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Direktori : /lib/python3/dist-packages/twisted/trial/test/ |
Current File : //lib/python3/dist-packages/twisted/trial/test/test_runner.py |
# Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. # # Maintainer: Jonathan Lange # Author: Robert Collins import os import pdb import sys import unittest as pyunit from io import StringIO from typing import List from zope.interface import implementer from zope.interface.verify import verifyObject from twisted import plugin from twisted.internet import defer from twisted.plugins import twisted_trial from twisted.python import failure, log, reflect from twisted.python.filepath import FilePath from twisted.python.reflect import namedAny from twisted.scripts import trial from twisted.trial import reporter, runner, unittest, util from twisted.trial._asyncrunner import _ForceGarbageCollectionDecorator from twisted.trial.itrial import IReporter, ITestCase class CapturingDebugger: def __init__(self): self._calls = [] def runcall(self, *args, **kwargs): self._calls.append("runcall") args[0](*args[1:], **kwargs) @implementer(IReporter) class CapturingReporter: """ Reporter that keeps a log of all actions performed on it. """ stream = None tbformat = None args = None separator = None testsRun = None def __init__(self, stream=None, tbformat=None, rterrors=None, publisher=None): """ Create a capturing reporter. """ self._calls = [] self.shouldStop = False self._stream = stream self._tbformat = tbformat self._rterrors = rterrors self._publisher = publisher def startTest(self, method): """ Report the beginning of a run of a single test method @param method: an object that is adaptable to ITestMethod """ self._calls.append("startTest") def stopTest(self, method): """ Report the status of a single test method @param method: an object that is adaptable to ITestMethod """ self._calls.append("stopTest") def cleanupErrors(self, errs): """called when the reactor has been left in a 'dirty' state @param errs: a list of L{twisted.python.failure.Failure}s """ self._calls.append("cleanupError") def addSuccess(self, test): self._calls.append("addSuccess") def done(self): """ Do nothing. These tests don't care about done. """ def addError(self, test, error): """ Do nothing. These tests don't care about addError. """ def addFailure(self, test, failure): """ Do nothing. These tests don't care about addFailure. """ def addExpectedFailure(self, test, failure, todo=None): """ Do nothing. These tests don't care about addExpectedFailure. """ def addUnexpectedSuccess(self, test, todo=None): """ Do nothing. These tests don't care about addUnexpectedSuccess. """ def addSkip(self, test, reason): """ Do nothing. These tests don't care about addSkip. """ def wasSuccessful(self): """ Do nothing. These tests don't care about wasSuccessful. """ class TrialRunnerTestsMixin: """ Mixin defining tests for L{runner.TrialRunner}. """ def tearDown(self): self.runner._tearDownLogFile() def test_empty(self): """ Empty test method, used by the other tests. """ def _getObservers(self): return log.theLogPublisher.observers def test_addObservers(self): """ Any log system observers L{TrialRunner.run} adds are removed by the time it returns. """ originalCount = len(self._getObservers()) self.runner.run(self.test) newCount = len(self._getObservers()) self.assertEqual(newCount, originalCount) def test_logFileAlwaysActive(self): """ Test that a new file is opened on each run. """ oldSetUpLogFile = self.runner._setUpLogFile l = [] def setUpLogFile(): oldSetUpLogFile() l.append(self.runner._logFileObserver) self.runner._setUpLogFile = setUpLogFile self.runner.run(self.test) self.runner.run(self.test) self.assertEqual(len(l), 2) self.assertFalse(l[0] is l[1], "Should have created a new file observer") def test_logFileGetsClosed(self): """ Test that file created is closed during the run. """ oldSetUpLogFile = self.runner._setUpLogFile l = [] def setUpLogFile(): oldSetUpLogFile() l.append(self.runner._logFileObject) self.runner._setUpLogFile = setUpLogFile self.runner.run(self.test) self.assertEqual(len(l), 1) self.assertTrue(l[0].closed) class TrialRunnerTests(TrialRunnerTestsMixin, unittest.SynchronousTestCase): """ Tests for L{runner.TrialRunner} with the feature to turn unclean errors into warnings disabled. """ def setUp(self): self.stream = StringIO() self.runner = runner.TrialRunner(CapturingReporter, stream=self.stream) self.test = TrialRunnerTests("test_empty") def test_publisher(self): """ The reporter constructed by L{runner.TrialRunner} is