import gc import sys from typing import List import pytest from _pytest.config import ExitCode from _pytest.monkeypatch import MonkeyPatch from _pytest.pytester import Pytester def test_simple_unittest(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): def testpassing(self): self.assertEqual('foo', 'foo') def test_failing(self): self.assertEqual('foo', 'bar') """ ) reprec = pytester.inline_run(testpath) assert reprec.matchreport("testpassing").passed assert reprec.matchreport("test_failing").failed def test_runTest_method(pytester: Pytester) -> None: pytester.makepyfile( """ import unittest class MyTestCaseWithRunTest(unittest.TestCase): def runTest(self): self.assertEqual('foo', 'foo') class MyTestCaseWithoutRunTest(unittest.TestCase): def runTest(self): self.assertEqual('foo', 'foo') def test_something(self): pass """ ) result = pytester.runpytest("-v") result.stdout.fnmatch_lines( """ *MyTestCaseWithRunTest::runTest* *MyTestCaseWithoutRunTest::test_something* *2 passed* """ ) def test_isclasscheck_issue53(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class _E(object): def __getattr__(self, tag): pass E = _E() """ ) result = pytester.runpytest(testpath) assert result.ret == ExitCode.NO_TESTS_COLLECTED def test_setup(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): def setUp(self): self.foo = 1 def setup_method(self, method): self.foo2 = 1 def test_both(self): self.assertEqual(1, self.foo) assert self.foo2 == 1 def teardown_method(self, method): assert 0, "42" """ ) reprec = pytester.inline_run("-s", testpath) assert reprec.matchreport("test_both", when="call").passed rep = reprec.matchreport("test_both", when="teardown") assert rep.failed and "42" in str(rep.longrepr) def test_setUpModule(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ values = [] def setUpModule(): values.append(1) def tearDownModule(): del values[0] def test_hello(): assert values == [1] def test_world(): assert values == [1] """ ) result = pytester.runpytest(testpath) result.stdout.fnmatch_lines(["*2 passed*"]) def test_setUpModule_failing_no_teardown(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ values = [] def setUpModule(): 0/0 def tearDownModule(): values.append(1) def test_hello(): pass """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(passed=0, failed=1) call = reprec.getcalls("pytest_runtest_setup")[0] assert not call.item.module.values def test_new_instances(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): def test_func1(self): self.x = 2 def test_func2(self): assert not hasattr(self, 'x') """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(passed=2) def test_function_item_obj_is_instance(pytester: Pytester) -> None: """item.obj should be a bound method on unittest.TestCase function items (#5390).""" pytester.makeconftest( """ def pytest_runtest_makereport(item, call): if call.when == 'call': class_ = item.parent.obj assert isinstance(item.obj.__self__, class_) """ ) pytester.makepyfile( """ import unittest class Test(unittest.TestCase): def test_foo(self): pass """ ) result = pytester.runpytest_inprocess() result.stdout.fnmatch_lines(["* 1 passed in*"]) def test_teardown(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] def test_one(self): pass def tearDown(self): self.values.append(None) class Second(unittest.TestCase): def test_check(self): self.assertEqual(MyTestCase.values, [None]) """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert failed == 0, failed assert passed == 2 assert passed + skipped + failed == 2 def test_teardown_issue1649(pytester: Pytester) -> None: """ Are TestCase objects cleaned up? Often unittest TestCase objects set attributes that are large and expensive during setUp. The TestCase will not be cleaned up if the test fails, because it would then exist in the stackframe. """ testpath = pytester.makepyfile( """ import unittest class TestCaseObjectsShouldBeCleanedUp(unittest.TestCase): def setUp(self): self.an_expensive_object = 1 def test_demo(self): pass """ ) pytester.inline_run("-s", testpath) gc.collect() for obj in gc.get_objects(): assert type(obj).