Code coverage

When people talk about code coverage, they’re referring to metrics which show how much of their source code is “covered” by their tests. Now covering the code is of course only the first step, the tests actually have to test the functionality in a meaningful way, but coverage is a good way of finding areas in your code which you haven’t tested as thoroughly.

So how do we define coverage? Well there are numerous metrics, Wikipedia lists these methods as the simplest ways of measuring coverage.

Function coverage - how many functions have been executed?

Statement (line) coverage - how many statements have been executed?

Branch coverage - how many of the possible paths have been executed?

Condition coverage - how many boolean subconditions have been executed?

Currently, open source coverage tools (bcov, gcov, kcov) only offer statement coverage. They also require some effort to execute depending on your language and project setup. This is the motivation for tarpaulin, a code coverage tool created specifically for rust as a cargo subcommand.

Why tarpaulin?

Tarpaulin uses cargo as a library meaning it can automatically identify files in your project. It can also generate and identify the test executables and run coverage on all of them.

Compare this to kcov where you need to clean the project area, build the test executables then iterate over the executables in target/debug running kcov on each one and merging the reports at the end. Additionally, kcov will include extern crate definitions and module statements ( pub mod foo ) in it’s coverage results. Tarpaulin is designed for rust and aims to remove lines which are “uncoverable” from the coverage results.

Below is some example output for tarpaulin ran on one of the example projects.

cargo tarpaulin Launching test running 1 test test tests::bad_test ... ok test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured Coverage Results src/lib.rs: 7/8 src/unused.rs: 0/4 58.33% coverage, 7/12 lines covered

Currently, tarpaulin implements line coverage and has coveralls.io integration. It is linux only and only designed with x86_64 support (so 64 bit AMD and Intel processors). Wider support is planned for future expansion, but this should work for the majority of users.

By focusing on Rust only and it’s build system tarpaulin can potentially provide better results by being able to extend information derived from the test binaries with information from cargo and the source code itself. By having access to crates like syntex, tarpaulin aims to become the first open source code coverage tool to offer a solution for condition coverage.

That’s all for this relatively short introduction, check out the github repository for more information as well as the roadmap! If you find any issues please raise them and I should get back to you fairly sharpish.