s390x"))] - impl BitManip for $ty { - #[inline] - fn ctpop(self) -> Self { - let y: $uty = self.cast(); - $uty::ctpop(y).cast() - } - - #[inline] - fn ctlz(self) -> Self { - let y: $uty = self.cast(); - $uty::ctlz(y).cast() - } - - #[inline] - fn cttz(self) -> Self { - let y: $uty = self.cast(); - $uty::cttz(y).cast() - } - } - }; - (scalar: $ty:ident, $scalar:ty) => { - impl BitManip for $ty { - #[inline] - fn ctpop(self) -> Self { - let mut ones = self; - for i in 0..Self::lanes() { - ones = ones.replace(i, self.extract(i).count_ones() as $scalar); - } - ones - } - - #[inline] - fn ctlz(self) -> Self { - let mut lz = self; - for i in 0..Self::lanes() { - lz = lz.replace(i, self.extract(i).leading_zeros() as $scalar); - } - lz - } - - #[inline] - fn cttz(self) -> Self { - let mut tz = self; - for i in 0..Self::lanes() { - tz = tz.replace(i, self.extract(i).trailing_zeros() as $scalar); - } - tz - } - } - }; - ($uty:ident, $uscalar:ty, $ity:ident, $iscalar:ty, - $ctpop:ident, $ctlz:ident, $cttz:ident) => { - impl_bit_manip! { inner: $uty, $uscalar, $uty, $ctpop, $ctlz, $cttz } - impl_bit_manip! { inner: $ity, $iscalar, $uty, $ctpop, $ctlz, $cttz } - }; - (sized: $usize:ident, $uscalar:ty, $isize:ident, - $iscalar:ty, $ty:ident) => { - impl_bit_manip! { sized_inner: $usize, $uscalar, $ty } - impl_bit_manip! { sized_inner: $isize, $iscalar, $ty } - }; -} - -impl_bit_manip! { u8x2 , u8, i8x2, i8, ctpop_u8x2, ctlz_u8x2, cttz_u8x2 } -impl_bit_manip! { u8x4 , u8, i8x4, i8, ctpop_u8x4, ctlz_u8x4, cttz_u8x4 } -#[cfg(not(target_arch = "aarch64"))] // see below -impl_bit_manip! { u8x8 , u8, i8x8, i8, ctpop_u8x8, ctlz_u8x8, cttz_u8x8 } -impl_bit_manip! { u8x16 , u8, i8x16, i8, ctpop_u8x16, ctlz_u8x16, cttz_u8x16 } -impl_bit_manip! { u8x32 , u8, i8x32, i8, ctpop_u8x32, ctlz_u8x32, cttz_u8x32 } -impl_bit_manip! { u8x64 , u8, i8x64, i8, ctpop_u8x64, ctlz_u8x64, cttz_u8x64 } -impl_bit_manip! { u16x2 , u16, i16x2, i16, ctpop_u16x2, ctlz_u16x2, cttz_u16x2 } -impl_bit_manip! { u16x4 , u16, i16x4, i16, ctpop_u16x4, ctlz_u16x4, cttz_u16x4 } -impl_bit_manip! { u16x8 , u16, i16x8, i16, ctpop_u16x8, ctlz_u16x8, cttz_u16x8 } -impl_bit_manip! { u16x16 , u16, i16x16, i16, ctpop_u16x16, ctlz_u16x16, cttz_u16x16 } -impl_bit_manip! { u16x32 , u16, i16x32, i16, ctpop_u16x32, ctlz_u16x32, cttz_u16x32 } -impl_bit_manip! { u32x2 , u32, i32x2, i32, ctpop_u32x2, ctlz_u32x2, cttz_u32x2 } -impl_bit_manip! { u32x4 , u32, i32x4, i32, ctpop_u32x4, ctlz_u32x4, cttz_u32x4 } -impl_bit_manip! { u32x8 , u32, i32x8, i32, ctpop_u32x8, ctlz_u32x8, cttz_u32x8 } -impl_bit_manip! { u32x16 , u32, i32x16, i32, ctpop_u32x16, ctlz_u32x16, cttz_u32x16 } -impl_bit_manip! { u64x2 , u64, i64x2, i64, ctpop_u64x2, ctlz_u64x2, cttz_u64x2 } -impl_bit_manip! { u64x4 , u64, i64x4, i64, ctpop_u64x4, ctlz_u64x4, cttz_u64x4 } -impl_bit_manip! { u64x8 , u64, i64x8, i64, ctpop_u64x8, ctlz_u64x8, cttz_u64x8 } -impl_bit_manip! { u128x1 , u128, i128x1, i128, ctpop_u128x1, ctlz_u128x1, cttz_u128x1 } -impl_bit_manip! { u128x2 , u128, i128x2, i128, ctpop_u128x2, ctlz_u128x2, cttz_u128x2 } -impl_bit_manip! { u128x4 , u128, i128x4, i128, ctpop_u128x4, ctlz_u128x4, cttz_u128x4 } - -#[cfg(target_arch = "aarch64")] -impl BitManip for u8x8 { - #[inline] - fn ctpop(self) -> Self { - let y: u8x8 = self.cast(); - unsafe { ctpop_u8x8(y).cast() } - } - - #[inline] - fn ctlz(self) -> Self { - let y: u8x8 = self.cast(); - unsafe { ctlz_u8x8(y, false).cast() } - } - - #[inline] - fn cttz(self) -> Self { - // FIXME: LLVM cttz.v8i8 broken on aarch64 https://github.com/rust-lang-nursery/packed_simd/issues/191 - // OPTIMIZE: adapt the algorithm used for v8i16/etc to Rust's aarch64 - // intrinsics - let mut tz = self; - for i in 0..Self::lanes() { - tz = tz.replace(i, self.extract(i).trailing_zeros() as u8); - } - tz - } -} -#[cfg(target_arch = "aarch64")] -impl BitManip for i8x8 { - #[inline] - fn ctpop(self) -> Self { - let y: u8x8 = self.cast(); - unsafe { ctpop_u8x8(y).cast() } - } - - #[inline] - fn ctlz(self) -> Self { - let y: u8x8 = self.cast(); - unsafe { ctlz_u8x8(y, false).cast() } - } - - #[inline] - fn cttz(self) -> Self { - // FIXME: LLVM cttz.v8i8 broken on aarch64 https://github.com/rust-lang-nursery/packed_simd/issues/191 - // OPTIMIZE: adapt the algorithm used for v8i16/etc to Rust's aarch64 - // intrinsics - let mut tz = self; - for i in 0..Self::lanes() { - tz = tz.replace(i, self.extract(i).trailing_zeros() as i8); - } - tz - } -} - -cfg_if! { - if #[cfg(target_pointer_width = "8")] { - impl_bit_manip! { sized: usizex2, usize, isizex2, isize, u8x2 } - impl_bit_manip! { sized: usizex4, usize, isizex4, isize, u8x4 } - impl_bit_manip! { sized: usizex8, usize, isizex8, isize, u8x8 } - } else if #[cfg(target_pointer_width = "16")] { - impl_bit_manip! { sized: usizex2, usize, isizex2, isize, u16x2 } - impl_bit_manip! { sized: usizex4, usize, isizex4, isize, u16x4 } - impl_bit_manip! { sized: usizex8, usize, isizex8, isize, u16x8 } - } else if #[cfg(target_pointer_width = "32")] { - impl_bit_manip! { sized: usizex2, usize, isizex2, isize, u32x2 } - impl_bit_manip! { sized: usizex4, usize, isizex4, isize, u32x4 } - impl_bit_manip! { sized: usizex8, usize, isizex8, isize, u32x8 } - } else if #[cfg(target_pointer_width = "64")] { - impl_bit_manip! { sized: usizex2, usize, isizex2, isize, u64x2 } - impl_bit_manip! { sized: usizex4, usize, isizex4, isize, u64x4 } - impl_bit_manip! { sized: usizex8, usize, isizex8, isize, u64x8 } - } else { - compile_error!("unsupported target_pointer_width"); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/llvm.rs b/third_party/rust/packed_simd/src/codegen/llvm.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/llvm.rs +++ /dev/null @@ -1,122 +0,0 @@ -//! LLVM's platform intrinsics -#![allow(dead_code)] - -use crate::sealed::Shuffle; -#[allow(unused_imports)] // FIXME: spurious warning? -use crate::sealed::Simd; - -extern "platform-intrinsic" { - fn simd_shuffle<T, I, U>(x: T, y: T, idx: I) -> U; -} - -#[allow(clippy::missing_safety_doc)] -#[inline] -pub unsafe fn __shuffle_vector2<const IDX: [u32; 2], T, U>(x: T, y: T) -> U -where - T: Simd, - <T as Simd>::Element: Shuffle<[u32; 2], Output = U>, -{ - simd_shuffle(x, y, IDX) -} - -#[allow(clippy::missing_safety_doc)] -#[inline] -pub unsafe fn __shuffle_vector4<const IDX: [u32; 4], T, U>(x: T, y: T) -> U -where - T: Simd, - <T as Simd>::Element: Shuffle<[u32; 4], Output = U>, -{ - simd_shuffle(x, y, IDX) -} - -#[allow(clippy::missing_safety_doc)] -#[inline] -pub unsafe fn __shuffle_vector8<const IDX: [u32; 8], T, U>(x: T, y: T) -> U -where - T: Simd, - <T as Simd>::Element: Shuffle<[u32; 8], Output = U>, -{ - simd_shuffle(x, y, IDX) -} - -#[allow(clippy::missing_safety_doc)] -#[inline] -pub unsafe fn __shuffle_vector16<const IDX: [u32; 16], T, U>(x: T, y: T) -> U -where - T: Simd, - <T as Simd>::Element: Shuffle<[u32; 16], Output = U>, -{ - simd_shuffle(x, y, IDX) -} - -#[allow(clippy::missing_safety_doc)] -#[inline] -pub unsafe fn __shuffle_vector32<const IDX: [u32; 32], T, U>(x: T, y: T) -> U -where - T: Simd, - <T as Simd>::Element: Shuffle<[u32; 32], Output = U>, -{ - simd_shuffle(x, y, IDX) -} - -#[allow(clippy::missing_safety_doc)] -#[inline] -pub unsafe fn __shuffle_vector64<const IDX: [u32; 64], T, U>(x: T, y: T) -> U -where - T: Simd, - <T as Simd>::Element: Shuffle<[u32; 64], Output = U>, -{ - simd_shuffle(x, y, IDX) -} - -extern "platform-intrinsic" { - pub(crate) fn simd_eq<T, U>(x: T, y: T) -> U; - pub(crate) fn simd_ne<T, U>(x: T, y: T) -> U; - pub(crate) fn simd_lt<T, U>(x: T, y: T) -> U; - pub(crate) fn simd_le<T, U>(x: T, y: T) -> U; - pub(crate) fn simd_gt<T, U>(x: T, y: T) -> U; - pub(crate) fn simd_ge<T, U>(x: T, y: T) -> U; - - pub(crate) fn simd_insert<T, U>(x: T, idx: u32, val: U) -> T; - pub(crate) fn simd_extract<T, U>(x: T, idx: u32) -> U; - - pub(crate) fn simd_cast<T, U>(x: T) -> U; - - pub(crate) fn simd_add<T>(x: T, y: T) -> T; - pub(crate) fn simd_sub<T>(x: T, y: T) -> T; - pub(crate) fn simd_mul<T>(x: T, y: T) -> T; - pub(crate) fn simd_div<T>(x: T, y: T) -> T; - pub(crate) fn simd_rem<T>(x: T, y: T) -> T; - pub(crate) fn simd_shl<T>(x: T, y: T) -> T; - pub(crate) fn simd_shr<T>(x: T, y: T) -> T; - pub(crate) fn simd_and<T>(x: T, y: T) -> T; - pub(crate) fn simd_or<T>(x: T, y: T) -> T; - pub(crate) fn simd_xor<T>(x: T, y: T) -> T; - - pub(crate) fn simd_reduce_add_unordered<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_mul_unordered<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_add_ordered<T, U>(x: T, acc: U) -> U; - pub(crate) fn simd_reduce_mul_ordered<T, U>(x: T, acc: U) -> U; - pub(crate) fn simd_reduce_min<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_max<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_min_nanless<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_max_nanless<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_and<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_or<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_xor<T, U>(x: T) -> U; - pub(crate) fn simd_reduce_all<T>(x: T) -> bool; - pub(crate) fn simd_reduce_any<T>(x: T) -> bool; - - pub(crate) fn simd_select<M, T>(m: M, a: T, b: T) -> T; - - pub(crate) fn simd_fmin<T>(a: T, b: T) -> T; - pub(crate) fn simd_fmax<T>(a: T, b: T) -> T; - - pub(crate) fn simd_fsqrt<T>(a: T) -> T; - pub(crate) fn simd_fma<T>(a: T, b: T, c: T) -> T; - - pub(crate) fn simd_gather<T, P, M>(value: T, pointers: P, mask: M) -> T; - pub(crate) fn simd_scatter<T, P, M>(value: T, pointers: P, mask: M); - - pub(crate) fn simd_bitmask<T, U>(value: T) -> U; -} diff --git a/third_party/rust/packed_simd/src/codegen/math.rs b/third_party/rust/packed_simd/src/codegen/math.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math.rs +++ /dev/null @@ -1,3 +0,0 @@ -//! Vertical math operations - -pub(crate) mod float; diff --git a/third_party/rust/packed_simd/src/codegen/math/float.rs b/third_party/rust/packed_simd/src/codegen/math/float.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float.rs +++ /dev/null @@ -1,18 +0,0 @@ -//! Vertical floating-point math operations. -#![allow(clippy::useless_transmute)] - -#[macro_use] -pub(crate) mod macros; -pub(crate) mod abs; -pub(crate) mod cos; -pub(crate) mod cos_pi; -pub(crate) mod exp; -pub(crate) mod ln; -pub(crate) mod mul_add; -pub(crate) mod mul_adde; -pub(crate) mod powf; -pub(crate) mod sin; -pub(crate) mod sin_cos_pi; -pub(crate) mod sin_pi; -pub(crate) mod sqrt; -pub(crate) mod sqrte; diff --git a/third_party/rust/packed_simd/src/codegen/math/float/abs.rs b/third_party/rust/packed_simd/src/codegen/math/float/abs.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/abs.rs +++ /dev/null @@ -1,103 +0,0 @@ -//! Vertical floating-point `fabs` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors fabs - -use crate::*; - -pub(crate) trait Abs { - fn abs(self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.fabs.v2f32"] - fn fabs_v2f32(x: f32x2) -> f32x2; - #[link_name = "llvm.fabs.v4f32"] - fn fabs_v4f32(x: f32x4) -> f32x4; - #[link_name = "llvm.fabs.v8f32"] - fn fabs_v8f32(x: f32x8) -> f32x8; - #[link_name = "llvm.fabs.v16f32"] - fn fabs_v16f32(x: f32x16) -> f32x16; - /* FIXME 64-bit fabsgle elem vectors - #[link_name = "llvm.fabs.v1f64"] - fn fabs_v1f64(x: f64x1) -> f64x1; - */ - #[link_name = "llvm.fabs.v2f64"] - fn fabs_v2f64(x: f64x2) -> f64x2; - #[link_name = "llvm.fabs.v4f64"] - fn fabs_v4f64(x: f64x4) -> f64x4; - #[link_name = "llvm.fabs.v8f64"] - fn fabs_v8f64(x: f64x8) -> f64x8; - - #[link_name = "llvm.fabs.f32"] - fn fabs_f32(x: f32) -> f32; - #[link_name = "llvm.fabs.f64"] - fn fabs_f64(x: f64) -> f64; -} - -gen_unary_impl_table!(Abs, abs); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_unary!(f32x2[f32; 2]: fabs_f32); - impl_unary!(f32x4[f32; 4]: fabs_f32); - impl_unary!(f32x8[f32; 8]: fabs_f32); - impl_unary!(f32x16[f32; 16]: fabs_f32); - - impl_unary!(f64x2[f64; 2]: fabs_f64); - impl_unary!(f64x4[f64; 4]: fabs_f64); - impl_unary!(f64x8[f64; 8]: fabs_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_fabsf4_avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_fabsf8_avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_fabsd4_avx2); - - impl_unary!(f32x4: Sleef_fabsf4_avx2128); - impl_unary!(f32x8: Sleef_fabsf8_avx2); - impl_unary!(f64x2: Sleef_fabsd2_avx2128); - impl_unary!(f64x4: Sleef_fabsd4_avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_fabsf4_sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_fabsf8_avx); - impl_unary!(f64x8[h => f64x4]: Sleef_fabsd4_avx); - - impl_unary!(f32x4: Sleef_fabsf4_sse4); - impl_unary!(f32x8: Sleef_fabsf8_avx); - impl_unary!(f64x2: Sleef_fabsd2_sse4); - impl_unary!(f64x4: Sleef_fabsd4_avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_fabsf4_sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_fabsf4_sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_fabsd2_sse4); - - impl_unary!(f32x4: Sleef_fabsf4_sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_fabsf4_sse4); - impl_unary!(f64x2: Sleef_fabsd2_sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_fabsd2_sse4); - } else { - impl_unary!(f32x2[f32; 2]: fabs_f32); - impl_unary!(f32x16: fabs_v16f32); - impl_unary!(f64x8: fabs_v8f64); - - impl_unary!(f32x4: fabs_v4f32); - impl_unary!(f32x8: fabs_v8f32); - impl_unary!(f64x2: fabs_v2f64); - impl_unary!(f64x4: fabs_v4f64); - } - } - } else { - impl_unary!(f32x2[f32; 2]: fabs_f32); - impl_unary!(f32x4: fabs_v4f32); - impl_unary!(f32x8: fabs_v8f32); - impl_unary!(f32x16: fabs_v16f32); - - impl_unary!(f64x2: fabs_v2f64); - impl_unary!(f64x4: fabs_v4f64); - impl_unary!(f64x8: fabs_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/cos.rs b/third_party/rust/packed_simd/src/codegen/math/float/cos.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/cos.rs +++ /dev/null @@ -1,103 +0,0 @@ -//! Vertical floating-point `cos` -#![allow(unused)] - -// FIXME 64-bit 1 elem vector cos - -use crate::*; - -pub(crate) trait Cos { - fn cos(self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.cos.v2f32"] - fn cos_v2f32(x: f32x2) -> f32x2; - #[link_name = "llvm.cos.v4f32"] - fn cos_v4f32(x: f32x4) -> f32x4; - #[link_name = "llvm.cos.v8f32"] - fn cos_v8f32(x: f32x8) -> f32x8; - #[link_name = "llvm.cos.v16f32"] - fn cos_v16f32(x: f32x16) -> f32x16; - /* FIXME 64-bit cosgle elem vectors - #[link_name = "llvm.cos.v1f64"] - fn cos_v1f64(x: f64x1) -> f64x1; - */ - #[link_name = "llvm.cos.v2f64"] - fn cos_v2f64(x: f64x2) -> f64x2; - #[link_name = "llvm.cos.v4f64"] - fn cos_v4f64(x: f64x4) -> f64x4; - #[link_name = "llvm.cos.v8f64"] - fn cos_v8f64(x: f64x8) -> f64x8; - - #[link_name = "llvm.cos.f32"] - fn cos_f32(x: f32) -> f32; - #[link_name = "llvm.cos.f64"] - fn cos_f64(x: f64) -> f64; -} - -gen_unary_impl_table!(Cos, cos); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_unary!(f32x2[f32; 2]: cos_f32); - impl_unary!(f32x4[f32; 4]: cos_f32); - impl_unary!(f32x8[f32; 8]: cos_f32); - impl_unary!(f32x16[f32; 16]: cos_f32); - - impl_unary!(f64x2[f64; 2]: cos_f64); - impl_unary!(f64x4[f64; 4]: cos_f64); - impl_unary!(f64x8[f64; 8]: cos_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_cosf4_u10avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_cosf8_u10avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_cosd4_u10avx2); - - impl_unary!(f32x4: Sleef_cosf4_u10avx2128); - impl_unary!(f32x8: Sleef_cosf8_u10avx2); - impl_unary!(f64x2: Sleef_cosd2_u10avx2128); - impl_unary!(f64x4: Sleef_cosd4_u10avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_cosf4_u10sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_cosf8_u10avx); - impl_unary!(f64x8[h => f64x4]: Sleef_cosd4_u10avx); - - impl_unary!(f32x4: Sleef_cosf4_u10sse4); - impl_unary!(f32x8: Sleef_cosf8_u10avx); - impl_unary!(f64x2: Sleef_cosd2_u10sse4); - impl_unary!(f64x4: Sleef_cosd4_u10avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_cosf4_u10sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_cosf4_u10sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_cosd2_u10sse4); - - impl_unary!(f32x4: Sleef_cosf4_u10sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_cosf4_u10sse4); - impl_unary!(f64x2: Sleef_cosd2_u10sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_cosd2_u10sse4); - } else { - impl_unary!(f32x2[f32; 2]: cos_f32); - impl_unary!(f32x16: cos_v16f32); - impl_unary!(f64x8: cos_v8f64); - - impl_unary!(f32x4: cos_v4f32); - impl_unary!(f32x8: cos_v8f32); - impl_unary!(f64x2: cos_v2f64); - impl_unary!(f64x4: cos_v4f64); - } - } - } else { - impl_unary!(f32x2[f32; 2]: cos_f32); - impl_unary!(f32x4: cos_v4f32); - impl_unary!(f32x8: cos_v8f32); - impl_unary!(f32x16: cos_v16f32); - - impl_unary!(f64x2: cos_v2f64); - impl_unary!(f64x4: cos_v4f64); - impl_unary!(f64x8: cos_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/cos_pi.rs b/third_party/rust/packed_simd/src/codegen/math/float/cos_pi.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/cos_pi.rs +++ /dev/null @@ -1,87 +0,0 @@ -//! Vertical floating-point `cos` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors cos_pi - -use crate::*; - -pub(crate) trait CosPi { - fn cos_pi(self) -> Self; -} - -gen_unary_impl_table!(CosPi, cos_pi); - -macro_rules! impl_def { - ($vid:ident, $PI:path) => { - impl CosPi for $vid { - #[inline] - fn cos_pi(self) -> Self { - (self * Self::splat($PI)).cos() - } - } - }; -} -macro_rules! impl_def32 { - ($vid:ident) => { - impl_def!($vid, crate::f32::consts::PI); - }; -} -macro_rules! impl_def64 { - ($vid:ident) => { - impl_def!($vid, crate::f64::consts::PI); - }; -} - -cfg_if! { - if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_cospif4_u05avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_cospif8_u05avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_cospid4_u05avx2); - - impl_unary!(f32x4: Sleef_cospif4_u05avx2128); - impl_unary!(f32x8: Sleef_cospif8_u05avx2); - impl_unary!(f64x2: Sleef_cospid2_u05avx2128); - impl_unary!(f64x4: Sleef_cospid4_u05avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_cospif4_u05sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_cospif8_u05avx); - impl_unary!(f64x8[h => f64x4]: Sleef_cospid4_u05avx); - - impl_unary!(f32x4: Sleef_cospif4_u05sse4); - impl_unary!(f32x8: Sleef_cospif8_u05avx); - impl_unary!(f64x2: Sleef_cospid2_u05sse4); - impl_unary!(f64x4: Sleef_cospid4_u05avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_cospif4_u05sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_cospif4_u05sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_cospid2_u05sse4); - - impl_unary!(f32x4: Sleef_cospif4_u05sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_cospif4_u05sse4); - impl_unary!(f64x2: Sleef_cospid2_u05sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_cospid2_u05sse4); - } else { - impl_def32!(f32x2); - impl_def32!(f32x4); - impl_def32!(f32x8); - impl_def32!(f32x16); - - impl_def64!(f64x2); - impl_def64!(f64x4); - impl_def64!(f64x8); - } - } - } else { - impl_def32!(f32x2); - impl_def32!(f32x4); - impl_def32!(f32x8); - impl_def32!(f32x16); - - impl_def64!(f64x2); - impl_def64!(f64x4); - impl_def64!(f64x8); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/exp.rs b/third_party/rust/packed_simd/src/codegen/math/float/exp.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/exp.rs +++ /dev/null @@ -1,112 +0,0 @@ -//! Vertical floating-point `exp` -#![allow(unused)] - -// FIXME 64-bit expgle elem vectors misexpg - -use crate::*; - -pub(crate) trait Exp { - fn exp(self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.exp.v2f32"] - fn exp_v2f32(x: f32x2) -> f32x2; - #[link_name = "llvm.exp.v4f32"] - fn exp_v4f32(x: f32x4) -> f32x4; - #[link_name = "llvm.exp.v8f32"] - fn exp_v8f32(x: f32x8) -> f32x8; - #[link_name = "llvm.exp.v16f32"] - fn exp_v16f32(x: f32x16) -> f32x16; - /* FIXME 64-bit expgle elem vectors - #[link_name = "llvm.exp.v1f64"] - fn exp_v1f64(x: f64x1) -> f64x1; - */ - #[link_name = "llvm.exp.v2f64"] - fn exp_v2f64(x: f64x2) -> f64x2; - #[link_name = "llvm.exp.v4f64"] - fn exp_v4f64(x: f64x4) -> f64x4; - #[link_name = "llvm.exp.v8f64"] - fn exp_v8f64(x: f64x8) -> f64x8; - - #[link_name = "llvm.exp.f32"] - fn exp_f32(x: f32) -> f32; - #[link_name = "llvm.exp.f64"] - fn exp_f64(x: f64) -> f64; -} - -gen_unary_impl_table!(Exp, exp); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_unary!(f32x2[f32; 2]: exp_f32); - impl_unary!(f32x4[f32; 4]: exp_f32); - impl_unary!(f32x8[f32; 8]: exp_f32); - impl_unary!(f32x16[f32; 16]: exp_f32); - - impl_unary!(f64x2[f64; 2]: exp_f64); - impl_unary!(f64x4[f64; 4]: exp_f64); - impl_unary!(f64x8[f64; 8]: exp_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_expf4_u10avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_expf8_u10avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_expd4_u10avx2); - - impl_unary!(f32x4: Sleef_expf4_u10avx2128); - impl_unary!(f32x8: Sleef_expf8_u10avx2); - impl_unary!(f64x2: Sleef_expd2_u10avx2128); - impl_unary!(f64x4: Sleef_expd4_u10avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_expf4_u10sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_expf8_u10avx); - impl_unary!(f64x8[h => f64x4]: Sleef_expd4_u10avx); - - impl_unary!(f32x4: Sleef_expf4_u10sse4); - impl_unary!(f32x8: Sleef_expf8_u10avx); - impl_unary!(f64x2: Sleef_expd2_u10sse4); - impl_unary!(f64x4: Sleef_expd4_u10avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_expf4_u10sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_expf4_u10sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_expd2_u10sse4); - - impl_unary!(f32x4: Sleef_expf4_u10sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_expf4_u10sse4); - impl_unary!(f64x2: Sleef_expd2_u10sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_expd2_u10sse4); - } else if #[cfg(target_feature = "sse2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_expf4_u10sse2); - impl_unary!(f32x16[q => f32x4]: Sleef_expf4_u10sse2); - impl_unary!(f64x8[q => f64x2]: Sleef_expd2_u10sse2); - - impl_unary!(f32x4: Sleef_expf4_u10sse2); - impl_unary!(f32x8[h => f32x4]: Sleef_expf4_u10sse2); - impl_unary!(f64x2: Sleef_expd2_u10sse2); - impl_unary!(f64x4[h => f64x2]: Sleef_expd2_u10sse2); - } else { - impl_unary!(f32x2[f32; 2]: exp_f32); - impl_unary!(f32x16: exp_v16f32); - impl_unary!(f64x8: exp_v8f64); - - impl_unary!(f32x4: exp_v4f32); - impl_unary!(f32x8: exp_v8f32); - impl_unary!(f64x2: exp_v2f64); - impl_unary!(f64x4: exp_v4f64); - } - } - } else { - impl_unary!(f32x2[f32; 2]: exp_f32); - impl_unary!(f32x4: exp_v4f32); - impl_unary!(f32x8: exp_v8f32); - impl_unary!(f32x16: exp_v16f32); - - impl_unary!(f64x2: exp_v2f64); - impl_unary!(f64x4: exp_v4f64); - impl_unary!(f64x8: exp_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/ln.rs b/third_party/rust/packed_simd/src/codegen/math/float/ln.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/ln.rs +++ /dev/null @@ -1,112 +0,0 @@ -//! Vertical floating-point `ln` -#![allow(unused)] - -// FIXME 64-bit lngle elem vectors mislng - -use crate::*; - -pub(crate) trait Ln { - fn ln(self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.log.v2f32"] - fn ln_v2f32(x: f32x2) -> f32x2; - #[link_name = "llvm.log.v4f32"] - fn ln_v4f32(x: f32x4) -> f32x4; - #[link_name = "llvm.log.v8f32"] - fn ln_v8f32(x: f32x8) -> f32x8; - #[link_name = "llvm.log.v16f32"] - fn ln_v16f32(x: f32x16) -> f32x16; - /* FIXME 64-bit lngle elem vectors - #[link_name = "llvm.log.v1f64"] - fn ln_v1f64(x: f64x1) -> f64x1; - */ - #[link_name = "llvm.log.v2f64"] - fn ln_v2f64(x: f64x2) -> f64x2; - #[link_name = "llvm.log.v4f64"] - fn ln_v4f64(x: f64x4) -> f64x4; - #[link_name = "llvm.log.v8f64"] - fn ln_v8f64(x: f64x8) -> f64x8; - - #[link_name = "llvm.log.f32"] - fn ln_f32(x: f32) -> f32; - #[link_name = "llvm.log.f64"] - fn ln_f64(x: f64) -> f64; -} - -gen_unary_impl_table!(Ln, ln); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_unary!(f32x2[f32; 2]: ln_f32); - impl_unary!(f32x4[f32; 4]: ln_f32); - impl_unary!(f32x8[f32; 8]: ln_f32); - impl_unary!(f32x16[f32; 16]: ln_f32); - - impl_unary!(f64x2[f64; 2]: ln_f64); - impl_unary!(f64x4[f64; 4]: ln_f64); - impl_unary!(f64x8[f64; 8]: ln_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_logf4_u10avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_logf8_u10avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_logd4_u10avx2); - - impl_unary!(f32x4: Sleef_logf4_u10avx2128); - impl_unary!(f32x8: Sleef_logf8_u10avx2); - impl_unary!(f64x2: Sleef_logd2_u10avx2128); - impl_unary!(f64x4: Sleef_logd4_u10avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_logf4_u10sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_logf8_u10avx); - impl_unary!(f64x8[h => f64x4]: Sleef_logd4_u10avx); - - impl_unary!(f32x4: Sleef_logf4_u10sse4); - impl_unary!(f32x8: Sleef_logf8_u10avx); - impl_unary!(f64x2: Sleef_logd2_u10sse4); - impl_unary!(f64x4: Sleef_logd4_u10avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_logf4_u10sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_logf4_u10sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_logd2_u10sse4); - - impl_unary!(f32x4: Sleef_logf4_u10sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_logf4_u10sse4); - impl_unary!(f64x2: Sleef_logd2_u10sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_logd2_u10sse4); - } else if #[cfg(target_feature = "sse2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_logf4_u10sse2); - impl_unary!(f32x16[q => f32x4]: Sleef_logf4_u10sse2); - impl_unary!(f64x8[q => f64x2]: Sleef_logd2_u10sse2); - - impl_unary!(f32x4: Sleef_logf4_u10sse2); - impl_unary!(f32x8[h => f32x4]: Sleef_logf4_u10sse2); - impl_unary!