__name__ != "TestCaseObjectsShouldBeCleanedUp" def test_unittest_skip_issue148(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest @unittest.skip("hello") class MyTestCase(unittest.TestCase): @classmethod def setUpClass(self): xxx def test_one(self): pass @classmethod def tearDownClass(self): xxx """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(skipped=1) def test_method_and_teardown_failing_reporting(pytester: Pytester) -> None: pytester.makepyfile( """ import unittest class TC(unittest.TestCase): def tearDown(self): assert 0, "down1" def test_method(self): assert False, "down2" """ ) result = pytester.runpytest("-s") assert result.ret == 1 result.stdout.fnmatch_lines( [ "*tearDown*", "*assert 0*", "*test_method*", "*assert False*", "*1 failed*1 error*", ] ) def test_setup_failure_is_shown(pytester: Pytester) -> None: pytester.makepyfile( """ import unittest import pytest class TC(unittest.TestCase): def setUp(self): assert 0, "down1" def test_method(self): print("never42") xyz """ ) result = pytester.runpytest("-s") assert result.ret == 1 result.stdout.fnmatch_lines(["*setUp*", "*assert 0*down1*", "*1 failed*"]) result.stdout.no_fnmatch_line("*never42*") def test_setup_setUpClass(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest import pytest class MyTestCase(unittest.TestCase): x = 0 @classmethod def setUpClass(cls): cls.x += 1 def test_func1(self): assert self.x == 1 def test_func2(self): assert self.x == 1 @classmethod def tearDownClass(cls): cls.x -= 1 def test_teareddown(): assert MyTestCase.x == 0 """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(passed=3) def test_setup_class(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest import pytest class MyTestCase(unittest.TestCase): x = 0 def setup_class(cls): cls.x += 1 def test_func1(self): assert self.x == 1 def test_func2(self): assert self.x == 1 def teardown_class(cls): cls.x -= 1 def test_teareddown(): assert MyTestCase.x == 0 """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(passed=3) @pytest.mark.parametrize("type", ["Error", "Failure"]) def test_testcase_adderrorandfailure_defers(pytester: Pytester, type: str) -> None: pytester.makepyfile( """ from unittest import TestCase import pytest class MyTestCase(TestCase): def run(self, result): excinfo = pytest.raises(ZeroDivisionError, lambda: 0/0) try: result.add%s(self, excinfo._excinfo) except KeyboardInterrupt: raise except: pytest.fail("add%s should not raise") def test_hello(self): pass """ % (type, type) ) result = pytester.runpytest() result.stdout.no_fnmatch_line("*should not raise*") @pytest.mark.parametrize("type", ["Error", "Failure"]) def test_testcase_custom_exception_info(pytester: Pytester, type: str) -> None: pytester.makepyfile( """ from unittest import TestCase import py, pytest import _pytest._code class MyTestCase(TestCase): def run(self, result): excinfo = pytest.raises(ZeroDivisionError, lambda: 0/0) # we fake an incompatible exception info from _pytest.monkeypatch import MonkeyPatch mp = MonkeyPatch() def t(*args): mp.undo() raise TypeError() mp.setattr(_pytest._code, 'ExceptionInfo', t) try: excinfo = excinfo._excinfo result.add%(type)s(self, excinfo) finally: mp.undo() def test_hello(self): pass """ % locals() ) result = pytester.runpytest() result.stdout.fnmatch_lines( [ "NOTE: Incompatible Exception Representation*", "*ZeroDivisionError*", "*1 failed*", ] ) def test_testcase_totally_incompatible_exception_info(pytester: Pytester) -> None: import _pytest.unittest (item,) = pytester.getitems( """ from unittest import TestCase class MyTestCase(TestCase): def test_hello(self): pass """ ) assert isinstance(item, _pytest.unittest.TestCaseFunction) item.addError(None, 42) # type: ignore[arg-type] excinfo = item._excinfo assert excinfo is not None assert "ERROR: Unknown Incompatible" in str(excinfo.pop(0).getrepr()) def test_module_level_pytestmark(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest import pytest pytestmark = pytest.mark.xfail class MyTestCase(unittest.TestCase): def test_func1(self): assert 0 """ ) reprec = pytester.inline_run(testpath, "-s") reprec.assertoutcome(skipped=1) class TestTrialUnittest: def setup_class(cls): cls.ut = pytest.importorskip("twisted.trial.unittest") # on windows trial uses a socket for a reactor and apparently doesn't close it properly # https://twistedmatrix.com/trac/ticket/9227 cls.ignore_unclosed_socket_warning = ("-W", "always") def test_trial_testcase_runtest_not_collected(self, pytester: Pytester) -> None: pytester.makepyfile( """ from twisted.trial.unittest import TestCase class TC(TestCase): def test_hello(self): pass """ ) reprec = pytester.inline_run(*self.ignore_unclosed_socket_warning) reprec.assertoutcome(passed=1) pytester.makepyfile( """ from twisted.trial.unittest import TestCase class TC(TestCase): def runTest(self): pass """ ) reprec = pytester.inline_run(*self.ignore_unclosed_socket_warning) reprec.assertoutcome(passed=1) def test_trial_exceptions_with_skips(self, pytester: Pytester) -> None: pytester.makepyfile( """ from twisted.trial import unittest import pytest class TC(unittest.TestCase): def test_hello(self): pytest.skip("skip_in_method") @pytest.mark.skipif("sys.version_info != 1") def test_hello2(self): pass @pytest.mark.xfail(reason="iwanto") def test_hello3(self): assert 0 def test_hello4(self): pytest.xfail("i2wanto") def test_trial_skip(self): pass test_trial_skip.skip = "trialselfskip" def test_trial_todo(self): assert 0 test_trial_todo.todo = "mytodo" def test_trial_todo_success(self): pass test_trial_todo_success.todo = "mytodo" class TC2(unittest.TestCase): def setup_class(cls): pytest.skip("skip_in_setup_class") def test_method(self): pass """ ) result = pytester.runpytest("-rxs", *self.ignore_unclosed_socket_warning) result.stdout.fnmatch_lines_random( [ "*XFAIL*test_trial_todo*", "*trialselfskip*", "*skip_in_setup_class*", "*iwanto*", "*i2wanto*", "*sys.version_info*", "*skip_in_method*", "*1 failed*4 skipped*3 xfailed*", ] ) assert result.ret == 1 def test_trial_error(self, pytester: Pytester) -> None: pytester.makepyfile( """ from twisted.trial.unittest import TestCase from twisted.internet.defer import Deferred from twisted.internet import reactor class TC(TestCase): def test_one(self): crash def test_two(self): def f(_): crash d = Deferred() d.addCallback(f) reactor.callLater(0.3, d.callback, None) return d def test_three(self): def f(): pass # will never get called reactor.callLater(0.3, f) # will crash at teardown def test_four(self): def f(_): reactor.callLater(0.3, f) crash d = Deferred() d.addCallback(f) reactor.callLater(0.3, d.callback, None) return d # will crash both at test time and at teardown """ ) result = pytester.runpytest("-vv", "-oconsole_output_style=classic") result.stdout.fnmatch_lines( [ "test_trial_error.py::TC::test_four FAILED", "test_trial_error.py::TC::test_four ERROR", "test_trial_error.py::TC::test_one FAILED", "test_trial_error.py::TC::test_three FAILED", "test_trial_error.py::TC::test_two FAILED", "*ERRORS*", "*_ ERROR at teardown of TC.test_four _*", "*DelayedCalls*", "*= FAILURES =*", "*_ TC.test_four _*", "*NameError*crash*", "*_ TC.test_one _*", "*NameError*crash*", "*_ TC.test_three _*", "*DelayedCalls*", "*_ TC.test_two _*", "*NameError*crash*", "*= 4 failed, 1 error in *", ] ) def test_trial_pdb(self, pytester: Pytester) -> None: p = pytester.makepyfile( """ from twisted.trial import unittest import pytest class TC(unittest.TestCase): def test_hello(self): assert 0, "hellopdb" """ ) child = pytester.spawn_pytest(str(p)) child.expect("hellopdb") child.sendeof() def test_trial_testcase_skip_property(self, pytester: Pytester) -> None: testpath = pytester.makepyfile( """ from twisted.trial import unittest class MyTestCase(unittest.TestCase): skip = 'dont run' def test_func(self): pass """ ) reprec = pytester.inline_run(testpath, "-s") reprec.assertoutcome(skipped=1) def test_trial_testfunction_skip_property(self, pytester: Pytester) -> None: testpath = pytester.makepyfile( """ from twisted.trial import unittest class MyTestCase(unittest.TestCase): def test_func(self): pass test_func.skip = 'dont run' """ ) reprec = pytester.inline_run(testpath, "-s") reprec.assertoutcome(skipped=1) def test_trial_testcase_todo_property(self, pytester: Pytester) -> None: testpath = pytester.makepyfile( """ from twisted.trial import unittest class MyTestCase(unittest.TestCase): todo = 'dont run' def test_func(self): assert 0 """ ) reprec = pytester.inline_run(testpath, "-s") reprec.assertoutcome(skipped=1) def test_trial_testfunction_todo_property(self, pytester: Pytester) -> None: testpath = pytester.makepyfile( """ from twisted.trial import unittest class MyTestCase(unittest.TestCase): def test_func(self): assert 0 test_func.todo = 'dont run' """ ) reprec = pytester.inline_run( testpath, "-s", *self.ignore_unclosed_socket_warning ) reprec.assertoutcome(skipped=1) def test_djangolike_testcase(pytester: Pytester) -> None: # contributed from Morten Breekevold pytester.makepyfile( """ from unittest import TestCase, main class DjangoLikeTestCase(TestCase): def setUp(self): print("setUp()") def test_presetup_has_been_run(self): print("test_thing()") self.assertTrue(hasattr(self, 'was_presetup')) def tearDown(self): print("tearDown()") def __call__(self, result=None): try: self._pre_setup() except (KeyboardInterrupt, SystemExit): raise except Exception: import sys result.addError(self, sys.exc_info()) return super(DjangoLikeTestCase, self).__call__(result) try: self._post_teardown() except (KeyboardInterrupt, SystemExit): raise except Exception: import sys result.addError(self, sys.exc_info()) return def _pre_setup(self): print("_pre_setup()") self.was_presetup = True def _post_teardown(self): print("_post_teardown()") """ ) result = pytester.runpytest("-s") assert result.ret == 0 result.stdout.fnmatch_lines( [ "*_pre_setup()*", "*setUp()*", "*test_thing()*", "*tearDown()*", "*_post_teardown()*", ] ) def test_unittest_not_shown_in_traceback(pytester: Pytester) -> None: pytester.makepyfile( """ import unittest class t(unittest.TestCase): def test_hello(self): x = 3 self.assertEqual(x, 4) """ ) res = pytester.runpytest() res.stdout.no_fnmatch_line("*failUnlessEqual*") def test_unorderable_types(pytester: Pytester) -> None: pytester.makepyfile( """ import unittest class TestJoinEmpty(unittest.TestCase): pass def make_test(): class Test(unittest.TestCase): pass Test.__name__ = "TestFoo" return Test TestFoo = make_test() """ ) result = pytester.runpytest() result.stdout.no_fnmatch_line("*TypeError*") assert result.ret == ExitCode.NO_TESTS_COLLECTED def test_unittest_typerror_traceback(pytester: Pytester) -> None: pytester.makepyfile( """ import unittest class TestJoinEmpty(unittest.TestCase): def test_hello(self, arg1): pass """ ) result = pytester.runpytest() assert "TypeError" in result.stdout.str() assert result.ret == 1 @pytest.mark.parametrize("runner", ["pytest", "unittest"]) def test_unittest_expected_failure_for_failing_test_is_xfail( pytester: Pytester, runner ) -> None: script = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): @unittest.expectedFailure def test_failing_test_is_xfail(self): assert False if __name__ == '__main__': unittest.main() """ ) if runner == "pytest": result = pytester.runpytest("-rxX") result.stdout.fnmatch_lines( ["*XFAIL*MyTestCase*test_failing_test_is_xfail*", "*1 xfailed*"] ) else: result = pytester.runpython(script) result.stderr.fnmatch_lines(["*1 test in*", "*OK*(expected failures=1)*"]) assert result.ret == 0 @pytest.mark.parametrize("runner", ["pytest", "unittest"]) def test_unittest_expected_failure_for_passing_test_is_fail( pytester: Pytester, runner: str, ) -> None: script = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): @unittest.expectedFailure def test_passing_test_is_fail(self): assert True if __name__ == '__main__': unittest.main() """ ) if runner == "pytest": result = pytester.runpytest("-rxX") result.stdout.fnmatch_lines( [ "*MyTestCase*test_passing_test_is_fail*", "Unexpected success", "*1 failed*", ] ) else: result = pytester.runpython(script) result.stderr.fnmatch_lines(["*1 test in*", "*(unexpected successes=1)*"]) assert result.ret == 1 @pytest.mark.parametrize("stmt", ["return", "yield"]) def test_unittest_setup_interaction(pytester: Pytester, stmt: str) -> None: pytester.makepyfile( """ import unittest import pytest class MyTestCase(unittest.TestCase): @pytest.fixture(scope="class", autouse=True) def perclass(self, request): request.cls.hello = "world" {stmt} @pytest.fixture(scope="function", autouse=True) def perfunction(self, request): request.instance.funcname = request.function.__name__ {stmt} def test_method1(self): assert self.funcname == "test_method1" assert self.hello == "world" def test_method2(self): assert self.funcname == "test_method2" def test_classattr(self): assert self.