Writing tests#

Pylint uses three types of tests: unittests, functional tests and primer tests.

  • unittests can be found in pylint/tests. Unless you're working on pylint's internal you're probably not going to have to write any.

  • Global functional tests can be found in the pylint/tests/functional. They are mainly used to test whether Pylint emits the correct messages.

  • Configuration's functional tests can be found in the pylint/tests/config/functional. They are used to test Pylint's configuration loading.

  • Primer tests you can suggest a new external repository to check but there's nothing to do most of the time.

Unittest tests#

Most other tests reside in the '/pylint/test' directory. These unittests can be used to test almost all functionality within Pylint. A good step before writing any new unittests is to look at some tests that test a similar funcitionality. This can often help write new tests.

If your new test requires any additional files you can put those in the /pylint/test/regrtest_data directory. This is the directory we use to store any data needed for the unittests.

Functional tests#

These are residing under /pylint/test/functional and they are formed of multiple components. First, each Python file is considered to be a test case and it should be accompanied by a .txt file, having the same name, with the messages that are supposed to be emitted by the given test file.

In the Python file, each line for which Pylint is supposed to emit a message has to be annotated with a comment in the form # [message_symbol], as in:

a, b, c = 1 # [unbalanced-tuple-unpacking]

If multiple messages are expected on the same line, then this syntax can be used:

a, b, c = 1.test # [unbalanced-tuple-unpacking, no-member]

You can also use # +n: [ with n an integer if the above syntax would make the line too long or other reasons:

# +1: [empty-comment]
#

If you need special control over Pylint's configuration, you can also create a .rc file, which can have sections of Pylint's configuration. The .rc file can also contain a section [testoptions] to pass options for the functional test runner. The following options are currently supported:

  • "min_pyver": Minimal python version required to run the test

  • "max_pyver": Python version from which the test won't be run. If the last supported version is 3.9 this setting should be set to 3.10.

  • "min_pyver_end_position": Minimal python version required to check the end_line and end_column attributes of the message

  • "requires": Packages required to be installed locally to run the test

  • "except_implementations": List of python implementations on which the test should not run

  • "exclude_platforms": List of operating systems on which the test should not run

Functional test file locations

For existing checkers, new test cases should preferably be appended to the existing test file. For new checkers, a new file new_checker_message.py should be created (Note the use of underscores). This file should then be placed in the test/functional/n sub-directory.

Some additional notes:

  • If the checker is part of an extension the test should go in test/functional/ext/extension_name

  • If the test is a regression test it should go in test/r/regression or test/r/regression_02. The file name should start with regression_.

  • For some sub-directories, such as test/functional/u, there are additional sub-directories (test/functional/u/use). Please check if your test file should be placed in any of these directories. It should be placed there if the sub-directory name matches the word before the first underscore of your test file name.

The folder structure is enforced when running the test suite, so you might be directed to put the file in a different sub-directory.

Running and updating functional tests

During development, it's sometimes helpful to run all functional tests in your current environment in order to have faster feedback. Run from Pylint root directory with:

python tests/test_functional.py

You can use all the options you would use for pytest, for example -k "test_functional[len_checks]". Furthermore, if required the .txt file with expected messages can be regenerated based on the the current output by appending --update-functional-output to the command line:

python tests/test_functional.py --update-functional-output -k "test_functional[len_checks]"

Functional tests for configurations#

To test the different ways to configure Pylint there is also a small functional test framework for configuration files. These tests can be found in the '/pylint/test/config' directory.

To create a new test create a new file with an unused name in the directory of that type of configuration file. Subsequently add a filename.result.json file with 'filename' being the same name as your configuration file. This file should record what the configuration should be compared to the standard configuration.

For example, if the configuration should add a warning to the list of disabled messages and you changed the configuration for job to 10 instead of the default 1 the .json file should include:

"functional_append": {
    "disable": [["a-message-to-be-added"],]
}
"jobs": 10,

Similarly if a message should be removed you can add the following to the .json file:

"functional_remove": {
    "disable": [["a-message-to-be-removed"],]
}

If a configuration is incorrect and should lead to a crash or warning being emitted you can specify this by adding a .out file. This file should have the following name name_of_configuration_testfile.error_code.out. So, if your test is called bad_configuration.toml and should exit with exit code 2 the .out file should be named bad_configuration.2.out. The content of the .out file should have a similar pattern as a normal Pylint output. Note that the module name should be {abspath} and the file name {relpath}.