(f64x2: Sleef_logd2_u10sse2); - impl_unary!(f64x4[h => f64x2]: Sleef_logd2_u10sse2); - } else { - impl_unary!(f32x2[f32; 2]: ln_f32); - impl_unary!(f32x16: ln_v16f32); - impl_unary!(f64x8: ln_v8f64); - - impl_unary!(f32x4: ln_v4f32); - impl_unary!(f32x8: ln_v8f32); - impl_unary!(f64x2: ln_v2f64); - impl_unary!(f64x4: ln_v4f64); - } - } - } else { - impl_unary!(f32x2[f32; 2]: ln_f32); - impl_unary!(f32x4: ln_v4f32); - impl_unary!(f32x8: ln_v8f32); - impl_unary!(f32x16: ln_v16f32); - - impl_unary!(f64x2: ln_v2f64); - impl_unary!(f64x4: ln_v4f64); - impl_unary!(f64x8: ln_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/macros.rs b/third_party/rust/packed_simd/src/codegen/math/float/macros.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/macros.rs +++ /dev/null @@ -1,470 +0,0 @@ -//! Utility macros -#![allow(unused)] - -macro_rules! impl_unary_ { - // implementation mapping 1:1 - (vec | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self) -> Self { - unsafe { - use crate::mem::transmute; - transmute($fun(transmute(self))) - } - } - } - }; - // implementation mapping 1:1 for when `$fun` is a generic function - // like some of the fp math rustc intrinsics (e.g. `fn fun<T>(x: T) -> T`). - (gen | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self) -> Self { - unsafe { - use crate::mem::transmute; - transmute($fun(self.0)) - } - } - } - }; - (scalar | $trait_id:ident, $trait_method:ident, - $vec_id:ident, [$sid:ident; $scount:expr], $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self) -> Self { - unsafe { - union U { - vec: $vec_id, - scalars: [$sid; $scount], - } - let mut scalars = U { vec: self }.scalars; - for i in &mut scalars { - *i = $fun(*i); - } - U { scalars }.vec - } - } - } - }; - // implementation calling fun twice on each of the vector halves: - (halves | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vech_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self) -> Self { - unsafe { - use crate::mem::transmute; - union U { - vec: $vec_id, - halves: [$vech_id; 2], - } - - let mut halves = U { vec: self }.halves; - - *halves.get_unchecked_mut(0) = transmute($fun(transmute(*halves.get_unchecked(0)))); - *halves.get_unchecked_mut(1) = transmute($fun(transmute(*halves.get_unchecked(1)))); - - U { halves }.vec - } - } - } - }; - // implementation calling fun four times on each of the vector quarters: - (quarter | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vecq_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self) -> Self { - unsafe { - use crate::mem::transmute; - union U { - vec: $vec_id, - quarters: [$vecq_id; 4], - } - - let mut quarters = U { vec: self }.quarters; - - *quarters.get_unchecked_mut(0) = transmute($fun(transmute(*quarters.get_unchecked(0)))); - *quarters.get_unchecked_mut(1) = transmute($fun(transmute(*quarters.get_unchecked(1)))); - *quarters.get_unchecked_mut(2) = transmute($fun(transmute(*quarters.get_unchecked(2)))); - *quarters.get_unchecked_mut(3) = transmute($fun(transmute(*quarters.get_unchecked(3)))); - - U { quarters }.vec - } - } - } - }; - // implementation calling fun once on a vector twice as large: - (twice | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vect_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self) -> Self { - unsafe { - use crate::mem::{transmute, uninitialized}; - - union U { - vec: [$vec_id; 2], - twice: $vect_id, - } - - let twice = U { vec: [self, uninitialized()] }.twice; - let twice = transmute($fun(transmute(twice))); - - *(U { twice }.vec.get_unchecked(0)) - } - } - } - }; -} - -macro_rules! gen_unary_impl_table { - ($trait_id:ident, $trait_method:ident) => { - macro_rules! impl_unary { - ($vid:ident: $fun:ident) => { - impl_unary_!(vec | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[g]: $fun:ident) => { - impl_unary_!(gen | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[$sid:ident; $sc:expr]: $fun:ident) => { - impl_unary_!(scalar | $trait_id, $trait_method, $vid, [$sid; $sc], $fun); - }; - ($vid:ident[s]: $fun:ident) => { - impl_unary_!(scalar | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[h => $vid_h:ident]: $fun:ident) => { - impl_unary_!(halves | $trait_id, $trait_method, $vid, $vid_h, $fun); - }; - ($vid:ident[q => $vid_q:ident]: $fun:ident) => { - impl_unary_!(quarter | $trait_id, $trait_method, $vid, $vid_q, $fun); - }; - ($vid:ident[t => $vid_t:ident]: $fun:ident) => { - impl_unary_!(twice | $trait_id, $trait_method, $vid, $vid_t, $fun); - }; - } - }; -} - -macro_rules! impl_tertiary_ { - // implementation mapping 1:1 - (vec | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self, z: Self) -> Self { - unsafe { - use crate::mem::transmute; - transmute($fun(transmute(self), transmute(y), transmute(z))) - } - } - } - }; - (scalar | $trait_id:ident, $trait_method:ident, - $vec_id:ident, [$sid:ident; $scount:expr], $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self, z: Self) -> Self { - unsafe { - union U { - vec: $vec_id, - scalars: [$sid; $scount], - } - let mut x = U { vec: self }.scalars; - let y = U { vec: y }.scalars; - let z = U { vec: z }.scalars; - for (x, (y, z)) in (&mut scalars).zip(&y).zip(&z) { - *i = $fun(*i, *y, *z); - } - U { vec: x }.vec - } - } - } - }; - // implementation calling fun twice on each of the vector halves: - (halves | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vech_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self, z: Self) -> Self { - unsafe { - use crate::mem::transmute; - union U { - vec: $vec_id, - halves: [$vech_id; 2], - } - - let mut x_halves = U { vec: self }.halves; - let y_halves = U { vec: y }.halves; - let z_halves = U { vec: z }.halves; - - *x_halves.get_unchecked_mut(0) = transmute($fun( - transmute(*x_halves.get_unchecked(0)), - transmute(*y_halves.get_unchecked(0)), - transmute(*z_halves.get_unchecked(0)), - )); - *x_halves.get_unchecked_mut(1) = transmute($fun( - transmute(*x_halves.get_unchecked(1)), - transmute(*y_halves.get_unchecked(1)), - transmute(*z_halves.get_unchecked(1)), - )); - - U { halves: x_halves }.vec - } - } - } - }; - // implementation calling fun four times on each of the vector quarters: - (quarter | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vecq_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self, z: Self) -> Self { - unsafe { - use crate::mem::transmute; - union U { - vec: $vec_id, - quarters: [$vecq_id; 4], - } - - let mut x_quarters = U { vec: self }.quarters; - let y_quarters = U { vec: y }.quarters; - let z_quarters = U { vec: z }.quarters; - - *x_quarters.get_unchecked_mut(0) = transmute($fun( - transmute(*x_quarters.get_unchecked(0)), - transmute(*y_quarters.get_unchecked(0)), - transmute(*z_quarters.get_unchecked(0)), - )); - - *x_quarters.get_unchecked_mut(1) = transmute($fun( - transmute(*x_quarters.get_unchecked(1)), - transmute(*y_quarters.get_unchecked(1)), - transmute(*z_quarters.get_unchecked(1)), - )); - - *x_quarters.get_unchecked_mut(2) = transmute($fun( - transmute(*x_quarters.get_unchecked(2)), - transmute(*y_quarters.get_unchecked(2)), - transmute(*z_quarters.get_unchecked(2)), - )); - - *x_quarters.get_unchecked_mut(3) = transmute($fun( - transmute(*x_quarters.get_unchecked(3)), - transmute(*y_quarters.get_unchecked(3)), - transmute(*z_quarters.get_unchecked(3)), - )); - - U { quarters: x_quarters }.vec - } - } - } - }; - // implementation calling fun once on a vector twice as large: - (twice | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vect_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self, z: Self) -> Self { - unsafe { - use crate::mem::{transmute, uninitialized}; - - union U { - vec: [$vec_id; 2], - twice: $vect_id, - } - - let x_twice = U { vec: [self, uninitialized()] }.twice; - let y_twice = U { vec: [y, uninitialized()] }.twice; - let z_twice = U { vec: [z, uninitialized()] }.twice; - let twice: $vect_id = - transmute($fun(transmute(x_twice), transmute(y_twice), transmute(z_twice))); - - *(U { twice }.vec.get_unchecked(0)) - } - } - } - }; -} - -macro_rules! gen_tertiary_impl_table { - ($trait_id:ident, $trait_method:ident) => { - macro_rules! impl_tertiary { - ($vid:ident: $fun:ident) => { - impl_tertiary_!(vec | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[$sid:ident; $sc:expr]: $fun:ident) => { - impl_tertiary_!(scalar | $trait_id, $trait_method, $vid, [$sid; $sc], $fun); - }; - ($vid:ident[s]: $fun:ident) => { - impl_tertiary_!(scalar | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[h => $vid_h:ident]: $fun:ident) => { - impl_tertiary_!(halves | $trait_id, $trait_method, $vid, $vid_h, $fun); - }; - ($vid:ident[q => $vid_q:ident]: $fun:ident) => { - impl_tertiary_!(quarter | $trait_id, $trait_method, $vid, $vid_q, $fun); - }; - ($vid:ident[t => $vid_t:ident]: $fun:ident) => { - impl_tertiary_!(twice | $trait_id, $trait_method, $vid, $vid_t, $fun); - }; - } - }; -} - -macro_rules! impl_binary_ { - // implementation mapping 1:1 - (vec | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self) -> Self { - unsafe { - use crate::mem::transmute; - transmute($fun(transmute(self), transmute(y))) - } - } - } - }; - (scalar | $trait_id:ident, $trait_method:ident, - $vec_id:ident, [$sid:ident; $scount:expr], $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self) -> Self { - unsafe { - union U { - vec: $vec_id, - scalars: [$sid; $scount], - } - let mut x = U { vec: self }.scalars; - let y = U { vec: y }.scalars; - for (x, y) in x.iter_mut().zip(&y) { - *x = $fun(*x, *y); - } - U { scalars: x }.vec - } - } - } - }; - // implementation calling fun twice on each of the vector halves: - (halves | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vech_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self) -> Self { - unsafe { - use crate::mem::transmute; - union U { - vec: $vec_id, - halves: [$vech_id; 2], - } - - let mut x_halves = U { vec: self }.halves; - let y_halves = U { vec: y }.halves; - - *x_halves.get_unchecked_mut(0) = transmute($fun( - transmute(*x_halves.get_unchecked(0)), - transmute(*y_halves.get_unchecked(0)), - )); - *x_halves.get_unchecked_mut(1) = transmute($fun( - transmute(*x_halves.get_unchecked(1)), - transmute(*y_halves.get_unchecked(1)), - )); - - U { halves: x_halves }.vec - } - } - } - }; - // implementation calling fun four times on each of the vector quarters: - (quarter | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vecq_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self) -> Self { - unsafe { - use crate::mem::transmute; - union U { - vec: $vec_id, - quarters: [$vecq_id; 4], - } - - let mut x_quarters = U { vec: self }.quarters; - let y_quarters = U { vec: y }.quarters; - - *x_quarters.get_unchecked_mut(0) = transmute($fun( - transmute(*x_quarters.get_unchecked(0)), - transmute(*y_quarters.get_unchecked(0)), - )); - - *x_quarters.get_unchecked_mut(1) = transmute($fun( - transmute(*x_quarters.get_unchecked(1)), - transmute(*y_quarters.get_unchecked(1)), - )); - - *x_quarters.get_unchecked_mut(2) = transmute($fun( - transmute(*x_quarters.get_unchecked(2)), - transmute(*y_quarters.get_unchecked(2)), - )); - - *x_quarters.get_unchecked_mut(3) = transmute($fun( - transmute(*x_quarters.get_unchecked(3)), - transmute(*y_quarters.get_unchecked(3)), - )); - - U { quarters: x_quarters }.vec - } - } - } - }; - // implementation calling fun once on a vector twice as large: - (twice | $trait_id:ident, $trait_method:ident, $vec_id:ident, - $vect_id:ident, $fun:ident) => { - impl $trait_id for $vec_id { - #[inline] - fn $trait_method(self, y: Self) -> Self { - unsafe { - use crate::mem::{transmute, uninitialized}; - - union U { - vec: [$vec_id; 2], - twice: $vect_id, - } - - let x_twice = U { vec: [self, uninitialized()] }.twice; - let y_twice = U { vec: [y, uninitialized()] }.twice; - let twice: $vect_id = transmute($fun(transmute(x_twice), transmute(y_twice))); - - *(U { twice }.vec.get_unchecked(0)) - } - } - } - }; -} - -macro_rules! gen_binary_impl_table { - ($trait_id:ident, $trait_method:ident) => { - macro_rules! impl_binary { - ($vid:ident: $fun:ident) => { - impl_binary_!(vec | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[$sid:ident; $sc:expr]: $fun:ident) => { - impl_binary_!(scalar | $trait_id, $trait_method, $vid, [$sid; $sc], $fun); - }; - ($vid:ident[s]: $fun:ident) => { - impl_binary_!(scalar | $trait_id, $trait_method, $vid, $fun); - }; - ($vid:ident[h => $vid_h:ident]: $fun:ident) => { - impl_binary_!(halves | $trait_id, $trait_method, $vid, $vid_h, $fun); - }; - ($vid:ident[q => $vid_q:ident]: $fun:ident) => { - impl_binary_!(quarter | $trait_id, $trait_method, $vid, $vid_q, $fun); - }; - ($vid:ident[t => $vid_t:ident]: $fun:ident) => { - impl_binary_!(twice | $trait_id, $trait_method, $vid, $vid_t, $fun); - }; - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/mul_add.rs b/third_party/rust/packed_simd/src/codegen/math/float/mul_add.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/mul_add.rs +++ /dev/null @@ -1,109 +0,0 @@ -//! Vertical floating-point `mul_add` -#![allow(unused)] -use crate::*; - -// FIXME: 64-bit 1 element mul_add - -pub(crate) trait MulAdd { - fn mul_add(self, y: Self, z: Self) -> Self; -} - -#[cfg(not(target_arch = "s390x"))] -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.fma.v2f32"] - fn fma_v2f32(x: f32x2, y: f32x2, z: f32x2) -> f32x2; - #[link_name = "llvm.fma.v4f32"] - fn fma_v4f32(x: f32x4, y: f32x4, z: f32x4) -> f32x4; - #[link_name = "llvm.fma.v8f32"] - fn fma_v8f32(x: f32x8, y: f32x8, z: f32x8) -> f32x8; - #[link_name = "llvm.fma.v16f32"] - fn fma_v16f32(x: f32x16, y: f32x16, z: f32x16) -> f32x16; - /* FIXME 64-bit single elem vectors - #[link_name = "llvm.fma.v1f64"] - fn fma_v1f64(x: f64x1, y: f64x1, z: f64x1) -> f64x1; - */ - #[link_name = "llvm.fma.v2f64"] - fn fma_v2f64(x: f64x2, y: f64x2, z: f64x2) -> f64x2; - #[link_name = "llvm.fma.v4f64"] - fn fma_v4f64(x: f64x4, y: f64x4, z: f64x4) -> f64x4; - #[link_name = "llvm.fma.v8f64"] - fn fma_v8f64(x: f64x8, y: f64x8, z: f64x8) -> f64x8; -} - -gen_tertiary_impl_table!(MulAdd, mul_add); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - macro_rules! impl_broken { - ($id:ident) => { - impl MulAdd for $id { - #[inline] - fn mul_add(self, y: Self, z: Self) -> Self { - self * y + z - } - } - }; - } - - impl_broken!(f32x2); - impl_broken!(f32x4); - impl_broken!(f32x8); - impl_broken!(f32x16); - - impl_broken!(f64x2); - impl_broken!(f64x4); - impl_broken!(f64x8); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_tertiary!(f32x2[t => f32x4]: Sleef_fmaf4_avx2128); - impl_tertiary!(f32x16[h => f32x8]: Sleef_fmaf8_avx2); - impl_tertiary!(f64x8[h => f64x4]: Sleef_fmad4_avx2); - - impl_tertiary!(f32x4: Sleef_fmaf4_avx2128); - impl_tertiary!(f32x8: Sleef_fmaf8_avx2); - impl_tertiary!(f64x2: Sleef_fmad2_avx2128); - impl_tertiary!(f64x4: Sleef_fmad4_avx2); - } else if #[cfg(target_feature = "avx")] { - impl_tertiary!(f32x2[t => f32x4]: Sleef_fmaf4_sse4); - impl_tertiary!(f32x16[h => f32x8]: Sleef_fmaf8_avx); - impl_tertiary!(f64x8[h => f64x4]: Sleef_fmad4_avx); - - impl_tertiary!(f32x4: Sleef_fmaf4_sse4); - impl_tertiary!(f32x8: Sleef_fmaf8_avx); - impl_tertiary!(f64x2: Sleef_fmad2_sse4); - impl_tertiary!(f64x4: Sleef_fmad4_avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_tertiary!(f32x2[t => f32x4]: Sleef_fmaf4_sse4); - impl_tertiary!(f32x16[q => f32x4]: Sleef_fmaf4_sse4); - impl_tertiary!(f64x8[q => f64x2]: Sleef_fmad2_sse4); - - impl_tertiary!(f32x4: Sleef_fmaf4_sse4); - impl_tertiary!(f32x8[h => f32x4]: Sleef_fmaf4_sse4); - impl_tertiary!(f64x2: Sleef_fmad2_sse4); - impl_tertiary!(f64x4[h => f64x2]: Sleef_fmad2_sse4); - } else { - impl_tertiary!(f32x2: fma_v2f32); - impl_tertiary!(f32x16: fma_v16f32); - impl_tertiary!(f64x8: fma_v8f64); - - impl_tertiary!(f32x4: fma_v4f32); - impl_tertiary!(f32x8: fma_v8f32); - impl_tertiary!(f64x2: fma_v2f64); - impl_tertiary!(f64x4: fma_v4f64); - } - } - } else { - impl_tertiary!(f32x2: fma_v2f32); - impl_tertiary!(f32x4: fma_v4f32); - impl_tertiary!(f32x8: fma_v8f32); - impl_tertiary!(f32x16: fma_v16f32); - // impl_tertiary!(f64x1: fma_v1f64); // FIXME 64-bit fmagle elem vectors - impl_tertiary!(f64x2: fma_v2f64); - impl_tertiary!(f64x4: fma_v4f64); - impl_tertiary!(f64x8: fma_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/mul_adde.rs b/third_party/rust/packed_simd/src/codegen/math/float/mul_adde.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/mul_adde.rs +++ /dev/null @@ -1,60 +0,0 @@ -//! Approximation for floating-point `mul_add` -use crate::*; - -// FIXME: 64-bit 1 element mul_adde - -pub(crate) trait MulAddE { - fn mul_adde(self, y: Self, z: Self) -> Self; -} - -#[cfg(not(target_arch = "s390x"))] -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.fmuladd.v2f32"] - fn fmuladd_v2f32(x: f32x2, y: f32x2, z: f32x2) -> f32x2; - #[link_name = "llvm.fmuladd.v4f32"] - fn fmuladd_v4f32(x: f32x4, y: f32x4, z: f32x4) -> f32x4; - #[link_name = "llvm.fmuladd.v8f32"] - fn fmuladd_v8f32(x: f32x8, y: f32x8, z: f32x8) -> f32x8; - #[link_name = "llvm.fmuladd.v16f32"] - fn fmuladd_v16f32(x: f32x16, y: f32x16, z: f32x16) -> f32x16; - /* FIXME 64-bit single elem vectors - #[link_name = "llvm.fmuladd.v1f64"] - fn fmuladd_v1f64(x: f64x1, y: f64x1, z: f64x1) -> f64x1; - */ - #[link_name = "llvm.fmuladd.v2f64"] - fn fmuladd_v2f64(x: f64x2, y: f64x2, z: f64x2) -> f64x2; - #[link_name = "llvm.fmuladd.v4f64"] - fn fmuladd_v4f64(x: f64x4, y: f64x4, z: f64x4) -> f64x4; - #[link_name = "llvm.fmuladd.v8f64"] - fn fmuladd_v8f64(x: f64x8, y: f64x8, z: f64x8) -> f64x8; -} - -macro_rules! impl_mul_adde { - ($id:ident : $fn:ident) => { - impl MulAddE for $id { - #[inline] - fn mul_adde(self, y: Self, z: Self) -> Self { - #[cfg(not(target_arch = "s390x"))] - { - use crate::mem::transmute; - unsafe { transmute($fn(transmute(self), transmute(y), transmute(z))) } - } - #[cfg(target_arch = "s390x")] - { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - self * y + z - } - } - } - }; -} - -impl_mul_adde!(f32x2: fmuladd_v2f32); -impl_mul_adde!(f32x4: fmuladd_v4f32); -impl_mul_adde!(f32x8: fmuladd_v8f32); -impl_mul_adde!(f32x16: fmuladd_v16f32); -// impl_mul_adde!(f64x1: fma_v1f64); // FIXME 64-bit fmagle elem vectors -impl_mul_adde!(f64x2: fmuladd_v2f64); -impl_mul_adde!(f64x4: fmuladd_v4f64); -impl_mul_adde!(f64x8: fmuladd_v8f64); diff --git a/third_party/rust/packed_simd/src/codegen/math/float/powf.rs b/third_party/rust/packed_simd/src/codegen/math/float/powf.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/powf.rs +++ /dev/null @@ -1,112 +0,0 @@ -//! Vertical floating-point `powf` -#![allow(unused)] - -// FIXME 64-bit powfgle elem vectors mispowfg - -use crate::*; - -pub(crate) trait Powf { - fn powf(self, x: Self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.pow.v2f32"] - fn powf_v2f32(x: f32x2, y: f32x2) -> f32x2; - #[link_name = "llvm.pow.v4f32"] - fn powf_v4f32(x: f32x4, y: f32x4) -> f32x4; - #[link_name = "llvm.pow.v8f32"] - fn powf_v8f32(x: f32x8, y: f32x8) -> f32x8; - #[link_name = "llvm.pow.v16f32"] - fn powf_v16f32(x: f32x16, y: f32x16) -> f32x16; - /* FIXME 64-bit powfgle elem vectors - #[link_name = "llvm.pow.v1f64"] - fn powf_v1f64(x: f64x1, y: f64x1) -> f64x1; - */ - #[link_name = "llvm.pow.v2f64"] - fn powf_v2f64(x: f64x2, y: f64x2) -> f64x2; - #[link_name = "llvm.pow.v4f64"] - fn powf_v4f64(x: f64x4, y: f64x4) -> f64x4; - #[link_name = "llvm.pow.v8f64"] - fn powf_v8f64(x: f64x8, y: f64x8) -> f64x8; - - #[link_name = "llvm.pow.f32"] - fn powf_f32(x: f32, y: f32) -> f32; - #[link_name = "llvm.pow.f64"] - fn powf_f64(x: f64, y: f64) -> f64; -} - -gen_binary_impl_table!(Powf, powf); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_binary!(f32x2[f32; 2]: powf_f32); - impl_binary!(f32x4[f32; 4]: powf_f32); - impl_binary!(f32x8[f32; 8]: powf_f32); - impl_binary!(f32x16[f32; 16]: powf_f32); - - impl_binary!(f64x2[f64; 2]: powf_f64); - impl_binary!(f64x4[f64; 4]: powf_f64); - impl_binary!(f64x8[f64; 8]: powf_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_binary!(f32x2[t => f32x4]: Sleef_powf4_u10avx2128); - impl_binary!(f32x16[h => f32x8]: Sleef_powf8_u10avx2); - impl_binary!(f64x8[h => f64x4]: Sleef_powd4_u10avx2); - - impl_binary!(f32x4: Sleef_powf4_u10avx2128); - impl_binary!(f32x8: Sleef_powf8_u10avx2); - impl_binary!(f64x2: Sleef_powd2_u10avx2128); - impl_binary!(f64x4: Sleef_powd4_u10avx2); - } else if #[cfg(target_feature = "avx")] { - impl_binary!(f32x2[t => f32x4]: Sleef_powf4_u10sse4); - impl_binary!(f32x16[h => f32x8]: Sleef_powf8_u10avx); - impl_binary!(f64x8[h => f64x4]: Sleef_powd4_u10avx); - - impl_binary!(f32x4: Sleef_powf4_u10sse4); - impl_binary!(f32x8: Sleef_powf8_u10avx); - impl_binary!(f64x2: Sleef_powd2_u10sse4); - impl_binary!(f64x4: Sleef_powd4_u10avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_binary!(f32x2[t => f32x4]: Sleef_powf4_u10sse4); - impl_binary!(f32x16[q => f32x4]: Sleef_powf4_u10sse4); - impl_binary!(f64x8[q => f64x2]: Sleef_powd2_u10sse4); - - impl_binary!(f32x4: Sleef_powf4_u10sse4); - impl_binary!(f32x8[h => f32x4]: Sleef_powf4_u10sse4); - impl_binary!(f64x2: Sleef_powd2_u10sse4); - impl_binary!(f64x4[h => f64x2]: Sleef_powd2_u10sse4); - } else if #[cfg(target_feature = "sse2")] { - impl_binary!(f32x2[t => f32x4]: Sleef_powf4_u10sse2); - impl_binary!(f32x16[q => f32x4]: Sleef_powf4_u10sse2); - impl_binary!(f64x8[q => f64x2]: Sleef_powd2_u10sse2); - - impl_binary!(f32x4: Sleef_powf4_u10sse2); - impl_binary!(f32x8[h => f32x4]: Sleef_powf4_u10sse2); - impl_binary!(f64x2: Sleef_powd2_u10sse2); - impl_binary!(f64x4[h => f64x2]: Sleef_powd2_u10sse2); - } else { - impl_binary!(f32x2[f32; 2]: powf_f32); - impl_binary!(f32x4: powf_v4f32); - impl_binary!(f32x8: powf_v8f32); - impl_binary!(f32x16: powf_v16f32); - - impl_binary!(f64x2: powf_v2f64); - impl_binary!(f64x4: powf_v4f64); - impl_binary!(f64x8: powf_v8f64); - } - } - } else { - impl_binary!(f32x2[f32; 2]: powf_f32); - impl_binary!(f32x4: powf_v4f32); - impl_binary!(f32x8: powf_v8f32); - impl_binary!(f32x16: powf_v16f32); - - impl_binary!(f64x2: powf_v2f64); - impl_binary!(f64x4: powf_v4f64); - impl_binary!(f64x8: powf_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/sin.rs b/third_party/rust/packed_simd/src/codegen/math/float/sin.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/sin.rs +++ /dev/null @@ -1,103 +0,0 @@ -//! Vertical floating-point `sin` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors sin - -use crate::*; - -pub(crate) trait Sin { - fn sin(self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.sin.v2f32"] - fn sin_v2f32(x: f32x2) -> f32x2; - #[link_name = "llvm.sin.v4f32"] - fn sin_v4f32(x: f32x4) -> f32x4; - #[link_name = "llvm.sin.v8f32"] - fn sin_v8f32(x: f32x8) -> f32x8; - #[link_name = "llvm.sin.v16f32"] - fn sin_v16f32(x: f32x16) -> f32x16; - /* FIXME 64-bit single elem vectors - #[link_name = "llvm.sin.v1f64"] - fn sin_v1f64(x: f64x1) -> f64x1; - */ - #[link_name = "llvm.sin.v2f64"] - fn sin_v2f64(x: f64x2) -> f64x2; - #[link_name = "llvm.sin.v4f64"] - fn sin_v4f64(x: f64x4) -> f64x4; - #[link_name = "llvm.sin.v8f64"] - fn sin_v8f64(x: f64x8) -> f64x8; - - #[link_name = "llvm.sin.f32"] - fn sin_f32(x: f32) -> f32; - #[link_name = "llvm.sin.f64"] - fn sin_f64(x: f64) -> f64; -} - -gen_unary_impl_table!(Sin, sin); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_unary!(f32x2[f32; 2]: sin_f32); - impl_unary!(f32x4[f32; 4]: sin_f32); - impl_unary!(f32x8[f32; 8]: sin_f32); - impl_unary!(f32x16[f32; 16]: sin_f32); - - impl_unary!(f64x2[f64; 2]: sin_f64); - impl_unary!(f64x4[f64; 4]: sin_f64); - impl_unary!(f64x8[f64; 8]: sin_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sinf4_u10avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_sinf8_u10avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_sind4_u10avx2); - - impl_unary!(f32x4: Sleef_sinf4_u10avx2128); - impl_unary!(f32x8: Sleef_sinf8_u10avx2); - impl_unary!(f64x2: Sleef_sind2_u10avx2128); - impl_unary!(f64x4: Sleef_sind4_u10avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sinf4_u10sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_sinf8_u10avx); - impl_unary!(f64x8[h => f64x4]: Sleef_sind4_u10avx); - - impl_unary!(f32x4: Sleef_sinf4_u10sse4); - impl_unary!(f32x8: Sleef_sinf8_u10avx); - impl_unary!(f64x2: Sleef_sind2_u10sse4); - impl_unary!(f64x4: Sleef_sind4_u10avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sinf4_u10sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_sinf4_u10sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_sind2_u10sse4); - - impl_unary!(f32x4: Sleef_sinf4_u10sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_sinf4_u10sse4); - impl_unary!(f64x2: Sleef_sind2_u10sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_sind2_u10sse4); - } else { - impl_unary!(f32x2[f32; 2]: sin_f32); - impl_unary!(f32x16: sin_v16f32); - impl_unary!(f64x8: sin_v8f64); - - impl_unary!(f32x4: sin_v4f32); - impl_unary!(f32x8: sin_v8f32); - impl_unary!(f64x2: sin_v2f64); - impl_unary!(f64x4: sin_v4f64); - } - } - } else { - impl_unary!(f32x2[f32; 2]: sin_f32); - impl_unary!(f32x4: sin_v4f32); - impl_unary!(f32x8: sin_v8f32); - impl_unary!(f32x16: sin_v16f32); - - impl_unary!(f64x2: sin_v2f64); - impl_unary!(f64x4: sin_v4f64); - impl_unary!(f64x8: sin_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/sin_cos_pi.rs b/third_party/rust/packed_simd/src/codegen/math/float/sin_cos_pi.