__class__.hello == "world" """.format( stmt=stmt ) ) result = pytester.runpytest() result.stdout.fnmatch_lines(["*3 passed*"]) def test_non_unittest_no_setupclass_support(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ class TestFoo(object): x = 0 @classmethod def setUpClass(cls): cls.x = 1 def test_method1(self): assert self.x == 0 @classmethod def tearDownClass(cls): cls.x = 1 def test_not_teareddown(): assert TestFoo.x == 0 """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(passed=2) def test_no_teardown_if_setupclass_failed(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): x = 0 @classmethod def setUpClass(cls): cls.x = 1 assert False def test_func1(self): cls.x = 10 @classmethod def tearDownClass(cls): cls.x = 100 def test_notTornDown(): assert MyTestCase.x == 1 """ ) reprec = pytester.inline_run(testpath) reprec.assertoutcome(passed=1, failed=1) def test_cleanup_functions(pytester: Pytester) -> None: """Ensure functions added with addCleanup are always called after each test ends (#6947)""" pytester.makepyfile( """ import unittest cleanups = [] class Test(unittest.TestCase): def test_func_1(self): self.addCleanup(cleanups.append, "test_func_1") def test_func_2(self): self.addCleanup(cleanups.append, "test_func_2") assert 0 def test_func_3_check_cleanups(self): assert cleanups == ["test_func_1", "test_func_2"] """ ) result = pytester.runpytest("-v") result.stdout.fnmatch_lines( [ "*::test_func_1 PASSED *", "*::test_func_2 FAILED *", "*::test_func_3_check_cleanups PASSED *", ] ) def test_issue333_result_clearing(pytester: Pytester) -> None: pytester.makeconftest( """ import pytest @pytest.hookimpl(hookwrapper=True) def pytest_runtest_call(item): yield assert 0 """ ) pytester.makepyfile( """ import unittest class TestIt(unittest.TestCase): def test_func(self): 0/0 """ ) reprec = pytester.inline_run() reprec.assertoutcome(failed=1) def test_unittest_raise_skip_issue748(pytester: Pytester) -> None: pytester.makepyfile( test_foo=""" import unittest class MyTestCase(unittest.TestCase): def test_one(self): raise unittest.SkipTest('skipping due to reasons') """ ) result = pytester.runpytest("-v", "-rs") result.stdout.fnmatch_lines( """ *SKIP*[1]*test_foo.py*skipping due to reasons* *1 skipped* """ ) def test_unittest_skip_issue1169(pytester: Pytester) -> None: pytester.makepyfile( test_foo=""" import unittest class MyTestCase(unittest.TestCase): @unittest.skip("skipping due to reasons") def test_skip(self): self.fail() """ ) result = pytester.runpytest("-v", "-rs") result.stdout.fnmatch_lines( """ *SKIP*[1]*skipping due to reasons* *1 skipped* """ ) def test_class_method_containing_test_issue1558(pytester: Pytester) -> None: pytester.makepyfile( test_foo=""" import unittest class MyTestCase(unittest.TestCase): def test_should_run(self): pass def test_should_not_run(self): pass test_should_not_run.__test__ = False """ ) reprec = pytester.inline_run() reprec.assertoutcome(passed=1) @pytest.mark.parametrize("base", ["builtins.object", "unittest.TestCase"]) def test_usefixtures_marker_on_unittest(base, pytester: Pytester) -> None: """#3498""" module = base.rsplit(".", 1)[0] pytest.importorskip(module) pytester.makepyfile( conftest=""" import pytest @pytest.fixture(scope='function') def fixture1(request, monkeypatch): monkeypatch.setattr(request.instance, 'fixture1', True ) @pytest.fixture(scope='function') def fixture2(request, monkeypatch): monkeypatch.setattr(request.instance, 'fixture2', True ) def node_and_marks(item): print(item.nodeid) for mark in item.iter_markers(): print(" ", mark) @pytest.fixture(autouse=True) def my_marks(request): node_and_marks(request.node) def pytest_collection_modifyitems(items): for item in items: node_and_marks(item) """ ) pytester.makepyfile( """ import pytest import {module} class Tests({base}): fixture1 = False fixture2 = False @pytest.mark.usefixtures("fixture1") def test_one(self): assert self.fixture1 assert not self.fixture2 @pytest.mark.usefixtures("fixture1", "fixture2") def test_two(self): assert self.fixture1 assert self.fixture2 """.format( module=module, base=base ) ) result = pytester.runpytest("-s") result.assert_outcomes(passed=2) def test_testcase_handles_init_exceptions(pytester: Pytester) -> None: """ Regression