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Direktori : /lib/python3/dist-packages/twisted/trial/test/ |
Current File : //lib/python3/dist-packages/twisted/trial/test/test_tests.py |
# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ Tests for the behaviour of unit tests. Many tests in this module follow a simple pattern. A mixin is defined which includes test methods for a certain feature. The mixin is inherited from twice, once by a class also inheriting from SynchronousTestCase and once from a class inheriting from TestCase. These two subclasses are named like I{SynchronousFooTests} and I{AsynchronousFooTests}, where I{Foo} is related to the name of the mixin. Sometimes the mixin is defined in another module, along with the synchronous subclass. The mixin is imported into this module to define the asynchronous subclass. This pattern allows the same tests to be applied to the two base test case classes trial provides, ensuring their behavior is the same. Most new tests should be added in this pattern. Tests for functionality which is intentionally only provided by TestCase, not SynchronousTestCase, is excepted of course. """ import gc import sys import unittest as pyunit import weakref from io import StringIO from twisted.internet import defer, reactor from twisted.python.compat import _PYPY from twisted.python.reflect import namedAny from twisted.trial import reporter, runner, unittest, util from twisted.trial._asyncrunner import ( _clearSuite, _ForceGarbageCollectionDecorator, _iterateTests, ) from twisted.trial.test import erroneous from twisted.trial.test.test_suppression import SuppressionMixin class ResultsTestMixin: """ Provide useful APIs for test cases that are about test cases. """ def loadSuite(self, suite): """ Load tests from the given test case class and create a new reporter to use for running it. """ self.loader = pyunit.TestLoader() self.suite = self.loader.loadTestsFromTestCase(suite) self.reporter = reporter.TestResult() def test_setUp(self): """ test the setup """ self.assertTrue(self.reporter.wasSuccessful()) self.assertEqual(self.reporter.errors, []) self.assertEqual(self.reporter.failures, []) self.assertEqual(self.reporter.skips, []) def assertCount(self, numTests): """ Asserts that the test count is plausible """ self.assertEqual(self.suite.countTestCases(), numTests) self.suite(self.reporter) self.assertEqual(self.reporter.testsRun, numTests) class SuccessMixin: """ Tests for the reporting of successful tests in L{twisted.trial.unittest.TestCase}. """ def setUp(self): """ Setup our test case """ self.result = reporter.TestResult() def test_successful(self): """ A successful test, used by other tests. """ def assertSuccessful(self, test, result): """ Utility function -- assert there is one success and the state is plausible """ self.assertEqual(result.successes, 1) self.assertEqual(result.failures, []) self.assertEqual(result.errors, []) self.assertEqual(result.expectedFailures, []) self.assertEqual(result.unexpectedSuccesses, []) self.assertEqual(result.skips, []) def test_successfulIsReported(self): """ Test that when a successful test is run, it is reported as a success, and not as any other kind of result. """ test = self.__class__("test_successful") test.run(self.result) self.assertSuccessful(test, self.result) def test_defaultIsSuccessful(self): """ The test case type can be instantiated with no arguments, run, and reported as being successful. """ test = self.__class__() test.run(self.result) self.assertSuccessful(test, self.result) def test_noReference(self): """ Test that no reference is kept on a successful test. """ test = self.__class__("test_successful") ref = weakref.ref(test) test.run(self.result) self.assertSuccessful(test, self.result) del test gc.collect() self.assertIdentical(ref(), None) class SynchronousSuccessTests(SuccessMixin, unittest.SynchronousTestCase): """ Tests for the reporting of successful tests in the synchronous case. """ class AsynchronousSuccessTests(SuccessMixin, unittest.TestCase): """ Tests for the reporting of successful tests in the synchronous case. """ class SkipMethodsMixin(ResultsTestMixin): """ Tests for the reporting of skipping tests in L{twisted.trial.unittest.TestCase}. """ def setUp(self): """ Setup our test case """ self.loadSuite(self.Skipping) def test_counting(self): """ Assert that there are three tests. """ self.assertCount(3) def test_results(self): """ Running a suite in which all methods are individually set to skip produces a successful result with no recorded errors or failures, all the skipped methods recorded as skips, and no methods recorded as successes. """ self.suite(self.reporter) self.assertTrue(self.reporter.wasSuccessful()) self.assertEqual(self.reporter.errors, []) self.assertEqual(self.reporter.failures, []) self.assertEqual(len(self.reporter.skips), 3) self.assertEqual(self.reporter.successes, 0) def test_setUp(self): """ Running a suite in which all methods are skipped by C{setUp} raising L{SkipTest} produces a successful result with no recorded errors or failures, all skipped methods recorded as skips, and no methods recorded as successes. """ self.loadSuite(self.SkippingSetUp) self.suite(self.reporter) self.assertTrue(self.reporter.wasSuccessful()) self.assertEqual(self.reporter.errors, []) self.assertEqual(self.reporter.failures, []) self.assertEqual(len(self.reporter.skips), 2) self.assertEqual(self.reporter.successes, 0) def test_reasons(self): """ Test that reasons work """ self.suite(self.reporter) prefix = "test_" # whiteboxing reporter for test, reason in self.reporter.skips: self.assertEqual(test.shortDescription()[len(prefix) :], str(reason)) def test_deprecatedSkipWithoutReason(self): """ If a test method raises L{SkipTest} with no reason, a deprecation warning is emitted. """ self.loadSuite(self.DeprecatedReasonlessSkip) self.suite(self.reporter) warnings = self.flushWarnings([self.DeprecatedReasonlessSkip.test_1]) self.assertEqual(1, len(warnings)) self.assertEqual(DeprecationWarning, warnings[0]["category"]) self.assertEqual( "Do not raise unittest.SkipTest with no arguments! Give a reason " "for skipping tests!", warnings[0]["message"], ) class SynchronousSkipMethodTests(SkipMethodsMixin, unittest.SynchronousTestCase): """ Tests for the reporting of skipping tests in the synchronous case. See: L{twisted.trial.test.test_tests.SkipMethodsMixin} """ Skipping = namedAny("twisted.trial.test.skipping.SynchronousSkipping") SkippingSetUp = namedAny("twisted.trial.test.skipping.SynchronousSkippingSetUp") DeprecatedReasonlessSkip = namedAny( "twisted.trial.test.skipping.SynchronousDeprecatedReasonlessSkip" ) class AsynchronousSkipMethodTests(SkipMethodsMixin, unittest.TestCase): """ Tests for the reporting of skipping tests in the asynchronous case. See: L{twisted.trial.test.test_tests.SkipMethodsMixin} """ Skipping = namedAny("twisted.trial.test.skipping.AsynchronousSkipping") SkippingSetUp = namedAny("twisted.trial.test.skipping.AsynchronousSkippingSetUp") DeprecatedReasonlessSkip = namedAny( "twisted.trial.test.skipping.AsynchronousDeprecatedReasonlessSkip" ) class SkipClassesMixin(ResultsTestMixin): """ Test the class skipping features of L{twisted.trial.unittest.TestCase}. """ def setUp(self): """ Setup our test case """ self.loadSuite(self.SkippedClass) self.SkippedClass._setUpRan = False def test_counting(self): """ Skipped test methods still contribute to the total test count. """ self.assertCount(4) def test_setUpRan(self): """ The C{setUp} method is not called if the class is set to skip. """ self.suite(self.reporter) self.assertFalse(self.SkippedClass._setUpRan) def test_results(self): """ Skipped test methods don't cause C{wasSuccessful} to return C{False}, nor do they contribute to the C{errors} or C{failures} of the reporter, or to the count of successes. They do, however, add elements to the reporter's C{skips} list. """ self.suite(self.reporter) self.assertTrue(self.reporter.wasSuccessful()) self.assertEqual(self.reporter.errors, []) self.assertEqual(self.reporter.failures, []) self.assertEqual(len(self.reporter.skips), 4) self.assertEqual(self.reporter.successes, 0) def test_reasons(self): """ Test methods which raise L{unittest.SkipTest} or have their C{skip} attribute set to something are skipped. """ self.suite(self.reporter) expectedReasons = ["class", "skip2", "class", "class"] # whitebox reporter reasonsGiven = [reason for test, reason in self.reporter.skips] self.assertEqual(expectedReasons, reasonsGiven) class SynchronousSkipClassTests(SkipClassesMixin, unittest.SynchronousTestCase): """ Test the class skipping features in the synchronous case. See: L{twisted.trial.test.test_tests.SkipClassesMixin} """ SkippedClass = namedAny("twisted.trial.test.skipping.SynchronousSkippedClass") class AsynchronousSkipClassTests(SkipClassesMixin, unittest.TestCase): """ Test the class skipping features in the asynchronous case. See: L{twisted.trial.test.test_tests.SkipClassesMixin} """ SkippedClass = namedAny("twisted.trial.test.skipping.AsynchronousSkippedClass") class TodoMixin(ResultsTestMixin): """ Tests for the individual test method I{expected failure} features of L{twisted.trial.unittest.TestCase}. """ def setUp(self): """ Setup our test case """ self.loadSuite(self.Todo) def test_counting(self): """ Ensure that we've got three test cases. """ self.assertCount(3) def test_results(self): """ Running a suite in which all methods are individually marked as expected to fail produces a successful result with no recorded errors, failures, or skips, all methods which fail and were expected to fail recorded as C{expectedFailures}, and all methods which pass but which were expected to fail recorded as C{unexpectedSuccesses}. Additionally, no tests are recorded as successes. """ self.suite(self.reporter) self.assertTrue(self.reporter.wasSuccessful()) self.assertEqual(self.reporter.errors, []) self.assertEqual(self.reporter.failures, []) self.assertEqual(self.reporter.skips, []) self.assertEqual(len(self.reporter.expectedFailures), 2) self.assertEqual(len(self.reporter.unexpectedSuccesses), 1) self.assertEqual(self.reporter.successes, 0) def test_expectedFailures(self): """ Ensure that expected failures are handled properly. """ self.suite(self.reporter) expectedReasons = ["todo1", "todo2"] reasonsGiven = [r.reason for t, e, r in self.reporter.expectedFailures] self.assertEqual(expectedReasons, reasonsGiven) def test_unexpectedSuccesses(self): """ Ensure that unexpected successes are caught. """ self.suite(self.reporter) expectedReasons = ["todo3"] reasonsGiven = [r.reason for t, r in self.reporter.unexpectedSuccesses] self.assertEqual(expectedReasons, reasonsGiven) def test_expectedSetUpFailure(self): """ C{setUp} is excluded from the failure expectation defined by a C{todo} attribute on a test method. """ self.loadSuite(self.SetUpTodo) self.suite(self.reporter) self.assertFalse(self.reporter.wasSuccessful()) self.assertEqual(len(self.reporter.errors), 1) self.assertEqual(self.reporter.failures, []) self.assertEqual(self.reporter.skips, []) self.assertEqual(len(self.reporter.expectedFailures), 0) self.assertEqual(len(self.reporter.unexpectedSuccesses), 0) self.assertEqual(self.reporter.successes, 0) def test_expectedTearDownFailure(self): """ C{tearDown} is excluded from the failure expectation defined by a C{todo} attribute on a test method. """ self.loadSuite(self.TearDownTodo) self.suite(self.reporter) self.assertFalse(self.reporter.wasSuccessful()) self.assertEqual(len(self.reporter.errors), 1) self.assertEqual(self.reporter.failures, []) self.assertEqual(self.reporter.skips, []) self.assertEqual(len(self.reporter.expectedFailures), 0) # This seems strange, since tearDown raised an exception. However, the # test method did complete without error. The tearDown error is # reflected in the errors list, checked above. self.assertEqual(len(self.reporter.unexpectedSuccesses), 1) self.assertEqual(self.reporter.successes, 0) class SynchronousTodoTests(TodoMixin, unittest.SynchronousTestCase): """ Test the class skipping features in the synchronous case. See: L{twisted.trial.test.test_tests.TodoMixin} """ Todo = namedAny("twisted.trial.test.skipping.SynchronousTodo") SetUpTodo = namedAny("twisted.trial.test.skipping.SynchronousSetUpTodo") TearDownTodo = namedAny("twisted.trial.test.skipping.SynchronousTearDownTodo") class AsynchronousTodoTests(TodoMixin, unittest.TestCase): """ Test the class skipping features in the asynchronous case. See: L{twisted.trial.test.test_tests.TodoMixin} """ Todo = namedAny("twisted.trial.test.skipping.AsynchronousTodo") SetUpTodo = namedAny("twisted.trial.test.skipping.AsynchronousSetUpTodo") TearDownTodo = namedAny("twisted.trial.test.skipping.AsynchronousTearDownTodo") class ClassTodoMixin(ResultsTestMixin): """ Tests for the class-wide I{expected failure} features of L{twisted.trial.unittest.TestCase}. """ def setUp(self): """ Setup our test case """ self.loadSuite(self.TodoClass) def test_counting(self): """ Ensure that we've got four test cases. """ self.assertCount(4) def test_results(self): """ Running a suite in which an entire class is marked as expected to fail produces a successful result with no recorded errors, failures, or skips, all methods which fail and were expected to fail recorded as C{expectedFailures}, and all methods which pass but which were expected to fail recorded as C{unexpectedSuccesses}. Additionally, no tests are recorded as successes. """ self.suite(self.reporter) self.assertTrue(self.reporter.wasSuccessful()) self.assertEqual(self.reporter.errors, []) self.assertEqual(self.reporter.failures, []) self.assertEqual(self.reporter.skips, []) self.assertEqual(len(self.reporter.expectedFailures), 2) self.assertEqual(len(self.reporter.unexpectedSuccesses), 2) self.assertEqual(self.reporter.successes, 0) def test_expectedFailures(self): """ Ensure that expected failures are handled properly. """ self.suite(self.reporter) expectedReasons = ["method", "class"] reasonsGiven = [r.reason for t, e, r in self.reporter.expectedFailures] self.assertEqual(expectedReasons, reasonsGiven) def test_unexpectedSuccesses(self): """ Ensure that unexpected successes are caught. """ self.suite(self.reporter) expectedReasons = ["method", "class"] reasonsGiven = [r.reason for t, r in self.reporter.unexpectedSuccesses] self.assertEqual(expectedReasons, reasonsGiven) class SynchronousClassTodoTests(ClassTodoMixin, unittest.SynchronousTestCase): """ Tests for the class-wide I{expected failure} features in the synchronous case. See: L{twisted.trial.test.test_tests.ClassTodoMixin} """ TodoClass = namedAny("twisted.trial.test.skipping.SynchronousTodoClass") class AsynchronousClassTodoTests(ClassTodoMixin, unittest.TestCase): """ Tests for the class-wide I{expected failure} features in the asynchronous case. See: L{twisted.trial.test.test_tests.ClassTodoMixin} """ TodoClass = namedAny("twisted.trial.test.skipping.AsynchronousTodoClass") class StrictTodoMixin(ResultsTestMixin): """ Tests for the I{expected failure} features of L{twisted.trial.unittest.TestCase} in which the exact failure which is expected is indicated. """ def setUp(self): """ Setup our test case """ self.loadSuite(self.StrictTodo) def test_counting(self): """ Assert there are seven test cases """ self.assertCount(7) def test_results(self): """ A test method which is marked as expected to fail with a particular exception is only counted as an expected failure if it does fail with