passed L{twisted.python.log} as the value for the C{publisher} parameter. """ result = self.runner._makeResult() self.assertIdentical(result._publisher, log) class TrialRunnerWithUncleanWarningsReporterTests( TrialRunnerTestsMixin, unittest.SynchronousTestCase ): """ Tests for the TrialRunner's interaction with an unclean-error suppressing reporter. """ def setUp(self): self.stream = StringIO() self.runner = runner.TrialRunner( CapturingReporter, stream=self.stream, uncleanWarnings=True ) self.test = TrialRunnerTests("test_empty") class DryRunMixin: """ Mixin for testing that 'dry run' mode works with various L{pyunit.TestCase} subclasses. """ def setUp(self): self.log = [] self.stream = StringIO() self.runner = runner.TrialRunner( CapturingReporter, runner.TrialRunner.DRY_RUN, stream=self.stream ) self.makeTestFixtures() def makeTestFixtures(self): """ Set C{self.test} and C{self.suite}, where C{self.suite} is an empty TestSuite. """ def test_empty(self): """ If there are no tests, the reporter should not receive any events to report. """ result = self.runner.run(runner.TestSuite()) self.assertEqual(result._calls, []) def test_singleCaseReporting(self): """ If we are running a single test, check the reporter starts, passes and then stops the test during a dry run. """ result = self.runner.run(self.test) self.assertEqual(result._calls, ["startTest", "addSuccess", "stopTest"]) def test_testsNotRun(self): """ When we are doing a dry run, the tests should not actually be run. """ self.runner.run(self.test) self.assertEqual(self.log, []) class SynchronousDryRunTests(DryRunMixin, unittest.SynchronousTestCase): """ Check that 'dry run' mode works well with trial's L{SynchronousTestCase}. """ def makeTestFixtures(self): class PyunitCase(unittest.SynchronousTestCase): def test_foo(self): pass self.test = PyunitCase("test_foo") self.suite = pyunit.TestSuite() class DryRunTests(DryRunMixin, unittest.SynchronousTestCase): """ Check that 'dry run' mode works well with Trial tests. """ def makeTestFixtures(self): class MockTest(unittest.TestCase): def test_foo(test): self.log.append("test_foo") self.test = MockTest("test_foo") self.suite = runner.TestSuite() class PyUnitDryRunTests(DryRunMixin, unittest.SynchronousTestCase): """ Check that 'dry run' mode works well with stdlib unittest tests. """ def makeTestFixtures(self): class PyunitCase(pyunit.TestCase): def test_foo(self): pass self.test = PyunitCase("test_foo") self.suite = pyunit.TestSuite() class RunnerTests(unittest.SynchronousTestCase): def setUp(self): self.config = trial.Options() # whitebox hack a reporter in, because plugins are CACHED and will # only reload if the FILE gets changed. parts = reflect.qual(CapturingReporter).split(".") package = ".".join(parts[:-1]) klass = parts[-1] plugins = [ twisted_trial._Reporter( "Test Helper Reporter", package, description="Utility for unit testing.", longOpt="capturing", shortOpt=None, klass=klass, ) ] # XXX There should really be a general way to hook the plugin system # for tests. def getPlugins(iface, *a, **kw): self.assertEqual(iface, IReporter) return plugins + list(self.original(iface, *a, **kw)) self.original = plugin.getPlugins plugin.getPlugins = getPlugins self.standardReport = [ "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", "startTest", "addSuccess", "stopTest", ] def tearDown(self): plugin.getPlugins = self.original def parseOptions(self, args): self.config.parseOptions(args) def getRunner(self): r = trial._makeRunner(self.config) r.stream = StringIO() # XXX The runner should always take care of cleaning this up itself. # It's not clear why this is necessary. The runner always tears down # its log file. self.addCleanup(r._tearDownLogFile) # XXX The runner should always take care of cleaning this up itself as # well. It's necessary because TrialRunner._setUpTestdir might raise # an exception preventing Reporter.done from being run, leaving the # observer added by Reporter.__init__ still present in the system. # Something better needs to happen inside # TrialRunner._runWithoutDecoration to remove the need for this cludge. r._log = log.LogPublisher() return r def test_runner_can_get_reporter(self): self.parseOptions([]) result = self.config["reporter"] runner = self.getRunner() self.assertEqual(result, runner._makeResult().__class__) def test_runner_get_result(self): self.parseOptions([]) runner = self.getRunner() result = runner._makeResult() self.assertEqual(result.