test to make sure exceptions in the __init__ method are bubbled up correctly. See https://github.com/pytest-dev/pytest/issues/3788 """ pytester.makepyfile( """ from unittest import TestCase import pytest class MyTestCase(TestCase): def __init__(self, *args, **kwargs): raise Exception("should raise this exception") def test_hello(self): pass """ ) result = pytester.runpytest() assert "should raise this exception" in result.stdout.str() result.stdout.no_fnmatch_line("*ERROR at teardown of MyTestCase.test_hello*") def test_error_message_with_parametrized_fixtures(pytester: Pytester) -> None: pytester.copy_example("unittest/test_parametrized_fixture_error_message.py") result = pytester.runpytest() result.stdout.fnmatch_lines( [ "*test_two does not support fixtures*", "*TestSomethingElse::test_two", "*Function type: TestCaseFunction", ] ) @pytest.mark.parametrize( "test_name, expected_outcome", [ ("test_setup_skip.py", "1 skipped"), ("test_setup_skip_class.py", "1 skipped"), ("test_setup_skip_module.py", "1 error"), ], ) def test_setup_inheritance_skipping( pytester: Pytester, test_name, expected_outcome ) -> None: """Issue #4700""" pytester.copy_example(f"unittest/{test_name}") result = pytester.runpytest() result.stdout.fnmatch_lines([f"* {expected_outcome} in *"]) def test_BdbQuit(pytester: Pytester) -> None: pytester.makepyfile( test_foo=""" import unittest class MyTestCase(unittest.TestCase): def test_bdbquit(self): import bdb raise bdb.BdbQuit() def test_should_not_run(self): pass """ ) reprec = pytester.inline_run() reprec.assertoutcome(failed=1, passed=1) def test_exit_outcome(pytester: Pytester) -> None: pytester.makepyfile( test_foo=""" import pytest import unittest class MyTestCase(unittest.TestCase): def test_exit_outcome(self): pytest.exit("pytest_exit called") def test_should_not_run(self): pass """ ) result = pytester.runpytest() result.stdout.fnmatch_lines(["*Exit: pytest_exit called*", "*= no tests ran in *"]) def test_trace(pytester: Pytester, monkeypatch: MonkeyPatch) -> None: calls = [] def check_call(*args, **kwargs): calls.append((args, kwargs)) assert args == ("runcall",) class _pdb: def runcall(*args, **kwargs): calls.append((args, kwargs)) return _pdb monkeypatch.setattr("_pytest.debugging.pytestPDB._init_pdb", check_call) p1 = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): def test(self): self.assertEqual('foo', 'foo') """ ) result = pytester.runpytest("--trace", str(p1)) assert len(calls) == 2 assert result.ret == 0 def test_pdb_teardown_called(pytester: Pytester, monkeypatch: MonkeyPatch) -> None: """Ensure tearDown() is always called when --pdb is given in the command-line. We delay the normal tearDown() calls when --pdb is given, so this ensures we are calling tearDown() eventually to avoid memory leaks when using --pdb. """ teardowns: List[str] = [] monkeypatch.setattr( pytest, "test_pdb_teardown_called_teardowns", teardowns, raising=False ) pytester.makepyfile( """ import unittest import pytest class MyTestCase(unittest.TestCase): def tearDown(self): pytest.test_pdb_teardown_called_teardowns.append(self.id()) def test_1(self): pass def test_2(self): pass """ ) result = pytester.runpytest_inprocess("--pdb") result.stdout.fnmatch_lines("* 2 passed in *") assert teardowns == [ "test_pdb_teardown_called.MyTestCase.test_1", "test_pdb_teardown_called.MyTestCase.test_2", ] @pytest.mark.parametrize("mark", ["@unittest.skip", "@pytest.mark.skip"]) def test_pdb_teardown_skipped( pytester: Pytester, monkeypatch: MonkeyPatch, mark: str ) -> None: """With --pdb, setUp and tearDown should not be called for skipped tests.""" tracked: List[str] = [] monkeypatch.setattr(pytest, "test_pdb_teardown_skipped", tracked, raising=False) pytester.makepyfile( """ import unittest import pytest class MyTestCase(unittest.TestCase): def setUp(self): pytest.test_pdb_teardown_skipped.append("setUp:" + self.id()) def tearDown(self): pytest.test_pdb_teardown_skipped.append("tearDown:" + self.id()) {mark}("skipped for reasons") def test_1(self): pass """.format( mark=mark ) ) result = pytester.runpytest_inprocess("--pdb") result.stdout.fnmatch_lines("* 1 skipped in *") assert tracked == [] def test_async_support(pytester: Pytester) -> None: pytest.importorskip("unittest.async_case") pytester.copy_example("unittest/test_unittest_asyncio.py") reprec = pytester.inline_run() reprec.assertoutcome(failed=1, passed=2) def test_asynctest_support(pytester: Pytester) -> None: """Check asynctest support (#7110)""" pytest.importorskip("asynctest") pytester.copy_example("unittest/test_unittest_asynctest.py") reprec = pytester.inline_run() reprec.assertoutcome(failed=1, passed=2) def test_plain_unittest_does_not_support_async(pytester: Pytester) -> None: """Async functions in plain unittest.TestCase subclasses are not supported without plugins. This test exists here to avoid introducing this support by accident, leading users to expect that it works, rather than doing so intentionally as a feature. See https://github.com/pytest-dev/pytest-asyncio/issues/180 for more context. """ pytester.copy_example("unittest/test_unittest_plain_async.py") result = pytester.runpytest_subprocess() if hasattr(sys, "pypy_version_info"): # in PyPy we can't reliable get the warning about the coroutine not being awaited, # because it depends on the coroutine being garbage collected; given that # we are running in a subprocess, that's difficult to enforce expected_lines = ["*1 passed*"] else: expected_lines = [ "*RuntimeWarning: coroutine * was never awaited", "*1 passed*", ] result.stdout.fnmatch_lines(expected_lines) @pytest.mark.skipif( sys.version_info < (3, 8), reason="Feature introduced in Python 3.8" ) def test_do_class_cleanups_on_success(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] @classmethod def setUpClass(cls): def cleanup(): cls.values.append(1) cls.addClassCleanup(cleanup) def test_one(self): pass def test_two(self): pass def test_cleanup_called_exactly_once(): assert MyTestCase.values == [1] """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert failed == 0 assert passed == 3 @pytest.mark.skipif( sys.version_info < (3, 8), reason="Feature introduced in Python 3.8" ) def test_do_class_cleanups_on_setupclass_failure(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] @classmethod def setUpClass(cls): def cleanup(): cls.values.append(1) cls.addClassCleanup(cleanup) assert False def test_one(self): pass def test_cleanup_called_exactly_once(): assert MyTestCase.values == [1] """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert failed == 1 assert passed == 1 @pytest.mark.skipif( sys.version_info < (3, 8), reason="Feature introduced in Python 3.8" ) def test_do_class_cleanups_on_teardownclass_failure(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] @classmethod def setUpClass(cls): def cleanup(): cls.values.append(1) cls.addClassCleanup(cleanup) @classmethod def tearDownClass(cls): assert False def test_one(self): pass def test_two(self): pass def test_cleanup_called_exactly_once(): assert MyTestCase.values == [1] """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert passed == 3 def test_do_cleanups_on_success(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] def setUp(self): def cleanup(): self.values.append(1) self.addCleanup(cleanup) def test_one(self): pass def test_two(self): pass def test_cleanup_called_the_right_number_of_times(): assert MyTestCase.values == [1, 1] """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert failed == 0 assert passed == 3 def test_do_cleanups_on_setup_failure(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] def setUp(self): def cleanup(): self.values.append(1) self.addCleanup(cleanup) assert False def test_one(self): pass def test_two(self): pass def test_cleanup_called_the_right_number_of_times(): assert MyTestCase.values == [1, 1] """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert failed == 2 assert passed == 1 def test_do_cleanups_on_teardown_failure(pytester: Pytester) -> None: testpath = pytester.makepyfile( """ import unittest class MyTestCase(unittest.TestCase): values = [] def setUp(self): def cleanup(): self.values.append(1) self.addCleanup(cleanup) def tearDown(self): assert False def test_one(self): pass def test_two(self): pass def test_cleanup_called_the_right_number_of_times(): assert MyTestCase.values == [1, 1] """ ) reprec = pytester.inline_run(testpath) passed, skipped, failed = reprec.countoutcomes() assert failed == 2 assert passed == 1