| name | csharp-tunit |
| description | Get best practices for TUnit unit testing, including data-driven tests |
TUnit Best Practices
Your goal is to help me write effective unit tests with TUnit, covering both standard and data-driven testing approaches.
Project Setup
- Use a separate test project with naming convention
[ProjectName].[TestType] (e.g., MyApp.UnitTests)
- Reference TUnit package and TUnit.Assertions for fluent assertions
- Create test classes that match the classes being tested (e.g.,
CalculatorTests for Calculator)
- Use .NET SDK test commands:
dotnet test for running tests
- TUnit requires .NET 8.0 or higher
Test Structure
- No test class attributes required (like xUnit/NUnit)
- Use
[Test] attribute for test methods (not [Fact] like xUnit)
- Follow the Arrange-Act-Assert (AAA) pattern
- Name tests using the pattern
Given[Condition]_When[Action]_Then[ExpectedResult] for clarity
- Use lifecycle hooks:
[Before(Test)] for setup and [After(Test)] for teardown
- Use
[Before(Class)] and [After(Class)] for shared context between tests in a class
- Use
[Before(Assembly)] and [After(Assembly)] for shared context across test classes
- TUnit supports advanced lifecycle hooks like
[Before(TestSession)] and [After(TestSession)]
Standard Tests
- Keep tests focused on a single behavior
- Avoid testing multiple behaviors in one test method
- Use Shouldly's fluent assertion syntax (e.g.,
actual.ShouldBe(expected))
- Include only the assertions needed to verify the test case
- Make tests independent and idempotent (can run in any order)
- Avoid test interdependencies (use
[DependsOn] attribute if needed)
Data-Driven Tests
- Use
[Arguments] attribute for inline test data (equivalent to xUnit's [InlineData])
- Use
[MethodData] for method-based test data (equivalent to xUnit's [MemberData])
- Use
[ClassData] for class-based test data
- Create custom data sources by implementing
ITestDataSource
- Use meaningful parameter names in data-driven tests
- Multiple
[Arguments] attributes can be applied to the same test method
Assertions (Shouldly)
- Use
actual.ShouldBe(expected) for value equality
- Use
actual.ShouldBeSameAs(expected) for reference equality
- Use
actual.ShouldBeTrue() or actual.ShouldBeFalse() for boolean conditions
- Use
actual.ShouldBeNull() or actual.ShouldNotBeNull() for null checks
- Use
actual.ShouldContain(item) or actual.ShouldNotContain(item) for collections
- Use
actual.ShouldContain("substring") for string containment
- Use
actual.ShouldMatch(pattern) for regex pattern matching
- Use
actual.ShouldBeGreaterThan(value), actual.ShouldBeLessThan(value) for comparisons
- Use
actual.ShouldBeOfType<T>() for type assertions
- Use
actual.ShouldBeEmpty() or actual.ShouldNotBeEmpty() for collections and strings
- Use
Should.Throw<TException>(() => action) for sync exception testing
- Use
Should.Throw<TException>(async () => await asyncAction) for async exception testing
- Use
Should.NotThrow(() => action) to verify no exception is thrown
- All Shouldly assertions are synchronous (no
await needed except for async exception testing)
Advanced Features
- Use
[Repeat(n)] to repeat tests multiple times
- Use
[Retry(n)] for automatic retry on failure
- Use
[ParallelLimit<T>] to control parallel execution limits
- Use
[Skip("reason")] to skip tests conditionally
- Use
[DependsOn(nameof(OtherTest))] to create test dependencies
- Use
[Timeout(milliseconds)] to set test timeouts
- Create custom attributes by extending TUnit's base attributes
Test Organization
- Group tests by feature or component
- Use
[Category("CategoryName")] for test categorization
- Use
[DisplayName("Custom Test Name")] for custom test names
- Consider using
TestContext for test diagnostics and information
- Use conditional attributes like custom
[WindowsOnly] for platform-specific tests
Performance and Parallel Execution
- TUnit runs tests in parallel by default (unlike xUnit which requires explicit configuration)
- Use
[NotInParallel] to disable parallel execution for specific tests
- Use
[ParallelLimit<T>] with custom limit classes to control concurrency
- Tests within the same class run sequentially by default
- Use
[Repeat(n)] with [ParallelLimit<T>] for load testing scenarios
Migration from xUnit
- Replace
[Fact] with [Test]
- Replace
[Theory] with [Test] and use [Arguments] for data
- Replace
[InlineData] with [Arguments]
- Replace
[MemberData] with [MethodData]
- Replace
Assert.Equal with actual.ShouldBe(expected)
- Replace
Assert.True with condition.ShouldBeTrue()
- Replace
Assert.Throws<T> with Should.Throw<T>(() => action)
- Replace constructor/IDisposable with
[Before(Test)]/[After(Test)]
- Replace
IClassFixture<T> with [Before(Class)]/[After(Class)]
Why TUnit over xUnit?
TUnit offers a modern, fast, and flexible testing experience with advanced features not present in xUnit, such as asynchronous assertions, more refined lifecycle hooks, and improved data-driven testing capabilities. TUnit's fluent assertions provide clearer and more expressive test validation, making it especially suitable for complex .NET projects.