Cross-platform, safe, pure-rust graphics api.
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wgpu

Matrix Space Dev Matrix  User Matrix Build Status codecov.io

wgpu is a cross-platform, safe, pure-rust graphics api. It runs natively on Vulkan, Metal, D3D12, D3D11, and OpenGLES; and on top of WebGPU on wasm.

The api is based on the WebGPU standard. It serves as the core of the WebGPU integration in Firefox, Servo, and Deno.

Repo Overview

The repository hosts the following libraries:

  • Crates.io docs.rs - User facing Rust API.
  • Crates.io docs.rs - Internal WebGPU implementation.
  • Crates.io docs.rs - Internal unsafe GPU API abstraction layer.
  • Crates.io docs.rs - Rust types shared between all crates.
  • Crates.io - WebGPU implementation for the Deno JavaScript/TypeScript runtime

The following binaries:

  • cts_runner - WebGPU Conformance Test Suite runner using deno_webgpu.
  • player - standalone application for replaying the API traces.
  • wgpu-info - program that prints out information about all the adapters on the system or invokes a command for every adapter.

For an overview of all the components in the gfx-rs ecosystem, see the big picture.

MSRV policy

Minimum Supported Rust Version is 1.65. It is enforced on CI (in "/.github/workflows/ci.yml") with RUST_VERSION variable. This version can only be upgraded in breaking releases.

The wgpu-core, wgpu-hal, and wgpu-types crates should never require an MSRV ahead of Firefox's MSRV for nightly builds, as determined by the value of MINIMUM_RUST_VERSION in python/mozboot/mozboot/util.py. However, Firefox uses cargo vendor to extract only those crates it actually uses, so the workspace's other crates can have more recent MSRVs.

Note for Rust 1.64: The workspace itself can even use a newer MSRV than Firefox, as long as the vendoring step's Cargo.toml rewriting removes any features Firefox's MSRV couldn't handle. For example, wgpu can use manifest key inheritance, added in Rust 1.64, even before Firefox reaches that MSRV, because cargo vendor copies inherited values directly into the individual crates' Cargo.toml files, producing 1.63-compatible files.

Getting Started

Rust

Rust examples can be found at wgpu/examples. You can run the examples with cargo run --bin name. See the list of examples. For detailed instructions, look at Running the examples on the wiki.

If you are looking for a wgpu tutorial, look at the following:

C/C++

To use wgpu in C/C++, you need wgpu-native.

If you are looking for a wgpu C++ tutorial, look at the following:

Others

If you want to use wgpu in other languages, there are many bindings to wgpu-native from languages such as Python, D, Julia, Kotlin, and more. See the list.

Community

We have the Matrix space Matrix Space with a few different rooms that form the wgpu community:

  • Dev Matrix - discussion of the library's development.
  • User Matrix - discussion of using the library and the surrounding ecosystem.
  • Random Matrix - discussion of everything else.

Wiki

We have a wiki that serves as a knowledge base.

Supported Platforms

API Windows Linux & Android macOS & iOS
Vulkan 🆗 (vulkan-portability)
Metal
DX12 (W10+ only)
DX11 🛠️
GLES3 🆗
Angle 🆗 🆗 🆗 (macOS only)

= First Class Support — 🆗 = Best Effort Support — 🛠️ = Unsupported, but support in progress

Shader Support

wgpu supports shaders in WGSL, SPIR-V, and GLSL. Both HLSL and GLSL have compilers to target SPIR-V. All of these shader languages can be used with any backend, we will handle all of the conversion. Additionally, support for these shader inputs is not going away.

While WebGPU does not support any shading language other than WGSL, we will automatically convert your non-WGSL shaders if you're running on WebGPU.

WGSL is always supported by default, but GLSL and SPIR-V need features enabled to compile in support.

Note that the WGSL specification is still under development, so the draft specification does not exactly describe what wgpu supports. See below for details.

To enable SPIR-V shaders, enable the spirv feature of wgpu. To enable GLSL shaders, enable the glsl feature of wgpu.