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/sin_cos_pi.rs +++ /dev/null @@ -1,188 +0,0 @@ -//! Vertical floating-point `sin_cos` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors sin_cos - -use crate::*; - -pub(crate) trait SinCosPi: Sized { - type Output; - fn sin_cos_pi(self) -> Self::Output; -} - -macro_rules! impl_def { - ($vid:ident, $PI:path) => { - impl SinCosPi for $vid { - type Output = (Self, Self); - #[inline] - fn sin_cos_pi(self) -> Self::Output { - let v = self * Self::splat($PI); - (v.sin(), v.cos()) - } - } - }; -} - -macro_rules! impl_def32 { - ($vid:ident) => { - impl_def!($vid, crate::f32::consts::PI); - }; -} -macro_rules! impl_def64 { - ($vid:ident) => { - impl_def!($vid, crate::f64::consts::PI); - }; -} - -macro_rules! impl_unary_t { - ($vid:ident: $fun:ident) => { - impl SinCosPi for $vid { - type Output = (Self, Self); - fn sin_cos_pi(self) -> Self::Output { - unsafe { - use crate::mem::transmute; - transmute($fun(transmute(self))) - } - } - } - }; - ($vid:ident[t => $vid_t:ident]: $fun:ident) => { - impl SinCosPi for $vid { - type Output = (Self, Self); - fn sin_cos_pi(self) -> Self::Output { - unsafe { - use crate::mem::{transmute, uninitialized}; - - union U { - vec: [$vid; 2], - twice: $vid_t, - } - - let twice = U { vec: [self, uninitialized()] }.twice; - let twice = transmute($fun(transmute(twice))); - - union R { - twice: ($vid_t, $vid_t), - vecs: ([$vid; 2], [$vid; 2]), - } - let r = R { twice }.vecs; - (*r.0.get_unchecked(0), *r.0.get_unchecked(1)) - } - } - } - }; - ($vid:ident[h => $vid_h:ident]: $fun:ident) => { - impl SinCosPi for $vid { - type Output = (Self, Self); - fn sin_cos_pi(self) -> Self::Output { - unsafe { - use crate::mem::transmute; - - union U { - vec: $vid, - halves: [$vid_h; 2], - } - - let halves = U { vec: self }.halves; - - let res_0: ($vid_h, $vid_h) = transmute($fun(transmute(*halves.get_unchecked(0)))); - let res_1: ($vid_h, $vid_h) = transmute($fun(transmute(*halves.get_unchecked(1)))); - - union R { - result: ($vid, $vid), - halves: ([$vid_h; 2], [$vid_h; 2]), - } - R { halves: ([res_0.0, res_1.0], [res_0.1, res_1.1]) }.result - } - } - } - }; - ($vid:ident[q => $vid_q:ident]: $fun:ident) => { - impl SinCosPi for $vid { - type Output = (Self, Self); - fn sin_cos_pi(self) -> Self::Output { - unsafe { - use crate::mem::transmute; - - union U { - vec: $vid, - quarters: [$vid_q; 4], - } - - let quarters = U { vec: self }.quarters; - - let res_0: ($vid_q, $vid_q) = transmute($fun(transmute(*quarters.get_unchecked(0)))); - let res_1: ($vid_q, $vid_q) = transmute($fun(transmute(*quarters.get_unchecked(1)))); - let res_2: ($vid_q, $vid_q) = transmute($fun(transmute(*quarters.get_unchecked(2)))); - let res_3: ($vid_q, $vid_q) = transmute($fun(transmute(*quarters.get_unchecked(3)))); - - union R { - result: ($vid, $vid), - quarters: ([$vid_q; 4], [$vid_q; 4]), - } - R { - quarters: ( - [res_0.0, res_1.0, res_2.0, res_3.0], - [res_0.1, res_1.1, res_2.1, res_3.1], - ), - } - .result - } - } - } - }; -} - -cfg_if! { - if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary_t!(f32x2[t => f32x4]: Sleef_sincospif4_u05avx2128); - impl_unary_t!(f32x16[h => f32x8]: Sleef_sincospif8_u05avx2); - impl_unary_t!(f64x8[h => f64x4]: Sleef_sincospid4_u05avx2); - - impl_unary_t!(f32x4: Sleef_sincospif4_u05avx2128); - impl_unary_t!(f32x8: Sleef_sincospif8_u05avx2); - impl_unary_t!(f64x2: Sleef_sincospid2_u05avx2128); - impl_unary_t!(f64x4: Sleef_sincospid4_u05avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary_t!(f32x2[t => f32x4]: Sleef_sincospif4_u05sse4); - impl_unary_t!(f32x16[h => f32x8]: Sleef_sincospif8_u05avx); - impl_unary_t!(f64x8[h => f64x4]: Sleef_sincospid4_u05avx); - - impl_unary_t!(f32x4: Sleef_sincospif4_u05sse4); - impl_unary_t!(f32x8: Sleef_sincospif8_u05avx); - impl_unary_t!(f64x2: Sleef_sincospid2_u05sse4); - impl_unary_t!(f64x4: Sleef_sincospid4_u05avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary_t!(f32x2[t => f32x4]: Sleef_sincospif4_u05sse4); - impl_unary_t!(f32x16[q => f32x4]: Sleef_sincospif4_u05sse4); - impl_unary_t!(f64x8[q => f64x2]: Sleef_sincospid2_u05sse4); - - impl_unary_t!(f32x4: Sleef_sincospif4_u05sse4); - impl_unary_t!(f32x8[h => f32x4]: Sleef_sincospif4_u05sse4); - impl_unary_t!(f64x2: Sleef_sincospid2_u05sse4); - impl_unary_t!(f64x4[h => f64x2]: Sleef_sincospid2_u05sse4); - } else { - impl_def32!(f32x2); - impl_def32!(f32x4); - impl_def32!(f32x8); - impl_def32!(f32x16); - - impl_def64!(f64x2); - impl_def64!(f64x4); - impl_def64!(f64x8); - } - } - } else { - impl_def32!(f32x2); - impl_def32!(f32x4); - impl_def32!(f32x8); - impl_def32!(f32x16); - - impl_def64!(f64x2); - impl_def64!(f64x4); - impl_def64!(f64x8); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/sin_pi.rs b/third_party/rust/packed_simd/src/codegen/math/float/sin_pi.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/sin_pi.rs +++ /dev/null @@ -1,87 +0,0 @@ -//! Vertical floating-point `sin_pi` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors sin_pi - -use crate::*; - -pub(crate) trait SinPi { - fn sin_pi(self) -> Self; -} - -gen_unary_impl_table!(SinPi, sin_pi); - -macro_rules! impl_def { - ($vid:ident, $PI:path) => { - impl SinPi for $vid { - #[inline] - fn sin_pi(self) -> Self { - (self * Self::splat($PI)).sin() - } - } - }; -} -macro_rules! impl_def32 { - ($vid:ident) => { - impl_def!($vid, crate::f32::consts::PI); - }; -} -macro_rules! impl_def64 { - ($vid:ident) => { - impl_def!($vid, crate::f64::consts::PI); - }; -} - -cfg_if! { - if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sinpif4_u05avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_sinpif8_u05avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_sinpid4_u05avx2); - - impl_unary!(f32x4: Sleef_sinpif4_u05avx2128); - impl_unary!(f32x8: Sleef_sinpif8_u05avx2); - impl_unary!(f64x2: Sleef_sinpid2_u05avx2128); - impl_unary!(f64x4: Sleef_sinpid4_u05avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sinpif4_u05sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_sinpif8_u05avx); - impl_unary!(f64x8[h => f64x4]: Sleef_sinpid4_u05avx); - - impl_unary!(f32x4: Sleef_sinpif4_u05sse4); - impl_unary!(f32x8: Sleef_sinpif8_u05avx); - impl_unary!(f64x2: Sleef_sinpid2_u05sse4); - impl_unary!(f64x4: Sleef_sinpid4_u05avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sinpif4_u05sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_sinpif4_u05sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_sinpid2_u05sse4); - - impl_unary!(f32x4: Sleef_sinpif4_u05sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_sinpif4_u05sse4); - impl_unary!(f64x2: Sleef_sinpid2_u05sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_sinpid2_u05sse4); - } else { - impl_def32!(f32x2); - impl_def32!(f32x4); - impl_def32!(f32x8); - impl_def32!(f32x16); - - impl_def64!(f64x2); - impl_def64!(f64x4); - impl_def64!(f64x8); - } - } - } else { - impl_def32!(f32x2); - impl_def32!(f32x4); - impl_def32!(f32x8); - impl_def32!(f32x16); - - impl_def64!(f64x2); - impl_def64!(f64x4); - impl_def64!(f64x8); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/sqrt.rs b/third_party/rust/packed_simd/src/codegen/math/float/sqrt.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/sqrt.rs +++ /dev/null @@ -1,103 +0,0 @@ -//! Vertical floating-point `sqrt` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors sqrt - -use crate::*; - -pub(crate) trait Sqrt { - fn sqrt(self) -> Self; -} - -#[allow(improper_ctypes)] -extern "C" { - #[link_name = "llvm.sqrt.v2f32"] - fn sqrt_v2f32(x: f32x2) -> f32x2; - #[link_name = "llvm.sqrt.v4f32"] - fn sqrt_v4f32(x: f32x4) -> f32x4; - #[link_name = "llvm.sqrt.v8f32"] - fn sqrt_v8f32(x: f32x8) -> f32x8; - #[link_name = "llvm.sqrt.v16f32"] - fn sqrt_v16f32(x: f32x16) -> f32x16; - /* FIXME 64-bit sqrtgle elem vectors - #[link_name = "llvm.sqrt.v1f64"] - fn sqrt_v1f64(x: f64x1) -> f64x1; - */ - #[link_name = "llvm.sqrt.v2f64"] - fn sqrt_v2f64(x: f64x2) -> f64x2; - #[link_name = "llvm.sqrt.v4f64"] - fn sqrt_v4f64(x: f64x4) -> f64x4; - #[link_name = "llvm.sqrt.v8f64"] - fn sqrt_v8f64(x: f64x8) -> f64x8; - - #[link_name = "llvm.sqrt.f32"] - fn sqrt_f32(x: f32) -> f32; - #[link_name = "llvm.sqrt.f64"] - fn sqrt_f64(x: f64) -> f64; -} - -gen_unary_impl_table!(Sqrt, sqrt); - -cfg_if! { - if #[cfg(target_arch = "s390x")] { - // FIXME: https://github.com/rust-lang-nursery/packed_simd/issues/14 - impl_unary!(f32x2[f32; 2]: sqrt_f32); - impl_unary!(f32x4[f32; 4]: sqrt_f32); - impl_unary!(f32x8[f32; 8]: sqrt_f32); - impl_unary!(f32x16[f32; 16]: sqrt_f32); - - impl_unary!(f64x2[f64; 2]: sqrt_f64); - impl_unary!(f64x4[f64; 4]: sqrt_f64); - impl_unary!(f64x8[f64; 8]: sqrt_f64); - } else if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sqrtf4_avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_sqrtf8_avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_sqrtd4_avx2); - - impl_unary!(f32x4: Sleef_sqrtf4_avx2128); - impl_unary!(f32x8: Sleef_sqrtf8_avx2); - impl_unary!(f64x2: Sleef_sqrtd2_avx2128); - impl_unary!(f64x4: Sleef_sqrtd4_avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sqrtf4_sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_sqrtf8_avx); - impl_unary!(f64x8[h => f64x4]: Sleef_sqrtd4_avx); - - impl_unary!(f32x4: Sleef_sqrtf4_sse4); - impl_unary!(f32x8: Sleef_sqrtf8_avx); - impl_unary!(f64x2: Sleef_sqrtd2_sse4); - impl_unary!(f64x4: Sleef_sqrtd4_avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sqrtf4_sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_sqrtf4_sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_sqrtd2_sse4); - - impl_unary!(f32x4: Sleef_sqrtf4_sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_sqrtf4_sse4); - impl_unary!(f64x2: Sleef_sqrtd2_sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_sqrtd2_sse4); - } else { - impl_unary!(f32x2[f32; 2]: sqrt_f32); - impl_unary!(f32x16: sqrt_v16f32); - impl_unary!(f64x8: sqrt_v8f64); - - impl_unary!(f32x4: sqrt_v4f32); - impl_unary!(f32x8: sqrt_v8f32); - impl_unary!(f64x2: sqrt_v2f64); - impl_unary!(f64x4: sqrt_v4f64); - } - } - } else { - impl_unary!(f32x2[f32; 2]: sqrt_f32); - impl_unary!(f32x4: sqrt_v4f32); - impl_unary!(f32x8: sqrt_v8f32); - impl_unary!(f32x16: sqrt_v16f32); - - impl_unary!(f64x2: sqrt_v2f64); - impl_unary!(f64x4: sqrt_v4f64); - impl_unary!(f64x8: sqrt_v8f64); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/math/float/sqrte.rs b/third_party/rust/packed_simd/src/codegen/math/float/sqrte.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/math/float/sqrte.rs +++ /dev/null @@ -1,67 +0,0 @@ -//! Vertical floating-point `sqrt` -#![allow(unused)] - -// FIXME 64-bit 1 elem vectors sqrte - -use crate::llvm::simd_fsqrt; -use crate::*; - -pub(crate) trait Sqrte { - fn sqrte(self) -> Self; -} - -gen_unary_impl_table!(Sqrte, sqrte); - -cfg_if! { - if #[cfg(all(target_arch = "x86_64", feature = "sleef-sys"))] { - use sleef_sys::*; - cfg_if! { - if #[cfg(target_feature = "avx2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sqrtf4_u35avx2128); - impl_unary!(f32x16[h => f32x8]: Sleef_sqrtf8_u35avx2); - impl_unary!(f64x8[h => f64x4]: Sleef_sqrtd4_u35avx2); - - impl_unary!(f32x4: Sleef_sqrtf4_u35avx2128); - impl_unary!(f32x8: Sleef_sqrtf8_u35avx2); - impl_unary!(f64x2: Sleef_sqrtd2_u35avx2128); - impl_unary!(f64x4: Sleef_sqrtd4_u35avx2); - } else if #[cfg(target_feature = "avx")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sqrtf4_u35sse4); - impl_unary!(f32x16[h => f32x8]: Sleef_sqrtf8_u35avx); - impl_unary!(f64x8[h => f64x4]: Sleef_sqrtd4_u35avx); - - impl_unary!(f32x4: Sleef_sqrtf4_u35sse4); - impl_unary!(f32x8: Sleef_sqrtf8_u35avx); - impl_unary!(f64x2: Sleef_sqrtd2_u35sse4); - impl_unary!(f64x4: Sleef_sqrtd4_u35avx); - } else if #[cfg(target_feature = "sse4.2")] { - impl_unary!(f32x2[t => f32x4]: Sleef_sqrtf4_u35sse4); - impl_unary!(f32x16[q => f32x4]: Sleef_sqrtf4_u35sse4); - impl_unary!(f64x8[q => f64x2]: Sleef_sqrtd2_u35sse4); - - impl_unary!(f32x4: Sleef_sqrtf4_u35sse4); - impl_unary!(f32x8[h => f32x4]: Sleef_sqrtf4_u35sse4); - impl_unary!(f64x2: Sleef_sqrtd2_u35sse4); - impl_unary!(f64x4[h => f64x2]: Sleef_sqrtd2_u35sse4); - } else { - impl_unary!(f32x2[g]: simd_fsqrt); - impl_unary!(f32x16[g]: simd_fsqrt); - impl_unary!(f64x8[g]: simd_fsqrt); - - impl_unary!(f32x4[g]: simd_fsqrt); - impl_unary!(f32x8[g]: simd_fsqrt); - impl_unary!(f64x2[g]: simd_fsqrt); - impl_unary!(f64x4[g]: simd_fsqrt); - } - } - } else { - impl_unary!(f32x2[g]: simd_fsqrt); - impl_unary!(f32x4[g]: simd_fsqrt); - impl_unary!(f32x8[g]: simd_fsqrt); - impl_unary!(f32x16[g]: simd_fsqrt); - - impl_unary!(f64x2[g]: simd_fsqrt); - impl_unary!(f64x4[g]: simd_fsqrt); - impl_unary!(f64x8[g]: simd_fsqrt); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/pointer_sized_int.rs b/third_party/rust/packed_simd/src/codegen/pointer_sized_int.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/pointer_sized_int.rs +++ /dev/null @@ -1,28 +0,0 @@ -//! Provides `isize` and `usize` - -use cfg_if::cfg_if; - -cfg_if! { - if #[cfg(target_pointer_width = "8")] { - pub(crate) type isize_ = i8; - pub(crate) type usize_ = u8; - } else if #[cfg(target_pointer_width = "16")] { - pub(crate) type isize_ = i16; - pub(crate) type usize_ = u16; - } else if #[cfg(target_pointer_width = "32")] { - pub(crate) type isize_ = i32; - pub(crate) type usize_ = u32; - - } else if #[cfg(target_pointer_width = "64")] { - pub(crate) type isize_ = i64; - pub(crate) type usize_ = u64; - } else if #[cfg(target_pointer_width = "64")] { - pub(crate) type isize_ = i64; - pub(crate) type usize_ = u64; - } else if #[cfg(target_pointer_width = "128")] { - pub(crate) type isize_ = i128; - pub(crate) type usize_ = u128; - } else { - compile_error!("unsupported target_pointer_width"); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions.rs b/third_party/rust/packed_simd/src/codegen/reductions.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions.rs +++ /dev/null @@ -1,1 +0,0 @@ -pub(crate) mod mask; diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask.rs +++ /dev/null @@ -1,69 +0,0 @@ -//! Code generation workaround for `all()` mask horizontal reduction. -//! -//! Works around [LLVM bug 36702]. -//! -//! [LLVM bug 36702]: https://bugs.llvm.org/show_bug.cgi?id=36702 -#![allow(unused_macros)] - -use crate::*; - -pub(crate) trait All: crate::marker::Sized { - unsafe fn all(self) -> bool; -} - -pub(crate) trait Any: crate::marker::Sized { - unsafe fn any(self) -> bool; -} - -#[macro_use] -mod fallback_impl; - -cfg_if! { - if #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] { - #[macro_use] - mod x86; - } else if #[cfg(all(target_arch = "arm", target_feature = "v7", - target_feature = "neon", - any(feature = "core_arch", libcore_neon)))] { - #[macro_use] - mod arm; - } else if #[cfg(all(target_arch = "aarch64", target_feature = "neon"))] { - #[macro_use] - mod aarch64; - } else { - #[macro_use] - mod fallback; - } -} - -impl_mask_reductions!(m8x2); -impl_mask_reductions!(m8x4); -impl_mask_reductions!(m8x8); -impl_mask_reductions!(m8x16); -impl_mask_reductions!(m8x32); -impl_mask_reductions!(m8x64); - -impl_mask_reductions!(m16x2); -impl_mask_reductions!(m16x4); -impl_mask_reductions!(m16x8); -impl_mask_reductions!(m16x16); -impl_mask_reductions!(m16x32); - -impl_mask_reductions!(m32x2); -impl_mask_reductions!(m32x4); -impl_mask_reductions!(m32x8); -impl_mask_reductions!(m32x16); - -// FIXME: 64-bit single element vector -// impl_mask_reductions!(m64x1); -impl_mask_reductions!(m64x2); -impl_mask_reductions!(m64x4); -impl_mask_reductions!(m64x8); - -impl_mask_reductions!(m128x1); -impl_mask_reductions!(m128x2); -impl_mask_reductions!(m128x4); - -impl_mask_reductions!(msizex2); -impl_mask_reductions!(msizex4); -impl_mask_reductions!(msizex8); diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/aarch64.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/aarch64.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/aarch64.rs +++ /dev/null @@ -1,81 +0,0 @@ -//! Mask reductions implementation for `aarch64` targets - -/// 128-bit wide vectors -macro_rules! aarch64_128_neon_impl { - ($id:ident, $vmin:ident, $vmax:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "neon")] - unsafe fn all(self) -> bool { - use crate::arch::aarch64::$vmin; - $vmin(crate::mem::transmute(self)) != 0 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "neon")] - unsafe fn any(self) -> bool { - use crate::arch::aarch64::$vmax; - $vmax(crate::mem::transmute(self)) != 0 - } - } - }; -} - -/// 64-bit wide vectors -macro_rules! aarch64_64_neon_impl { - ($id:ident, $vec128:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "neon")] - unsafe fn all(self) -> bool { - // Duplicates the 64-bit vector into a 128-bit one and - // calls all on that. - union U { - halves: ($id, $id), - vec: $vec128, - } - U { halves: (self, self) }.vec.all() - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "neon")] - unsafe fn any(self) -> bool { - union U { - halves: ($id, $id), - vec: $vec128, - } - U { halves: (self, self) }.vec.any() - } - } - }; -} - -/// Mask reduction implementation for `aarch64` targets -macro_rules! impl_mask_reductions { - // 64-bit wide masks - (m8x8) => { - aarch64_64_neon_impl!(m8x8, m8x16); - }; - (m16x4) => { - aarch64_64_neon_impl!(m16x4, m16x8); - }; - (m32x2) => { - aarch64_64_neon_impl!(m32x2, m32x4); - }; - // 128-bit wide masks - (m8x16) => { - aarch64_128_neon_impl!(m8x16, vminvq_u8, vmaxvq_u8); - }; - (m16x8) => { - aarch64_128_neon_impl!(m16x8, vminvq_u16, vmaxvq_u16); - }; - (m32x4) => { - aarch64_128_neon_impl!(m32x4, vminvq_u32, vmaxvq_u32); - }; - // Fallback to LLVM's default code-generation: - ($id:ident) => { - fallback_impl!($id); - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/arm.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/arm.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/arm.rs +++ /dev/null @@ -1,56 +0,0 @@ -//! Mask reductions implementation for `arm` targets - -/// Implementation for ARM + v7 + NEON for 64-bit or 128-bit wide vectors with -/// more than two elements. -macro_rules! arm_128_v7_neon_impl { - ($id:ident, $half:ident, $vpmin:ident, $vpmax:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "v7,neon")] - unsafe fn all(self) -> bool { - use crate::arch::arm::$vpmin; - use crate::mem::transmute; - union U { - halves: ($half, $half), - vec: $id, - } - let halves = U { vec: self }.halves; - let h: $half = transmute($vpmin(transmute(halves.0), transmute(halves.1))); - h.all() - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "v7,neon")] - unsafe fn any(self) -> bool { - use crate::arch::arm::$vpmax; - use crate::mem::transmute; - union U { - halves: ($half, $half), - vec: $id, - } - let halves = U { vec: self }.halves; - let h: $half = transmute($vpmax(transmute(halves.0), transmute(halves.1))); - h.any() - } - } - }; -} - -/// Mask reduction implementation for `arm` targets -macro_rules! impl_mask_reductions { - // 128-bit wide masks - (m8x16) => { - arm_128_v7_neon_impl!(m8x16, m8x8, vpmin_u8, vpmax_u8); - }; - (m16x8) => { - arm_128_v7_neon_impl!(m16x8, m16x4, vpmin_u16, vpmax_u16); - }; - (m32x4) => { - arm_128_v7_neon_impl!(m32x4, m32x2, vpmin_u32, vpmax_u32); - }; - // Fallback to LLVM's default code-generation: - ($id:ident) => { - fallback_impl!($id); - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/fallback.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/fallback.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/fallback.rs +++ /dev/null @@ -1,8 +0,0 @@ -//! Default mask reduction implementations. - -/// Default mask reduction implementation -macro_rules! impl_mask_reductions { - ($id:ident) => { - fallback_impl!($id); - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/fallback_impl.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/fallback_impl.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/fallback_impl.rs +++ /dev/null @@ -1,237 +0,0 @@ -//! Default implementation of a mask reduction for any target. - -macro_rules! fallback_to_other_impl { - ($id:ident, $other:ident) => { - impl All for $id { - #[inline] - unsafe fn all(self) -> bool { - let m: $other = crate::mem::transmute(self); - m.all() - } - } - impl Any for $id { - #[inline] - unsafe fn any(self) -> bool { - let m: $other = crate::mem::transmute(self); - m.any() - } - } - }; -} - -/// Fallback implementation. -macro_rules! fallback_impl { - // 16-bit wide masks: - (m8x2) => { - impl All for m8x2 { - #[inline] - unsafe fn all(self) -> bool { - let i: u16 = crate::mem::transmute(self); - i == u16::max_value() - } - } - impl Any for m8x2 { - #[inline] - unsafe fn any(self) -> bool { - let i: u16 = crate::mem::transmute(self); - i != 0 - } - } - }; - // 32-bit wide masks - (m8x4) => { - impl All for m8x4 { - #[inline] - unsafe fn all(self) -> bool { - let i: u32 = crate::mem::transmute(self); - i == u32::max_value() - } - } - impl Any for m8x4 { - #[inline] - unsafe fn any(self) -> bool { - let i: u32 = crate::mem::transmute(self); - i != 0 - } - } - }; - (m16x2) => { - fallback_to_other_impl!(m16x2, m8x4); - }; - // 64-bit wide masks: - (m8x8) => { - impl All for m8x8 { - #[inline] - unsafe fn all(self) -> bool { - let i: u64 = crate::mem::transmute(self); - i == u64::max_value() - } - } - impl Any for m8x8 { - #[inline] - unsafe fn any(self) -> bool { - let i: u64 = crate::mem::transmute(self); - i != 0 - } - } - }; - (m16x4) => { - fallback_to_other_impl!(m16x4, m8x8); - }; - (m32x2) => { - fallback_to_other_impl!(m32x2, m16x4); - }; - // FIXME: 64x1 maxk - // 128-bit wide masks: - (m8x16) => { - impl All for m8x16 { - #[inline] - unsafe fn all(self) -> bool { - let i: u128 = crate::mem::transmute(self); - i == u128::max_value() - } - } - impl Any for m8x16 { - #[inline] - unsafe fn any(self) -> bool { - let i: u128 = crate::mem::transmute(self); - i != 0 - } - } - }; - (m16x8) => { - fallback_to_other_impl!(m16x8, m8x16); - }; - (m32x4) => { - fallback_to_other_impl!(m32x4, m16x8); - }; - (m64x2) => { - fallback_to_other_impl!(m64x2, m32x4); - }; - (m128x1) => { - fallback_to_other_impl!(m128x1, m64x2); - }; - // 256-bit wide masks - (m8x32) => { - impl All for m8x32 { - #[inline] - unsafe fn all(self) -> bool { - let i: [u128; 2] = crate::mem::transmute(self); - let o: [u128; 2] = [u128::max_value(); 2]; - i == o - } - } - impl Any for m8x32 { - #[inline] - unsafe fn any(self) -> bool { - let i: [u128; 2] = crate::mem::transmute(self); - let o: [u128; 2] = [0; 2]; - i != o - } - } - }; - (m16x16) => { - fallback_to_other_impl!(m16x16, m8x32); - }; - (m32x8) => { - fallback_to_other_impl!(m32x8, m16x16); - }; - (m64x4) => { - fallback_to_other_impl!(m64x4, m32x8); - }; - (m128x2) => { - fallback_to_other_impl!(m128x2, m64x4); - }; - // 512-bit wide masks - (m8x64) => { - impl All for m8x64 { - #[inline] - unsafe fn all(self) -> bool { - let i: [u128; 4] = crate::mem::transmute(self); - let o: [u128; 4] = [u128::max_value(); 4]; - i == o - } - } - impl Any for m8x64 { - #[inline] - unsafe fn any(self) -> bool { - let i: [u128; 4] = crate::mem::transmute(self); - let o: [u128; 4] = [0; 4]; - i != o - } - } - }; - (m16x32) => { - fallback_to_other_impl!(m16x32, m8x64); - }; - (m32x16) => { - fallback_to_other_impl!(m32x16, m16x32); - }; - (m64x8) => { - fallback_to_other_impl!(m64x8, m32x16); - }; - (m128x4) => { - fallback_to_other_impl!(m128x4, m64x8); - }; - // Masks with pointer-sized elements64 - (msizex2) => { - cfg_if! { - if #[cfg(target_pointer_width = "64")] { - fallback_to_other_impl!(msizex2, m64x2); - } else if #[cfg(target_pointer_width = "32")] { - fallback_to_other_impl!(msizex2, m32x2); - } else { - compile_error!("unsupported target_pointer_width"); - } - } - }; - (msizex4) => { - cfg_if! { - if #[cfg(target_pointer_width = "64")] { - fallback_to_other_impl!(msizex4, m64x4); - } else if #[cfg(target_pointer_width = "32")] { - fallback_to_other_impl!(msizex4, m32x4); - } else { - compile_error!("unsupported target_pointer_width"); - } - } - }; - (msizex8) => { - cfg_if! { - if #[cfg(target_pointer_width = "64")] { - fallback_to_other_impl!(msizex8, m64x8); - } else if #[cfg(target_pointer_width = "32")] { - fallback_to_other_impl!(msizex8, m32x8); - } else { - compile_error!("unsupported target_pointer_width"); - } - } - }; -} - -macro_rules! recurse_half { - ($vid:ident, $vid_h:ident) => { - impl All for $vid { - #[inline] - unsafe fn all(self) -> bool { - union U { - halves: ($vid_h, $vid_h), - vec: $vid, - } - let halves = U { vec: self }.halves; - halves.0.all() && halves.1.all() - } - } - impl Any for $vid { - #[inline] - unsafe fn any(self) -> bool { - union U { - halves: ($vid_h, $vid_h), - vec: $vid, - } - let halves = U { vec: self }.halves; - halves.0.any() || halves.1.any() - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/x86.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86.rs +++ /dev/null @@ -1,216 +0,0 @@ -//! Mask reductions implementation for `x86` and `x86_64` targets - -#[cfg(target_feature = "sse")] -#[macro_use] -mod sse; - -#[cfg(target_feature = "sse2")] -#[macro_use] -mod sse2; - -#[cfg(target_feature = "avx")] -#[macro_use] -mod avx; - -#[cfg(target_feature = "avx2")] -#[macro_use] -mod avx2; - -/// x86 64-bit m8x8 implementation -macro_rules! x86_m8x8_impl { - ($id:ident) => { - fallback_impl!($id); - }; -} - -/// x86 128-bit m8x16 implementation -macro_rules! x86_m8x16_impl { - ($id:ident) => { - cfg_if! { - if #[cfg(target_feature = "sse2")] { - x86_m8x16_sse2_impl!($id); - } else { - fallback_impl!($id); - } - } - }; -} - -/// x86 128-bit m32x4 implementation -macro_rules! x86_m32x4_impl { - ($id:ident) => { - cfg_if! { - if #[cfg(target_feature = "sse")] { - x86_m32x4_sse_impl!($id); - } else { - fallback_impl!