146611def7 | ||
---|---|---|
.. | ||
AheadOfTime | ||
EndToEndBuildTests | ||
FSharp.Build.UnitTests | ||
FSharp.Compiler.ComponentTests | ||
FSharp.Compiler.Private.Scripting.UnitTests | ||
FSharp.Compiler.Service.Tests | ||
FSharp.Compiler.UnitTests | ||
FSharp.Core.UnitTests | ||
FSharp.Test.Utilities | ||
Resources | ||
benchmarks | ||
fsharp | ||
fsharpqa | ||
projects | ||
scripts | ||
service | ||
walkthroughs | ||
.gitignore | ||
Directory.Build.props | ||
Directory.Build.targets | ||
KnownFail.txt | ||
README.md | ||
run.pl |
README.md
F# Testing proposal
Why do we test
- To prevent regressions (behavioral, performance).
- To have a quicker debug feedback (thus, find problems quicker).
- To verify conformance to language spec (API contract testing).
- To have IL verification (both read and write).
- To have a quicker design feedback.
- To document behavior.
Goals
- Use one standardized testing framework across all of test projects, and get rid of custom old solutions (FSharpQA and Cambridge suites).
- Have tests restructured the way, that they are easy to discover.
- Have tests building and running on all supported platforms (Windows, macOS and Linux) and different frameworks (with exceptions when this is not applicable).
- Make it easy to run tests using standard .NET instruments (dotnet cli, test explorer, etc.).
- Leverage standard .NET testing platform and use all its benefits, suck as live unit testing, code coverage collecting, dead code elimination, etc.
Framework for testing
The following test frameworks and libraries will be used for new test projects xUnit Test Framework, FluentAssertions (+ FsUnit and FsCheck when needed). All existing NUnit test suites will be migrated to xUnit.
Justification:
- xUnit is an extensible, TDD adherent, testing framework, which was successfully adopted by many .NET engineering teams, including Roslyn, AspNetCore, EFcore, etc, has a "cleaner" approach for writing test suites (i.e. class constructor for setup, implementing IDisposable for teardown, as oppose to custom attributes). More info here.
- FluentAssertions makes it easier to write scoped assertions, provides better error messages.
Alternatives: NUnit, MSBuild, Expecto
Tests categorization
New tests should be grouped based on two factors: test type (1) + test category and subcategory (2)
- Test type:
Determines what type of test is it:
- Functional tests:
- Unit Tests: a lightweight testing for smaller modules, functions, etc.
- Examples: Testing individual parts/functions of lexer, parser, syntax tree, standard library modules, etc.
- Subgroups: there should be a separation between testing private and public parts of each module (i.e. compiler tests for private and public API should be in separate test projects).
- Component Tests: testing for bigger parts of compiler.
- Examples: Tests for the compiler components as whole, such as Code generation, IL Generation, Compiler optimizations, Type Checker, Type Providers, Conformance, etc.
- Integration and End2End Tests: testing of F# compiler & tooling integration, as well as e2e experiences.
- Examples: VS Integration, .NET Interactive integration, LSP integration. Integration with dotnet CLI, project creation, building, running.
- Unit Tests: a lightweight testing for smaller modules, functions, etc.
- Non-functional tests:
- Load and Stress Tests: testing for high level modules/components to understand peak performance and potentially catch any performance regressions.
- Examples: measuring compile, build, link times for the compiler, individual functions (i.e. data structures sorting, traversing, etc.).
- Load and Stress Tests: testing for high level modules/components to understand peak performance and potentially catch any performance regressions.
- Functional tests:
- Test category and subcategory: Tests (sub)categories shall be determined by the project, library, module, and functionality tests are covering.
Examples
- F# compiler component test which is verifying generated IL for computation expression will have category
Compiler
and subcategoriesEmittedIL
andComputationExpressions
. - F# compiler service unit test which is testing F# tokenizer, will have category
Compiler.Service
and subcategoryTokenizer
.
Please, refer to File and project structure for more information on how tests will be organized on the filesystem.
File and project structure
Naming schema
The proposed naming schema for test projects is: FSharp.Category.Subcategory.TestType
, where
Category.Subcategory
is either a corresponding source project, or a more generic component (e.g. Compiler
, Compiler.Private
or more granular Compiler.CodeGen
, Compiler.CodeGen.EmittedIL
if category or subcategory project becomes too big, etc.) and TestType
is the type of the test (one of UnitTests
, ComponentTests
, IntegrationTests
, LoadTests
).
Projects organization
Please refer to the "Naming schema" section above for more information on the projects naming.
New test projects will be grouped by category and test type, all subcategories are just test folders/files in the test project.
-
Examples: Having test project organized like:
tests/FSharp.Compiler.ComponentTests/CodeGen/EmittedIL/BasicTests.fs
tests/FSharp.Compiler.ComponentTests/CodeGen/StringEncoding/StringTests.fs
tests/FSharp.Compiler.ComponentTests/Optimizations/Inlining/InliningTests.fs
Will result in one test dll "
FSharp.Compiler.ComponentTests.dll
" which will contain all the subcategories of tests. -
Notes:
- This will result in reduced fragmentation of tests, all the tests files are under one big category, easier to understand what each component/unit test suite covers, less confusion in test classification for new tests.
- If some categories (or subcategories) will become big enough - they can be factored out to a separate project.
Test Utilities/Helpers
For all new and migrated tests, any common/helper functionality shall be factored out to a separate project - FSharp.Test.Utilities
.
New tests
- All new tests should be created in the new projects only.
- All new tests should contain a brief docstring description of what is being tested, link to an issue if applicable.
- All new tests should be categorized using xUnit's
Trait
, based on theirCategory
andSubcategories
.
Migrating existing tests
Existing FSharpQA and Cambridge need to be migrated to corresponding test projects: component-style tests to the FSharp.Compiler.ComponentTests
and unittest-style tests - FSharp.Compiler.UnitTests
, FSharp.Compiler.Private.Scripting.UnitTests
, FSharp.Build.UnitTests
, etc.
Next steps
- [In Progress] Migrate existing
NUnit
tests to xUnit. - Clean up CompilerAssert.
- Make PEVerify tests work in netcore/non-windows environment.
- Start migration of existing (namely, FSharpQA and Cambridge) suites to xUnit-based projects.
Open questions:
- As far as I know, FSharp.Compiler.Service is dependant on some of the F# compiler tests. Does it have to be changed as well?
Other
Related issues: (https://github.com/dotnet/fsharp/issues/7075)
You can find this document under 'tests/README.md'.