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gfx-rs is a low-level, cross-platform graphics and compute abstraction library in Rust. It consists of the following components:
gfx-hal
which is gfx's hardware abstraction layer: a Vulkan-ic mostly unsafe API which translates to native graphics backends.gfx-backend-*
which contains graphics backends for various platforms:- Vulkan (confirmed to run on Linux and Windows)
- DirectX 12 and DirectX 11
- Metal (confirmed to run on macOS and iOS)
- OpenGL 2.1+/ES2+
gfx-warden
which is a data-driven reference test framework, used to verify consistency across all graphics backends.
gfx-rs is hard to use, it's recommended for performance-sensitive libraries and engines. If that's not your domain, take a look at wgpu-rs for a safe and simple alternative.
This repository was originally home to the gfx
crate, which is now deprecated. You can find the latest versions of the code for that crate in the pre-ll
branch of this repository.
The master branch of this repository is now focused on developing gfx-hal
and its associated backend and helper libraries, as described above. gfx-hal
is a complete rewrite of gfx
, but it is not necessarily the direct successor to gfx
. Instead, it serves a different purpose than the original gfx
crate, by being "lower level" than the original. Hence, the name of gfx-hal
was originally ll
, which stands for "lower level", and the original gfx
is now referred to as pre-ll
.
The spiritual successor to the original gfx
is actually wgpu
, which stands on a similar level of abstraction to the old gfx
crate, but with a modernized API that is more fit for being used over Vulkan/DX12/Metal. If you want something similar to the old gfx
crate that is being actively developed, wgpu
is probably what you're looking for, rather than gfx-hal
.
To run an example, simply cd
to the examples
directory, then use cargo run
with --features {backend}
to specify the backend (where {backend}
is either vulkan
, dx12
, dx11
, metal
, or gl
). For example:
# Clone the gfx repository
git clone https://github.com/gfx-rs/gfx
# Change directory to `examples`
cd gfx/examples
# Vulkan
cargo run --bin quad --features vulkan
# Metal (macOS/iOS)
cargo run --bin quad --features metal
# DirectX12 (Windows)
cargo run --bin compute --features dx12 1 2 3 4
This runs the quad
example using the Vulkan backend, and then the compute
example using the DirectX 12 backend.
These examples assume that necessary dependencies for the graphics backend are already installed. For more information about installation and usage, refer to the Getting Started guide.
The Hardware Abstraction Layer (HAL), is a thin, low-level graphics and compute layer which translates API calls to various backends, which allows for cross-platform support. The API of this layer is based on the Vulkan API, adapted to be more Rust-friendly.
Currently HAL has backends for Vulkan, DirectX 12/11, Metal, and OpenGL/OpenGL ES/WebGL.
The HAL layer is consumed directly by user applications or libraries. HAL is also used in efforts such as gfx-portability.
The code in master
is a complete low-level rewrite of gfx based on HAL as described above.
The previously released crates (gfx_core
, gfx
, gfx_device_*
, gfx_window_
) are still being developed and published from the pre-ll (pre-low level rewrite) branch.
We are actively looking for new contributors and aim to be welcoming and helpful to anyone that is interested! We know the code base can be a bit intimidating in size and depth at first, and to this end we have a label on the issue tracker which marks issues that are new contributor friendly and have some basic direction for completion in the issue comments. If you have any questions about any of these issues (or any other issues) you may want to work on, please comment on GitHub and/or drop a message in our Matrix chat!
This repository is licensed under either of
- Apache License, Version 2.0, (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.