f9116a751d
This PR updates wgpu to the latest and changes the way we pass object descriptors to the GPU process. Instead of trying to convert them between DOM-CPP-IPDL-FFI-Rust, we now do DOM-FFI-Rust and serialize them by serde into ipc::ByteBuf objects. Differential Revision: https://phabricator.services.mozilla.com/D94908 |
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src | ||
.cargo-checksum.json | ||
Cargo.toml | ||
LICENSE | ||
NOTICES.md | ||
README.md |
CFG Aliases
CFG Aliases is a tiny utility to help save you a lot of effort with long winded #[cfg()]
checks. This crate provides a single [cfg_aliases!
] macro that doesn't have any dependencies and specifically avoids pulling in syn
or quote
so that the impact on your comile times should be negligible.
You use the the [cfg_aliases!
] macro in your build.rs
script to define aliases such as x11
that could then be used in the cfg
attribute or macro for conditional compilation: #[cfg(x11)]
.
Example
Cargo.toml:
[build-dependencies]
cfg_aliases = "0.1.0"
build.rs:
use cfg_aliases::cfg_aliases;
fn main() {
// Setup cfg aliases
cfg_aliases! {
// Platforms
wasm: { target_arch = "wasm32" },
android: { target_os = "android" },
macos: { target_os = "macos" },
linux: { target_os = "linux" },
// Backends
surfman: { all(unix, feature = "surfman", not(wasm)) },
glutin: { all(feature = "glutin", not(wasm)) },
wgl: { all(windows, feature = "wgl", not(wasm)) },
dummy: { not(any(wasm, glutin, wgl, surfman)) },
}
}
Now that we have our aliases setup we can use them just like you would expect:
#[cfg(wasm)]
println!("This is running in WASM");
#[cfg(surfman)]
{
// Do stuff related to surfman
}
#[cfg(dummy)]
println!("We're in dummy mode, specify another feature if you want a smarter app!");
This greatly improves what would otherwise look like this without the aliases:
#[cfg(target_arch = "wasm32")]
println!("We're running in WASM");
#[cfg(all(unix, feature = "surfman", not(target_arch = "wasm32")))]
{
// Do stuff related to surfman
}
#[cfg(not(any(
target_arch = "wasm32",
all(unix, feature = "surfman", not(target_arch = "wasm32")),
all(windows, feature = "wgl", not(target_arch = "wasm32")),
all(feature = "glutin", not(target_arch = "wasm32")),
)))]
println!("We're in dummy mode, specify another feature if you want a smarter app!");
You can also use the cfg!
macro or combine your aliases with other checks using all()
, not()
, and any()
. Your aliases are genuine cfg
flags now!
if cfg!(glutin) {
// use glutin
} else {
// Do something else
}
#[cfg(all(glutin, surfman))]
compile_error!("You cannot specify both `glutin` and `surfman` features");
Syntax and Error Messages
The aliase names are restricted to the same rules as rust identifiers which, for one, means that they cannot have dashes ( -
) in them. Additionally, if you get certain syntax elements wrong, such as the alias name, the macro will error saying that the recursion limit was reached instead of giving a clear indication of what actually went wrong. This is due to a nuance with the macro parser and it might be fixed in a later release of this crate. It is also possible that aliases with dashes in the name might be supported in a later release. Open an issue if that is something that you would like implemented.
Finally, you can also induce an infinite recursion by having rules that both reference each-other, but this isn't a real limitation because that doesn't make logical sense anyway:
// This causes an error!
cfg_aliases! {
test1: { not(test2) },
test2: { not(test1) },
}
Attribution and Thanks
- Thanks to my God and Father who led me through figuring this out and to whome I owe everything.
- Thanks to @Yandros on the Rust forum for showing me some crazy macro hacks!
- Thanks to @sfackler for pointing out the way to make cargo add the cfg flags.
- Thanks to the authors of the
tectonic_cfg_support::target_cfg
macro from which most of the cfg attribute parsing logic is taken from. Also thanks to @ratmice for bringing it up on the Rust forum.