($id); - } - } - }; -} - -/// x86 128-bit m64x2 implementation -macro_rules! x86_m64x2_impl { - ($id:ident) => { - cfg_if! { - if #[cfg(target_feature = "sse2")] { - x86_m64x2_sse2_impl!($id); - } else if #[cfg(target_feature = "sse")] { - x86_m32x4_sse_impl!($id); - } else { - fallback_impl!($id); - } - } - }; -} - -/// x86 256-bit m8x32 implementation -macro_rules! x86_m8x32_impl { - ($id:ident, $half_id:ident) => { - cfg_if! { - if #[cfg(target_feature = "avx2")] { - x86_m8x32_avx2_impl!($id); - } else if #[cfg(target_feature = "avx")] { - x86_m8x32_avx_impl!($id); - } else if #[cfg(target_feature = "sse2")] { - recurse_half!($id, $half_id); - } else { - fallback_impl!($id); - } - } - }; -} - -/// x86 256-bit m32x8 implementation -macro_rules! x86_m32x8_impl { - ($id:ident, $half_id:ident) => { - cfg_if! { - if #[cfg(target_feature = "avx")] { - x86_m32x8_avx_impl!($id); - } else if #[cfg(target_feature = "sse")] { - recurse_half!($id, $half_id); - } else { - fallback_impl!($id); - } - } - }; -} - -/// x86 256-bit m64x4 implementation -macro_rules! x86_m64x4_impl { - ($id:ident, $half_id:ident) => { - cfg_if! { - if #[cfg(target_feature = "avx")] { - x86_m64x4_avx_impl!($id); - } else if #[cfg(target_feature = "sse")] { - recurse_half!($id, $half_id); - } else { - fallback_impl!($id); - } - } - }; -} - -/// Fallback implementation. -macro_rules! x86_intr_impl { - ($id:ident) => { - impl All for $id { - #[inline] - unsafe fn all(self) -> bool { - use crate::llvm::simd_reduce_all; - simd_reduce_all(self.0) - } - } - impl Any for $id { - #[inline] - unsafe fn any(self) -> bool { - use crate::llvm::simd_reduce_any; - simd_reduce_any(self.0) - } - } - }; -} - -/// Mask reduction implementation for `x86` and `x86_64` targets -macro_rules! impl_mask_reductions { - // 64-bit wide masks - (m8x8) => { - x86_m8x8_impl!(m8x8); - }; - (m16x4) => { - x86_m8x8_impl!(m16x4); - }; - (m32x2) => { - x86_m8x8_impl!(m32x2); - }; - // 128-bit wide masks - (m8x16) => { - x86_m8x16_impl!(m8x16); - }; - (m16x8) => { - x86_m8x16_impl!(m16x8); - }; - (m32x4) => { - x86_m32x4_impl!(m32x4); - }; - (m64x2) => { - x86_m64x2_impl!(m64x2); - }; - (m128x1) => { - x86_intr_impl!(m128x1); - }; - // 256-bit wide masks: - (m8x32) => { - x86_m8x32_impl!(m8x32, m8x16); - }; - (m16x16) => { - x86_m8x32_impl!(m16x16, m16x8); - }; - (m32x8) => { - x86_m32x8_impl!(m32x8, m32x4); - }; - (m64x4) => { - x86_m64x4_impl!(m64x4, m64x2); - }; - (m128x2) => { - x86_intr_impl!(m128x2); - }; - (msizex2) => { - cfg_if! { - if #[cfg(target_pointer_width = "64")] { - fallback_to_other_impl!(msizex2, m64x2); - } else if #[cfg(target_pointer_width = "32")] { - fallback_to_other_impl!(msizex2, m32x2); - } else { - compile_error!("unsupported target_pointer_width"); - } - } - }; - (msizex4) => { - cfg_if! { - if #[cfg(target_pointer_width = "64")] { - fallback_to_other_impl!(msizex4, m64x4); - } else if #[cfg(target_pointer_width = "32")] { - fallback_to_other_impl!(msizex4, m32x4); - } else { - compile_error!("unsupported target_pointer_width"); - } - } - }; - (msizex8) => { - cfg_if! { - if #[cfg(target_pointer_width = "64")] { - fallback_to_other_impl!(msizex8, m64x8); - } else if #[cfg(target_pointer_width = "32")] { - fallback_to_other_impl!(msizex8, m32x8); - } else { - compile_error!("unsupported target_pointer_width"); - } - } - }; - - // Fallback to LLVM's default code-generation: - ($id:ident) => { - fallback_impl!($id); - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/avx.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/avx.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/avx.rs +++ /dev/null @@ -1,95 +0,0 @@ -//! Mask reductions implementation for `x86` and `x86_64` targets with `AVX` - -/// `x86`/`x86_64` 256-bit `AVX` implementation -/// FIXME: it might be faster here to do two `_mm_movmask_epi8` -#[cfg(target_feature = "avx")] -macro_rules! x86_m8x32_avx_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "avx")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_testc_si256; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_testc_si256; - _mm256_testc_si256(crate::mem::transmute(self), crate::mem::transmute($id::splat(true))) != 0 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "avx")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_testz_si256; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_testz_si256; - _mm256_testz_si256(crate::mem::transmute(self), crate::mem::transmute(self)) == 0 - } - } - }; -} - -/// `x86`/`x86_64` 256-bit m32x8 `AVX` implementation -macro_rules! x86_m32x8_avx_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_movemask_ps; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_movemask_ps; - // _mm256_movemask_ps(a) creates a 8bit mask containing the - // most significant bit of each lane of `a`. If all bits are - // set, then all 8 lanes of the mask are true. - _mm256_movemask_ps(crate::mem::transmute(self)) == 0b_1111_1111_i32 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_movemask_ps; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_movemask_ps; - - _mm256_movemask_ps(crate::mem::transmute(self)) != 0 - } - } - }; -} - -/// `x86`/`x86_64` 256-bit m64x4 `AVX` implementation -macro_rules! x86_m64x4_avx_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_movemask_pd; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_movemask_pd; - // _mm256_movemask_pd(a) creates a 4bit mask containing the - // most significant bit of each lane of `a`. If all bits are - // set, then all 4 lanes of the mask are true. - _mm256_movemask_pd(crate::mem::transmute(self)) == 0b_1111_i32 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_movemask_pd; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_movemask_pd; - - _mm256_movemask_pd(crate::mem::transmute(self)) != 0 - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/avx2.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/avx2.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/avx2.rs +++ /dev/null @@ -1,35 +0,0 @@ -//! Mask reductions implementation for `x86` and `x86_64` targets with `AVX2`. -#![allow(unused)] - -/// x86/x86_64 256-bit m8x32 AVX2 implementation -macro_rules! x86_m8x32_avx2_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "sse2")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_movemask_epi8; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_movemask_epi8; - // _mm256_movemask_epi8(a) creates a 32bit mask containing the - // most significant bit of each byte of `a`. If all - // bits are set, then all 32 lanes of the mask are - // true. - _mm256_movemask_epi8(crate::mem::transmute(self)) == -1_i32 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "sse2")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm256_movemask_epi8; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm256_movemask_epi8; - - _mm256_movemask_epi8(crate::mem::transmute(self)) != 0 - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/sse.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/sse.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/sse.rs +++ /dev/null @@ -1,35 +0,0 @@ -//! Mask reductions implementation for `x86` and `x86_64` targets with `SSE`. -#![allow(unused)] - -/// `x86`/`x86_64` 128-bit `m32x4` `SSE` implementation -macro_rules! x86_m32x4_sse_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_movemask_ps; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_movemask_ps; - // _mm_movemask_ps(a) creates a 4bit mask containing the - // most significant bit of each lane of `a`. If all - // bits are set, then all 4 lanes of the mask are - // true. - _mm_movemask_ps(crate::mem::transmute(self)) == 0b_1111_i32 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_movemask_ps; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_movemask_ps; - - _mm_movemask_ps(crate::mem::transmute(self)) != 0 - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/sse2.rs b/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/sse2.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/reductions/mask/x86/sse2.rs +++ /dev/null @@ -1,68 +0,0 @@ -//! Mask reductions implementation for `x86` and `x86_64` targets with `SSE2`. -#![allow(unused)] - -/// `x86`/`x86_64` 128-bit m64x2 `SSE2` implementation -macro_rules! x86_m64x2_sse2_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_movemask_pd; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_movemask_pd; - // _mm_movemask_pd(a) creates a 2bit mask containing the - // most significant bit of each lane of `a`. If all - // bits are set, then all 2 lanes of the mask are - // true. - _mm_movemask_pd(crate::mem::transmute(self)) == 0b_11_i32 - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "sse")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_movemask_pd; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_movemask_pd; - - _mm_movemask_pd(crate::mem::transmute(self)) != 0 - } - } - }; -} - -/// `x86`/`x86_64` 128-bit m8x16 `SSE2` implementation -macro_rules! x86_m8x16_sse2_impl { - ($id:ident) => { - impl All for $id { - #[inline] - #[target_feature(enable = "sse2")] - unsafe fn all(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_movemask_epi8; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_movemask_epi8; - // _mm_movemask_epi8(a) creates a 16bit mask containing the - // most significant bit of each byte of `a`. If all - // bits are set, then all 16 lanes of the mask are - // true. - _mm_movemask_epi8(crate::mem::transmute(self)) == i32::from(u16::max_value()) - } - } - impl Any for $id { - #[inline] - #[target_feature(enable = "sse2")] - unsafe fn any(self) -> bool { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_movemask_epi8; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_movemask_epi8; - - _mm_movemask_epi8(crate::mem::transmute(self)) != 0 - } - } - }; -} diff --git a/third_party/rust/packed_simd/src/codegen/shuffle.rs b/third_party/rust/packed_simd/src/codegen/shuffle.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/shuffle.rs +++ /dev/null @@ -1,150 +0,0 @@ -//! Implementations of the `ShuffleResult` trait for the different numbers of -//! lanes and vector element types. - -use crate::masks::*; -use crate::sealed::{Seal, Shuffle}; - -macro_rules! impl_shuffle { - ($array:ty, $base:ty, $out:ty) => { - impl Seal<$array> for $base {} - impl Shuffle<$array> for $base { - type Output = $out; - } - }; -} - -impl_shuffle! { [u32; 2], i8, crate::codegen::i8x2 } -impl_shuffle! { [u32; 4], i8, crate::codegen::i8x4 } -impl_shuffle! { [u32; 8], i8, crate::codegen::i8x8 } -impl_shuffle! { [u32; 16], i8, crate::codegen::i8x16 } -impl_shuffle! { [u32; 32], i8, crate::codegen::i8x32 } -impl_shuffle! { [u32; 64], i8, crate::codegen::i8x64 } - -impl_shuffle! { [u32; 2], u8, crate::codegen::u8x2 } -impl_shuffle! { [u32; 4], u8, crate::codegen::u8x4 } -impl_shuffle! { [u32; 8], u8, crate::codegen::u8x8 } -impl_shuffle! { [u32; 16], u8, crate::codegen::u8x16 } -impl_shuffle! { [u32; 32], u8, crate::codegen::u8x32 } -impl_shuffle! { [u32; 64], u8, crate::codegen::u8x64 } - -impl_shuffle! { [u32; 2], m8, crate::codegen::m8x2 } -impl_shuffle! { [u32; 4], m8, crate::codegen::m8x4 } -impl_shuffle! { [u32; 8], m8, crate::codegen::m8x8 } -impl_shuffle! { [u32; 16], m8, crate::codegen::m8x16 } -impl_shuffle! { [u32; 32], m8, crate::codegen::m8x32 } -impl_shuffle! { [u32; 64], m8, crate::codegen::m8x64 } - -impl_shuffle! { [u32; 2], i16, crate::codegen::i16x2 } -impl_shuffle! { [u32; 4], i16, crate::codegen::i16x4 } -impl_shuffle! { [u32; 8], i16, crate::codegen::i16x8 } -impl_shuffle! { [u32; 16], i16, crate::codegen::i16x16 } -impl_shuffle! { [u32; 32], i16, crate::codegen::i16x32 } - -impl_shuffle! { [u32; 2], u16, crate::codegen::u16x2 } -impl_shuffle! { [u32; 4], u16, crate::codegen::u16x4 } -impl_shuffle! { [u32; 8], u16, crate::codegen::u16x8 } -impl_shuffle! { [u32; 16], u16, crate::codegen::u16x16 } -impl_shuffle! { [u32; 32], u16, crate::codegen::u16x32 } - -impl_shuffle! { [u32; 2], m16, crate::codegen::m16x2 } -impl_shuffle! { [u32; 4], m16, crate::codegen::m16x4 } -impl_shuffle! { [u32; 8], m16, crate::codegen::m16x8 } -impl_shuffle! { [u32; 16], m16, crate::codegen::m16x16 } - -impl_shuffle! { [u32; 2], i32, crate::codegen::i32x2 } -impl_shuffle! { [u32; 4], i32, crate::codegen::i32x4 } -impl_shuffle! { [u32; 8], i32, crate::codegen::i32x8 } -impl_shuffle! { [u32; 16], i32, crate::codegen::i32x16 } - -impl_shuffle! { [u32; 2], u32, crate::codegen::u32x2 } -impl_shuffle! { [u32; 4], u32, crate::codegen::u32x4 } -impl_shuffle! { [u32; 8], u32, crate::codegen::u32x8 } -impl_shuffle! { [u32; 16], u32, crate::codegen::u32x16 } - -impl_shuffle! { [u32; 2], f32, crate::codegen::f32x2 } -impl_shuffle! { [u32; 4], f32, crate::codegen::f32x4 } -impl_shuffle! { [u32; 8], f32, crate::codegen::f32x8 } -impl_shuffle! { [u32; 16], f32, crate::codegen::f32x16 } - -impl_shuffle! { [u32; 2], m32, crate::codegen::m32x2 } -impl_shuffle! { [u32; 4], m32, crate::codegen::m32x4 } -impl_shuffle! { [u32; 8], m32, crate::codegen::m32x8 } -impl_shuffle! { [u32; 16], m32, crate::codegen::m32x16 } - -/* FIXME: 64-bit single element vector -impl_shuffle! { [u32; 1], i64, crate::codegen::i64x1 } -*/ -impl_shuffle! { [u32; 2], i64, crate::codegen::i64x2 } -impl_shuffle! { [u32; 4], i64, crate::codegen::i64x4 } -impl_shuffle! { [u32; 8], i64, crate::codegen::i64x8 } - -/* FIXME: 64-bit single element vector -impl_shuffle! { [u32; 1], i64, crate::codegen::i64x1 } -*/ -impl_shuffle! { [u32; 2], u64, crate::codegen::u64x2 } -impl_shuffle! { [u32; 4], u64, crate::codegen::u64x4 } -impl_shuffle! { [u32; 8], u64, crate::codegen::u64x8 } - -/* FIXME: 64-bit single element vector -impl_shuffle! { [u32; 1], i64, crate::codegen::i64x1 } -*/ -impl_shuffle! { [u32; 2], f64, crate::codegen::f64x2 } -impl_shuffle! { [u32; 4], f64, crate::codegen::f64x4 } -impl_shuffle! { [u32; 8], f64, crate::codegen::f64x8 } - -/* FIXME: 64-bit single element vector -impl_shuffle! { [u32; 1], i64, crate::codegen::i64x1 } -*/ -impl_shuffle! { [u32; 2], m64, crate::codegen::m64x2 } -impl_shuffle! { [u32; 4], m64, crate::codegen::m64x4 } -impl_shuffle! { [u32; 8], m64, crate::codegen::m64x8 } - -impl_shuffle! { [u32; 2], isize, crate::codegen::isizex2 } -impl_shuffle! { [u32; 4], isize, crate::codegen::isizex4 } -impl_shuffle! { [u32; 8], isize, crate::codegen::isizex8 } - -impl_shuffle! { [u32; 2], usize, crate::codegen::usizex2 } -impl_shuffle! { [u32; 4], usize, crate::codegen::usizex4 } -impl_shuffle! { [u32; 8], usize, crate::codegen::usizex8 } - -impl_shuffle! { [u32; 2], msize, crate::codegen::msizex2 } -impl_shuffle! { [u32; 4], msize, crate::codegen::msizex4 } -impl_shuffle! { [u32; 8], msize, crate::codegen::msizex8 } - -impl<T> Seal<[u32; 2]> for *const T {} -impl<T> Shuffle<[u32; 2]> for *const T { - type Output = crate::codegen::cptrx2<T>; -} -impl<T> Seal<[u32; 4]> for *const T {} -impl<T> Shuffle<[u32; 4]> for *const T { - type Output = crate::codegen::cptrx4<T>; -} -impl<T> Seal<[u32; 8]> for *const T {} -impl<T> Shuffle<[u32; 8]> for *const T { - type Output = crate::codegen::cptrx8<T>; -} - -impl<T> Seal<[u32; 2]> for *mut T {} -impl<T> Shuffle<[u32; 2]> for *mut T { - type Output = crate::codegen::mptrx2<T>; -} -impl<T> Seal<[u32; 4]> for *mut T {} -impl<T> Shuffle<[u32; 4]> for *mut T { - type Output = crate::codegen::mptrx4<T>; -} -impl<T> Seal<[u32; 8]> for *mut T {} -impl<T> Shuffle<[u32; 8]> for *mut T { - type Output = crate::codegen::mptrx8<T>; -} - -impl_shuffle! { [u32; 1], i128, crate::codegen::i128x1 } -impl_shuffle! { [u32; 2], i128, crate::codegen::i128x2 } -impl_shuffle! { [u32; 4], i128, crate::codegen::i128x4 } - -impl_shuffle! { [u32; 1], u128, crate::codegen::u128x1 } -impl_shuffle! { [u32; 2], u128, crate::codegen::u128x2 } -impl_shuffle! { [u32; 4], u128, crate::codegen::u128x4 } - -impl_shuffle! { [u32; 1], m128, crate::codegen::m128x1 } -impl_shuffle! { [u32; 2], m128, crate::codegen::m128x2 } -impl_shuffle! { [u32; 4], m128, crate::codegen::m128x4 } diff --git a/third_party/rust/packed_simd/src/codegen/shuffle1_dyn.rs b/third_party/rust/packed_simd/src/codegen/shuffle1_dyn.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/shuffle1_dyn.rs +++ /dev/null @@ -1,408 +0,0 @@ -//! Shuffle vector lanes with run-time indices. - -use crate::*; - -pub trait Shuffle1Dyn { - type Indices; - fn shuffle1_dyn(self, _: Self::Indices) -> Self; -} - -// Fallback implementation -macro_rules! impl_fallback { - ($id:ident) => { - impl Shuffle1Dyn for $id { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - let mut result = Self::splat(0); - for i in 0..$id::lanes() { - result = result.replace(i, self.extract(indices.extract(i) as usize)); - } - result - } - } - }; -} - -macro_rules! impl_shuffle1_dyn { - (u8x8) => { - cfg_if! { - if #[cfg(all( - any( - all(target_arch = "aarch64", target_feature = "neon"), - all(target_arch = "doesnotexist", target_feature = "v7", - target_feature = "neon") - ), - any(feature = "core_arch", libcore_neon) - ) - )] { - impl Shuffle1Dyn for u8x8 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - #[cfg(target_arch = "aarch64")] - use crate::arch::aarch64::vtbl1_u8; - #[cfg(target_arch = "doesnotexist")] - use crate::arch::arm::vtbl1_u8; - - // This is safe because the binary is compiled with - // neon enabled at compile-time and can therefore only - // run on CPUs that have it enabled. - unsafe { - Simd(mem::transmute( - vtbl1_u8(mem::transmute(self.0), - crate::mem::transmute(indices.0)) - )) - } - } - } - } else { - impl_fallback!(u8x8); - } - } - }; - (u8x16) => { - cfg_if! { - if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64"), - target_feature = "ssse3"))] { - impl Shuffle1Dyn for u8x16 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - #[cfg(target_arch = "x86")] - use crate::arch::x86::_mm_shuffle_epi8; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::_mm_shuffle_epi8; - // This is safe because the binary is compiled with - // ssse3 enabled at compile-time and can therefore only - // run on CPUs that have it enabled. - unsafe { - Simd(mem::transmute( - _mm_shuffle_epi8(mem::transmute(self.0), - crate::mem::transmute(indices)) - )) - } - } - } - } else if #[cfg(all(target_arch = "aarch64", target_feature = "neon", - any(feature = "core_arch", libcore_neon)))] { - impl Shuffle1Dyn for u8x16 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - use crate::arch::aarch64::vqtbl1q_u8; - - // This is safe because the binary is compiled with - // neon enabled at compile-time and can therefore only - // run on CPUs that have it enabled. - unsafe { - Simd(mem::transmute( - vqtbl1q_u8(mem::transmute(self.0), - crate::mem::transmute(indices.0)) - )) - } - } - } - } else if #[cfg(all(target_arch = "doesnotexist", target_feature = "v7", - target_feature = "neon", - any(feature = "core_arch", libcore_neon)))] { - impl Shuffle1Dyn for u8x16 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - use crate::arch::arm::vtbl2_u8; - - // This is safe because the binary is compiled with - // neon enabled at compile-time and can therefore only - // run on CPUs that have it enabled. - unsafe { - union U { - j: u8x16, - s: (u8x8, u8x8), - } - - let (i0, i1) = U { j: y }.s; - - let r0 = vtbl2_u8( - mem::transmute(x), - crate::mem::transmute(i0) - ); - let r1 = vtbl2_u8( - mem::transmute(x), - crate::mem::transmute(i1) - ); - - let r = U { s: (r0, r1) }.j; - - Simd(mem::transmute(r)) - } - } - } - } else { - impl_fallback!(u8x16); - } - } - }; - (u16x8) => { - impl Shuffle1Dyn for u16x8 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - let indices: u8x8 = (indices * 2).cast(); - let indices: u8x16 = shuffle!(indices, [0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7]); - let v = u8x16::new(0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1); - let indices = indices + v; - unsafe { - let s: u8x16 = crate::mem::transmute(self); - crate::mem::transmute(s.shuffle1_dyn(indices)) - } - } - } - }; - (u32x4) => { - cfg_if! { - if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64"), - target_feature = "avx"))] { - impl Shuffle1Dyn for u32x4 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - #[cfg(target_arch = "x86")] - use crate::arch::x86::{_mm_permutevar_ps}; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::{_mm_permutevar_ps}; - - unsafe { - crate::mem::transmute( - _mm_permutevar_ps( - crate::mem::transmute(self.0), - crate::mem::transmute(indices.0) - ) - ) - } - } - } - } else { - impl Shuffle1Dyn for u32x4 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - let indices: u8x4 = (indices * 4).cast(); - let indices: u8x16 = shuffle!( - indices, - [0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3] - ); - let v = u8x16::new( - 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3 - ); - let indices = indices + v; - unsafe { - let s: u8x16 =crate::mem::transmute(self); - crate::mem::transmute(s.shuffle1_dyn(indices)) - } - } - } - } - } - }; - (u64x2) => { - cfg_if! { - if #[cfg(all(any(target_arch = "x86", target_arch = "x86_64"), - target_feature = "avx"))] { - impl Shuffle1Dyn for u64x2 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - #[cfg(target_arch = "x86")] - use crate::arch::x86::{_mm_permutevar_pd}; - #[cfg(target_arch = "x86_64")] - use crate::arch::x86_64::{_mm_permutevar_pd}; - // _mm_permutevar_pd uses the _second_ bit of each - // element to perform the selection, that is: 0b00 => 0, - // 0b10 => 1: - let indices = indices << 1; - unsafe { - crate::mem::transmute( - _mm_permutevar_pd( - crate::mem::transmute(self), - crate::mem::transmute(indices) - ) - ) - } - } - } - } else { - impl Shuffle1Dyn for u64x2 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - let indices: u8x2 = (indices * 8).cast(); - let indices: u8x16 = shuffle!( - indices, - [0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1] - ); - let v = u8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, 0, 1, 2, 3, 4, 5, 6, 7 - ); - let indices = indices + v; - unsafe { - let s: u8x16 =crate::mem::transmute(self); - crate::mem::transmute(s.shuffle1_dyn(indices)) - } - } - } - } - } - }; - (u128x1) => { - impl Shuffle1Dyn for u128x1 { - type Indices = Self; - #[inline] - fn shuffle1_dyn(self, _indices: Self::Indices) -> Self { - self - } - } - }; - ($id:ident) => { - impl_fallback!($id); - }; -} - -impl_shuffle1_dyn!(u8x2); -impl_shuffle1_dyn!(u8x4); -impl_shuffle1_dyn!(u8x8); -impl_shuffle1_dyn!(u8x16); -impl_shuffle1_dyn!(u8x32); -impl_shuffle1_dyn!(u8x64); - -impl_shuffle1_dyn!(u16x2); -impl_shuffle1_dyn!(u16x4); -impl_shuffle1_dyn!(u16x8); -impl_shuffle1_dyn!(u16x16); -impl_shuffle1_dyn!(u16x32); - -impl_shuffle1_dyn!(u32x2); -impl_shuffle1_dyn!(u32x4); -impl_shuffle1_dyn!(u32x8); -impl_shuffle1_dyn!(u32x16); - -impl_shuffle1_dyn!(u64x2); -impl_shuffle1_dyn!(u64x4); -impl_shuffle1_dyn!(u64x8); - -impl_shuffle1_dyn!(usizex2); -impl_shuffle1_dyn!(usizex4); -impl_shuffle1_dyn!(usizex8); - -impl_shuffle1_dyn!(u128x1); -impl_shuffle1_dyn!(u128x2); -impl_shuffle1_dyn!(u128x4); - -// Implementation for non-unsigned vector types -macro_rules! impl_shuffle1_dyn_non_u { - ($id:ident, $uid:ident) => { - impl Shuffle1Dyn for $id { - type Indices = $uid; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - unsafe { - let u: $uid = crate::mem::transmute(self); - crate::mem::transmute(u.shuffle1_dyn(indices)) - } - } - } - }; -} - -impl_shuffle1_dyn_non_u!(i8x2, u8x2); -impl_shuffle1_dyn_non_u!(i8x4, u8x4); -impl_shuffle1_dyn_non_u!(i8x8, u8x8); -impl_shuffle1_dyn_non_u!(i8x16, u8x16); -impl_shuffle1_dyn_non_u!(i8x32, u8x32); -impl_shuffle1_dyn_non_u!(i8x64, u8x64); - -impl_shuffle1_dyn_non_u!(i16x2, u16x2); -impl_shuffle1_dyn_non_u!(i16x4, u16x4); -impl_shuffle1_dyn_non_u!(i16x8, u16x8); -impl_shuffle1_dyn_non_u!(i16x16, u16x16); -impl_shuffle1_dyn_non_u!(i16x32, u16x32); - -impl_shuffle1_dyn_non_u!(i32x2, u32x2); -impl_shuffle1_dyn_non_u!(i32x4, u32x4); -impl_shuffle1_dyn_non_u!(i32x8, u32x8); -impl_shuffle1_dyn_non_u!(i32x16, u32x16); - -impl_shuffle1_dyn_non_u!(i64x2, u64x2); -impl_shuffle1_dyn_non_u!(i64x4, u64x4); -impl_shuffle1_dyn_non_u!(i64x8, u64x8); - -impl_shuffle1_dyn_non_u!(isizex2, usizex2); -impl_shuffle1_dyn_non_u!(isizex4, usizex4); -impl_shuffle1_dyn_non_u!(isizex8, usizex8); - -impl_shuffle1_dyn_non_u!(i128x1, u128x1); -impl_shuffle1_dyn_non_u!(i128x2, u128x2); -impl_shuffle1_dyn_non_u!(i128x4, u128x4); - -impl_shuffle1_dyn_non_u!(m8x2, u8x2); -impl_shuffle1_dyn_non_u!(m8x4, u8x4); -impl_shuffle1_dyn_non_u!(m8x8, u8x8); -impl_shuffle1_dyn_non_u!(m8x16, u8x16); -impl_shuffle1_dyn_non_u!(m8x32, u8x32); -impl_shuffle1_dyn_non_u!(m8x64, u8x64); - -impl_shuffle1_dyn_non_u!(m16x2, u16x2); -impl_shuffle1_dyn_non_u!(m16x4, u16x4); -impl_shuffle1_dyn_non_u!(m16x8, u16x8); -impl_shuffle1_dyn_non_u!(m16x16, u16x16); -impl_shuffle1_dyn_non_u!(m16x32, u16x32); - -impl_shuffle1_dyn_non_u!(m32x2, u32x2); -impl_shuffle1_dyn_non_u!(m32x4, u32x4); -impl_shuffle1_dyn_non_u!(m32x8, u32x8); -impl_shuffle1_dyn_non_u!(m32x16, u32x16); - -impl_shuffle1_dyn_non_u!(m64x2, u64x2); -impl_shuffle1_dyn_non_u!(m64x4, u64x4); -impl_shuffle1_dyn_non_u!(m64x8, u64x8); - -impl_shuffle1_dyn_non_u!(msizex2, usizex2); -impl_shuffle1_dyn_non_u!(msizex4, usizex4); -impl_shuffle1_dyn_non_u!(msizex8, usizex8); - -impl_shuffle1_dyn_non_u!(m128x1, u128x1); -impl_shuffle1_dyn_non_u!(m128x2, u128x2); -impl_shuffle1_dyn_non_u!(m128x4, u128x4); - -impl_shuffle1_dyn_non_u!(f32x2, u32x2); -impl_shuffle1_dyn_non_u!(f32x4, u32x4); -impl_shuffle1_dyn_non_u!(f32x8, u32x8); -impl_shuffle1_dyn_non_u!