tree: eb7ec2669927bf817aa4672536fe63b5f26a15f7 [path history] [tgz]
  1. BUILD.gn
  2. expect_macros.rs
  3. gtest_attribute.rs
  4. OWNERS
  5. README.md
  6. rust_gtest_interop.cc
  7. rust_gtest_interop.h
  8. rust_gtest_interop.rs
  9. rust_gtest_interop_unittest.rs
  10. rust_gtest_interop_unittest_main.cc
testing/rust_gtest_interop/README.md

Rust integration into C++ Gtest targets.

This directory contains the tools for writing gtest-based tests in Rust and integrating them into Chromium's C++ gtest binaries. The tools are all accessible through the rust_gtest_interop target which is automatically included in test targets that depend on //testing/gtest.

To add rust unittests to a C++ Gtest target

A typical Gtest target is defined in a BUILD.gn file, with something like this:

BUILD.gn:

test("some_unittests") {
  sources = [
    "a_cpp_file.cc",
    "another_cpp_file.cc",
  ]
  deps = [
    "//testing/gtest",
  ]
}

To add a Rust file to the test suite, simply add it to the sources. Unlike other Rust crates, the crate_root is not specified, since it is generated from the sources list.

BUILD.gn:

test("some_unittests") {
  sources = [
    "a_cpp_file.cc",
    "another_cpp_file.cc",
    "a_rust_file.rs",
  ]
  deps = [
    "//testing/gtest",
  ]
}

Transitively depending on a rust_static_library will include its tests (similarly to tests authored in C++), although in that case the rust_static_library should explicitly declare its dependency on //testing/rust_gtest_interop and set testonly as well as is_gtest_unittests.

rust_static_library("my_rust_lib_unittests") {
  testonly = true
  is_gtest_unittests = true
  crate_root = "my_rust_lib_unittest.rs"
  sources = [ "my_rust_lib_unittest.rs" ]
  deps = [
    ":my_rust_lib",
    "//testing/rust_gtest_interop",
  ]
}

test("some_unittests") {
  ...
  deps += [ ":my_rust_lib_unittests" ]
}

To write a Gtest unit test in Rust

To write a unit test, you simply write a function an decorate it with the #[gtest] macro. The macro takes 2 arguments, which are the test suite name and the test name, just like the C++ TEST() macro.

The #[gtest] macro is provided by the rust_gtest_interop crate, and is exported in the prelude module. Typically a unit test file would start with use rust_gtest_interop::prelude::*; which includes all of the available gtest macros. This is similar to writing #include "testing/gtest/include/gtest/gtest.h" in C++.

A Rust test:

use rust_gtest_interop::prelude::*;  // Provides all the gtest macros.

#[gtest(MyTestSuite, MyTestOfThing)]
fn test() {
  ...
}

A C++ test:

#include "testing/gtest/include/gtest/gtest.h"  // Provides all the gtest macros.

TEST(MyTestSuite, MyTestOfThing) {
  ...
}

Expectations

We have access to many of the same EXPECT macros in Rust that are familiar to C++ Gtest users, though they are used with Rust's macro syntax.

The macros currently available are:

expect_true!(is_friday());
expect_false!(is_saturday());

expect_eq!(2, 1 + 1);  // A == B
expect_ne!(3, 1 + 2);  // A != B

expect_lt!(1 * 1, 1 * 2);  // A < B
expect_gt!(4 * 1, 1 * 2);  // A > B
expect_le!(2 * 1, 1 * 2);  // A <= B
expect_ge!(3 * 1, 2 * 3);  // A >= B

Returning a Result

A C++ test always returns void and Rust tests usually do as well. But if your test calls a function that returns Result, it is convenient to make use of the ? operator instead of checking the Result value explicitly. Thus a test can either return:

  1. () aka void.
  2. std::result::Result<(), E> for any E that can be converted to a std::error::Error. (Or in Rust parlance, for any E for which there is Into<std::error::Error>). Common error types are std::io::Error or String.

If the test with a std::result::Result return type returns Result::Err, the test will fail and display the error.

In this example, the test will fail if it can not read from file.txt, or if it does not contain "hello world":

#[gtest(TestingIO, ReadFile)]
fn test() -> std::io::Result {
  let s = std::fs::read_to_string("file.txt")?;
  expect_eq!(s, "hello world");
  Ok(())
}

Shared helper utilities

Sometimes tests across different test files want to share helper utilities. Such helpers should be placed in a separate GN target, typically named with a _test_support suffix, such as starship_test_support for the starship_unittests. And would also usually be found in a test/ subdirectory.

Example

The starship_unittests test() target would include any unit test files, such as starship_unittest.rs. And the starship_test_support rust_static_library() GN target would include the files in the test/ subdirectory, such as starship_test_helper.rs and starship_test_things.rs.

src/
  starship/
    starship_unittest.rs
    test/
      starship_test_helper.rs
      starship_test_things.rs