Angle

Angle is a translation layer from GLES to other backends, developed by Google. We support running our GLES3 backend over it in order to reach platforms with GLES2 or DX11 support, which aren't accessible otherwise. In order to run with Angle, "angle" feature has to be enabled, and Angle libraries placed in a location visible to the application. These binaries can be downloaded from gfbuild-angle artifacts, manual compilation may be required on Macs with Apple silicon.

On Windows, you generally need to copy them into the working directory, in the same directory as the executable, or somewhere in your path. On Linux, you can point to them using LD_LIBRARY_PATH environment.

Environment Variables

All testing and example infrastructure shares the same set of environment variables that determine which Backend/GPU it will run on.

  • WGPU_ADAPTER_NAME with a substring of the name of the adapter you want to use (ex. 1080 will match NVIDIA GeForce 1080ti).
  • WGPU_BACKEND with a comma separated list of the backends you want to use (vulkan, metal, dx12, dx11, or gl).
  • WGPU_POWER_PREF with the power preference to choose when a specific adapter name isn't specified (high or low)
  • WGPU_DX12_COMPILER with the DX12 shader compiler you wish to use (dxc or fxc, note that dxc requires dxil.dll and dxcompiler.dll to be in the working directory otherwise it will fall back to fxc)

When running the CTS, use the variables DENO_WEBGPU_ADAPTER_NAME, DENO_WEBGPU_BACKEND, DENO_WEBGPU_POWER_PREFERENCE.

Testing

We have multiple methods of testing, each of which tests different qualities about wgpu. We automatically run our tests on CI if possible. The current state of CI testing:

Backend/Platform Tests CTS Notes
DX12/Windows 10 ✔️ ✔️ using WARP
DX11/Windows 10 🚧 using WARP
Metal/MacOS metal requires GPU
Vulkan/Linux ✔️ using lavapipe, cts hangs
GLES/Linux ✔️ using llvmpipe

Core Test Infrastructure

We use a tool called cargo nextest to run our tests. To install it, run cargo install cargo-nextest.

To run the test suite on the default device:

cargo nextest run --no-fail-fast

wgpu-info can run the tests once for each adapter on your system.

cargo run --bin wgpu-info -- cargo nextest run --no-fail-fast

Then to run an example's image comparison tests, run:

cargo nextest run <example-test-name> --no-fail-fast

Or run a part of the integration test suite:

cargo nextest run -p wgpu -- <name-of-test>

If you are a user and want a way to help contribute to wgpu, we always need more help writing test cases.

WebGPU Conformance Test Suite

WebGPU includes a Conformance Test Suite to validate that implementations are working correctly. We can run this CTS against wgpu.

To run the CTS, first you need to check it out:

git clone https://github.com/gpuweb/cts.git
cd cts
# works in bash and powershell
git checkout $(cat ../cts_runner/revision.txt)

To run a given set of tests:

# Must be inside the cts folder we just checked out, else this will fail
cargo run --manifest-path ../cts_runner/Cargo.toml -- ./tools/run_deno --verbose "<test string>"

To find the full list of tests, go to the online cts viewer.

The list of currently enabled CTS tests can be found here.

Tracking the WebGPU and WGSL draft specifications

The wgpu crate is meant to be an idiomatic Rust translation of the WebGPU API. That specification, along with its shading language, WGSL, are both still in the "Working Draft" phase, and while the general outlines are stable, details change frequently. Until the specification is stabilized, the wgpu crate and the version of WGSL it implements will likely differ from what is specified, as the implementation catches up.

Exactly which WGSL features wgpu supports depends on how you are using it:

  • When running as native code, wgpu uses the Naga crate to translate WGSL code into the shading language of your platform's native GPU API. Naga has a milestone for catching up to the WGSL specification, but in general there is no up-to-date summary of the differences between Naga and the WGSL spec.

  • When running in a web browser (by compilation to WebAssembly) without the "webgl" feature enabled, wgpu relies on the browser's own WebGPU implementation. WGSL shaders are simply passed through to the browser, so that determines which WGSL features you can use.

  • When running in a web browser with wgpu's "webgl" feature enabled, wgpu uses Naga to translate WGSL programs into GLSL. This uses the same version of Naga as if you were running wgpu as native code.

Coordinate Systems

wgpu uses the coordinate systems of D3D and Metal:

Render Texture
render_coordinates texture_coordinates