that exception, not if it fails with some other exception. """ self.suite(self.reporter) self.assertFalse(self.reporter.wasSuccessful()) self.assertEqual(len(self.reporter.errors), 2) self.assertEqual(len(self.reporter.failures), 1) self.assertEqual(len(self.reporter.expectedFailures), 3) self.assertEqual(len(self.reporter.unexpectedSuccesses), 1) self.assertEqual(self.reporter.successes, 0) self.assertEqual(self.reporter.skips, []) def test_expectedFailures(self): """ Ensure that expected failures are handled properly. """ self.suite(self.reporter) expectedReasons = ["todo1", "todo2", "todo5"] reasonsGotten = [r.reason for t, e, r in self.reporter.expectedFailures] self.assertEqual(expectedReasons, reasonsGotten) def test_unexpectedSuccesses(self): """ Ensure that unexpected successes are caught. """ self.suite(self.reporter) expectedReasons = [([RuntimeError], "todo7")] reasonsGotten = [ (r.errors, r.reason) for t, r in self.reporter.unexpectedSuccesses ] self.assertEqual(expectedReasons, reasonsGotten) class SynchronousStrictTodoTests(StrictTodoMixin, unittest.SynchronousTestCase): """ Tests for the expected failure case when the exact failure that is expected is indicated in the synchronous case See: L{twisted.trial.test.test_tests.StrictTodoMixin} """ StrictTodo = namedAny("twisted.trial.test.skipping.SynchronousStrictTodo") class AsynchronousStrictTodoTests(StrictTodoMixin, unittest.TestCase): """ Tests for the expected failure case when the exact failure that is expected is indicated in the asynchronous case See: L{twisted.trial.test.test_tests.StrictTodoMixin} """ StrictTodo = namedAny("twisted.trial.test.skipping.AsynchronousStrictTodo") class ReactorCleanupTests(unittest.SynchronousTestCase): """ Tests for cleanup and reporting of reactor event sources left behind by test methods. """ def setUp(self): """ Setup our test case """ self.result = reporter.Reporter(StringIO()) self.loader = runner.TestLoader() def test_leftoverSockets(self): """ Trial reports a L{util.DirtyReactorAggregateError} if a test leaves sockets behind. """ suite = self.loader.loadByName( "twisted.trial.test.erroneous.SocketOpenTest.test_socketsLeftOpen" ) suite.run(self.result) self.assertFalse(self.result.wasSuccessful()) # socket cleanup happens at end of class's tests. # all the tests in the class are successful, even if the suite # fails self.assertEqual(self.result.successes, 1) failure = self.result.errors[0][1] self.assertTrue(failure.check(util.DirtyReactorAggregateError)) def test_leftoverPendingCalls(self): """ Trial reports a L{util.DirtyReactorAggregateError} and fails the test if a test leaves a L{DelayedCall} hanging. """ suite = erroneous.ReactorCleanupTests("test_leftoverPendingCalls") suite.run(self.result) self.assertFalse(self.result.wasSuccessful()) failure = self.result.errors[0][1] self.assertEqual(self.result.successes, 0) self.assertTrue(failure.check(util.DirtyReactorAggregateError)) class FixtureMixin: """ Tests for fixture helper methods (e.g. setUp, tearDown). """ def setUp(self): """ Setup our test case """ self.reporter = reporter.Reporter() self.loader = pyunit.TestLoader() def test_brokenSetUp(self): """ When setUp fails, the error is recorded in the result object. """ suite = self.loader.loadTestsFromTestCase(self.TestFailureInSetUp) suite.run(self.reporter) self.assertTrue(len(self.reporter.errors) > 0) self.assertIsInstance(self.reporter.errors[0][1].value, erroneous.FoolishError) self.assertEqual(0, self.reporter.successes) def test_brokenTearDown(self): """ When tearDown fails, the error is recorded in the result object. """ suite = self.loader.loadTestsFromTestCase(self.TestFailureInTearDown) suite.run(self.reporter) errors = self.reporter.errors self.assertTrue(len(errors) > 0) self.assertIsInstance(errors[0][1].value, erroneous.FoolishError) self.assertEqual(0, self.reporter.successes) def test_tearDownRunsOnTestFailure(self): """ L{SynchronousTestCase.tearDown} runs when a test method fails. """ suite = self.loader.loadTestsFromTestCase(self.TestFailureButTearDownRuns) case = list(suite)[0] self.assertFalse(case.tornDown) suite.run(self.reporter) errors = self.reporter.errors self.assertTrue(len(errors) > 0) self.assertIsInstance(errors[0][1].value, erroneous.FoolishError) self.assertEqual(0, self.reporter.successes) self.assertTrue(case.tornDown) class SynchronousFixtureTests(FixtureMixin, unittest.SynchronousTestCase): """ Tests for broken fixture helper methods in the synchronous case See: L{twisted.trial.test.test_tests.FixtureMixin} """ TestFailureInSetUp = namedAny( "twisted.trial.test.erroneous.SynchronousTestFailureInSetUp" ) TestFailureInTearDown = namedAny( "twisted.trial.test.erroneous.SynchronousTestFailureInTearDown" ) TestFailureButTearDownRuns = namedAny( "twisted.trial.test.erroneous.SynchronousTestFailureButTearDownRuns" ) class AsynchronousFixtureTests(FixtureMixin, unittest.TestCase): """ Tests for broken fixture helper methods in the asynchronous case See: L{twisted.trial.test.test_tests.FixtureMixin} """ TestFailureInSetUp = namedAny( "twisted.trial.test.erroneous.AsynchronousTestFailureInSetUp" ) TestFailureInTearDown = namedAny( "twisted.trial.test.erroneous.AsynchronousTestFailureInTearDown" ) TestFailureButTearDownRuns = namedAny( "twisted.trial.test.erroneous.AsynchronousTestFailureButTearDownRuns" ) class AsynchronousSuppressionTests(SuppressionMixin, unittest.TestCase): """ Tests for the warning suppression features of L{twisted.trial.unittest.TestCase} See L{twisted.trial.test.test_suppression.SuppressionMixin} """ TestSetUpSuppression = namedAny( "twisted.trial.test.suppression.AsynchronousTestSetUpSuppression" ) TestTearDownSuppression = namedAny( "twisted.trial.test.suppression.AsynchronousTestTearDownSuppression" ) TestSuppression = namedAny( "twisted.trial.test.suppression.AsynchronousTestSuppression" ) TestSuppression2 = namedAny( "twisted.trial.test.suppression.AsynchronousTestSuppression2" ) class GCMixin: """ I provide a few mock tests that log setUp, tearDown, test execution and garbage collection. I'm used to test whether gc.collect gets called. """ class BasicTest(unittest.SynchronousTestCase): """ Mock test to run. """ def setUp(self): """ Mock setUp """ self._log("setUp") def test_foo(self): """ Mock test case """ self._log("test") def tearDown(self): """ Mock tear tearDown """ self._log("tearDown") def _log(self, msg): """ Log function """ self._collectCalled.append(msg) def collect(self): """Fake gc.collect""" self._log("collect") def setUp(self): """ Setup our test case """ self._collectCalled = [] self.BasicTest._log = self._log self._oldCollect = gc.collect gc.collect = self.collect def tearDown(self): """ Tear down the test """ gc.collect = self._oldCollect class GarbageCollectionDefaultTests(GCMixin, unittest.SynchronousTestCase): """ By default, tests should not force garbage collection. """ def test_collectNotDefault(self): """ By default, tests should not force garbage collection. """ test = self.BasicTest("test_foo") result = reporter.TestResult() test.run(result) self.assertEqual(self._collectCalled, ["setUp", "test", "tearDown"]) class GarbageCollectionTests(GCMixin, unittest.SynchronousTestCase): """ Test that, when force GC, it works. """ def test_collectCalled(self): """ test gc.collect is called before and after each test. """ test = GarbageCollectionTests.BasicTest("test_foo") test = _ForceGarbageCollectionDecorator(test) result = reporter.TestResult() test.run(result) self.assertEqual( self._collectCalled, ["collect", "setUp", "test", "tearDown", "collect"] ) class UnhandledDeferredTests(unittest.SynchronousTestCase): """ Test what happens when we have an unhandled deferred left around after a test. """ def setUp(self): """ Setup our test case """ from twisted.trial.test import weird # test_unhandledDeferred creates a cycle. we need explicit control of gc gc.disable() self.test1 = _ForceGarbageCollectionDecorator( weird.TestBleeding("test_unhandledDeferred") ) def test_isReported(self): """ Forcing garbage collection should cause unhandled Deferreds to be reported as errors. """ result = reporter.TestResult() self.test1(result) self.assertEqual( len(result.errors), 1, "Unhandled deferred passed without notice" ) @pyunit.skipIf(_PYPY, "GC works differently on PyPy.") def test_doesntBleed(self): """ Forcing garbage collection in the test should mean that there are no unreachable cycles immediately after the test completes. """ result = reporter.TestResult() self.test1(result) self.flushLoggedErrors() # test1 logs errors that get caught be us. # test1 created unreachable cycle. # it & all others should have been collected by now. n = len(gc.garbage) self.assertEqual(n, 0, "unreachable cycle still existed") # check that last gc.collect didn't log more errors x = self.flushLoggedErrors() self.assertEqual(len(x), 0, "Errors logged after gc.collect") def tearDown(self): """ Tear down the test """ gc.collect() gc.enable() self.flushLoggedErrors() class AddCleanupMixin: """ Test the addCleanup method of TestCase. """ def setUp(self): """ Setup our test case """ super().setUp() self.result = reporter.TestResult() self.test = self.AddCleanup() def test_addCleanupCalledIfSetUpFails(self): """ Callables added with C{addCleanup} are run even if setUp fails. """ self.test.setUp = self.test.brokenSetUp self.test.addCleanup(self.test.append, "foo") self.test.run(self.result) self.assertEqual(["setUp", "foo"], self.test.log) def test_addCleanupCalledIfSetUpSkips(self): """ Callables added with C{addCleanup} are run even if setUp raises L{SkipTest}. This allows test authors to reliably provide clean up code using C{addCleanup}. """ self.test.setUp = self.test.skippingSetUp self.test.addCleanup(self.test.append, "foo") self.test.run(self.result) self.assertEqual(["setUp", "foo"], self.test.log) def test_addCleanupCalledInReverseOrder(self): """ Callables added with C{addCleanup} should be called before C{tearDown} in reverse order of addition. """ self.test.addCleanup(self.test.append, "foo") self.test.addCleanup(self.test.append, "bar") self.test.run(self.result) self.assertEqual(["setUp", "runTest", "bar", "foo", "tearDown"], self.test.log) def test_errorInCleanupIsCaptured(self): """ Errors raised in cleanup functions should be treated like errors in C{tearDown}. They