(f32x16, u32x16); - -impl_shuffle1_dyn_non_u!(f64x2, u64x2); -impl_shuffle1_dyn_non_u!(f64x4, u64x4); -impl_shuffle1_dyn_non_u!(f64x8, u64x8); - -// Implementation for non-unsigned vector types -macro_rules! impl_shuffle1_dyn_ptr { - ($id:ident, $uid:ident) => { - impl<T> Shuffle1Dyn for $id<T> { - type Indices = $uid; - #[inline] - fn shuffle1_dyn(self, indices: Self::Indices) -> Self { - unsafe { - let u: $uid = crate::mem::transmute(self); - crate::mem::transmute(u.shuffle1_dyn(indices)) - } - } - } - }; -} - -impl_shuffle1_dyn_ptr!(cptrx2, usizex2); -impl_shuffle1_dyn_ptr!(cptrx4, usizex4); -impl_shuffle1_dyn_ptr!(cptrx8, usizex8); - -impl_shuffle1_dyn_ptr!(mptrx2, usizex2); -impl_shuffle1_dyn_ptr!(mptrx4, usizex4); -impl_shuffle1_dyn_ptr!(mptrx8, usizex8); diff --git a/third_party/rust/packed_simd/src/codegen/swap_bytes.rs b/third_party/rust/packed_simd/src/codegen/swap_bytes.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/swap_bytes.rs +++ /dev/null @@ -1,149 +0,0 @@ -//! Horizontal swap bytes reductions. - -// FIXME: investigate using `llvm.bswap` -// https://github.com/rust-lang-nursery/packed_simd/issues/19 - -use crate::*; - -pub(crate) trait SwapBytes { - fn swap_bytes(self) -> Self; -} - -macro_rules! impl_swap_bytes { - (v16: $($id:ident,)+) => { - $( - impl SwapBytes for $id { - #[inline] - fn swap_bytes(self) -> Self { - shuffle!(self, [1, 0]) - } - } - )+ - }; - (v32: $($id:ident,)+) => { - $( - impl SwapBytes for $id { - #[inline] - #[allow(clippy::useless_transmute)] - fn swap_bytes(self) -> Self { - unsafe { - let bytes: u8x4 = crate::mem::transmute(self); - let result: u8x4 = shuffle!(bytes, [3, 2, 1, 0]); - crate::mem::transmute(result) - } - } - } - )+ - }; - (v64: $($id:ident,)+) => { - $( - impl SwapBytes for $id { - #[inline] - #[allow(clippy::useless_transmute)] - fn swap_bytes(self) -> Self { - unsafe { - let bytes: u8x8 = crate::mem::transmute(self); - let result: u8x8 = shuffle!( - bytes, [7, 6, 5, 4, 3, 2, 1, 0] - ); - crate::mem::transmute(result) - } - } - } - )+ - }; - (v128: $($id:ident,)+) => { - $( - impl SwapBytes for $id { - #[inline] - #[allow(clippy::useless_transmute)] - fn swap_bytes(self) -> Self { - unsafe { - let bytes: u8x16 = crate::mem::transmute(self); - let result: u8x16 = shuffle!(bytes, [ - 15, 14, 13, 12, 11, 10, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ]); - crate::mem::transmute(result) - } - } - } - )+ - }; - (v256: $($id:ident,)+) => { - $( - impl SwapBytes for $id { - #[inline] - #[allow(clippy::useless_transmute)] - fn swap_bytes(self) -> Self { - unsafe { - let bytes: u8x32 = crate::mem::transmute(self); - let result: u8x32 = shuffle!(bytes, [ - 31, 30, 29, 28, 27, 26, 25, 24, - 23, 22, 21, 20, 19, 18, 17, 16, - 15, 14, 13, 12, 11, 10, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ]); - crate::mem::transmute(result) - } - } - } - )+ - }; - (v512: $($id:ident,)+) => { - $( - impl SwapBytes for $id { - #[inline] - #[allow(clippy::useless_transmute)] - fn swap_bytes(self) -> Self { - unsafe { - let bytes: u8x64 = crate::mem::transmute(self); - let result: u8x64 = shuffle!(bytes, [ - 63, 62, 61, 60, 59, 58, 57, 56, - 55, 54, 53, 52, 51, 50, 49, 48, - 47, 46, 45, 44, 43, 42, 41, 40, - 39, 38, 37, 36, 35, 34, 33, 32, - 31, 30, 29, 28, 27, 26, 25, 24, - 23, 22, 21, 20, 19, 18, 17, 16, - 15, 14, 13, 12, 11, 10, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ]); - crate::mem::transmute(result) - } - } - } - )+ - }; -} - -impl_swap_bytes!(v16: u8x2, i8x2,); -impl_swap_bytes!(v32: u8x4, i8x4, u16x2, i16x2,); -// FIXME: 64-bit single element vector -impl_swap_bytes!(v64: u8x8, i8x8, u16x4, i16x4, u32x2, i32x2 /* u64x1, i64x1, */,); - -impl_swap_bytes!(v128: u8x16, i8x16, u16x8, i16x8, u32x4, i32x4, u64x2, i64x2, u128x1, i128x1,); -impl_swap_bytes!(v256: u8x32, i8x32, u16x16, i16x16, u32x8, i32x8, u64x4, i64x4, u128x2, i128x2,); - -impl_swap_bytes!(v512: u8x64, i8x64, u16x32, i16x32, u32x16, i32x16, u64x8, i64x8, u128x4, i128x4,); - -cfg_if! { - if #[cfg(target_pointer_width = "8")] { - impl_swap_bytes!(v16: isizex2, usizex2,); - impl_swap_bytes!(v32: isizex4, usizex4,); - impl_swap_bytes!(v64: isizex8, usizex8,); - } else if #[cfg(target_pointer_width = "16")] { - impl_swap_bytes!(v32: isizex2, usizex2,); - impl_swap_bytes!(v64: isizex4, usizex4,); - impl_swap_bytes!(v128: isizex8, usizex8,); - } else if #[cfg(target_pointer_width = "32")] { - impl_swap_bytes!(v64: isizex2, usizex2,); - impl_swap_bytes!(v128: isizex4, usizex4,); - impl_swap_bytes!(v256: isizex8, usizex8,); - } else if #[cfg(target_pointer_width = "64")] { - impl_swap_bytes!(v128: isizex2, usizex2,); - impl_swap_bytes!(v256: isizex4, usizex4,); - impl_swap_bytes!(v512: isizex8, usizex8,); - } else { - compile_error!("unsupported target_pointer_width"); - } -} diff --git a/third_party/rust/packed_simd/src/codegen/v128.rs b/third_party/rust/packed_simd/src/codegen/v128.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/v128.rs +++ /dev/null @@ -1,46 +0,0 @@ -//! Internal 128-bit wide vector types - -use crate::masks::*; - -#[rustfmt::skip] -impl_simd_array!( - [i8; 16]: i8x16 | - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8 -); -#[rustfmt::skip] -impl_simd_array!( - [u8; 16]: u8x16 | - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8 -); -#[rustfmt::skip] -impl_simd_array!( - [m8; 16]: m8x16 | - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8 -); - -impl_simd_array!([i16; 8]: i16x8 | i16, i16, i16, i16, i16, i16, i16, i16); -impl_simd_array!([u16; 8]: u16x8 | u16, u16, u16, u16, u16, u16, u16, u16); -impl_simd_array!([m16; 8]: m16x8 | i16, i16, i16, i16, i16, i16, i16, i16); - -impl_simd_array!([i32; 4]: i32x4 | i32, i32, i32, i32); -impl_simd_array!([u32; 4]: u32x4 | u32, u32, u32, u32); -impl_simd_array!([f32; 4]: f32x4 | f32, f32, f32, f32); -impl_simd_array!([m32; 4]: m32x4 | i32, i32, i32, i32); - -impl_simd_array!([i64; 2]: i64x2 | i64, i64); -impl_simd_array!([u64; 2]: u64x2 | u64, u64); -impl_simd_array!([f64; 2]: f64x2 | f64, f64); -impl_simd_array!([m64; 2]: m64x2 | i64, i64); - -impl_simd_array!([i128; 1]: i128x1 | i128); -impl_simd_array!([u128; 1]: u128x1 | u128); -impl_simd_array!([m128; 1]: m128x1 | i128); diff --git a/third_party/rust/packed_simd/src/codegen/v16.rs b/third_party/rust/packed_simd/src/codegen/v16.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/v16.rs +++ /dev/null @@ -1,7 +0,0 @@ -//! Internal 16-bit wide vector types - -use crate::masks::*; - -impl_simd_array!([i8; 2]: i8x2 | i8, i8); -impl_simd_array!([u8; 2]: u8x2 | u8, u8); -impl_simd_array!([m8; 2]: m8x2 | i8, i8); diff --git a/third_party/rust/packed_simd/src/codegen/v256.rs b/third_party/rust/packed_simd/src/codegen/v256.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/v256.rs +++ /dev/null @@ -1,78 +0,0 @@ -//! Internal 256-bit wide vector types - -use crate::masks::*; - -#[rustfmt::skip] -impl_simd_array!( - [i8; 32]: i8x32 | - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8 -); -#[rustfmt::skip] -impl_simd_array!( - [u8; 32]: u8x32 | - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8 -); -#[rustfmt::skip] -impl_simd_array!( - [m8; 32]: m8x32 | - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8 -); -#[rustfmt::skip] -impl_simd_array!( - [i16; 16]: i16x16 | - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16 -); -#[rustfmt::skip] -impl_simd_array!( - [u16; 16]: u16x16 | - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16 -); -#[rustfmt::skip] -impl_simd_array!( - [m16; 16]: m16x16 | - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16 -); - -impl_simd_array!([i32; 8]: i32x8 | i32, i32, i32, i32, i32, i32, i32, i32); -impl_simd_array!([u32; 8]: u32x8 | u32, u32, u32, u32, u32, u32, u32, u32); -impl_simd_array!([f32; 8]: f32x8 | f32, f32, f32, f32, f32, f32, f32, f32); -impl_simd_array!([m32; 8]: m32x8 | i32, i32, i32, i32, i32, i32, i32, i32); - -impl_simd_array!([i64; 4]: i64x4 | i64, i64, i64, i64); -impl_simd_array!([u64; 4]: u64x4 | u64, u64, u64, u64); -impl_simd_array!([f64; 4]: f64x4 | f64, f64, f64, f64); -impl_simd_array!([m64; 4]: m64x4 | i64, i64, i64, i64); - -impl_simd_array!([i128; 2]: i128x2 | i128, i128); -impl_simd_array!([u128; 2]: u128x2 | u128, u128); -impl_simd_array!([m128; 2]: m128x2 | i128, i128); diff --git a/third_party/rust/packed_simd/src/codegen/v32.rs b/third_party/rust/packed_simd/src/codegen/v32.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/v32.rs +++ /dev/null @@ -1,11 +0,0 @@ -//! Internal 32-bit wide vector types - -use crate::masks::*; - -impl_simd_array!([i8; 4]: i8x4 | i8, i8, i8, i8); -impl_simd_array!([u8; 4]: u8x4 | u8, u8, u8, u8); -impl_simd_array!([m8; 4]: m8x4 | i8, i8, i8, i8); - -impl_simd_array!([i16; 2]: i16x2 | i16, i16); -impl_simd_array!([u16; 2]: u16x2 | u16, u16); -impl_simd_array!([m16; 2]: m16x2 | i16, i16); diff --git a/third_party/rust/packed_simd/src/codegen/v512.rs b/third_party/rust/packed_simd/src/codegen/v512.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/v512.rs +++ /dev/null @@ -1,145 +0,0 @@ -//! Internal 512-bit wide vector types - -use crate::masks::*; - -#[rustfmt::skip] -impl_simd_array!( - [i8; 64]: i8x64 | - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8 -); -#[rustfmt::skip] -impl_simd_array!( - [u8; 64]: u8x64 | - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8, - u8, u8, u8, u8 -); -#[rustfmt::skip] -impl_simd_array!( - [m8; 64]: m8x64 | - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8, - i8, i8, i8, i8 -); -#[rustfmt::skip] -impl_simd_array!( - [i16; 32]: i16x32 | - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16 -); -#[rustfmt::skip] -impl_simd_array!( - [u16; 32]: u16x32 | - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16, - u16, u16, u16, u16 -); -#[rustfmt::skip] -impl_simd_array!( - [m16; 32]: m16x32 | - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16, - i16, i16, i16, i16 -); - -#[rustfmt::skip] -impl_simd_array!( - [i32; 16]: i32x16 | - i32, i32, i32, i32, - i32, i32, i32, i32, - i32, i32, i32, i32, - i32, i32, i32, i32 -); -#[rustfmt::skip] -impl_simd_array!( - [u32; 16]: u32x16 | - u32, u32, u32, u32, - u32, u32, u32, u32, - u32, u32, u32, u32, - u32, u32, u32, u32 -); -#[rustfmt::skip] -impl_simd_array!( - [f32; 16]: f32x16 | - f32, f32, f32, f32, - f32, f32, f32, f32, - f32, f32, f32, f32, - f32, f32, f32, f32 -); -#[rustfmt::skip] -impl_simd_array!( - [m32; 16]: m32x16 | - i32, i32, i32, i32, - i32, i32, i32, i32, - i32, i32, i32, i32, - i32, i32, i32, i32 -); - -impl_simd_array!([i64; 8]: i64x8 | i64, i64, i64, i64, i64, i64, i64, i64); -impl_simd_array!([u64; 8]: u64x8 | u64, u64, u64, u64, u64, u64, u64, u64); -impl_simd_array!([f64; 8]: f64x8 | f64, f64, f64, f64, f64, f64, f64, f64); -impl_simd_array!([m64; 8]: m64x8 | i64, i64, i64, i64, i64, i64, i64, i64); - -impl_simd_array!([i128; 4]: i128x4 | i128, i128, i128, i128); -impl_simd_array!([u128; 4]: u128x4 | u128, u128, u128, u128); -impl_simd_array!([m128; 4]: m128x4 | i128, i128, i128, i128); diff --git a/third_party/rust/packed_simd/src/codegen/v64.rs b/third_party/rust/packed_simd/src/codegen/v64.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/v64.rs +++ /dev/null @@ -1,21 +0,0 @@ -//! Internal 64-bit wide vector types - -use crate::masks::*; - -impl_simd_array!([i8; 8]: i8x8 | i8, i8, i8, i8, i8, i8, i8, i8); -impl_simd_array!([u8; 8]: u8x8 | u8, u8, u8, u8, u8, u8, u8, u8); -impl_simd_array!([m8; 8]: m8x8 | i8, i8, i8, i8, i8, i8, i8, i8); - -impl_simd_array!([i16; 4]: i16x4 | i16, i16, i16, i16); -impl_simd_array!([u16; 4]: u16x4 | u16, u16, u16, u16); -impl_simd_array!([m16; 4]: m16x4 | i16, i16, i16, i16); - -impl_simd_array!([i32; 2]: i32x2 | i32, i32); -impl_simd_array!([u32; 2]: u32x2 | u32, u32); -impl_simd_array!([f32; 2]: f32x2 | f32, f32); -impl_simd_array!([m32; 2]: m32x2 | i32, i32); - -impl_simd_array!([i64; 1]: i64x1 | i64); -impl_simd_array!([u64; 1]: u64x1 | u64); -impl_simd_array!([f64; 1]: f64x1 | f64); -impl_simd_array!([m64; 1]: m64x1 | i64); diff --git a/third_party/rust/packed_simd/src/codegen/vPtr.rs b/third_party/rust/packed_simd/src/codegen/vPtr.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/vPtr.rs +++ /dev/null @@ -1,35 +0,0 @@ -//! Pointer vector types - -macro_rules! impl_simd_ptr { - ([$ptr_ty:ty; $elem_count:expr]: $tuple_id:ident | $ty:ident - | $($tys:ty),*) => { - #[derive(Copy, Clone)] - #[repr(simd)] - pub struct $tuple_id<$ty>($(pub(crate) $tys),*); - //^^^^^^^ leaked through SimdArray - - impl<$ty> crate::sealed::Seal for [$ptr_ty; $elem_count] {} - impl<$ty> crate::sealed::SimdArray for [$ptr_ty; $elem_count] { - type Tuple = $tuple_id<$ptr_ty>; - type T = $ptr_ty; - const N: usize = $elem_count; - type NT = [u32; $elem_count]; - } - - impl<$ty> crate::sealed::Seal for $tuple_id<$ptr_ty> {} - impl<$ty> crate::sealed::Simd for $tuple_id<$ptr_ty> { - type Element = $ptr_ty; - const LANES: usize = $elem_count; - type LanesType = [u32; $elem_count]; - } - - } -} - -impl_simd_ptr!([*const T; 2]: cptrx2 | T | T, T); -impl_simd_ptr!([*const T; 4]: cptrx4 | T | T, T, T, T); -impl_simd_ptr!([*const T; 8]: cptrx8 | T | T, T, T, T, T, T, T, T); - -impl_simd_ptr!([*mut T; 2]: mptrx2 | T | T, T); -impl_simd_ptr!([*mut T; 4]: mptrx4 | T | T, T, T, T); -impl_simd_ptr!([*mut T; 8]: mptrx8 | T | T, T, T, T, T, T, T, T); diff --git a/third_party/rust/packed_simd/src/codegen/vSize.rs b/third_party/rust/packed_simd/src/codegen/vSize.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/codegen/vSize.rs +++ /dev/null @@ -1,16 +0,0 @@ -//! Vector types with pointer-sized elements - -use crate::codegen::pointer_sized_int::{isize_, usize_}; -use crate::masks::*; - -impl_simd_array!([isize; 2]: isizex2 | isize_, isize_); -impl_simd_array!([usize; 2]: usizex2 | usize_, usize_); -impl_simd_array!([msize; 2]: msizex2 | isize_, isize_); - -impl_simd_array!([isize; 4]: isizex4 | isize_, isize_, isize_, isize_); -impl_simd_array!([usize; 4]: usizex4 | usize_, usize_, usize_, usize_); -impl_simd_array!([msize; 4]: msizex4 | isize_, isize_, isize_, isize_); - -impl_simd_array!([isize; 8]: isizex8 | isize_, isize_, isize_, isize_, isize_, isize_, isize_, isize_); -impl_simd_array!([usize; 8]: usizex8 | usize_, usize_, usize_, usize_, usize_, usize_, usize_, usize_); -impl_simd_array!([msize; 8]: msizex8 | isize_, isize_, isize_, isize_, isize_, isize_, isize_, isize_); diff --git a/third_party/rust/packed_simd/src/lib.rs b/third_party/rust/packed_simd/src/lib.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/lib.rs +++ /dev/null @@ -1,348 +0,0 @@ -//! # Portable packed SIMD vectors -//! -//! This crate is proposed for stabilization as `std::packed_simd` in [RFC2366: -//! `std::simd`](https://github.com/rust-lang/rfcs/pull/2366) . -//! -//! The examples available in the -//! [`examples/`](https://github.com/rust-lang-nursery/packed_simd/tree/master/examples) -//! sub-directory of the crate showcase how to use the library in practice. -//! -//! ## Table of contents -//! -//! - [Introduction](#introduction) -//! - [Vector types](#vector-types) -//! - [Conditional operations](#conditional-operations) -//! - [Conversions](#conversions) -//! - [Hardware Features](#hardware-features) -//! - [Performance guide](https://rust-lang-nursery.github.io/packed_simd/perf-guide/) -//! -//! ## Introduction -//! -//! This crate exports [`Simd<[T; N]>`][`Simd`]: a packed vector of `N` -//! elements of type `T` as well as many type aliases for this type: for -//! example, [`f32x4`], which is just an alias for `Simd<[f32; 4]>`. -//! -//! The operations on packed vectors are, by default, "vertical", that is, they -//! are applied to each vector lane in isolation of the others: -//! -//! ``` -//! # use packed_simd::*; -//! let a = i32x4::new(1, 2, 3, 4); -//! let b = i32x4::new(5, 6, 7, 8); -//! assert_eq!(a + b, i32x4::new(6, 8, 10, 12)); -//! ``` -//! -//! Many "horizontal" operations are also provided: -//! -//! ``` -//! # use packed_simd::*; -//! # let a = i32x4::new(1, 2, 3, 4); -//! assert_eq!(a.wrapping_sum(), 10); -//! ``` -//! -//! In virtually all architectures vertical operations are fast, while -//! horizontal operations are, by comparison, much slower. That is, the -//! most portably-efficient way of performing a reduction over a slice -//! is to collect the results into a vector using vertical operations, -//! and performing a single horizontal operation at the end: -//! -//! ``` -//! # use packed_simd::*; -//! fn reduce(x: &[i32]) -> i32 { -//! assert_eq!(x.len() % 4, 0); -//! let mut sum = i32x4::splat(0); // [0, 0, 0, 0] -//! for i in (0..x.len()).step_by(4) { -//! sum += i32x4::from_slice_unaligned(&x[i..]); -//! } -//! sum.wrapping_sum() -//! } -//! -//! let x = [0, 1, 2, 3, 4, 5, 6, 7]; -//! assert_eq!(reduce(&x), 28); -//! ``` -//! -//! ## Vector types -//! -//! The vector type aliases are named according to the following scheme: -//! -//! > `{element_type}x{number_of_lanes} == Simd<[element_type; -//! number_of_lanes]>` -//! -//! where the following element types are supported: -//! -//! * `i{element_width}`: signed integer -//! * `u{element_width}`: unsigned integer -//! * `f{element_width}`: float -//! * `m{element_width}`: mask (see below) -//! * `*{const,mut} T`: `const` and `mut` pointers -//! -//! ## Basic operations -//! -//! ``` -//! # use packed_simd::*; -//! // Sets all elements to `0`: -//! let a = i32x4::splat(0); -//! -//! // Reads a vector from a slice: -//! let mut arr = [0, 0, 0, 1, 2, 3, 4, 5]; -//! let b = i32x4::from_slice_unaligned(&arr); -//! -//! // Reads the 4-th element of a vector: -//! assert_eq!(b.extract(3), 1); -//! -//! // Returns a new vector where the 4-th element is replaced with `1`: -//! let a = a.replace(3, 1); -//! assert_eq!(a, b); -//! -//! // Writes a vector to a slice: -//! let a = a.replace(2, 1); -//! a.write_to_slice_unaligned(&mut arr[4..]); -//! assert_eq!(arr, [0, 0, 0, 1, 0, 0, 1, 1]); -//! ``` -//! -//! ## Conditional operations -//! -//! One often needs to perform an operation on some lanes of the vector. Vector -//! masks, like `m32x4`, allow selecting on which vector lanes an operation is -//! to be performed: -//! -//! ``` -//! # use packed_simd::*; -//! let a = i32x4::new(1, 1, 2, 2); -//! -//! // Add `1` to the first two lanes of the vector. -//! let m = m16x4::new(true, true, false, false); -//! let a = m.select(a + 1, a); -//! assert_eq!(a, i32x4::splat(2)); -//! ``` -//! -//! The elements of a vector mask are either `true` or `false`. Here `true` -//! means that a lane is "selected", while `false` means that a lane is not -//! selected. -//! -//! All vector masks implement a `mask.select(a: T, b: T) -> T` method that -//! works on all vectors that have the same number of lanes as the mask. The -//! resulting vector contains the elements of `a` for those lanes for which the -//! mask is `true`, and the elements of `b` otherwise. -//! -//! The example constructs a mask with the first two lanes set to `true` and -//! the last two lanes set to `false`. This selects the first two lanes of `a + -//! 1` and the last two lanes of `a`, producing a vector where the first two -//! lanes have been incremented by `1`. -//! -//! > note: mask `select` can be used on vector types that have the same number -//! > of lanes as the mask. The example shows this by using [`m16x4`] instead -//! > of [`m32x4`]. It is _typically_ more performant to use a mask element -//! > width equal to the element width of the vectors being operated upon. -//! > This is, however, not true for 512-bit wide vectors when targeting -//! > AVX-512, where the most efficient masks use only 1-bit per element. -//! -//! All vertical comparison operations returns masks: -//! -//! ``` -//! # use packed_simd::*; -//! let a = i32x4::new(1, 1, 3, 3); -//! let b = i32x4::new(2, 2, 0, 0); -//! -//! // ge: >= (Greater Eequal; see also lt, le, gt, eq, ne). -//! let m = a.ge(i32x4::splat(2)); -//! -//! if m.any() { -//! // all / any / none allow coherent control flow -//! let d = m.select(a, b); -//! assert_eq!(d, i32x4::new(2, 2, 3, 3)); -//! } -//! ``` -//! -//! ## Conversions -//! -//! * **lossless widening conversions**: [`From`]/[`Into`] are implemented for -//! vectors with the same number of lanes when the conversion is value -//! preserving (same as in `std`). -//! -//! * **safe bitwise conversions**: The cargo feature `into_bits` provides the -//! `IntoBits/FromBits` traits (`x.into_bits()`). These perform safe bitwise -//! `transmute`s when all bit patterns of the source type are valid bit -//! patterns of the target type and are also implemented for the -//! architecture-specific vector types of `std::arch`. For example, `let x: -//! u8x8 = m8x8::splat(true).into_bits();` is provided because all `m8x8` bit -//! patterns are valid `u8x8` bit patterns. However, the opposite is not -//! true, not all `u8x8` bit patterns are valid `m8x8` bit-patterns, so this -//! operation cannot be performed safely using `x.into_bits()`; one needs to -//! use `unsafe { crate::mem::transmute(x) }` for that, making sure that the -//! value in the `u8x8` is a valid bit-pattern of `m8x8`. -//! -//! * **numeric casts** (`as`): are performed using [`FromCast`]/[`Cast`] -//! (`x.cast()`), just like `as`: -//! -//! * casting integer vectors whose lane types have the same size (e.g. -//! `i32xN` -> `u32xN`) is a **no-op**, -//! -//! * casting from a larger integer to a smaller integer (e.g. `u32xN` -> -//! `u8xN`) will **truncate**, -//! -//! * casting from a smaller integer to a larger integer (e.g. `u8xN` -> -//! `u32xN`) will: -//! * **zero-extend** if the source is unsigned, or -//! * **sign-extend** if the source is signed, -//! -//! * casting from a float to an integer will **round the float towards -//! zero**, -//! -//! * casting from an integer to float will produce the floating point -//! representation of the integer, **rounding to nearest, ties to even**, -//! -//! * casting from an `f32` to an `f64` is perfect and lossless, -//! -//! * casting from an `f64` to an `f32` **rounds to nearest, ties to even**. -//! -//! Numeric casts are not very "precise": sometimes lossy, sometimes value -//! preserving, etc. -//! -//! ## Hardware Features -//! -//! This crate can use different hardware features based on your configured -//! `RUSTFLAGS`. For example, with no configured `RUSTFLAGS`, `u64x8` on -//! x86_64 will use SSE2 operations like `PCMPEQD`. If you configure -//! `RUSTFLAGS='-C target-feature=+avx2,+avx'` on supported x86_64 hardware -//! the same `u64x8` may use wider AVX2 operations like `VPCMPEQQ`. It is -//! important for performance and for hardware support requirements that -//! you choose an appropriate set of `target-feature` and `target-cpu` -//! options during builds. For more information, see the [Performance -//! guide](https://rust-lang-nursery.github.io/packed_simd/perf-guide/) - -#![feature( - adt_const_params, - repr_simd, - rustc_attrs, - platform_intrinsics, - stdsimd, - arm_target_feature, - link_llvm_intrinsics, - core_intrinsics, - stmt_expr_attributes, - custom_inner_attributes, -)] -#![allow(non_camel_case_types, non_snake_case, - // FIXME: these types are unsound in C FFI already - // See https://github.com/rust-lang/rust/issues/53346 - improper_ctypes_definitions, - incomplete_features, - clippy::cast_possible_truncation, - clippy::cast_lossless, - clippy::cast_possible_wrap, - clippy::cast_precision_loss, - // TODO: manually add the `#[must_use]` attribute where appropriate - clippy::must_use_candidate, - // This lint is currently broken for generic code - // See https://github.com/rust-lang/rust-clippy/issues/3410 - clippy::use_self, - clippy::wrong_self_convention, - clippy::from_over_into, -)] -#![cfg_attr(test, feature(hashmap_internals))] -#![cfg_attr(doc_cfg, feature(doc_cfg))] -#![deny(rust_2018_idioms, clippy::missing_inline_in_public_items)] -#![no_std] - -use cfg_if::cfg_if; - -cfg_if! { - if #[cfg(feature = "core_arch")] { - #[allow(unused_imports)] - use core_arch as arch; - } else { - #[allow(unused_imports)] - use core::arch; - } -} - -#[cfg(all(target_arch = "wasm32", test))] -use wasm_bindgen_test::*; - -#[allow(unused_imports)] -use core::{ - /* arch (handled above), */ cmp, f32, f64, fmt, hash, hint, i128, i16, i32, i64, i8, intrinsics, - isize, iter, marker, mem, ops, ptr, slice, u128, u16, u32, u64, u8, usize, -}; - -#[macro_use] -mod testing; -#[macro_use] -mod api; -mod codegen; -mod sealed; - -pub use crate::sealed::{Mask, Shuffle, Simd as SimdVector, SimdArray}; - -/// Packed SIMD vector type. -/// -/// # Examples -/// -/// ``` -/// # use packed_simd::Simd; -/// let v = Simd::<[i32; 4]>::new(0, 1, 2, 3); -/// assert_eq!(v.extract(2), 2); -/// ``` -#[repr(transparent)] -#[derive(Copy, Clone)] -pub struct Simd<A: sealed::SimdArray>( - // FIXME: this type should be private, - // but it currently must be public for the - // `shuffle!` macro to work: it needs to - // access the internal `repr(simd)` type - // to call the shuffle intrinsics. - #[doc(hidden)] pub <A as sealed::SimdArray>::Tuple, -); - -impl<A: sealed::SimdArray> sealed::Seal for Simd<A> {} - -/// Wrapper over `T` implementing a lexicoraphical order via the `PartialOrd` -/// and/or `Ord` traits. -#[repr(transparent)] -#[derive(Copy, Clone, Debug)] -#[allow(clippy::missing_inline_in_public_items)] -pub struct LexicographicallyOrdered<T>(T); - -mod masks; -pub use self::masks::*; - -mod v16; -pub use self::v16::*; - -mod v32; -pub use self::v32::*; - -mod v64; -pub use self::v64::*; - -mod v128; -pub use self::v128::*; - -mod v256; -pub use self::v256::*; - -mod v512; -pub use self::v512::*; - -mod vSize; -pub use self::vSize::*; - -mod vPtr; -pub use self::vPtr::*; - -pub use self::api::cast::*; - -#[cfg(feature = "into_bits")] -pub use self::api::into_bits::*; - -// Re-export the shuffle intrinsics required by the `shuffle!