Introduction
In this lab, we will explore the importance of testing in software development using Rust and how to write different types of tests such as unit tests and integration tests. We will also learn about organizing tests in Rust projects and running them using the cargo test command. Additionally, we will discuss the potential issues that can arise from running tests concurrently and provide an example to illustrate this.
Note: If the lab does not specify a file name, you can use any file name you want. For example, you can use
main.rs, compile and run it withrustc main.rs && ./main.
Testing
As we know testing is integral to any piece of software! Rust has first-class support for unit and integration testing (see this chapter in TRPL).
From the testing chapters linked above, we see how to write unit tests and integration tests. Organizationally, we can place unit tests in the modules they test and integration tests in their own tests/ directory:
foo
├── Cargo.toml
├── src
│ └── main.rs
│ └── lib.rs
└── tests
├── my_test.rs
└── my_other_test.rs
Each file in tests is a separate integration test, i.e. a test that is meant to test your library as if it were being called from a dependent crate.
The Testing chapter elaborates on the three different testing styles: Unit, Doc, and Integration.
cargo naturally provides an easy way to run all of your tests!
$ cargo test
You should see output like this:
[object Object]
You can also run tests whose name matches a pattern:
$ cargo test test_foo
[object Object]
One word of caution: Cargo may run multiple tests concurrently, so make sure that they don't race with each other.
One example of this concurrency causing issues is if two tests output to a file, such as below:
#[cfg(test)]
mod tests {
// Import the necessary modules
use std::fs::OpenOptions;
use std::io::Write;
// This test writes to a file
#[test]
fn test_file() {
// Opens the file ferris.txt or creates one if it doesn't exist.
let mut file = OpenOptions::new()
.append(true)
.create(true)
.open("ferris.txt")
.expect("Failed to open ferris.txt");
// Print "Ferris" 5 times.
for _ in 0..5 {
file.write_all("Ferris\n".as_bytes())
.expect("Could not write to ferris.txt");
}
}
// This test tries to write to the same file
#[test]
fn test_file_also() {
// Opens the file ferris.txt or creates one if it doesn't exist.
let mut file = OpenOptions::new()
.append(true)
.create(true)
.open("ferris.txt")
.expect("Failed to open ferris.txt");
// Print "Corro" 5 times.
for _ in 0..5 {
file.write_all("Corro\n".as_bytes())
.expect("Could not write to ferris.txt");
}
}
}
Although the intent is to get the following:
$ cat ferris.txt
Ferris
Ferris
Ferris
Ferris
Ferris
Corro
Corro
Corro
Corro
Corro
What actually gets put into ferris.txt is this:
$ cargo test test_foo
Corro
Ferris
Corro
Ferris
Corro
Ferris
Corro
Ferris
Corro
Ferris
Summary
Congratulations! You have completed the Testing lab. You can practice more labs in LabEx to improve your skills.