compiler/rustc_codegen_cranelift/docs/rustc_testing.md - rust-lang/rust - Git at Google

 # Building and testing with changes in rustc code

 This is useful when changing code in `rustc_codegen_cranelift` as part of changing [main Rust repository](https://github.com/rust-lang/rust/).
 This can happen, for example, when you are implementing a new compiler intrinsic.

 Instruction below uses `$RustCheckoutDir` as substitute for any folder where you cloned Rust repository.

 You need to do this steps to successfully compile and use the cranelift backend with your changes in rustc code:

 1. `cd $RustCheckoutDir`
 2. Run `python x.py setup` and choose option for compiler (`b`).
 3. Build compiler and necessary tools: `python x.py build --stage=2 compiler library/std src/tools/rustdoc src/tools/rustfmt`
    * (Optional) You can also build cargo by adding `src/tools/cargo` to previous command.
 4. Copy cargo from a nightly toolchain: `cp $(rustup +nightly which cargo) ./build/host/stage2/bin/cargo`. Note that you would need to do this every time you rebuilt `rust` repository.
 5. Link your new `rustc` to toolchain: `rustup toolchain link stage2 ./build/host/stage2/`.
 6. (Windows only) compile the build system: `rustc +stage2 -O build_system/main.rs -o y.exe`.
 7. You need to prefix every `./y.sh` (or `y` if you built `build_system/main.rs` as `y`) command by `rustup run stage2` to make cg_clif use your local changes in rustc.
   * `rustup run stage2 ./y.sh prepare`
   * `rustup run stage2 ./y.sh build`
   * (Optional) run tests: `rustup run stage2 ./y.sh test`
 8. Now you can use your cg_clif build to compile other Rust programs, e.g. you can open any Rust crate and run commands like `$RustCheckoutDir/compiler/rustc_codegen_cranelift/dist/cargo-clif build --release`.

 You can also set `rust-analyzer.rustc.source` to your rust workspace to get rust-analyzer to understand your changes.
	# Building and testing with changes in rustc code

	This is useful when changing code in `rustc_codegen_cranelift` as part of changing [main Rust repository](https://github.com/rust-lang/rust/).
	This can happen, for example, when you are implementing a new compiler intrinsic.

	Instruction below uses `$RustCheckoutDir` as substitute for any folder where you cloned Rust repository.

	You need to do this steps to successfully compile and use the cranelift backend with your changes in rustc code:

	1. `cd $RustCheckoutDir`
	2. Run `python x.py setup` and choose option for compiler (`b`).
	3. Build compiler and necessary tools: `python x.py build --stage=2 compiler library/std src/tools/rustdoc src/tools/rustfmt`
	* (Optional) You can also build cargo by adding `src/tools/cargo` to previous command.
	4. Copy cargo from a nightly toolchain: `cp $(rustup +nightly which cargo) ./build/host/stage2/bin/cargo`. Note that you would need to do this every time you rebuilt `rust` repository.
	5. Link your new `rustc` to toolchain: `rustup toolchain link stage2 ./build/host/stage2/`.
	6. (Windows only) compile the build system: `rustc +stage2 -O build_system/main.rs -o y.exe`.
	7. You need to prefix every `./y.sh` (or `y` if you built `build_system/main.rs` as `y`) command by `rustup run stage2` to make cg_clif use your local changes in rustc.
	* `rustup run stage2 ./y.sh prepare`
	* `rustup run stage2 ./y.sh build`
	* (Optional) run tests: `rustup run stage2 ./y.sh test`
	8. Now you can use your cg_clif build to compile other Rust programs, e.g. you can open any Rust crate and run commands like `$RustCheckoutDir/compiler/rustc_codegen_cranelift/dist/cargo-clif build --release`.

	You can also set `rust-analyzer.rustc.source` to your rust workspace to get rust-analyzer to understand your changes.