` macro. -#[doc(hidden)] -pub use self::codegen::llvm::{ - __shuffle_vector16, __shuffle_vector2, __shuffle_vector32, __shuffle_vector4, __shuffle_vector64, - __shuffle_vector8, -}; - -pub(crate) mod llvm { - pub(crate) use crate::codegen::llvm::*; -} diff --git a/third_party/rust/packed_simd/src/masks.rs b/third_party/rust/packed_simd/src/masks.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/masks.rs +++ /dev/null @@ -1,126 +0,0 @@ -//! Mask types - -macro_rules! impl_mask_ty { - ($id:ident : $elem_ty:ident | #[$doc:meta]) => { - #[$doc] - #[derive(Copy, Clone)] - pub struct $id($elem_ty); - - impl crate::sealed::Seal for $id {} - impl crate::sealed::Mask for $id { - #[inline] - fn test(&self) -> bool { - $id::test(self) - } - } - - impl $id { - /// Instantiate a mask with `value` - #[inline] - pub fn new(x: bool) -> Self { - if x { - $id(!0) - } else { - $id(0) - } - } - /// Test if the mask is set - #[inline] - pub fn test(&self) -> bool { - self.0 != 0 - } - } - - impl Default for $id { - #[inline] - fn default() -> Self { - $id(0) - } - } - - #[allow(clippy::partialeq_ne_impl)] - impl PartialEq<$id> for $id { - #[inline] - fn eq(&self, other: &Self) -> bool { - self.0 == other.0 - } - #[inline] - fn ne(&self, other: &Self) -> bool { - self.0 != other.0 - } - } - - impl Eq for $id {} - - impl PartialOrd<$id> for $id { - #[inline] - fn partial_cmp(&self, other: &Self) -> Option<crate::cmp::Ordering> { - use crate::cmp::Ordering; - if self == other { - Some(Ordering::Equal) - } else if self.0 > other.0 { - // Note: - // * false = 0_i - // * true == !0_i == -1_i - Some(Ordering::Less) - } else { - Some(Ordering::Greater) - } - } - - #[inline] - fn lt(&self, other: &Self) -> bool { - self.0 > other.0 - } - #[inline] - fn gt(&self, other: &Self) -> bool { - self.0 < other.0 - } - #[inline] - fn le(&self, other: &Self) -> bool { - self.0 >= other.0 - } - #[inline] - fn ge(&self, other: &Self) -> bool { - self.0 <= other.0 - } - } - - impl Ord for $id { - #[inline] - fn cmp(&self, other: &Self) -> crate::cmp::Ordering { - match self.partial_cmp(other) { - Some(x) => x, - None => unsafe { crate::hint::unreachable_unchecked() }, - } - } - } - - impl crate::hash::Hash for $id { - #[inline] - fn hash<H: crate::hash::Hasher>(&self, state: &mut H) { - (self.0 != 0).hash(state); - } - } - - impl crate::fmt::Debug for $id { - #[inline] - fn fmt(&self, fmtter: &mut crate::fmt::Formatter<'_>) -> Result<(), crate::fmt::Error> { - write!(fmtter, "{}({})", stringify!($id), self.0 != 0) - } - } - }; -} - -impl_mask_ty!(m8: i8 | /// 8-bit wide mask. -); -impl_mask_ty!(m16: i16 | /// 16-bit wide mask. -); -impl_mask_ty!(m32: i32 | /// 32-bit wide mask. -); -impl_mask_ty!(m64: i64 | /// 64-bit wide mask. -); -impl_mask_ty!(m128: i128 | /// 128-bit wide mask. -); -impl_mask_ty!(msize: isize | /// isize-wide mask. -); diff --git a/third_party/rust/packed_simd/src/sealed.rs b/third_party/rust/packed_simd/src/sealed.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/sealed.rs +++ /dev/null @@ -1,42 +0,0 @@ -//! Sealed traits - -/// A sealed trait, this is logically private to the crate -/// and will prevent implementations from outside the crate -pub trait Seal<T = ()> {} - -/// Trait implemented by arrays that can be SIMD types. -pub trait SimdArray: Seal { - /// The type of the #[repr(simd)] type. - type Tuple: Copy + Clone; - /// The element type of the vector. - type T; - /// The number of elements in the array. - const N: usize; - /// The type: `[u32; Self::N]`. - type NT; -} - -/// This traits is used to constraint the arguments -/// and result type of the portable shuffles. -#[doc(hidden)] -pub trait Shuffle<Lanes>: Seal<Lanes> { - // Lanes is a `[u32; N]` where `N` is the number of vector lanes - - /// The result type of the shuffle. - type Output; -} - -/// This trait is implemented by all SIMD vector types. -pub trait Simd: Seal { - /// Element type of the SIMD vector - type Element; - /// The number of elements in the SIMD vector. - const LANES: usize; - /// The type: `[u32; Self::N]`. - type LanesType; -} - -/// This trait is implemented by all mask types -pub trait Mask: Seal { - fn test(&self) -> bool; -} diff --git a/third_party/rust/packed_simd/src/testing.rs b/third_party/rust/packed_simd/src/testing.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/testing.rs +++ /dev/null @@ -1,8 +0,0 @@ -//! Testing macros and other utilities. - -#[macro_use] -mod macros; - -#[cfg(test)] -#[macro_use] -pub(crate) mod utils; diff --git a/third_party/rust/packed_simd/src/testing/macros.rs b/third_party/rust/packed_simd/src/testing/macros.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/testing/macros.rs +++ /dev/null @@ -1,44 +0,0 @@ -//! Testing macros - -macro_rules! test_if { - ($cfg_tt:tt: $it:item) => { - #[cfg(any( - // Test everything if: - // - // * tests are enabled, - // * no features about exclusively testing - // specific vector classes are enabled - all(test, not(any( - test_v16, - test_v32, - test_v64, - test_v128, - test_v256, - test_v512, - test_none, // disables all tests - ))), - // Test if: - // - // * tests are enabled - // * a particular cfg token tree returns true - all(test, $cfg_tt), - ))] - $it - }; -} - -#[cfg(test)] -#[allow(unused)] -macro_rules! ref_ { - ($anything:tt) => { - &$anything - }; -} - -#[cfg(test)] -#[allow(unused)] -macro_rules! ref_mut_ { - ($anything:tt) => { - &mut $anything - }; -} diff --git a/third_party/rust/packed_simd/src/testing/utils.rs b/third_party/rust/packed_simd/src/testing/utils.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/testing/utils.rs +++ /dev/null @@ -1,130 +0,0 @@ -//! Testing utilities - -#![allow(dead_code)] -// FIXME: Or don't. But it's true this is a problematic comparison. -#![allow(clippy::neg_cmp_op_on_partial_ord)] - -use crate::{cmp::PartialOrd, fmt::Debug, LexicographicallyOrdered}; - -/// Tests PartialOrd for `a` and `b` where `a < b` is true. -pub fn test_lt<T>(a: LexicographicallyOrdered<T>, b: LexicographicallyOrdered<T>) -where - LexicographicallyOrdered<T>: Debug + PartialOrd, -{ - assert!(a < b, "{:?}, {:?}", a, b); - assert!(b > a, "{:?}, {:?}", a, b); - - assert!(!(a == b), "{:?}, {:?}", a, b); - assert_ne!(a, b, "{:?}, {:?}", a, b); - - assert!(a <= b, "{:?}, {:?}", a, b); - assert!(b >= a, "{:?}, {:?}", a, b); - - // The elegance of the mathematical expression of irreflexivity is more - // than clippy can handle. - #[allow(clippy::eq_op)] - { - // Irreflexivity - assert!(!(a < a), "{:?}, {:?}", a, b); - assert!(!(b < b), "{:?}, {:?}", a, b); - assert!(!(a > a), "{:?}, {:?}", a, b); - assert!(!(b > b), "{:?}, {:?}", a, b); - - assert!(a <= a, "{:?}, {:?}", a, b); - assert!(b <= b, "{:?}, {:?}", a, b); - } -} - -/// Tests PartialOrd for `a` and `b` where `a <= b` is true. -pub fn test_le<T>(a: LexicographicallyOrdered<T>, b: LexicographicallyOrdered<T>) -where - LexicographicallyOrdered<T>: Debug + PartialOrd, -{ - assert!(a <= b, "{:?}, {:?}", a, b); - assert!(b >= a, "{:?}, {:?}", a, b); - - assert!(a <= b, "{:?}, {:?}", a, b); - assert!(b >= a, "{:?}, {:?}", a, b); - - if a == b { - assert!(!(a < b), "{:?}, {:?}", a, b); - assert!(!(b > a), "{:?}, {:?}", a, b); - - assert!(!(a != b), "{:?}, {:?}", a, b); - } else { - assert_ne!(a, b, "{:?}, {:?}", a, b); - test_lt(a, b); - } -} - -/// Test PartialOrd::partial_cmp for `a` and `b` returning `Ordering` -pub fn test_cmp<T>( - a: LexicographicallyOrdered<T>, - b: LexicographicallyOrdered<T>, - o: Option<crate::cmp::Ordering>, -) where - LexicographicallyOrdered<T>: PartialOrd + Debug, - T: Debug + crate::sealed::Simd + Copy + Clone, - <T as crate::sealed::Simd>::Element: Default + Copy + Clone + PartialOrd, -{ - assert!(T::LANES <= 64, "array length in these two arrays needs updating"); - let mut arr_a: [T::Element; 64] = [Default::default(); 64]; - let mut arr_b: [T::Element; 64] = [Default::default(); 64]; - - unsafe { crate::ptr::write_unaligned(arr_a.as_mut_ptr() as *mut LexicographicallyOrdered<T>, a) } - unsafe { crate::ptr::write_unaligned(arr_b.as_mut_ptr() as *mut LexicographicallyOrdered<T>, b) } - let expected = arr_a[0..T::LANES].partial_cmp(&arr_b[0..T::LANES]); - let result = a.partial_cmp(&b); - assert_eq!(expected, result, "{:?}, {:?}", a, b); - assert_eq!(o, result, "{:?}, {:?}", a, b); - match o { - Some(crate::cmp::Ordering::Less) => { - test_lt(a, b); - test_le(a, b); - } - Some(crate::cmp::Ordering::Greater) => { - test_lt(b, a); - test_le(b, a); - } - Some(crate::cmp::Ordering::Equal) => { - assert!(a == b, "{:?}, {:?}", a, b); - assert!(!(a != b), "{:?}, {:?}", a, b); - assert!(!(a < b), "{:?}, {:?}", a, b); - assert!(!(b < a), "{:?}, {:?}", a, b); - assert!(!(a > b), "{:?}, {:?}", a, b); - assert!(!(b > a), "{:?}, {:?}", a, b); - - test_le(a, b); - test_le(b, a); - } - None => { - assert!(!(a == b), "{:?}, {:?}", a, b); - assert!(!(a != b), "{:?}, {:?}", a, b); - assert!(!(a < b), "{:?}, {:?}", a, b); - assert!(!(a > b), "{:?}, {:?}", a, b); - assert!(!(b < a), "{:?}, {:?}", a, b); - assert!(!(b > a), "{:?}, {:?}", a, b); - assert!(!(a <= b), "{:?}, {:?}", a, b); - assert!(!(b <= a), "{:?}, {:?}", a, b); - assert!(!(a >= b), "{:?}, {:?}", a, b); - assert!(!(b >= a), "{:?}, {:?}", a, b); - } - } -} - -// Returns a tuple containing two distinct pointer values of the same type as -// the element type of the Simd vector `$id`. -#[allow(unused)] -macro_rules! ptr_vals { - ($id:ty) => { - // expands to an expression - #[allow(unused_unsafe)] - unsafe { - // all bits cleared - let clear: <$id as sealed::Simd>::Element = crate::mem::zeroed(); - // all bits set - let set: <$id as sealed::Simd>::Element = crate::mem::transmute(-1_isize); - (clear, set) - } - }; -} diff --git a/third_party/rust/packed_simd/src/v128.rs b/third_party/rust/packed_simd/src/v128.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/v128.rs +++ /dev/null @@ -1,80 +0,0 @@ -//! 128-bit wide vector types -#[rustfmt::skip] - -use crate::*; - -impl_i!([i8; 16]: i8x16, m8x16 | i8, u16 | test_v128 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: | - /// A 128-bit vector with 16 `i8` lanes. -); -impl_u!([u8; 16]: u8x16, m8x16 | u8, u16 | test_v128 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: | - /// A 128-bit vector with 16 `u8` lanes. -); -impl_m!([m8; 16]: m8x16 | i8, u16 | test_v128 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: m16x16 | - /// A 128-bit vector mask with 16 `m8` lanes. -); - -impl_i!([i16; 8]: i16x8, m16x8 | i16, u8 | test_v128 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: i8x8, u8x8 | - /// A 128-bit vector with 8 `i16` lanes. -); -impl_u!([u16; 8]: u16x8, m16x8 | u16, u8 | test_v128 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: u8x8 | - /// A 128-bit vector with 8 `u16` lanes. -); -impl_m!([m16; 8]: m16x8 | i16, u8 | test_v128 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: m8x8, m32x8 | - /// A 128-bit vector mask with 8 `m16` lanes. -); - -impl_i!([i32; 4]: i32x4, m32x4 | i32, u8 | test_v128 | x0, x1, x2, x3 | - From: i8x4, u8x4, i16x4, u16x4 | - /// A 128-bit vector with 4 `i32` lanes. -); -impl_u!([u32; 4]: u32x4, m32x4 | u32, u8 | test_v128 | x0, x1, x2, x3 | - From: u8x4, u16x4 | - /// A 128-bit vector with 4 `u32` lanes. -); -impl_f!([f32; 4]: f32x4, m32x4 | f32 | test_v128 | x0, x1, x2, x3 | - From: i8x4, u8x4, i16x4, u16x4 | - /// A 128-bit vector with 4 `f32` lanes. -); -impl_m!([m32; 4]: m32x4 | i32, u8 | test_v128 | x0, x1, x2, x3 | - From: m8x4, m16x4, m64x4 | - /// A 128-bit vector mask with 4 `m32` lanes. -); - -impl_i!([i64; 2]: i64x2, m64x2 | i64, u8 | test_v128 | x0, x1 | - From: i8x2, u8x2, i16x2, u16x2, i32x2, u32x2 | - /// A 128-bit vector with 2 `i64` lanes. -); -impl_u!([u64; 2]: u64x2, m64x2 | u64, u8 | test_v128 | x0, x1 | - From: u8x2, u16x2, u32x2 | - /// A 128-bit vector with 2 `u64` lanes. -); -impl_f!([f64; 2]: f64x2, m64x2 | f64 | test_v128 | x0, x1 | - From: i8x2, u8x2, i16x2, u16x2, i32x2, u32x2, f32x2 | - /// A 128-bit vector with 2 `f64` lanes. -); -impl_m!([m64; 2]: m64x2 | i64, u8 | test_v128 | x0, x1 | - From: m8x2, m16x2, m32x2, m128x2 | - /// A 128-bit vector mask with 2 `m64` lanes. -); - -impl_i!([i128; 1]: i128x1, m128x1 | i128, u8 | test_v128 | x0 | - From: /*i8x1, u8x1, i16x1, u16x1, i32x1, u32x1, i64x1, u64x1 */ | // FIXME: unary small vector types - /// A 128-bit vector with 1 `i128` lane. -); -impl_u!([u128; 1]: u128x1, m128x1 | u128, u8 | test_v128 | x0 | - From: /*u8x1, u16x1, u32x1, u64x1 */ | // FIXME: unary small vector types - /// A 128-bit vector with 1 `u128` lane. -); -impl_m!([m128; 1]: m128x1 | i128, u8 | test_v128 | x0 | - From: /*m8x1, m16x1, m32x1, m64x1 */ | // FIXME: unary small vector types - /// A 128-bit vector mask with 1 `m128` lane. -); diff --git a/third_party/rust/packed_simd/src/v16.rs b/third_party/rust/packed_simd/src/v16.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/v16.rs +++ /dev/null @@ -1,16 +0,0 @@ -//! 16-bit wide vector types - -use crate::*; - -impl_i!([i8; 2]: i8x2, m8x2 | i8, u8 | test_v16 | x0, x1 | - From: | - /// A 16-bit vector with 2 `i8` lanes. -); -impl_u!([u8; 2]: u8x2, m8x2 | u8, u8 | test_v16 | x0, x1 | - From: | - /// A 16-bit vector with 2 `u8` lanes. -); -impl_m!([m8; 2]: m8x2 | i8, u8 | test_v16 | x0, x1 | - From: m16x2, m32x2, m64x2, m128x2 | - /// A 16-bit vector mask with 2 `m8` lanes. -); diff --git a/third_party/rust/packed_simd/src/v256.rs b/third_party/rust/packed_simd/src/v256.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/v256.rs +++ /dev/null @@ -1,86 +0,0 @@ -//! 256-bit wide vector types -#[rustfmt::skip] - -use crate::*; - -impl_i!([i8; 32]: i8x32, m8x32 | i8, u32 | test_v256 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31 | - From: | - /// A 256-bit vector with 32 `i8` lanes. -); -impl_u!([u8; 32]: u8x32, m8x32 | u8, u32 | test_v256 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31 | - From: | - /// A 256-bit vector with 32 `u8` lanes. -); -impl_m!([m8; 32]: m8x32 | i8, u32 | test_v256 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31 | - From: | - /// A 256-bit vector mask with 32 `m8` lanes. -); - -impl_i!([i16; 16]: i16x16, m16x16 | i16, u16 | test_v256 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: i8x16, u8x16 | - /// A 256-bit vector with 16 `i16` lanes. -); -impl_u!([u16; 16]: u16x16, m16x16 | u16, u16 | test_v256 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: u8x16 | - /// A 256-bit vector with 16 `u16` lanes. -); -impl_m!([m16; 16]: m16x16 | i16, u16 | test_v256 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: m8x16 | - /// A 256-bit vector mask with 16 `m16` lanes. -); - -impl_i!([i32; 8]: i32x8, m32x8 | i32, u8 | test_v256 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: i8x8, u8x8, i16x8, u16x8 | - /// A 256-bit vector with 8 `i32` lanes. -); -impl_u!([u32; 8]: u32x8, m32x8 | u32, u8 | test_v256 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: u8x8, u16x8 | - /// A 256-bit vector with 8 `u32` lanes. -); -impl_f!([f32; 8]: f32x8, m32x8 | f32 | test_v256 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: i8x8, u8x8, i16x8, u16x8 | - /// A 256-bit vector with 8 `f32` lanes. -); -impl_m!([m32; 8]: m32x8 | i32, u8 | test_v256 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: m8x8, m16x8 | - /// A 256-bit vector mask with 8 `m32` lanes. -); - -impl_i!([i64; 4]: i64x4, m64x4 | i64, u8 | test_v256 | x0, x1, x2, x3 | - From: i8x4, u8x4, i16x4, u16x4, i32x4, u32x4 | - /// A 256-bit vector with 4 `i64` lanes. -); -impl_u!([u64; 4]: u64x4, m64x4 | u64, u8 | test_v256 | x0, x1, x2, x3 | - From: u8x4, u16x4, u32x4 | - /// A 256-bit vector with 4 `u64` lanes. -); -impl_f!([f64; 4]: f64x4, m64x4 | f64 | test_v256 | x0, x1, x2, x3 | - From: i8x4, u8x4, i16x4, u16x4, i32x4, u32x4, f32x4 | - /// A 256-bit vector with 4 `f64` lanes. -); -impl_m!([m64; 4]: m64x4 | i64, u8 | test_v256 | x0, x1, x2, x3 | - From: m8x4, m16x4, m32x4 | - /// A 256-bit vector mask with 4 `m64` lanes. -); - -impl_i!([i128; 2]: i128x2, m128x2 | i128, u8 | test_v256 | x0, x1 | - From: i8x2, u8x2, i16x2, u16x2, i32x2, u32x2, i64x2, u64x2 | - /// A 256-bit vector with 2 `i128` lanes. -); -impl_u!([u128; 2]: u128x2, m128x2 | u128, u8 | test_v256 | x0, x1 | - From: u8x2, u16x2, u32x2, u64x2 | - /// A 256-bit vector with 2 `u128` lanes. -); -impl_m!([m128; 2]: m128x2 | i128, u8 | test_v256 | x0, x1 | - From: m8x2, m16x2, m32x2, m64x2 | - /// A 256-bit vector mask with 2 `m128` lanes. -); diff --git a/third_party/rust/packed_simd/src/v32.rs b/third_party/rust/packed_simd/src/v32.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/v32.rs +++ /dev/null @@ -1,29 +0,0 @@ -//! 32-bit wide vector types - -use crate::*; - -impl_i!([i8; 4]: i8x4, m8x4 | i8, u8 | test_v32 | x0, x1, x2, x3 | - From: | - /// A 32-bit vector with 4 `i8` lanes. -); -impl_u!([u8; 4]: u8x4, m8x4 | u8, u8 | test_v32 | x0, x1, x2, x3 | - From: | - /// A 32-bit vector with 4 `u8` lanes. -); -impl_m!([m8; 4]: m8x4 | i8, u8 | test_v32 | x0, x1, x2, x3 | - From: m16x4, m32x4, m64x4 | - /// A 32-bit vector mask with 4 `m8` lanes. -); - -impl_i!([i16; 2]: i16x2, m16x2 | i16, u8 | test_v32 | x0, x1 | - From: i8x2, u8x2 | - /// A 32-bit vector with 2 `i16` lanes. -); -impl_u!([u16; 2]: u16x2, m16x2 | u16, u8 | test_v32 | x0, x1 | - From: u8x2 | - /// A 32-bit vector with 2 `u16` lanes. -); -impl_m!([m16; 2]: m16x2 | i16, u8 | test_v32 | x0, x1 | - From: m8x2, m32x2, m64x2, m128x2 | - /// A 32-bit vector mask with 2 `m16` lanes. -); diff --git a/third_party/rust/packed_simd/src/v512.rs b/third_party/rust/packed_simd/src/v512.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/v512.rs +++ /dev/null @@ -1,99 +0,0 @@ -//! 512-bit wide vector types -#[rustfmt::skip] - -use crate::*; - -impl_i!([i8; 64]: i8x64, m8x64 | i8, u64 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31, - x32, x33, x34, x35, x36, x37, x38, x39, x40, x41, x42, x43, x44, x45, x46, x47, - x48, x49, x50, x51, x52, x53, x54, x55, x56, x57, x58, x59, x60, x61, x62, x63 | - From: | - /// A 512-bit vector with 64 `i8` lanes. -); -impl_u!([u8; 64]: u8x64, m8x64 | u8, u64 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31, - x32, x33, x34, x35, x36, x37, x38, x39, x40, x41, x42, x43, x44, x45, x46, x47, - x48, x49, x50, x51, x52, x53, x54, x55, x56, x57, x58, x59, x60, x61, x62, x63 | - From: | - /// A 512-bit vector with 64 `u8` lanes. -); -impl_m!([m8; 64]: m8x64 | i8, u64 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31, - x32, x33, x34, x35, x36, x37, x38, x39, x40, x41, x42, x43, x44, x45, x46, x47, - x48, x49, x50, x51, x52, x53, x54, x55, x56, x57, x58, x59, x60, x61, x62, x63 | - From: | - /// A 512-bit vector mask with 64 `m8` lanes. -); - -impl_i!([i16; 32]: i16x32, m16x32 | i16, u32 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31 | - From: i8x32, u8x32 | - /// A 512-bit vector with 32 `i16` lanes. -); -impl_u!([u16; 32]: u16x32, m16x32 | u16, u32 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31 | - From: u8x32 | - /// A 512-bit vector with 32 `u16` lanes. -); -impl_m!([m16; 32]: m16x32 | i16, u32 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15, - x16, x17, x18, x19, x20, x21, x22, x23, x24, x25, x26, x27, x28, x29, x30, x31 | - From: m8x32 | - /// A 512-bit vector mask with 32 `m16` lanes. -); - -impl_i!([i32; 16]: i32x16, m32x16 | i32, u16 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: i8x16, u8x16, i16x16, u16x16 | - /// A 512-bit vector with 16 `i32` lanes. -); -impl_u!([u32; 16]: u32x16, m32x16 | u32, u16 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: u8x16, u16x16 | - /// A 512-bit vector with 16 `u32` lanes. -); -impl_f!([f32; 16]: f32x16, m32x16 | f32 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: i8x16, u8x16, i16x16, u16x16 | - /// A 512-bit vector with 16 `f32` lanes. -); -impl_m!([m32; 16]: m32x16 | i32, u16 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, x11, x12, x13, x14, x15 | - From: m8x16, m16x16 | - /// A 512-bit vector mask with 16 `m32` lanes. -); - -impl_i!([i64; 8]: i64x8, m64x8 | i64, u8 | test_v512 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: i8x8, u8x8, i16x8, u16x8, i32x8, u32x8 | - /// A 512-bit vector with 8 `i64` lanes. -); -impl_u!([u64; 8]: u64x8, m64x8 | u64, u8 | test_v512 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: u8x8, u16x8, u32x8 | - /// A 512-bit vector with 8 `u64` lanes. -); -impl_f!([f64; 8]: f64x8, m64x8 | f64 | test_v512 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: i8x8, u8x8, i16x8, u16x8, i32x8, u32x8, f32x8 | - /// A 512-bit vector with 8 `f64` lanes. -); -impl_m!([m64; 8]: m64x8 | i64, u8 | test_v512 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: m8x8, m16x8, m32x8 | - /// A 512-bit vector mask with 8 `m64` lanes. -); - -impl_i!([i128; 4]: i128x4, m128x4 | i128, u8 | test_v512 | x0, x1, x2, x3 | - From: i8x4, u8x4, i16x4, u16x4, i32x4, u32x4, i64x4, u64x4 | - /// A 512-bit vector with 4 `i128` lanes. -); -impl_u!([u128; 4]: u128x4, m128x4 | u128, u8 | test_v512 | x0, x1, x2, x3 | - From: u8x4, u16x4, u32x4, u64x4 | - /// A 512-bit vector with 4 `u128` lanes. -); -impl_m!([m128; 4]: m128x4 | i128, u8 | test_v512 | x0, x1, x2, x3 | - From: m8x4, m16x4, m32x4, m64x4 | - /// A 512-bit vector mask with 4 `m128` lanes. -); diff --git a/third_party/rust/packed_simd/src/v64.rs b/third_party/rust/packed_simd/src/v64.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/v64.rs +++ /dev/null @@ -1,66 +0,0 @@ -//! 64-bit wide vector types -#[rustfmt::skip] - -use super::*; - -impl_i!([i8; 8]: i8x8, m8x8 | i8, u8 | test_v64 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: | - /// A 64-bit vector with 8 `i8` lanes. -); -impl_u!([u8; 8]: u8x8, m8x8 | u8, u8 | test_v64 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: | - /// A 64-bit vector with 8 `u8` lanes. -); -impl_m!([m8; 8]: m8x8 | i8, u8 | test_v64 | x0, x1, x2, x3, x4, x5, x6, x7 | - From: m16x8, m32x8 | - /// A 64-bit vector mask with 8 `m8` lanes. -); - -impl_i!([i16; 4]: i16x4, m16x4 | i16, u8 | test_v64 | x0, x1, x2, x3 | - From: i8x4, u8x4 | - /// A 64-bit vector with 4 `i16` lanes. -); -impl_u!([u16; 4]: u16x4, m16x4 | u16, u8 | test_v64 | x0, x1, x2, x3 | - From: u8x4 | - /// A 64-bit vector with 4 `u16` lanes. -); -impl_m!([m16; 4]: m16x4 | i16, u8 | test_v64 | x0, x1, x2, x3 | - From: m8x4, m32x4, m64x4 | - /// A 64-bit vector mask with 4 `m16` lanes. -); - -impl_i!([i32; 2]: i32x2, m32x2 | i32, u8 | test_v64 | x0, x1 | - From: i8x2, u8x2, i16x2, u16x2 | - /// A 64-bit vector with 2 `i32` lanes. -); -impl_u!([u32; 2]: u32x2, m32x2 | u32, u8 | test_v64 | x0, x1 | - From: u8x2, u16x2 | - /// A 64-bit vector with 2 `u32` lanes. -); -impl_m!([m32; 2]: m32x2 | i32, u8 | test_v64 | x0, x1 | - From: m8x2, m16x2, m64x2, m128x2 | - /// A 64-bit vector mask with 2 `m32` lanes. -); -impl_f!([f32; 2]: f32x2, m32x2 | f32 | test_v64 | x0, x1 | - From: i8x2, u8x2, i16x2, u16x2 | - /// A 64-bit vector with 2 `f32` lanes. -); - -/* -impl_i!([i64; 1]: i64x1, m64x1 | i64, u8 | test_v64 | x0 | - From: /*i8x1, u8x1, i16x1, u16x1, i32x1, u32x1*/ | // FIXME: primitive to vector conversion - /// A 64-bit vector with 1 `i64` lanes. -); -impl_u!([u64; 1]: u64x1, m64x1 | u64, u8 | test_v64 | x0 | - From: /*u8x1, u16x1, u32x1*/ | // FIXME: primitive to vector conversion - /// A 64-bit vector with 1 `u64` lanes. -); -impl_m!([m64; 1]: m64x1 | i64, u8 | test_v64 | x0 | - From: /*m8x1, m16x1, m32x1, */ m128x1 | // FIXME: unary small vector types - /// A 64-bit vector mask with 1 `m64` lanes. -); -impl_f!([f64; 1]: f64x1, m64x1 | f64 | test_v64 | x0 | - From: /*i8x1, u8x1, i16x1, u16x1, i32x1, u32x1, f32x1*/ | // FIXME: unary small vector types - /// A 64-bit vector with 1 `f64` lanes. -); -*/ diff --git a/third_party/rust/packed_simd/src/vPtr.rs b/third_party/rust/packed_simd/src/vPtr.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/vPtr.rs +++ /dev/null @@ -1,34 +0,0 @@ -//! Vectors of pointers -#[rustfmt::skip] - -use crate::*; - -impl_const_p!( - [*const T; 2]: cptrx2, msizex2, usizex2, isizex2 | test_v128 | x0, x1 | From: | - /// A vector with 2 `*const T` lanes -); - -impl_mut_p!( - [*mut T; 2]: mptrx2, msizex2, usizex2, isizex2 | test_v128 | x0, x1 | From: | - /// A vector with 2 `*mut T` lanes -); - -impl_const_p!( - [*const T; 4]: cptrx4, msizex4, usizex4, isizex4 | test_v256 | x0, x1, x2, x3 | From: | - /// A vector with 4 `*const T` lanes -); - -impl_mut_p!( - [*mut T; 4]: mptrx4, msizex4, usizex4, isizex4 | test_v256 | x0, x1, x2, x3 | From: | - /// A vector with 4 `*mut T` lanes -); - -impl_const_p!( - [*const T; 8]: cptrx8, msizex8, usizex8, isizex8 | test_v512 | x0, x1, x2, x3, x4, x5, x6, x7 | From: | - /// A vector with 8 `*const T` lanes -); - -impl_mut_p!( - [*mut T; 8]: mptrx8, msizex8, usizex8, isizex8 | test_v512 | x0, x1, x2, x3, x4, x5, x6, x7 | From: | - /// A vector with 8 `*mut T` lanes -); diff --git a/third_party/rust/packed_simd/src/vSize.rs b/third_party/rust/packed_simd/src/vSize.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/src/vSize.rs +++ /dev/null @@ -1,53 +0,0 @@ -//! Vectors with pointer-sized elements - -use crate::codegen::pointer_sized_int::{isize_, usize_}; -use crate::*; - -impl_i!