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pigweed / third_party / github / bazelbuild / rules_rust / aba97b0a01ed13736bb87566e1a83f06ecc5b552
commitaba97b0a01ed13736bb87566e1a83f06ecc5b552[log] [tgz]
authorDamien Martin-Guillerez <dmarting@google.com>Mon Feb 01 10:28:54 2016 +0000
committerDamien Martin-Guillerez <dmarting@google.com>Tue Feb 02 14:54:39 2016 +0000
tree1ad017e8cda675f122db72e4f59def940c1706bf
parentf817f9fbc2aa824aace30d29bdd8fbee48585a43 [diff]
Use labels in load statements

This will fix some issue with loading skylark rules from @bazel_tools.

Tested with ./compile.sh all and also a project that use pkg_tar from
@bazel_tools (which is broken at HEAD).

--
Change-Id: Iffbb7134ef5fee497890c4d01b85084973d45ad0
Reviewed-on: https://bazel-review.googlesource.com/2800
MOS_MIGRATED_REVID=113508661
2 files changed
tree: 1ad017e8cda675f122db72e4f59def940c1706bf
  1. test/
  2. BUILD
  3. README.md
  4. rust.BUILD
  5. rust.bzl
README.md

Rust Rules

Overview

These build rules are used for building Rust projects with Bazel.

Setup

To use the Rust rules, add the following to your WORKSPACE file to add the external repositories for the Rust toolchain:

load("/tools/build_rules/rust/rust", "rust_repositories")

rust_repositories()

Roadmap

  • Add rust_toolchain rule to make it easy to use a custom Rust toolchain.
  • Add tool for taking Cargo.toml and generating a WORKSPACE file with workspace rules for pulling external dependencies.
  • Improve expressiveness of features and support for Cargo's feature groups.
  • Add cargo_crate workspace rule for pulling crates from Cargo.

rust_library

rust_library(name, srcs, deps, data, crate_features, rustc_flags)

Example

Suppose you have the following directory structure for a simple Rust library crate:

[workspace]/
    WORKSPACE
    hello_lib/
        BUILD
        src/
            greeter.rs
            lib.rs

hello_lib/src/greeter.rs:

pub struct Greeter {
    greeting: String,
}

impl Greeter {
    pub fn new(greeting: &str) -> Greeter {
        Greeter { greeting: greeting.to_string(), }
    }

    pub fn greet(&self, thing: &str) {
        println!("{} {}", &self.greeting, thing);
    }
}

hello_lib/src/lib.rs:

pub mod greeter;

hello_lib/BUILD:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library")

rust_library(
    name = "hello_lib",
    srcs = [
        "src/greeter.rs",
        "src/lib.rs",
    ],
)

Build the library:

$ bazel build //hello_lib
INFO: Found 1 target...
Target //examples/rust/hello_lib:hello_lib up-to-date:
  bazel-bin/examples/rust/hello_lib/libhello_lib.rlib
INFO: Elapsed time: 1.245s, Critical Path: 1.01s

rust_binary

rust_binary(name, srcs, deps, data, crate_features, rustc_flags)

Example

Suppose you have the following directory structure for a Rust project with a library crate, hello_lib, and a binary crate, hello_world that uses the hello_lib library:

[workspace]/
    WORKSPACE
    hello_lib/
        BUILD
        src/
            lib.rs
    hello_world/
        BUILD
        src/
            main.rs

hello_lib/src/lib.rs:

pub struct Greeter {
    greeting: String,
}

impl Greeter {
    pub fn new(greeting: &str) -> Greeter {
        Greeter { greeting: greeting.to_string(), }
    }

    pub fn greet(&self, thing: &str) {
        println!("{} {}", &self.greeting, thing);
    }
}

hello_lib/BUILD:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library")

rust_library(
    name = "hello_lib",
    srcs = ["src/lib.rs"],
)

hello_world/src/main.rs:

extern crate hello_lib;

fn main() {
    let hello = hello_lib::Greeter::new("Hello");
    hello.greet("world");
}

hello_world/BUILD:

load("/tools/build_rules/rust/rust", "rust_binary")

rust_binary(
    name = "hello_world",
    srcs = ["src/main.rs"],
    deps = ["//hello_lib"],
)

Build and run hello_world:

$ bazel run //hello_world
INFO: Found 1 target...
Target //examples/rust/hello_world:hello_world up-to-date:
  bazel-bin/examples/rust/hello_world/hello_world
INFO: Elapsed time: 1.308s, Critical Path: 1.22s

INFO: Running command line: bazel-bin/examples/rust/hello_world/hello_world
Hello world

rust_test

rust_test(name, srcs, deps, data, crate_features, rustc_flags)

Example

Suppose you have the following directory structure for a Rust library crate with unit test code in the library sources:

[workspace]/
    WORKSPACE
    hello_lib/
        BUILD
        src/
            lib.rs

hello_lib/src/lib.rs:

pub struct Greeter {
    greeting: String,
}

impl Greeter {
    pub fn new(greeting: &str) -> Greeter {
        Greeter { greeting: greeting.to_string(), }
    }

    pub fn greet(&self, thing: &str) {
        println!("{} {}", &self.greeting, thing);
    }
}