should be added as errors and fail the test. Skips, todos and failures are all treated as errors. """ self.test.addCleanup(self.test.fail, "foo") self.test.run(self.result) self.assertFalse(self.result.wasSuccessful()) self.assertEqual(1, len(self.result.errors)) [(test, error)] = self.result.errors self.assertEqual(test, self.test) self.assertEqual(error.getErrorMessage(), "foo") def test_cleanupsContinueRunningAfterError(self): """ If a cleanup raises an error then that does not stop the other cleanups from being run. """ self.test.addCleanup(self.test.append, "foo") self.test.addCleanup(self.test.fail, "bar") self.test.run(self.result) self.assertEqual(["setUp", "runTest", "foo", "tearDown"], self.test.log) self.assertEqual(1, len(self.result.errors)) [(test, error)] = self.result.errors self.assertEqual(test, self.test) self.assertEqual(error.getErrorMessage(), "bar") def test_multipleErrorsReported(self): """ If more than one cleanup fails, then the test should fail with more than one error. """ self.test.addCleanup(self.test.fail, "foo") self.test.addCleanup(self.test.fail, "bar") self.test.run(self.result) self.assertEqual(["setUp", "runTest", "tearDown"], self.test.log) self.assertEqual(2, len(self.result.errors)) [(test1, error1), (test2, error2)] = self.result.errors self.assertEqual(test1, self.test) self.assertEqual(test2, self.test) self.assertEqual(error1.getErrorMessage(), "bar") self.assertEqual(error2.getErrorMessage(), "foo") class SynchronousAddCleanupTests(AddCleanupMixin, unittest.SynchronousTestCase): """ Test the addCleanup method of TestCase in the synchronous case See: L{twisted.trial.test.test_tests.AddCleanupMixin} """ AddCleanup = namedAny("twisted.trial.test.skipping.SynchronousAddCleanup") class AsynchronousAddCleanupTests(AddCleanupMixin, unittest.TestCase): """ Test the addCleanup method of TestCase in the asynchronous case See: L{twisted.trial.test.test_tests.AddCleanupMixin} """ AddCleanup = namedAny("twisted.trial.test.skipping.AsynchronousAddCleanup") def test_addCleanupWaitsForDeferreds(self): """ If an added callable returns a L{Deferred}, then the test should wait until that L{Deferred} has fired before running the next cleanup method. """ def cleanup(message): d = defer.Deferred() reactor.callLater(0, d.callback, message) return d.addCallback(self.test.append) self.test.addCleanup(self.test.append, "foo") self.test.addCleanup(cleanup, "bar") self.test.run(self.result) self.assertEqual(["setUp", "runTest", "bar", "foo", "tearDown"], self.test.log) class SuiteClearingMixin: """ Tests for our extension that allows us to clear out a L{TestSuite}. """ def test_clearSuite(self): """ Calling L{_clearSuite} on a populated L{TestSuite} removes all tests. """ suite = unittest.TestSuite() suite.addTest(self.TestCase()) # Double check that the test suite actually has something in it. self.assertEqual(1, suite.countTestCases()) _clearSuite(suite) self.assertEqual(0, suite.countTestCases()) def test_clearPyunitSuite(self): """ Calling L{_clearSuite} on a populated standard library L{TestSuite} removes all tests. This test is important since C{_clearSuite} operates by mutating internal variables. """ suite = pyunit.TestSuite() suite.addTest(self.TestCase()) # Double check that the test suite actually has something in it. self.assertEqual(1, suite.countTestCases()) _clearSuite(suite) self.assertEqual(0, suite.countTestCases()) class SynchronousSuiteClearingTests(SuiteClearingMixin, unittest.SynchronousTestCase): """ Tests for our extension that allows us to clear out a L{TestSuite} in the synchronous case. See L{twisted.trial.test.test_tests.SuiteClearingMixin} """ TestCase = unittest.SynchronousTestCase class AsynchronousSuiteClearingTests(SuiteClearingMixin, unittest.TestCase): """ Tests for our extension that allows us to clear out a L{TestSuite} in the asynchronous case. See L{twisted.trial.test.test_tests.SuiteClearingMixin} """ TestCase = unittest.TestCase class TestDecoratorMixin: """ Tests for our test decoration features. """ def assertTestsEqual(self, observed, expected): """ Assert that the given decorated tests are equal. """ self.assertEqual(observed.__class__, expected.__class__, "Different class") observedOriginal = getattr(observed, "_originalTest", None) expectedOriginal = getattr(expected, "_originalTest", None) self.assertIdentical(observedOriginal, expectedOriginal) if observedOriginal is expectedOriginal is None: self.assertIdentical(observed, expected) def assertSuitesEqual(self, observed, expected): """ Assert that the given test suites with decorated tests are equal. """ self.assertEqual(observed.__class__, expected.