([isize; 2]: isizex2, msizex2 | isize_, u8 | test_v128 | - x0, x1| - From: | - /// A vector with 2 `isize` lanes. -); - -impl_u!([usize; 2]: usizex2, msizex2 | usize_, u8 | test_v128 | - x0, x1| - From: | - /// A vector with 2 `usize` lanes. -); -impl_m!([msize; 2]: msizex2 | isize_, u8 | test_v128 | - x0, x1 | - From: | - /// A vector mask with 2 `msize` lanes. -); - -impl_i!([isize; 4]: isizex4, msizex4 | isize_, u8 | test_v256 | - x0, x1, x2, x3 | - From: | - /// A vector with 4 `isize` lanes. -); -impl_u!([usize; 4]: usizex4, msizex4 | usize_, u8 | test_v256 | - x0, x1, x2, x3| - From: | - /// A vector with 4 `usize` lanes. -); -impl_m!([msize; 4]: msizex4 | isize_, u8 | test_v256 | - x0, x1, x2, x3 | - From: | - /// A vector mask with 4 `msize` lanes. -); - -impl_i!([isize; 8]: isizex8, msizex8 | isize_, u8 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7 | - From: | - /// A vector with 8 `isize` lanes. -); -impl_u!([usize; 8]: usizex8, msizex8 | usize_, u8 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7 | - From: | - /// A vector with 8 `usize` lanes. -); -impl_m!([msize; 8]: msizex8 | isize_, u8 | test_v512 | - x0, x1, x2, x3, x4, x5, x6, x7 | - From: | - /// A vector mask with 8 `msize` lanes. -); diff --git a/third_party/rust/packed_simd/tests/endianness.rs b/third_party/rust/packed_simd/tests/endianness.rs deleted file mode 100644 --- a/third_party/rust/packed_simd/tests/endianness.rs +++ /dev/null @@ -1,268 +0,0 @@ -#[cfg(target_arch = "wasm32")] -use wasm_bindgen_test::*; - -use packed_simd::*; -use std::{mem, slice}; - -#[cfg_attr(not(target_arch = "wasm32"), test)] -#[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] -fn endian_indexing() { - let v = i32x4::new(0, 1, 2, 3); - assert_eq!(v.extract(0), 0); - assert_eq!(v.extract(1), 1); - assert_eq!(v.extract(2), 2); - assert_eq!(v.extract(3), 3); -} - -#[cfg_attr(not(target_arch = "wasm32"), test)] -#[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] -fn endian_bitcasts() { - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let t: i16x8 = unsafe { mem::transmute(x) }; - let e: i16x8 = if cfg!(target_endian = "little") { - i16x8::new(256, 770, 1284, 1798, 2312, 2826, 3340, 3854) - } else { - i16x8::new(1, 515, 1029, 1543, 2057, 2571, 3085, 3599) - }; - assert_eq!(t, e); -} - -#[cfg_attr(not(target_arch = "wasm32"), test)] -#[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] -fn endian_casts() { - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let t: i16x16 = x.into(); // simd_cast - #[rustfmt::skip] - let e = i16x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - assert_eq!(t, e); -} - -#[cfg_attr(not(target_arch = "wasm32"), test)] -#[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] -fn endian_load_and_stores() { - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let mut y: [i16; 8] = [0; 8]; - x.write_to_slice_unaligned(unsafe { slice::from_raw_parts_mut(&mut y as *mut _ as *mut i8, 16) }); - - let e: [i16; 8] = if cfg!(target_endian = "little") { - [256, 770, 1284, 1798, 2312, 2826, 3340, 3854] - } else { - [1, 515, 1029, 1543, 2057, 2571, 3085, 3599] - }; - assert_eq!(y, e); - - let z = i8x16::from_slice_unaligned(unsafe { slice::from_raw_parts(&y as *const _ as *const i8, 16) }); - assert_eq!(z, x); -} - -#[cfg_attr(not(target_arch = "wasm32"), test)] -#[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] -fn endian_array_union() { - union A { - data: [f32; 4], - vec: f32x4, - } - let x: [f32; 4] = unsafe { A { vec: f32x4::new(0., 1., 2., 3.) }.data }; - // As all of these are integer values within the mantissa^1 range, it - // would be very unusual for them to actually fail to compare. - #[allow(clippy::float_cmp)] - { - assert_eq!(x[0], 0_f32); - assert_eq!(x[1], 1_f32); - assert_eq!(x[2], 2_f32); - assert_eq!(x[3], 3_f32); - } - let y: f32x4 = unsafe { A { data: [3., 2., 1., 0.] }.vec }; - assert_eq!(y, f32x4::new(3., 2., 1., 0.)); - - union B { - data: [i8; 16], - vec: i8x16, - } - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let x: [i8; 16] = unsafe { B { vec: x }.data }; - - for (i, v) in x.iter().enumerate() { - assert_eq!(i as i8, *v); - } - - #[rustfmt::skip] - let y = [ - 15, 14, 13, 12, 11, 19, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ]; - #[rustfmt::skip] - let e = i8x16::new( - 15, 14, 13, 12, 11, 19, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ); - let z = unsafe { B { data: y }.vec }; - assert_eq!(z, e); - - union C { - data: [i16; 8], - vec: i8x16, - } - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let x: [i16; 8] = unsafe { C { vec: x }.data }; - - let e: [i16; 8] = if cfg!(target_endian = "little") { - [256, 770, 1284, 1798, 2312, 2826, 3340, 3854] - } else { - [1, 515, 1029, 1543, 2057, 2571, 3085, 3599] - }; - assert_eq!(x, e); -} - -#[cfg_attr(not(target_arch = "wasm32"), test)] -#[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] -fn endian_tuple_access() { - type F32x4T = (f32, f32, f32, f32); - union A { - data: F32x4T, - vec: f32x4, - } - let x: F32x4T = unsafe { A { vec: f32x4::new(0., 1., 2., 3.) }.data }; - // As all of these are integer values within the mantissa^1 range, it - // would be very unusual for them to actually fail to compare. - #[allow(clippy::float_cmp)] - { - assert_eq!(x.0, 0_f32); - assert_eq!(x.1, 1_f32); - assert_eq!(x.2, 2_f32); - assert_eq!(x.3, 3_f32); - } - let y: f32x4 = unsafe { A { data: (3., 2., 1., 0.) }.vec }; - assert_eq!(y, f32x4::new(3., 2., 1., 0.)); - - #[rustfmt::skip] - type I8x16T = (i8, i8, i8, i8, i8, i8, i8, i8, i8, i8, i8, i8, i8, i8, i8, i8); - union B { - data: I8x16T, - vec: i8x16, - } - - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let x: I8x16T = unsafe { B { vec: x }.data }; - - assert_eq!(x.0, 0); - assert_eq!(x.1, 1); - assert_eq!(x.2, 2); - assert_eq!(x.3, 3); - assert_eq!(x.4, 4); - assert_eq!(x.5, 5); - assert_eq!(x.6, 6); - assert_eq!(x.7, 7); - assert_eq!(x.8, 8); - assert_eq!(x.9, 9); - assert_eq!(x.10, 10); - assert_eq!(x.11, 11); - assert_eq!(x.12, 12); - assert_eq!(x.13, 13); - assert_eq!(x.14, 14); - assert_eq!(x.15, 15); - - #[rustfmt::skip] - let y = ( - 15, 14, 13, 12, 11, 10, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ); - let z: i8x16 = unsafe { B { data: y }.vec }; - #[rustfmt::skip] - let e = i8x16::new( - 15, 14, 13, 12, 11, 10, 9, 8, - 7, 6, 5, 4, 3, 2, 1, 0 - ); - assert_eq!(e, z); - - #[rustfmt::skip] - type I16x8T = (i16, i16, i16, i16, i16, i16, i16, i16); - union C { - data: I16x8T, - vec: i8x16, - } - - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let x: I16x8T = unsafe { C { vec: x }.data }; - - let e: [i16; 8] = if cfg!(target_endian = "little") { - [256, 770, 1284, 1798, 2312, 2826, 3340, 3854] - } else { - [1, 515, 1029, 1543, 2057, 2571, 3085, 3599] - }; - assert_eq!(x.0, e[0]); - assert_eq!(x.1, e[1]); - assert_eq!(x.2, e[2]); - assert_eq!(x.3, e[3]); - assert_eq!(x.4, e[4]); - assert_eq!(x.5, e[5]); - assert_eq!(x.6, e[6]); - assert_eq!(x.7, e[7]); - - #[rustfmt::skip] - #[repr(C)] - #[derive(Copy ,Clone)] - pub struct Tup(pub i8, pub i8, pub i16, pub i8, pub i8, pub i16, - pub i8, pub i8, pub i16, pub i8, pub i8, pub i16); - - union D { - data: Tup, - vec: i8x16, - } - - #[rustfmt::skip] - let x = i8x16::new( - 0, 1, 2, 3, 4, 5, 6, 7, - 8, 9, 10, 11, 12, 13, 14, 15, - ); - let x: Tup = unsafe { D { vec: x }.data }; - - let e: [i16; 12] = if cfg!(target_endian = "little") { - [0, 1, 770, 4, 5, 1798, 8, 9, 2826, 12, 13, 3854] - } else { - [0, 1, 515, 4, 5, 1543, 8, 9, 2571, 12, 13, 3599] - }; - assert_eq!(x.0 as i16, e[0]); - assert_eq!(x.1 as i16, e[1]); - assert_eq!(x.2 as i16, e[2]); - assert_eq!(x.3 as i16, e[3]); - assert_eq!(x.4 as i16, e[4]); - assert_eq!(x.5 as i16, e[5]); - assert_eq!(x.6 as i16, e[6]); - assert_eq!(x.7 as i16, e[7]); - assert_eq!(x.8 as i16, e[8]); - assert_eq!(x.9 as i16, e[9]); - assert_eq!(x.10 as i16, e[10]); - assert_eq!(x.11 as i16, e[11]); -} diff --git a/third_party/rust/version_check/.cargo-checksum.json b/third_party/rust/version_check/.cargo-checksum.json new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/.cargo-checksum.json @@ -0,0 +1,1 @@ +{"files":{"Cargo.toml":"f25d88044914cb3466df43bc39a199e1589dda1aad3226c9c7e7ac4d2f8751d0","LICENSE-APACHE":"a60eea817514531668d7e00765731449fe14d059d3249e0bc93b36de45f759f2","LICENSE-MIT":"b7e650f3fce5c53249d1cdc608b54df156a97edd636cf9d23498d0cfe7aec63e","README.md":"ac2a0a360812436bd5798f5fe2affe7d6ed9eb7f15d6e4d73931e95b437560f2","src/channel.rs":"d2443d503d4cc469a171a51a26eca3ec0d2a58b5f7375a84542c36f1421766a8","src/date.rs":"09580a0a2008fad2ccbc43fb42a88f42221b98b01692702022a296dc9c86bf37","src/lib.rs":"760f0d29567ecaa61287088cf23cf74b3c0efbbcd3077cea5fb7c88359e96c7e","src/version.rs":"dba18a25983ec6e37b952f4cdc5219c9e5abba2c3a76cef87465e1fba6f8ac89"},"package":"49874b5167b65d7193b8aba1567f5c7d93d001cafc34600cee003eda787e483f"} \ No newline at end of file diff --git a/third_party/rust/version_check/Cargo.toml b/third_party/rust/version_check/Cargo.toml new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/Cargo.toml @@ -0,0 +1,24 @@ +# THIS FILE IS AUTOMATICALLY GENERATED BY CARGO +# +# When uploading crates to the registry Cargo will automatically +# "normalize" Cargo.toml files for maximal compatibility +# with all versions of Cargo and also rewrite `path` dependencies +# to registry (e.g., crates.io) dependencies. +# +# If you are reading this file be aware that the original Cargo.toml +# will likely look very different (and much more reasonable). +# See Cargo.toml.orig for the original contents. + +[package] +name = "version_check" +version = "0.9.4" +authors = ["Sergio Benitez <sb@sergio.bz>"] +exclude = ["static"] +description = "Tiny crate to check the version of the installed/running rustc." +documentation = "https://docs.rs/version_check/" +readme = "README.md" +keywords = ["version", "rustc", "minimum", "check"] +license = "MIT/Apache-2.0" +repository = "https://github.com/SergioBenitez/version_check" + +[dependencies] diff --git a/third_party/rust/version_check/LICENSE-APACHE b/third_party/rust/version_check/LICENSE-APACHE new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/LICENSE-APACHE @@ -0,0 +1,201 @@ + Apache License + Version 2.0, January 2004 + http://www.apache.org/licenses/ + +TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION + +1. 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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/third_party/rust/version_check/README.md b/third_party/rust/version_check/README.md new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/README.md @@ -0,0 +1,80 @@ +# version\_check + +[![Build Status](https://github.com/SergioBenitez/version_check/workflows/CI/badge.svg)](https://github.com/SergioBenitez/version_check/actions) +[![Current Crates.io Version](https://img.shields.io/crates/v/version_check.svg)](https://crates.io/crates/version_check) +[![rustdocs on docs.rs](https://docs.rs/version_check/badge.svg)](https://docs.rs/version_check) + +This tiny crate checks that the running or installed `rustc` meets some version +requirements. The version is queried by calling the Rust compiler with +`--version`. The path to the compiler is determined first via the `RUSTC` +environment variable. If it is not set, then `rustc` is used. If that fails, no +determination is made, and calls return `None`. + +## Usage + +Add to your `Cargo.toml` file, typically as a build dependency: + +```toml +[build-dependencies] +version_check = "0.9" +``` + +`version_check` is compatible and compiles with Rust 1.0.0 and beyond. + +## Examples + +Set a `cfg` flag in `build.rs` if the running compiler was determined to be +at least version `1.13.0`: + +```rust +extern crate version_check as rustc; + +if rustc::is_min_version("1.13.0").unwrap_or(false) { + println!("cargo:rustc-cfg=question_mark_operator"); +} +``` + +Check that the running compiler was released on or after `2018-12-18`: + +```rust +extern crate version_check as rustc; + +match rustc::is_min_date("2018-12-18") { + Some(true) => "Yep! It's recent!", + Some(false) => "No, it's older.", + None => "Couldn't determine the rustc version." +}; +``` + +Check that the running compiler supports feature flags: + +```rust +extern crate version_check as rustc; + +match rustc::is_feature_flaggable() { + Some(true) => "Yes! It's a dev or nightly release!", + Some(false) => "No, it's stable or beta.", + None => "Couldn't determine the rustc version." +}; +``` + +See the [rustdocs](https://docs.rs/version_check) for more examples and complete +documentation. + +## Alternatives + +This crate is dead simple with no dependencies. If you need something more and +don't care about panicking if the version cannot be obtained, or if you don't +mind adding dependencies, see [rustc_version]. If you'd instead prefer a feature +detection library that works by dynamically invoking `rustc` with a +representative code sample, see [autocfg]. + +[rustc_version]: https://crates.io/crates/rustc_version +[autocfg]: https://crates.io/crates/autocfg + +## License + +`version_check` is licensed under either of the following, at your option: + + * Apache License, Version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0) + * MIT License ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT) diff --git a/third_party/rust/version_check/src/channel.rs b/third_party/rust/version_check/src/channel.rs new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/src/channel.rs @@ -0,0 +1,193 @@ +use std::fmt; + +#[derive(Debug, PartialEq, Eq, Copy, Clone)] +enum Kind { + Dev, + Nightly, + Beta, + Stable, +} + +/// Release channel: "dev", "nightly", "beta", or "stable". +#[derive(Debug, PartialEq, Eq, Copy, Clone)] +pub struct Channel(Kind); + +impl Channel { + /// Reads the release channel of the running compiler. If it cannot be + /// determined (see the [top-level documentation](crate)), returns `None`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// match Channel::read() { + /// Some(c) => format!("The channel is: {}", c), + /// None => format!("Failed to read the release channel.") + /// }; + /// ``` + pub fn read() -> Option<Channel> { + ::get_version_and_date() + .and_then(|(version, _)| version) + .and_then(|version| Channel::parse(&version)) + } + + /// Parse a Rust release channel from a Rust release version string (of the + /// form `major[.minor[.patch[-channel]]]`). Returns `None` if `version` is + /// not a valid Rust version string. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// let dev = Channel::parse("1.3.0-dev").unwrap(); + /// assert!(dev.is_dev()); + /// + /// let nightly = Channel::parse("1.42.2-nightly").unwrap(); + /// assert!(nightly.is_nightly()); + /// + /// let beta = Channel::parse("1.32.0-beta").unwrap(); + /// assert!(beta.is_beta()); + /// + /// let stable = Channel::parse("1.4.0").unwrap(); + /// assert!(stable.is_stable()); + /// ``` + pub fn parse(version: &str) -> Option<Channel> { + let version = version.trim(); + if version.contains("-dev") || version == "dev" { + Some(Channel(Kind::Dev)) + } else if version.contains("-nightly") || version == "nightly" { + Some(Channel(Kind::Nightly)) + } else if version.contains("-beta") || version == "beta" { + Some(Channel(Kind::Beta)) + } else if !version.contains("-") { + Some(Channel(Kind::Stable)) + } else { + None + } + } + + /// Returns the name of the release channel. + fn as_str(&self) -> &'static str { + match self.0 { + Kind::Dev => "dev", + Kind::Beta => "beta", + Kind::Nightly => "nightly", + Kind::Stable => "stable", + } + } + + /// Returns `true` if this channel supports feature flags. In other words, + /// returns `true` if the channel is either `dev` or `nightly`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// let dev = Channel::parse("1.3.0-dev").unwrap(); + /// assert!(dev.supports_features()); + /// + /// let nightly = Channel::parse("1.42.2-nightly").unwrap(); + /// assert!(nightly.supports_features()); + /// + /// let beta = Channel::parse("1.32.0-beta").unwrap(); + /// assert!(!beta.supports_features()); + /// + /// let stable = Channel::parse("1.4.0").unwrap(); + /// assert!(!stable.supports_features()); + /// ``` + pub fn supports_features(&self) -> bool { + match self.0 { + Kind::Dev | Kind::Nightly => true, + Kind::Beta | Kind::Stable => false + } + } + + /// Returns `true` if this channel is `dev` and `false` otherwise. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// let dev = Channel::parse("1.3.0-dev").unwrap(); + /// assert!(dev.is_dev()); + /// + /// let stable = Channel::parse("1.0.0").unwrap(); + /// assert!(!stable.is_dev()); + /// ``` + pub fn is_dev(&self) -> bool { + match self.0 { + Kind::Dev => true, + _ => false + } + } + + /// Returns `true` if this channel is `nightly` and `false` otherwise. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// let nightly = Channel::parse("1.3.0-nightly").unwrap(); + /// assert!(nightly.is_nightly()); + /// + /// let stable = Channel::parse("1.0.0").unwrap(); + /// assert!(!stable.is_nightly()); + /// ``` + pub fn is_nightly(&self) -> bool { + match self.0 { + Kind::Nightly => true, + _ => false + } + } + + /// Returns `true` if this channel is `beta` and `false` otherwise. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// let beta = Channel::parse("1.3.0-beta").unwrap(); + /// assert!(beta.is_beta()); + /// + /// let stable = Channel::parse("1.0.0").unwrap(); + /// assert!(!stable.is_beta()); + /// ``` + pub fn is_beta(&self) -> bool { + match self.0 { + Kind::Beta => true, + _ => false + } + } + + /// Returns `true` if this channel is `stable` and `false` otherwise. + /// + /// # Example + /// + /// ```rust + /// use version_check::Channel; + /// + /// let stable = Channel::parse("1.0.0").unwrap(); + /// assert!(stable.is_stable()); + /// + /// let beta = Channel::parse("1.3.0-beta").unwrap(); + /// assert!(!beta.is_stable()); + /// ``` + pub fn is_stable(&self) -> bool { + match self.0 { + Kind::Stable => true, + _ => false + } + } +} + +impl fmt::Display for Channel { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + write!(f, "{}", self.as_str()) + } +} diff --git a/third_party/rust/version_check/src/date.rs b/third_party/rust/version_check/src/date.rs new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/src/date.rs @@ -0,0 +1,203 @@ +use std::fmt; + +/// Release date including year, month, and day. +// Internal storage is: y[31..9] | m[8..5] | d[5...0]. +#[derive(Debug, PartialEq, Eq, Copy, Clone, PartialOrd, Ord)] +pub struct Date(u32); + +impl Date { + /// Reads the release date of the running compiler. If it cannot be + /// determined (see the [top-level documentation](crate)), returns `None`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Date; + /// + /// match Date::read() { + /// Some(d) => format!("The release date is: {}", d), + /// None => format!("Failed to read the release date.") + /// }; + /// ``` + pub fn read() -> Option<Date> { + ::get_version_and_date() + .and_then(|(_, date)| date) + .and_then(|date| Date::parse(&date)) + } + + /// Parse a release date of the form `%Y-%m-%d`. Returns `None` if `date` is + /// not in `%Y-%m-%d` format. + /// + /// # Example + /// + /// ```rust + /// use version_check::Date; + /// + /// let date = Date::parse("2016-04-20").unwrap(); + /// + /// assert!(date.at_least("2016-01-10")); + /// assert!(date.at_most("2016-04-20")); + /// assert!(date.exactly("2016-04-20")); + /// + /// assert!(Date::parse("2021-12-31").unwrap().exactly("2021-12-31")); + /// + /// assert!(Date::parse("March 13, 2018").is_none()); + /// assert!(Date::parse("1-2-3-4-5").is_none()); + /// assert!(Date::parse("2020-300-23120").is_none()); + /// assert!(Date::parse("2020-12-12 1").is_none()); + /// assert!(Date::parse("2020-10").is_none()); + /// assert!(Date::parse("2020").is_none()); + /// ``` + pub fn parse(date: &str) -> Option<Date> { + let mut ymd = [0u16; 3]; + for (i, split) in date.split('-').map(|s| s.parse::<u16>()).enumerate() { + ymd[i] = match (i, split) { + (3, _) | (_, Err(_)) => return None, + (_, Ok(v)) => v, + }; + } + + let (year, month, day) = (ymd[0], ymd[1], ymd[2]); + if year == 0 || month == 0 || month > 12 || day == 0 || day > 31 { + return None; + } + + Some(Date::from_ymd(year, month as u8, day as u8)) + } + + /// Creates a `Date` from `(year, month, day)` date components. + /// + /// Does not check the validity of `year`, `month`, or `day`, but `year` is + /// truncated to 23 bits (% 8,388,608), `month` to 4 bits (% 16), and `day` + /// to 5 bits (% 32). + /// + /// # Example + /// + /// ```rust + /// use version_check::Date; + /// + /// assert!(Date::from_ymd(2021, 7, 30).exactly("2021-07-30")); + /// assert!(Date::from_ymd(2010, 3, 23).exactly("2010-03-23")); + /// assert!(Date::from_ymd(2090, 1, 31).exactly("2090-01-31")); + /// + /// // Truncation: 33 % 32 == 0x21 & 0x1F == 1. + /// assert!(Date::from_ymd(2090, 1, 33).exactly("2090-01-01")); + /// ``` + pub fn from_ymd(year: u16, month: u8, day: u8) -> Date { + let year = (year as u32) << 9; + let month = ((month as u32) & 0xF) << 5; + let day = (day as u32) & 0x1F; + Date(year | month | day) + } + + /// Return the original (YYYY, MM, DD). + fn to_ymd(&self) -> (u16, u8, u8) { + let y = self.0 >> 9; + let m = (self.0 >> 5) & 0xF; + let d = self.0 & 0x1F; + (y as u16, m as u8, d as u8) + } + + /// Returns `true` if `self` occurs on or after `date`. + /// + /// If `date` occurs before `self`, or if `date` is not in `%Y-%m-%d` + /// format, returns `false`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Date; + /// + /// let date = Date::parse("2020-01-01").unwrap(); + /// + /// assert!(date.at_least("2019-12-31")); + /// assert!(date.at_least("2020-01-01")); + /// assert!(date.at_least("2014-04-31")); + /// + /// assert!(!date.at_least("2020-01-02")); + /// assert!(!date.at_least("2024-08-18")); + /// ``` + pub fn at_least(&self, date: &str) -> bool { + Date::parse(date) + .map(|date| self >= &date) + .unwrap_or(false) + } + + /// Returns `true` if `self` occurs on or before `date`. + /// + /// If `date` occurs after `self`, or if `date` is not in `%Y-%m-%d` + /// format, returns `false`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Date; + /// + /// let date = Date::parse("2020-01-01").unwrap(); + /// + /// assert!(date.at_most("2020-01-01")); + /// assert!(date.at_most("2020-01-02")); + /// assert!(date.at_most("2024-08-18")); + /// + /// assert!(!date.at_most("2019-12-31")); + /// assert!(!date.at_most("2014-04-31")); + /// ``` + pub fn at_most(&self, date: &str) -> bool { + Date::parse(date) + .map(|date| self <= &date) + .unwrap_or(false) + } + + /// Returns `true` if `self` occurs exactly on `date`. + /// + /// If `date` is not exactly `self`, or if `date` is not in `%Y-%m-%d` + /// format, returns `false`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Date; + /// + /// let date = Date::parse("2020-01-01").unwrap(); + /// + /// assert!(date.exactly("2020-01-01")); + /// + /// assert!(!date.exactly("2019-12-31")); + /// assert!(!date.exactly("2014-04-31")); + /// assert!(!date.exactly("2020-01-02")); + /// assert!(!date.exactly("2024-08-18")); + /// ``` + pub fn exactly(&self, date: &str) -> bool { + Date::parse(date) + .map(|date| self == &date) + .unwrap_or(false) + } +} + +impl fmt::Display for Date { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + let (y, m, d) = self.to_ymd(); + write!(f, "{}-{:02}-{:02}", y, m, d) + } +} + +#[cfg(test)] +mod tests { + use super::Date; + + macro_rules! reflexive_display { + ($string:expr) => ( + assert_eq!(Date::parse($string).unwrap().to_string(), $string); + ) + } + + #[test] + fn display() { + reflexive_display!("2019-05-08"); + reflexive_display!("2000-01-01"); + reflexive_display!("2000-12-31"); + reflexive_display!("2090-12-31"); + reflexive_display!("1999-02-19"); + reflexive_display!("9999-12-31"); + } +} diff --git a/third_party/rust/version_check/src/lib.rs b/third_party/rust/version_check/src/lib.rs new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/src/lib.rs @@ -0,0 +1,493 @@ +//! This tiny crate checks that the running or installed `rustc` meets some +//! version requirements. The version is queried by calling the Rust compiler +//! with `--version`. The path to the compiler is determined first via the +//! `RUSTC` environment variable. If it is not set, then `rustc` is used. If +//! that fails, no determination is made, and calls return `None`. +//! +//! # Examples +//! +//! * Set a `cfg` flag in `build.rs` if the running compiler was determined to +//! be at least version `1.13.0`: +//! +//! ```rust +//! extern crate version_check as rustc; +//! +//! if rustc::is_min_version("1.13.0").unwrap_or(false) { +//! println!("cargo:rustc-cfg=question_mark_operator"); +//! } +//! ``` +//! +//! See [`is_max_version`] or [`is_exact_version`] to check if the compiler +//! is _at most_ or _exactly_ a certain version. +//! +//! * Check that the running compiler was released on or after `2018-12-18`: +//! +//! ```rust +//! extern crate version_check as rustc; +//! +//! match rustc::is_min_date("2018-12-18") { +//! Some(true) => "Yep! It's recent!", +//! Some(false) => "No, it's older.", +//! None => "Couldn't determine the rustc version." +//! }; +//! ``` +//! +//! See [`is_max_date`] or [`is_exact_date`] to check if the compiler was +//! released _prior to_ or _exactly on_ a certain date. +//! +//! * Check that the running compiler supports feature flags: +//! +//! ```rust +//! extern crate version_check as rustc; +//! +//! match rustc::is_feature_flaggable() { +//! Some(true) => "Yes! It's a dev or nightly release!", +//! Some(false) => "No, it's stable or beta.", +//! None => "Couldn't determine the rustc version." +//! }; +//! ``` +//! +//! * Check that the running compiler supports a specific feature: +//! +//! ```rust +//! extern crate version_check as rustc; +//! +//! if let Some(true) = rustc::supports_feature("doc_cfg") { +//! println!