#[cfg(test)]
mod test {
    use super::Greeter;

    #[test]
    fn test_greeting() {
        let hello = Greeter::new("Hi");
        assert_eq!("Hi Rust", hello.greeting("Rust"));
    }
}

To build and run the tests, simply add a rust_test rule with no srcs and only depends on the hello_lib rust_library target:

hello_lib/BUILD:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library", "rust_test")

rust_library(
    name = "hello_lib",
    srcs = ["src/lib.rs"],
)

rust_test(
    name = "hello_lib_test",
    deps = [":hello_lib"],
)

Run the test with bazel build //hello_lib:hello_lib_test.

Example: test directory

Integration tests that live in the tests directory, they are essentially built as separate crates. Suppose you have the following directory structure where greeting.rs is an integration test for the hello_lib library crate:

[workspace]/
    WORKSPACE
    hello_lib/
        BUILD
        src/
            lib.rs
        tests/
            greeting.rs

hello_lib/tests/greeting.rs:

extern crate hello_lib;

use hello_lib;

#[test]
fn test_greeting() {
    let hello = greeter::Greeter::new("Hello");
    assert_eq!("Hello world", hello.greeting("world"));
}

To build the greeting.rs integration test, simply add a rust_test target with greeting.rs in srcs and a dependency on the hello_lib target:

hello_lib/BUILD:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library", "rust_test")

rust_library(
    name = "hello_lib",
    srcs = ["src/lib.rs"],
)

rust_test(
    name = "greeting_test",
    srcs = ["tests/greeting.rs"],
    deps = [":hello_lib"],
)

Run the test with bazel build //hello_lib:hello_lib_test.

rust_bench_test

rust_bench_test(name, srcs, deps, data, crate_features, rustc_flags)

Warning: This rule is currently experimental. Rust Benchmark tests require the Bencher interface in the unstable libtest crate, which is behind the test unstable feature gate. As a result, using this rule would require using a nightly binary release of Rust. A rust_toolchain rule will be added in the near future to make it easy to use a custom Rust toolchain, such as a nightly release.

Example

Suppose you have the following directory structure for a Rust project with a library crate, fibonacci with benchmarks under the benches/ directory:

[workspace]/
    WORKSPACE
    fibonacci/
        BUILD
        src/
            lib.rs
        benches/
            fibonacci_bench.rs

fibonacci/src/lib.rs:

pub fn fibonacci(n: u64) -> u64 {
    if n < 2 {
        return n;
    }
    let mut n1: u64 = 0;
    let mut n2: u64 = 1;
    for _ in 1..n {
        let sum = n1 + n2;
        n1 = n2;
        n2 = sum;
    }
    n2
}

fibonacci/benches/fibonacci_bench.rs:

#![feature(test)]

extern crate test;
extern crate fibonacci;

use test::Bencher;

#[bench]
fn bench_fibonacci(b: &mut Bencher) {
    b.iter(|| fibonacci::fibonacci(40));
}

To build the benchmark test, simply add a rust_bench_test target:

fibonacci/BUILD:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library", "rust_bench_test")

rust_library(
    name = "fibonacci",
    srcs = ["src/lib.rs"],
)

rust_bench_test(
    name = "fibonacci_bench",
    srcs = ["benches/fibonacci_bench.rs"],
    deps = [":fibonacci"],
)

Run the benchmark test using: bazel build //fibonacci:fibonacci_bench.

rust_doc

rust_doc(name, dep, markdown_css, html_in_header, html_before_content, html_after_content)

Example

Suppose you have the following directory structure for a Rust library crate:

[workspace]/
    WORKSPACE
    hello_lib/
        BUILD
        src/
            lib.rs

To build rustdoc documentation for the hello_lib crate, define a rust_doc rule that depends on the the hello_lib rust_library target:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library", "rust_doc")

rust_library(
    name = "hello_lib",
    srcs = ["src/lib.rs"],
)

rust_doc(
    name = "hello_lib_doc",
    dep = ":hello_lib",
)

Running bazel build //hello_lib:hello_lib_doc will build a zip file containing the documentation for the hello_lib library crate generated by rustdoc.

rust_doc_test

rust_doc_test(name, dep)

Example

Suppose you have the following directory structure for a Rust library crate:

[workspace]/
    WORKSPACE
    hello_lib/
        BUILD
        src/
            lib.rs

To run documentation tests for the hello_lib crate, define a rust_doc_test target that depends on the hello_lib rust_library target:

package(default_visibility = ["//visibility:public"])

load("/tools/build_rules/rust/rust", "rust_library", "rust_doc_test")

rust_library(
    name = "hello_lib",
    srcs = ["src/lib.rs"],
)

rust_doc_test(
    name = "hello_lib_doc_test",
    dep = ":hello_lib",
)

Running bazel test //hello_lib:hello_lib_doc_test will run all documentation tests for the hello_lib library crate.