__class__, "Different class") self.assertEqual( len(observed._tests), len(expected._tests), "Different number of tests." ) for observedTest, expectedTest in zip(observed._tests, expected._tests): if getattr(observedTest, "_tests", None) is not None: self.assertSuitesEqual(observedTest, expectedTest) else: self.assertTestsEqual(observedTest, expectedTest) def test_usesAdaptedReporterWithRun(self): """ For decorated tests, C{run} uses a result adapter that preserves the test decoration for calls to C{addError}, C{startTest} and the like. See L{reporter._AdaptedReporter}. """ test = self.TestCase() decoratedTest = unittest.TestDecorator(test) # Move to top in ticket #5964: from twisted.trial.test.test_reporter import LoggingReporter result = LoggingReporter() decoratedTest.run(result) self.assertTestsEqual(result.test, decoratedTest) def test_usesAdaptedReporterWithCall(self): """ For decorated tests, C{__call__} uses a result adapter that preserves the test decoration for calls to C{addError}, C{startTest} and the like. See L{reporter._AdaptedReporter}. """ test = self.TestCase() decoratedTest = unittest.TestDecorator(test) # Move to top in ticket #5964: from twisted.trial.test.test_reporter import LoggingReporter result = LoggingReporter() decoratedTest(result) self.assertTestsEqual(result.test, decoratedTest) def test_decorateSingleTest(self): """ Calling L{decorate} on a single test case returns the test case decorated with the provided decorator. """ test = self.TestCase() decoratedTest = unittest.decorate(test, unittest.TestDecorator) self.assertTestsEqual(unittest.TestDecorator(test), decoratedTest) def test_decorateTestSuite(self): """ Calling L{decorate} on a test suite will return a test suite with each test decorated with the provided decorator. """ test = self.TestCase() suite = unittest.TestSuite([test]) decoratedTest = unittest.decorate(suite, unittest.TestDecorator) self.assertSuitesEqual( decoratedTest, unittest.TestSuite([unittest.TestDecorator(test)]) ) def test_decorateInPlaceMutatesOriginal(self): """ Calling L{decorate} on a test suite will mutate the original suite. """ test = self.TestCase() suite = unittest.TestSuite([test]) decoratedTest = unittest.decorate(suite, unittest.TestDecorator) self.assertSuitesEqual( decoratedTest, unittest.TestSuite([unittest.TestDecorator(test)]) ) self.assertSuitesEqual( suite, unittest.TestSuite([unittest.TestDecorator(test)]) ) def test_decorateTestSuiteReferences(self): """ When decorating a test suite in-place, the number of references to the test objects in that test suite should stay the same. Previously, L{unittest.decorate} recreated a test suite, so the original suite kept references to the test objects. This test is here to ensure the problem doesn't reappear again. """ getrefcount = getattr(sys, "getrefcount", None) if getrefcount is None: # For example non CPython like _PYPY. raise unittest.SkipTest("getrefcount not supported on this platform") test = self.TestCase() suite = unittest.TestSuite([test]) count1 = getrefcount(test) unittest.decorate(suite, unittest.TestDecorator) count2 = getrefcount(test) self.assertEqual(count1, count2) def test_decorateNestedTestSuite(self): """ Calling L{decorate} on a test suite with nested suites will return a test suite that maintains the same structure, but with all tests decorated. """ test = self.TestCase() suite = unittest.TestSuite([unittest.TestSuite([test])]) decoratedTest = unittest.decorate(suite, unittest.TestDecorator) expected = unittest.TestSuite( [unittest.TestSuite([unittest.TestDecorator(test)])] ) self.assertSuitesEqual(decoratedTest, expected) def test_decorateDecoratedSuite(self): """ Calling L{decorate} on a test suite with already-decorated tests decorates all of the tests in the suite again. """ test = self.TestCase() decoratedTest = unittest.decorate(test, unittest.TestDecorator) redecoratedTest = unittest.decorate(decoratedTest, unittest.TestDecorator) self.assertTestsEqual(redecoratedTest, unittest.TestDecorator(decoratedTest)) def test_decoratePreservesSuite(self): """ Tests can be in non-standard suites. L{decorate} preserves the non-standard suites when it decorates the tests. """ test = self.TestCase() suite = runner.DestructiveTestSuite([test]) decorated = unittest.decorate(suite, unittest.TestDecorator) self.assertSuitesEqual( decorated, runner.DestructiveTestSuite([unittest.TestDecorator(test)]) ) class SynchronousTestDecoratorTests(TestDecoratorMixin, unittest.SynchronousTestCase): """ Tests for our test decoration features in the synchronous case. See L{twisted.trial.test.test_tests.TestDecoratorMixin} """ TestCase = unittest.SynchronousTestCase class AsynchronousTestDecoratorTests(TestDecoratorMixin, unittest.TestCase): """ Tests for our test decoration features in the asynchronous case. See L{twisted.trial.test.test_tests.TestDecoratorMixin} """ TestCase = unittest.TestCase class MonkeyPatchMixin: """ Tests for the patch() helper method in L{unittest.TestCase}. """ def setUp(self): """ Setup our test case """ self.originalValue = "original" self.patchedValue = "patched" self.objectToPatch = self.originalValue self.test = self.TestCase() def test_patch(self): """ Calling C{patch()} on a test monkey patches the specified object and attribute. """ self.test.patch(self, "objectToPatch", self.patchedValue) self.assertEqual(self.objectToPatch, self.patchedValue) def test_patchRestoredAfterRun(self): """ Any monkey patches introduced by a test using C{patch()} are reverted after the test has run. """ self.test.patch(self, "objectToPatch", self.patchedValue) self.test.run(reporter.Reporter()) self.assertEqual(self.objectToPatch, self.originalValue) def