("cargo:rustc-cfg=has_doc_cfg"); +//! } +//! ``` +//! +//! * Check that the running compiler is on the stable channel: +//! +//! ```rust +//! extern crate version_check as rustc; +//! +//! match rustc::Channel::read() { +//! Some(c) if c.is_stable() => format!("Yes! It's stable."), +//! Some(c) => format!("No, the channel {} is not stable.", c), +//! None => format!("Couldn't determine the rustc version.") +//! }; +//! ``` +//! +//! To interact with the version, release date, and release channel as structs, +//! use [`Version`], [`Date`], and [`Channel`], respectively. The [`triple()`] +//! function returns all three values efficiently. +//! +//! # Alternatives +//! +//! This crate is dead simple with no dependencies. If you need something more +//! and don't care about panicking if the version cannot be obtained, or if you +//! don't mind adding dependencies, see +//! [rustc_version](https://crates.io/crates/rustc_version). + +#![allow(deprecated)] + +mod version; +mod channel; +mod date; + +use std::env; +use std::process::Command; + +#[doc(inline)] pub use version::*; +#[doc(inline)] pub use channel::*; +#[doc(inline)] pub use date::*; + +/// Parses (version, date) as available from rustc version string. +fn version_and_date_from_rustc_version(s: &str) -> (Option<String>, Option<String>) { + let last_line = s.lines().last().unwrap_or(s); + let mut components = last_line.trim().split(" "); + let version = components.nth(1); + let date = components.filter(|c| c.ends_with(')')).next() + .map(|s| s.trim_right().trim_right_matches(")").trim_left().trim_left_matches('(')); + (version.map(|s| s.to_string()), date.map(|s| s.to_string())) +} + +/// Parses (version, date) as available from rustc verbose version output. +fn version_and_date_from_rustc_verbose_version(s: &str) -> (Option<String>, Option<String>) { + let (mut version, mut date) = (None, None); + for line in s.lines() { + let split = |s: &str| s.splitn(2, ":").nth(1).map(|s| s.trim().to_string()); + match line.trim().split(" ").nth(0) { + Some("rustc") => { + let (v, d) = version_and_date_from_rustc_version(line); + version = version.or(v); + date = date.or(d); + }, + Some("release:") => version = split(line), + Some("commit-date:") if line.ends_with("unknown") => date = None, + Some("commit-date:") => date = split(line), + _ => continue + } + } + + (version, date) +} + +/// Returns (version, date) as available from `rustc --version`. +fn get_version_and_date() -> Option<(Option<String>, Option<String>)> { + let rustc = env::var("RUSTC").unwrap_or_else(|_| "rustc".to_string()); + Command::new(rustc).arg("--verbose").arg("--version").output().ok() + .and_then(|output| String::from_utf8(output.stdout).ok()) + .map(|s| version_and_date_from_rustc_verbose_version(&s)) +} + +/// Reads the triple of [`Version`], [`Channel`], and [`Date`] of the installed +/// or running `rustc`. +/// +/// If any attribute cannot be determined (see the [top-level +/// documentation](crate)), returns `None`. +/// +/// To obtain only one of three attributes, use [`Version::read()`], +/// [`Channel::read()`], or [`Date::read()`]. +pub fn triple() -> Option<(Version, Channel, Date)> { + let (version_str, date_str) = match get_version_and_date() { + Some((Some(version), Some(date))) => (version, date), + _ => return None + }; + + // Can't use `?` or `try!` for `Option` in 1.0.0. + match Version::parse(&version_str) { + Some(version) => match Channel::parse(&version_str) { + Some(channel) => match Date::parse(&date_str) { + Some(date) => Some((version, channel, date)), + _ => None, + }, + _ => None, + }, + _ => None + } +} + +/// Checks that the running or installed `rustc` was released **on or after** +/// some date. +/// +/// The format of `min_date` must be YYYY-MM-DD. For instance: `2016-12-20` or +/// `2017-01-09`. +/// +/// If the date cannot be retrieved or parsed, or if `min_date` could not be +/// parsed, returns `None`. Otherwise returns `true` if the installed `rustc` +/// was release on or after `min_date` and `false` otherwise. +pub fn is_min_date(min_date: &str) -> Option<bool> { + match (Date::read(), Date::parse(min_date)) { + (Some(rustc_date), Some(min_date)) => Some(rustc_date >= min_date), + _ => None + } +} + +/// Checks that the running or installed `rustc` was released **on or before** +/// some date. +/// +/// The format of `max_date` must be YYYY-MM-DD. For instance: `2016-12-20` or +/// `2017-01-09`. +/// +/// If the date cannot be retrieved or parsed, or if `max_date` could not be +/// parsed, returns `None`. Otherwise returns `true` if the installed `rustc` +/// was release on or before `max_date` and `false` otherwise. +pub fn is_max_date(max_date: &str) -> Option<bool> { + match (Date::read(), Date::parse(max_date)) { + (Some(rustc_date), Some(max_date)) => Some(rustc_date <= max_date), + _ => None + } +} + +/// Checks that the running or installed `rustc` was released **exactly** on +/// some date. +/// +/// The format of `date` must be YYYY-MM-DD. For instance: `2016-12-20` or +/// `2017-01-09`. +/// +/// If the date cannot be retrieved or parsed, or if `date` could not be parsed, +/// returns `None`. Otherwise returns `true` if the installed `rustc` was +/// release on `date` and `false` otherwise. +pub fn is_exact_date(date: &str) -> Option<bool> { + match (Date::read(), Date::parse(date)) { + (Some(rustc_date), Some(date)) => Some(rustc_date == date), + _ => None + } +} + +/// Checks that the running or installed `rustc` is **at least** some minimum +/// version. +/// +/// The format of `min_version` is a semantic version: `1.3.0`, `1.15.0-beta`, +/// `1.14.0`, `1.16.0-nightly`, etc. +/// +/// If the version cannot be retrieved or parsed, or if `min_version` could not +/// be parsed, returns `None`. Otherwise returns `true` if the installed `rustc` +/// is at least `min_version` and `false` otherwise. +pub fn is_min_version(min_version: &str) -> Option<bool> { + match (Version::read(), Version::parse(min_version)) { + (Some(rustc_ver), Some(min_ver)) => Some(rustc_ver >= min_ver), + _ => None + } +} + +/// Checks that the running or installed `rustc` is **at most** some maximum +/// version. +/// +/// The format of `max_version` is a semantic version: `1.3.0`, `1.15.0-beta`, +/// `1.14.0`, `1.16.0-nightly`, etc. +/// +/// If the version cannot be retrieved or parsed, or if `max_version` could not +/// be parsed, returns `None`. Otherwise returns `true` if the installed `rustc` +/// is at most `max_version` and `false` otherwise. +pub fn is_max_version(max_version: &str) -> Option<bool> { + match (Version::read(), Version::parse(max_version)) { + (Some(rustc_ver), Some(max_ver)) => Some(rustc_ver <= max_ver), + _ => None + } +} + +/// Checks that the running or installed `rustc` is **exactly** some version. +/// +/// The format of `version` is a semantic version: `1.3.0`, `1.15.0-beta`, +/// `1.14.0`, `1.16.0-nightly`, etc. +/// +/// If the version cannot be retrieved or parsed, or if `version` could not be +/// parsed, returns `None`. Otherwise returns `true` if the installed `rustc` is +/// exactly `version` and `false` otherwise. +pub fn is_exact_version(version: &str) -> Option<bool> { + match (Version::read(), Version::parse(version)) { + (Some(rustc_ver), Some(version)) => Some(rustc_ver == version), + _ => None + } +} + +/// Checks whether the running or installed `rustc` supports feature flags. +/// +/// In other words, if the channel is either "nightly" or "dev". +/// +/// Note that support for specific `rustc` features can be enabled or disabled +/// via the `allow-features` compiler flag, which this function _does not_ +/// check. That is, this function _does not_ check whether a _specific_ feature +/// is supported, but instead whether features are supported at all. To check +/// for support for a specific feature, use [`supports_feature()`]. +/// +/// If the version could not be determined, returns `None`. Otherwise returns +/// `true` if the running version supports feature flags and `false` otherwise. +pub fn is_feature_flaggable() -> Option<bool> { + Channel::read().map(|c| c.supports_features()) +} + +/// Checks whether the running or installed `rustc` supports `feature`. +/// +/// Returns _true_ _iff_ [`is_feature_flaggable()`] returns `true` _and_ the +/// feature is not disabled via exclusion in `allow-features` via `RUSTFLAGS` or +/// `CARGO_ENCODED_RUSTFLAGS`. If the version could not be determined, returns +/// `None`. +/// +/// # Example +/// +/// ```rust +/// use version_check as rustc; +/// +/// if let Some(true) = rustc::supports_feature("doc_cfg") { +/// println!("cargo:rustc-cfg=has_doc_cfg"); +/// } +/// ``` +pub fn supports_feature(feature: &str) -> Option<bool> { + match is_feature_flaggable() { + Some(true) => { /* continue */ } + Some(false) => return Some(false), + None => return None, + } + + let env_flags = env::var_os("CARGO_ENCODED_RUSTFLAGS") + .map(|flags| (flags, '\x1f')) + .or_else(|| env::var_os("RUSTFLAGS").map(|flags| (flags, ' '))); + + if let Some((flags, delim)) = env_flags { + const ALLOW_FEATURES: &'static str = "allow-features="; + + let rustflags = flags.to_string_lossy(); + let allow_features = rustflags.split(delim) + .map(|flag| flag.trim_left_matches("-Z").trim()) + .filter(|flag| flag.starts_with(ALLOW_FEATURES)) + .map(|flag| &flag[ALLOW_FEATURES.len()..]); + + if let Some(allow_features) = allow_features.last() { + return Some(allow_features.split(',').any(|f| f.trim() == feature)); + } + } + + // If there are no `RUSTFLAGS` or `CARGO_ENCODED_RUSTFLAGS` or they don't + // contain an `allow-features` flag, assume compiler allows all features. + Some(true) +} + +#[cfg(test)] +mod tests { + use std::{env, fs}; + + use super::version_and_date_from_rustc_version; + use super::version_and_date_from_rustc_verbose_version; + + macro_rules! check_parse { + (@ $f:expr, $s:expr => $v:expr, $d:expr) => ({ + if let (Some(v), d) = $f(&$s) { + let e_d: Option<&str> = $d.into(); + assert_eq!((v, d), ($v.to_string(), e_d.map(|s| s.into()))); + } else { + panic!("{:?} didn't parse for version testing.", $s); + } + }); + ($f:expr, $s:expr => $v:expr, $d:expr) => ({ + let warn = "warning: invalid logging spec 'warning', ignoring it"; + let warn2 = "warning: sorry, something went wrong :(sad)"; + check_parse!(@ $f, $s => $v, $d); + check_parse!(@ $f, &format!("{}\n{}", warn, $s) => $v, $d); + check_parse!(@ $f, &format!("{}\n{}", warn2, $s) => $v, $d); + check_parse!(@ $f, &format!("{}\n{}\n{}", warn, warn2, $s) => $v, $d); + check_parse!(@ $f, &format!("{}\n{}\n{}", warn2, warn, $s) => $v, $d); + }) + } + + macro_rules! check_terse_parse { + ($($s:expr => $v:expr, $d:expr,)+) => {$( + check_parse!(version_and_date_from_rustc_version, $s => $v, $d); + )+} + } + + macro_rules! check_verbose_parse { + ($($s:expr => $v:expr, $d:expr,)+) => {$( + check_parse!(version_and_date_from_rustc_verbose_version, $s => $v, $d); + )+} + } + + #[test] + fn test_version_parse() { + check_terse_parse! { + "rustc 1.18.0" => "1.18.0", None, + "rustc 1.8.0" => "1.8.0", None, + "rustc 1.20.0-nightly" => "1.20.0-nightly", None, + "rustc 1.20" => "1.20", None, + "rustc 1.3" => "1.3", None, + "rustc 1" => "1", None, + "rustc 1.5.1-beta" => "1.5.1-beta", None, + "rustc 1.20.0 (2017-07-09)" => "1.20.0", Some("2017-07-09"), + "rustc 1.20.0-dev (2017-07-09)" => "1.20.0-dev", Some("2017-07-09"), + "rustc 1.20.0-nightly (d84693b93 2017-07-09)" => "1.20.0-nightly", Some("2017-07-09"), + "rustc 1.20.0 (d84693b93 2017-07-09)" => "1.20.0", Some("2017-07-09"), + "rustc 1.30.0-nightly (3bc2ca7e4 2018-09-20)" => "1.30.0-nightly", Some("2018-09-20"), + }; + } + + #[test] + fn test_verbose_version_parse() { + check_verbose_parse! { + "rustc 1.0.0 (a59de37e9 2015-05-13) (built 2015-05-14)\n\ + binary: rustc\n\ + commit-hash: a59de37e99060162a2674e3ff45409ac73595c0e\n\ + commit-date: 2015-05-13\n\ + build-date: 2015-05-14\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.0.0" => "1.0.0", Some("2015-05-13"), + + "rustc 1.0.0 (a59de37e9 2015-05-13) (built 2015-05-14)\n\ + commit-hash: a59de37e99060162a2674e3ff45409ac73595c0e\n\ + commit-date: 2015-05-13\n\ + build-date: 2015-05-14\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.0.0" => "1.0.0", Some("2015-05-13"), + + "rustc 1.50.0 (cb75ad5db 2021-02-10)\n\ + binary: rustc\n\ + commit-hash: cb75ad5db02783e8b0222fee363c5f63f7e2cf5b\n\ + commit-date: 2021-02-10\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.50.0" => "1.50.0", Some("2021-02-10"), + + "rustc 1.52.0-nightly (234781afe 2021-03-07)\n\ + binary: rustc\n\ + commit-hash: 234781afe33d3f339b002f85f948046d8476cfc9\n\ + commit-date: 2021-03-07\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.52.0-nightly\n\ + LLVM version: 12.0.0" => "1.52.0-nightly", Some("2021-03-07"), + + "rustc 1.41.1\n\ + binary: rustc\n\ + commit-hash: unknown\n\ + commit-date: unknown\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.41.1\n\ + LLVM version: 7.0" => "1.41.1", None, + + "rustc 1.49.0\n\ + binary: rustc\n\ + commit-hash: unknown\n\ + commit-date: unknown\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.49.0" => "1.49.0", None, + + "rustc 1.50.0 (Fedora 1.50.0-1.fc33)\n\ + binary: rustc\n\ + commit-hash: unknown\n\ + commit-date: unknown\n\ + host: x86_64-unknown-linux-gnu\n\ + release: 1.50.0" => "1.50.0", None, + }; + } + + fn read_static(verbose: bool, channel: &str, minor: usize) -> String { + use std::fs::File; + use std::path::Path; + use std::io::{BufReader, Read}; + + let subdir = if verbose { "verbose" } else { "terse" }; + let path = Path::new(STATIC_PATH) + .join(channel) + .join(subdir) + .join(format!("rustc-1.{}.0", minor)); + + let file = File::open(path).unwrap(); + let mut buf_reader = BufReader::new(file); + let mut contents = String::new(); + buf_reader.read_to_string(&mut contents).unwrap(); + contents + } + + static STATIC_PATH: &'static str = concat!(env!("CARGO_MANIFEST_DIR"), "/static"); + + static DATES: [&'static str; 51] = [ + "2015-05-13", "2015-06-19", "2015-08-03", "2015-09-15", "2015-10-27", + "2015-12-04", "2016-01-19", "2016-02-29", "2016-04-11", "2016-05-18", + "2016-07-03", "2016-08-15", "2016-09-23", "2016-11-07", "2016-12-16", + "2017-01-19", "2017-03-10", "2017-04-24", "2017-06-06", "2017-07-17", + "2017-08-27", "2017-10-09", "2017-11-20", "2018-01-01", "2018-02-12", + "2018-03-25", "2018-05-07", "2018-06-19", "2018-07-30", "2018-09-11", + "2018-10-24", "2018-12-04", "2019-01-16", "2019-02-28", "2019-04-10", + "2019-05-20", "2019-07-03", "2019-08-13", "2019-09-23", "2019-11-04", + "2019-12-16", "2020-01-27", "2020-03-09", "2020-04-20", "2020-06-01", + "2020-07-13", "2020-08-24", "2020-10-07", "2020-11-16", "2020-12-29", + "2021-02-10", + ]; + + #[test] + fn test_stable_compatibility() { + if env::var_os("FORCE_STATIC").is_none() && fs::metadata(STATIC_PATH).is_err() { + // We exclude `/static` when we package `version_check`, so don't + // run if static files aren't present unless we know they should be. + return; + } + + // Ensure we can parse all output from all Linux stable releases. + for v in 0..DATES.len() { + let (version, date) = (&format!("1.{}.0", v), Some(DATES[v])); + check_terse_parse!(read_static(false, "stable", v) => version, date,); + check_verbose_parse!(read_static(true, "stable", v) => version, date,); + } + } + + #[test] + fn test_parse_current() { + let (version, channel) = (::Version::read(), ::Channel::read()); + assert!(version.is_some()); + assert!(channel.is_some()); + + if let Ok(known_channel) = env::var("KNOWN_CHANNEL") { + assert_eq!(channel, ::Channel::parse(&known_channel)); + } + } +} diff --git a/third_party/rust/version_check/src/version.rs b/third_party/rust/version_check/src/version.rs new file mode 100644 --- /dev/null +++ b/third_party/rust/version_check/src/version.rs @@ -0,0 +1,316 @@ +use std::fmt; + +/// Version number: `major.minor.patch`, ignoring release channel. +#[derive(PartialEq, Eq, Copy, Clone, PartialOrd, Ord)] +pub struct Version(u64); + +impl Version { + /// Reads the version of the running compiler. If it cannot be determined + /// (see the [top-level documentation](crate)), returns `None`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// match Version::read() { + /// Some(d) => format!("Version is: {}", d), + /// None => format!("Failed to read the version.") + /// }; + /// ``` + pub fn read() -> Option<Version> { + ::get_version_and_date() + .and_then(|(version, _)| version) + .and_then(|version| Version::parse(&version)) + } + + + /// Parse a Rust release version (of the form + /// `major[.minor[.patch[-channel]]]`), ignoring the release channel, if + /// any. Returns `None` if `version` is not a valid Rust version string. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// let version = Version::parse("1.18.0").unwrap(); + /// assert!(version.exactly("1.18.0")); + /// + /// let version = Version::parse("1.20.0-nightly").unwrap(); + /// assert!(version.exactly("1.20.0")); + /// assert!(version.exactly("1.20.0-beta")); + /// + /// let version = Version::parse("1.3").unwrap(); + /// assert!(version.exactly("1.3.0")); + /// + /// let version = Version::parse("1").unwrap(); + /// assert!(version.exactly("1.0.0")); + /// + /// assert!(Version::parse("one.two.three").is_none()); + /// assert!(Version::parse("1.65536.2").is_none()); + /// assert!(Version::parse("1. 2").is_none()); + /// assert!(Version::parse("").is_none()); + /// assert!(Version::parse("1.").is_none()); + /// assert!(Version::parse("1.2.3.4").is_none()); + /// ``` + pub fn parse(version: &str) -> Option<Version> { + let splits = version.split('-') + .nth(0) + .unwrap_or("") + .split('.') + .map(|s| s.parse::<u16>()); + + let mut mmp = [0u16; 3]; + for (i, split) in splits.enumerate() { + mmp[i] = match (i, split) { + (3, _) | (_, Err(_)) => return None, + (_, Ok(v)) => v, + }; + } + + let (maj, min, patch) = (mmp[0], mmp[1], mmp[2]); + Some(Version::from_mmp(maj, min, patch)) + } + + /// Creates a `Version` from `(major, minor, patch)` version components. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// assert!(Version::from_mmp(1, 35, 0).exactly("1.35.0")); + /// assert!(Version::from_mmp(1, 33, 0).exactly("1.33.0")); + /// assert!(Version::from_mmp(1, 35, 1).exactly("1.35.1")); + /// assert!(Version::from_mmp(1, 13, 2).exactly("1.13.2")); + /// ``` + pub fn from_mmp(major: u16, minor: u16, patch: u16) -> Version { + Version(((major as u64) << 32) | ((minor as u64) << 16) | patch as u64) + } + + /// Returns the `(major, minor, patch)` version components of `self`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// assert_eq!(Version::parse("1.35.0").unwrap().to_mmp(), (1, 35, 0)); + /// assert_eq!(Version::parse("1.33.0").unwrap().to_mmp(), (1, 33, 0)); + /// assert_eq!(Version::parse("1.35.1").unwrap().to_mmp(), (1, 35, 1)); + /// assert_eq!(Version::parse("1.13.2").unwrap().to_mmp(), (1, 13, 2)); + /// ``` + pub fn to_mmp(&self) -> (u16, u16, u16) { + let major = self.0 >> 32; + let minor = self.0 >> 16; + let patch = self.0; + (major as u16, minor as u16, patch as u16) + } + + /// Returns `true` if `self` is greater than or equal to `version`. + /// + /// If `version` is greater than `self`, or if `version` is not a valid Rust + /// version string, returns `false`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// let version = Version::parse("1.35.0").unwrap(); + /// + /// assert!(version.at_least("1.33.0")); + /// assert!(version.at_least("1.35.0")); + /// assert!(version.at_least("1.13.2")); + /// + /// assert!(!version.at_least("1.35.1")); + /// assert!(!version.at_least("1.55.0")); + /// + /// let version = Version::parse("1.12.5").unwrap(); + /// + /// assert!(version.at_least("1.12.0")); + /// assert!(!version.at_least("1.35.0")); + /// ``` + pub fn at_least(&self, version: &str) -> bool { + Version::parse(version) + .map(|version| self >= &version) + .unwrap_or(false) + } + + /// Returns `true` if `self` is less than or equal to `version`. + /// + /// If `version` is less than `self`, or if `version` is not a valid Rust + /// version string, returns `false`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// let version = Version::parse("1.35.0").unwrap(); + /// + /// assert!(version.at_most("1.35.1")); + /// assert!(version.at_most("1.55.0")); + /// assert!(version.at_most("1.35.0")); + /// + /// assert!(!version.at_most("1.33.0")); + /// assert!(!version.at_most("1.13.2")); + /// ``` + pub fn at_most(&self, version: &str) -> bool { + Version::parse(version) + .map(|version| self <= &version) + .unwrap_or(false) + } + + /// Returns `true` if `self` is exactly equal to `version`. + /// + /// If `version` is not equal to `self`, or if `version` is not a valid Rust + /// version string, returns `false`. + /// + /// # Example + /// + /// ```rust + /// use version_check::Version; + /// + /// let version = Version::parse("1.35.0").unwrap(); + /// + /// assert!(version.exactly("1.35.0")); + /// + /// assert!(!version.exactly("1.33.0")); + /// assert!(!version.exactly("1.35.1")); + /// assert!(!version.exactly("1.13.2")); + /// ``` + pub fn exactly(&self, version: &str) -> bool { + Version::parse(version) + .map(|version| self == &version) + .unwrap_or(false) + } +} + +impl fmt::Display for Version { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + let (major, minor, patch) = self.to_mmp(); + write!(f, "{}.{}.{}", major, minor, patch) + } +} + +impl fmt::Debug for Version { + fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { + // We don't use `debug_*` because it's not available in `1.0.0`. + write!(f, "Version({:?}, {:?})", self.0, self.to_mmp()) + } +} + +#[cfg(test)] +mod tests { + use super::Version; + + macro_rules! assert_to_mmp { + // We don't use `.into::<Option<_>>` because it's not available in 1.0. + // We don't use the message part of `assert!` for the same reason. + ($s:expr, None) => ( + assert_eq!(Version::parse($s), None); + ); + ($s:expr, $mmp:expr) => ( + assert_eq!(Version::parse($s).map(|v| v.to_mmp()), Some($mmp)); + ) + } + + macro_rules! assert_from_mmp { + (($x:expr, $y:expr, $z:expr) => $s:expr) => { + assert_eq!(Some(Version::from_mmp($x, $y, $z)), Version::parse($s)); + }; + } + + #[test] + fn test_str_to_mmp() { + assert_to_mmp!("1", (1, 0, 0)); + assert_to_mmp!("1.2", (1, 2, 0)); + assert_to_mmp!("1.18.0", (1, 18, 0)); + assert_to_mmp!("3.19.0", (3, 19, 0)); + assert_to_mmp!("1.19.0-nightly", (1, 19, 0)); + assert_to_mmp!("1.12.2349", (1, 12, 2349)); + assert_to_mmp!("0.12", (0, 12, 0)); + assert_to_mmp!("1.12.5", (1, 12, 5)); + assert_to_mmp!("1.12", (1, 12, 0)); + assert_to_mmp!("1", (1, 0, 0)); + assert_to_mmp!("1.4.4-nightly (d84693b93 2017-07-09))", (1, 4, 4)); + assert_to_mmp!("1.58879.4478-dev", (1, 58879, 4478)); + assert_to_mmp!("1.58879.4478-dev (d84693b93 2017-07-09))", (1, 58879, 4478)); + } + + #[test] + fn test_malformed() { + assert_to_mmp!("1.65536.2", None); + assert_to_mmp!("-1.2.3", None); + assert_to_mmp!("1. 2", None); + assert_to_mmp!("", None); + assert_to_mmp!(" ", None); + assert_to_mmp!(".", None); + assert_to_mmp!("one", None); + assert_to_mmp!("1.", None); + assert_to_mmp!("1.2.3.4.5.6", None); + } + + #[test] + fn test_from_mmp() { + assert_from_mmp!((1, 18, 0) => "1.18.0"); + assert_from_mmp!((3, 19, 0) => "3.19.0"); + assert_from_mmp!((1, 19, 0) => "1.19.0"); + assert_from_mmp!((1, 12, 2349) => "1.12.2349"); + assert_from_mmp!((0, 12, 0) => "0.12"); + assert_from_mmp!((1, 12, 5) => "1.12.5"); + assert_from_mmp!((1, 12, 0) => "1.12"); + assert_from_mmp!((1, 0, 0) => "1"); + assert_from_mmp!((1, 4, 4) => "1.4.4"); + assert_from_mmp!((1, 58879, 4478) => "1.58879.4478"); + } + + #[test] + fn test_comparisons() { + let version = Version::parse("1.18.0").unwrap(); + assert!(version.exactly("1.18.0")); + assert!(version.at_least("1.12.0")); + assert!(version.at_least("1.12")); + assert!(version.at_least("1")); + assert!(version.at_most("1.18.1")); + assert!(!version.exactly("1.19.0")); + assert!(!version.exactly("1.18.1")); + + let version = Version::parse("1.20.0-nightly").unwrap(); + assert!(version.exactly("1.20.0-beta")); + assert!(version.exactly("1.20.0-nightly")); + assert!(version.exactly("1.20.0")); + assert!(!version.exactly("1.19")); + + let version = Version::parse("1.3").unwrap(); + assert!(version.exactly("1.3.0")); + assert!(version.exactly("1.3.0-stable")); + assert!(version.exactly("1.3")); + assert!(!version.exactly("1.5.0-stable")); + + let version = Version::parse("1").unwrap(); + assert!(version.exactly("1.0.0")); + assert!(version.exactly("1.0")); + assert!(version.exactly("1")); + + assert!(Version::parse("one.two.three").is_none()); + } + + macro_rules! reflexive_display { + ($s:expr) => ( + assert_eq!(Version::parse($s).unwrap().to_string(), $s); + ) + } + + #[test] + fn display() { + reflexive_display!("1.0.0"); + reflexive_display!("1.2.3"); + reflexive_display!("1.12.1438"); + reflexive_display!("1.44.0"); + reflexive_display!("2.44.0"); + reflexive_display!("23459.28923.3483"); + } +}
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