Exercism exercises in Rust
Thank you so much for contributing! 🎉
Please read about how to get involved in a track. Be sure to read the Exercism Code of Conduct.
We welcome pull requests of all kinds. No contribution is too small.
We encourage contributions that provide fixes and improvements to existing exercises. Please note that this track's exercises must conform to the Exercism-wide standards described in the documentation. If you're unsure about how to make a change, then go ahead and open a GitHub issue, and we'll discuss it.
If you want to contribute but don't know where to start, the issues tab shows what items are currently of interest to the community. In addition, it is often worth checking the track dashboard, which flags any exercises whose version has fallen behind the version of the canonical data. PRs which keep the track up to date are particularly welcome!
At the most basic level, Exercism is all about the tests. You can read more about how we think about test suites in the Exercism documentation.
Test files should use the following format:
extern crate exercise_name;
use exercise_name::*;
#[test]
fn test_descriptive_name() {
assert_eq!(exercise_function(1), 1);
}
#[test]
#[ignore]
fn test_second_and_past_tests_ignored() {
assert_ne!(exercise_function(1), 2);
}
If you plan to make significant or breaking changes, please open an issue so we can discuss it first. If this is a discussion that is relevant to more than just the Rust track, please open an issue in exercism/discussions.
Pull requests should be focused on a single exercise, issue, or conceptually cohesive change. Please refer to Exercism's pull request guidelines.
Please follow the coding standards for Rust. rustfmt may help with this
and can be installed with cargo install rustfmt
.
Before submitting your pull request, you'll want to verify the changes in two ways:
- Run all the tests for the Rust exercises
- Run an Exercism-specific linter to verify the track
All the tests for Rust exercises can be run from the top level of the repo with _test/check-exercises.sh
. If you are on a Windows machine, there are additional Windows-specific instructions for running this.
Please note that the README of every exercise is formed using several templates, not all of which are necessarily present on this repo. The most important of these:
-
The
description.md
file in the exercise directory from the problem-specifications repository -
The
.meta/hints.md
file in the exercise directory on this repository
If you are modifying the section of the README that belongs to the template not from this repository, please consider opening a PR on the problem-specifications
repository first.
Please see the documentation about adding new exercises.
Note that:
-
The simplest way to generate, update or configure an exercise is to use the exercise utility provided in this repository. To compile the utility you can use the bin/build_exercise_crate.sh script or, if the script does not work for you, use the
cargo build --release
command in theutil/exercise/
directory and then copy theexercise
binary from theutil/exercise/target/release/
directory into thebin/
directory. Usebin/exercise --help
to learn about the existing commands and their possible usage. -
Each exercise must stand on its own. Do not reference files outside the exercise directory. They will not be included when the user fetches the exercise.
-
Exercises must conform to the Exercism-wide standards described in the documentation.
-
Each exercise should have:
exercises/exercise-name/ tests/exercise-name.rs <- a test suite src/lib.rs <- an empty file or with exercise stubs example.rs <- example solution that satisfies tests Cargo.toml <- with version equal to exercise definition Cargo.lock <- Auto generated README.md <- Instructions for the exercise (see notes below)
-
The stub file and test suite should use only the Rust core libraries.
Cargo.toml
should not list any external dependencies as we don't want to make the student assume required crates. If anexample.rs
uses external crates, includeCargo-example.toml
so that_tests/check-exercises.sh
can compile with these when testing. -
Except in extraordinary circumstances, the stub file should compile under
cargo test --no-run
. This allows us to check that the signatures in the stub file match the signatures expected by the tests. Useunimplemented!()
as the body of each function to achieve this. If there is a justified reason why this is not possible, instead include a.meta/ALLOWED_TO_NOT_COMPILE
containing the reason. -
If porting an existing exercise from problem-specifications that has a
canonical-data.json
file, use the version incanonical-data.json
for that exercise as yourCargo.toml
version. Otherwise, use "0.0.0". -
An exercise may contain
.meta/hints.md
. This is optional and will appear after the normal exercise instructions if present. Rust is different in many ways from other languages. This is a place where the differences required for Rust are explained. If it is a large change, you may want to call this out as a comment at the top ofsrc/lib.rs
, so the user recognizes to read this section before starting. -
If the test suite is appreciably sped up by running in release mode, and there is reason to be confident that the example implementation does not contain any overflow errors, consider adding a file
.meta/test-in-release-mode
. This should contain brief comments explaining the situation. -
If your exercise implements macro-based testing (see #392 and
perfect-numbers.rs
), you will likely run afoul of a CI check which counts the#[ignore]
lines and compares the result to the number of#[test]
lines. To fix this, add a file.meta/ignore-count-ignores
to disable that check for your exercise. -
README.md
may be regenerated from Exercism data. The generator will use thedescription.md
from the exercise directory in the problem-specifications repository, then any hints in.meta/hints.md
, then the Rust-specific instructions. The## Source
section comes from themetadata.yml
in the same directory. Convention is that the description of the source remains text and the link is both name and hyperlink of the markdown link. -
Be sure to add the exercise to an appropriate place in the
config.json
file. The position in the file determines the order exercises are sent. Generate a unique UUID for the exercise. Current difficulty levels in use are 1, 4, 7 and 10.