test_revertDuringTest(self): """ C{patch()} return a L{monkey.MonkeyPatcher} object that can be used to restore the original values before the end of the test. """ patch = self.test.patch(self, "objectToPatch", self.patchedValue) patch.restore() self.assertEqual(self.objectToPatch, self.originalValue) def test_revertAndRepatch(self): """ The returned L{monkey.MonkeyPatcher} object can re-apply the patch during the test run. """ patch = self.test.patch(self, "objectToPatch", self.patchedValue) patch.restore() patch.patch() self.assertEqual(self.objectToPatch, self.patchedValue) def test_successivePatches(self): """ Successive patches are applied and reverted just like a single patch. """ self.test.patch(self, "objectToPatch", self.patchedValue) self.assertEqual(self.objectToPatch, self.patchedValue) self.test.patch(self, "objectToPatch", "second value") self.assertEqual(self.objectToPatch, "second value") self.test.run(reporter.Reporter()) self.assertEqual(self.objectToPatch, self.originalValue) class SynchronousMonkeyPatchTests(MonkeyPatchMixin, unittest.SynchronousTestCase): """ Tests for the patch() helper method in the synchronous case. See L{twisted.trial.test.test_tests.MonkeyPatchMixin} """ TestCase = unittest.SynchronousTestCase class AsynchronousMonkeyPatchTests(MonkeyPatchMixin, unittest.TestCase): """ Tests for the patch() helper method in the asynchronous case. See L{twisted.trial.test.test_tests.MonkeyPatchMixin} """ TestCase = unittest.TestCase class IterateTestsMixin: """ L{_iterateTests} returns a list of all test cases in a test suite or test case. """ def test_iterateTestCase(self): """ L{_iterateTests} on a single test case returns a list containing that test case. """ test = self.TestCase() self.assertEqual([test], list(_iterateTests(test))) def test_iterateSingletonTestSuite(self): """ L{_iterateTests} on a test suite that contains a single test case returns a list containing that test case. """ test = self.TestCase() suite = runner.TestSuite([test]) self.assertEqual([test], list(_iterateTests(suite))) def test_iterateNestedTestSuite(self): """ L{_iterateTests} returns tests that are in nested test suites. """ test = self.TestCase() suite = runner.TestSuite([runner.TestSuite([test])]) self.assertEqual([test], list(_iterateTests(suite))) def test_iterateIsLeftToRightDepthFirst(self): """ L{_iterateTests} returns tests in left-to-right, depth-first order. """ test = self.TestCase() suite = runner.TestSuite([runner.TestSuite([test]), self]) self.assertEqual([test, self], list(_iterateTests(suite))) class SynchronousIterateTestsTests(IterateTestsMixin, unittest.SynchronousTestCase): """ Check that L{_iterateTests} returns a list of all test cases in a test suite or test case for synchronous tests. See L{twisted.trial.test.test_tests.IterateTestsMixin} """ TestCase = unittest.SynchronousTestCase class AsynchronousIterateTestsTests(IterateTestsMixin, unittest.TestCase): """ Check that L{_iterateTests} returns a list of all test cases in a test suite or test case for asynchronous tests. See L{twisted.trial.test.test_tests.IterateTestsMixin} """ TestCase = unittest.TestCase class TrialGeneratorFunctionTests(unittest.SynchronousTestCase): """ Tests for generator function methods in test cases. """ def test_errorOnGeneratorFunction(self): """ In a TestCase, a test method which is a generator function is reported as an error, as such a method will never run assertions. """ class GeneratorTestCase(unittest.TestCase): """ A fake TestCase for testing purposes. """ def test_generator(self): """ A method which is also a generator function, for testing purposes. """ self.fail("this should never be reached") yield testCase = GeneratorTestCase("test_generator") result = reporter.TestResult() testCase.run(result) self.assertEqual(len(result.failures), 0) self.assertEqual(len(result.errors), 1) self.assertIn( "GeneratorTestCase.test_generator", result.errors[0][1].value.args[0] ) self.assertIn( "GeneratorTestCase testMethod=test_generator", result.errors[0][1].value.args[0], ) self.assertIn( "is a generator function and therefore will never run", result.errors[0][1].value.args[0], ) def test_synchronousTestCaseErrorOnGeneratorFunction(self): """ In a SynchronousTestCase, a test method which is a generator function is reported as an error, as such a method will never run assertions. """ class GeneratorSynchronousTestCase(unittest.SynchronousTestCase): """ A fake SynchronousTestCase for testing purposes. """ def test_generator(self): """ A method which is also a generator function, for testing purposes. """ self.fail("this should never be reached") yield testCase = GeneratorSynchronousTestCase("test_generator") result = reporter.TestResult() testCase.run(result) self.assertEqual(len(result.failures), 0) self.assertEqual(len(result.errors), 1) self.assertIn( "GeneratorSynchronousTestCase.test_generator", result.errors[0][1].value.args[0], ) self.assertIn( "GeneratorSynchronousTestCase testMethod=test_generator", result.errors[0][1].value.args[0], ) self.assertIn( "is a generator function and therefore will never run", result.errors[0][1].value.args[0], )