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2025-07-18Merge pull request #1860 from folkertdev/stdarch-test-cleanupAmanieu d'Antras-1/+0
`stdarch-test`: various cleanups
2025-07-16Update `wasmprinter` to latestsayantn-1/+1
2025-07-15`stdarch-test`: use `std::sync::LazyLock` instead of `lazy_static!`Folkert de Vries-1/+0
2025-02-09Update all crates to Rust 2024Eric Huss-1/+1
2023-10-10Bump wasmprinter to 0.2.67Eduardo Sánchez Muñoz-1/+1
2023-08-29Fix CI on wasm32-wasiAmanieu d'Antras-1/+3
The cc dependency doesn't compile on wasi, so only include it for windows targets.
2023-03-19wasm32: Add relaxed simd instructionsAlex Crichton-1/+1
This commit adds intrinsics to the `wasm32` to support the [relaxed SIMD proposal][proposal]. These are added with the same naming conventions of existing simd-related intrinsics for wasm which is similar to the instruction name but matches sign in a few places. This additionally updates Wasmtime to execute tests with support for the relaxed simd proposal. No release has been made yet so this uses the `dev` release, and I can make a PR in April when the support in Wasmtime has been released to an official release. The `wasmprinter` crate is also updated to understand these instruction opcodes as well. Documentation has been added for all intrinsics, but tests have only been added for some of them so far. I hope to follow-up later with more tests. [proposal]: https://github.com/WebAssembly/relaxed-simd
2022-10-25Edition 2021, apply clippy::uninlined_format_args fix (#1339)Yuri Astrakhan-1/+1
2022-09-11Bump `cfg-if` dependency to 1.0Charles Lew-1/+1
2021-04-11Convert all crates to 2018 edition (#1109)Joshua Nelson-0/+1
2021-03-11Update WebAssembly SIMD/Atomics (#1073)Alex Crichton-1/+1
2020-07-18Update and revamp wasm32 SIMD intrinsics (#874)Alex Crichton-4/+7
Lots of time and lots of things have happened since the simd128 support was first added to this crate. Things are starting to settle down now so this commit syncs the Rust intrinsic definitions with the current specification (https://github.com/WebAssembly/simd). Unfortuantely not everything can be enabled just yet but everything is in the pipeline for getting enabled soon. This commit also applies a major revamp to how intrinsics are tested. The intention is that the setup should be much more lightweight and/or easy to work with after this commit. At a high-level, the changes here are: * Testing with node.js and `#[wasm_bindgen]` has been removed. Instead intrinsics are tested with Wasmtime which has a nearly complete implementation of the SIMD spec (and soon fully complete!) * Testing is switched to `wasm32-wasi` to make idiomatic Rust bits a bit easier to work with (e.g. `panic!)` * Testing of this crate's simd128 feature for wasm is re-enabled. This will run on CI and both compile and execute intrinsics. This should bring wasm intrinsics to the same level of parity as x86 intrinsics, for example. * New wasm intrinsics have been added: * `iNNxMM_loadAxA_{s,u}` * `vNNxMM_load_splat` * `v8x16_swizzle` * `v128_andnot` * `iNNxMM_abs` * `iNNxMM_narrow_*_{u,s}` * `iNNxMM_bitmask` - commented out until LLVM is updated to LLVM 11 * `iNNxMM_widen_*_{u,s}` - commented out until bytecodealliance/wasmtime#1994 lands * `iNNxMM_{max,min}_{u,s}` * `iNNxMM_avgr_u` * Some wasm intrinsics have been removed: * `i64x2_trunc_*` * `f64x2_convert_*` * `i8x16_mul` * The `v8x16.shuffle` instruction is exposed. This is done through a `macro` (not `macro_rules!`, but `macro`). This is intended to be somewhat experimental and unstable until we decide otherwise. This instruction has 16 immediate-mode expressions and is as a result unsuited to the existing `constify_*` logic of this crate. I'm hoping that we can game out over time what a macro might look like and/or look for better solutions. For now, though, what's implemented is the first of its kind in this crate (an architecture-specific macro), so some extra scrutiny looking at it would be appreciated. * Lots of `assert_instr` annotations have been fixed for wasm. * All wasm simd128 tests are uncommented and passing now. This is still missing tests for new intrinsics and it's also missing tests for various corner cases. I hope to get to those later as the upstream spec itself gets closer to stabilization. In the meantime, however, I went ahead and updated the `hex.rs` example with a wasm implementation using intrinsics. With it I got some very impressive speedups using Wasmtime: test benches::large_default ... bench: 213,961 ns/iter (+/- 5,108) = 4900 MB/s test benches::large_fallback ... bench: 3,108,434 ns/iter (+/- 75,730) = 337 MB/s test benches::small_default ... bench: 52 ns/iter (+/- 0) = 2250 MB/s test benches::small_fallback ... bench: 358 ns/iter (+/- 0) = 326 MB/s or otherwise using Wasmtime hex encoding using SIMD is 15x faster on 1MB chunks or 7x faster on small <128byte chunks. All of these intrinsics are still unstable and will continue to be so presumably until the simd proposal in wasm itself progresses to a later stage. Additionaly we'll still want to sync with clang on intrinsic names (or decide not to) at some point in the future. * wasm: Unconditionally expose SIMD functions This commit unconditionally exposes SIMD functions from the `wasm32` module. This is done in such a way that the standard library does not need to be recompiled to access SIMD intrinsics and use them. This, hopefully, is the long-term story for SIMD in WebAssembly in Rust. It's unlikely that all WebAssembly runtimes will end up implementing SIMD so the standard library is unlikely to use SIMD any time soon, but we want to make sure it's easily available to folks! This commit enables all this by ensuring that SIMD is available to the standard library, regardless of compilation flags. This'll come with the same caveats as x86 support, where it doesn't make sense to call these functions unless you're enabling simd support one way or another locally. Additionally, as with x86, if you don't call these functions then the instructions won't show up in your binary. While I was here I went ahead and expanded the WebAssembly-specific documentation for the wasm32 module as well, ensuring that the current state of SIMD/Atomics are documented.
2019-07-09Update repo namegnzlbg-0/+20