__class__, self.config["reporter"]) def test_uncleanWarningsOffByDefault(self): """ By default Trial sets the 'uncleanWarnings' option on the runner to False. This means that dirty reactor errors will be reported as errors. See L{test_reporter.DirtyReactorTests}. """ self.parseOptions([]) runner = self.getRunner() self.assertNotIsInstance( runner._makeResult(), reporter.UncleanWarningsReporterWrapper ) def test_getsUncleanWarnings(self): """ Specifying '--unclean-warnings' on the trial command line will cause reporters to be wrapped in a device which converts unclean errors to warnings. See L{test_reporter.DirtyReactorTests} for implications. """ self.parseOptions(["--unclean-warnings"]) runner = self.getRunner() self.assertIsInstance( runner._makeResult(), reporter.UncleanWarningsReporterWrapper ) def test_runner_working_directory(self): self.parseOptions(["--temp-directory", "some_path"]) runner = self.getRunner() self.assertEqual(runner.workingDirectory, "some_path") def test_concurrentImplicitWorkingDirectory(self): """ If no working directory is explicitly specified and the default working directory is in use by another runner, L{TrialRunner.run} selects a different default working directory to use. """ self.parseOptions([]) # Make sure we end up with the same working directory after this test # as we had before it. self.addCleanup(os.chdir, os.getcwd()) # Make a new directory and change into it. This isolates us from state # that other tests might have dumped into this process's temp # directory. runDirectory = FilePath(self.mktemp()) runDirectory.makedirs() os.chdir(runDirectory.path) firstRunner = self.getRunner() secondRunner = self.getRunner() where = {} class ConcurrentCase(unittest.SynchronousTestCase): def test_first(self): """ Start a second test run which will have a default working directory which is the same as the working directory of the test run already in progress. """ # Change the working directory to the value it had before this # test suite was started. where["concurrent"] = subsequentDirectory = os.getcwd() os.chdir(runDirectory.path) self.addCleanup(os.chdir, subsequentDirectory) secondRunner.run(ConcurrentCase("test_second")) def test_second(self): """ Record the working directory for later analysis. """ where["record"] = os.getcwd() result = firstRunner.run(ConcurrentCase("test_first")) bad = result.errors + result.failures if bad: self.fail(bad[0][1]) self.assertEqual( where, { "concurrent": runDirectory.child("_trial_temp").path, "record": runDirectory.child("_trial_temp-1").path, }, ) def test_concurrentExplicitWorkingDirectory(self): """ If a working directory which is already in use is explicitly specified, L{TrialRunner.run} raises L{_WorkingDirectoryBusy}. """ self.parseOptions(["--temp-directory", os.path.abspath(self.mktemp())]) initialDirectory = os.getcwd() self.addCleanup(os.chdir, initialDirectory) firstRunner = self.getRunner() secondRunner = self.getRunner() class ConcurrentCase(unittest.SynchronousTestCase): def test_concurrent(self): """ Try to start another runner in the same working directory and assert that it raises L{_WorkingDirectoryBusy}. """ self.assertRaises( util._WorkingDirectoryBusy, secondRunner.run, ConcurrentCase("test_failure"), ) def test_failure(self): """ Should not be called, always fails. """ self.fail("test_failure should never be called.") result = firstRunner.run(ConcurrentCase("test_concurrent")) bad = result.errors + result.failures if bad: self.fail(bad[0][1]) def test_runner_normal(self): self.parseOptions( [ "--temp-directory", self.mktemp(), "--reporter", "capturing", "twisted.trial.test.sample", ] ) my_runner = self.getRunner() loader = runner.TestLoader() suite = loader.loadByName("twisted.trial.test.sample", True) result = my_runner.run(suite) self.assertEqual(self.standardReport, result._calls) def runSampleSuite(self, my_runner): loader = runner.TestLoader() suite = loader.loadByName("twisted.trial.test.sample", True) return my_runner.run(suite) def test_runnerDebug(self): """ Trial uses its debugger if the `--debug` option is passed. """ self.parseOptions( ["--reporter", "capturing", "--debug", "twisted.trial.test.sample"] ) my_runner = self.getRunner() debugger = my_runner.debugger = CapturingDebugger() result = self.runSampleSuite(my_runner) self.assertEqual(self.standardReport, result._calls) self.assertEqual(["runcall"], debugger._calls) def test_runnerDebuggerDefaultsToPdb(self): """ Trial uses pdb if no debugger is specified by `--debugger` """ self.parseOptions(["--debug", "twisted.trial.test.sample"]) pdbrcFile = FilePath("pdbrc") pdbrcFile.touch() self.runcall_called = False def runcall(pdb, suite, result): self.runcall_called = True self.patch(pdb.Pdb, "runcall", runcall) self.runSampleSuite(self.getRunner()) self.assertTrue(self.runcall_called) def test_runnerDebuggerWithExplicitlyPassedPdb(self): """ Trial uses pdb if pdb is passed explicitly to the `--debugger` arg. """ self.parseOptions( [ "--reporter", "capturing", "--debugger", "pdb", "--debug", "twisted.trial.test.sample", ] ) self.runcall_called = False def runcall(pdb, suite, result): self.runcall_called = True self.patch(pdb.Pdb, "runcall", runcall) self.runSampleSuite(self.getRunner()) self.assertTrue(self.runcall_called) cdebugger = CapturingDebugger() def test_runnerDebugger(self): """ Trial uses specified debugger if the debugger is available. """ self.parseOptions( [ "--reporter", "capturing", "--debugger", "twisted.trial.test.test_runner.RunnerTests.cdebugger", "--debug", "twisted.trial.test.sample", ] ) my_runner = self.getRunner() result = self.runSampleSuite(my_runner) self.assertEqual(self.standardReport, result._calls) self.assertEqual(["runcall"], my_runner.debugger._calls) def test_exitfirst(self): """ If trial was passed the C{--exitfirst} option, the constructed test result object is wrapped with L{reporter._ExitWrapper}. """ self.parseOptions(["--exitfirst"]) runner = self.getRunner() result = runner._makeResult() self.assertIsInstance(result, reporter._ExitWrapper) class TrialSuiteTests(unittest.SynchronousTestCase): def test_imports(self): # FIXME, HTF do you test the reactor can be cleaned up ?!!! namedAny("twisted.trial.runner.TrialSuite") class UntilFailureTests(unittest.SynchronousTestCase): class FailAfter(pyunit.TestCase): """ A test case that fails when run 3 times in a row. """ count: List[None] = [] def test_foo(self): self.count.append(None) if len(self.count) == 3: self.fail("Count reached 3") def setUp(self): UntilFailureTests.FailAfter.count = [] self.test = UntilFailureTests.FailAfter("test_foo") self.stream = StringIO() self.runner = runner.TrialRunner(reporter.Reporter, stream=self.stream) def test_runUntilFailure(self): """ Test that the runUntilFailure method of the runner actually fail after a few runs. """ result = self.runner.runUntilFailure(self.test) self.assertEqual(result.testsRun, 1) self.assertFalse(result.wasSuccessful()) self.assertEqual(self._getFailures(result), 1) def _getFailures(self, result): """ Get the number of failures that were reported to a result. """ return len(result.failures) def test_runUntilFailureDecorate(self): """ C{runUntilFailure} doesn't decorate the tests uselessly: it does it one time when run starts, but not at each turn. """ decorated = [] def decorate(test, interface): decorated.append((test, interface)) return test self.patch(unittest, "decorate", decorate) result = self.runner.runUntilFailure(self.test) self.assertEqual(result.testsRun, 1) self.assertEqual(len(decorated), 1) self.assertEqual(decorated, [(self.test, ITestCase)]) def test_runUntilFailureForceGCDecorate(self): """ C{runUntilFailure} applies the force-gc decoration after the standard L{ITestCase} decoration, but only one time. """ decorated = [] def decorate(test, interface): decorated.append((test, interface)) return test self.patch(unittest, "decorate", decorate) self.runner._forceGarbageCollection = True result = self.runner.runUntilFailure(self.test) self.assertEqual(result.testsRun, 1) self.assertEqual(len(decorated), 2) self.assertEqual( decorated, [(self.test, ITestCase), (self.test, _ForceGarbageCollectionDecorator)], ) class UncleanUntilFailureTests(UntilFailureTests): """ Test that the run-until-failure feature works correctly with the unclean error suppressor. """ def setUp(self): UntilFailureTests.setUp(self) self.runner = runner.TrialRunner( reporter.Reporter, stream=self.stream, uncleanWarnings=True ) def _getFailures(self, result): """ Get the number of failures that were reported to a result that is wrapped in an UncleanFailureWrapper. """ return len(result._originalReporter.failures) class BreakingSuite(runner.TestSuite): """ A L{TestSuite} that logs an error when it is run. """ def run(self, result): try: raise RuntimeError("error that occurs outside of a test") except RuntimeError: log.err(failure.Failure()) class LoggedErrorsTests(unittest.SynchronousTestCase): """ It is possible for an error generated by a test to be logged I{outside} of any test. The log observers constructed by L{TestCase} won't catch these errors. Here we try to generate such errors and ensure they are reported to a L{TestResult} object. """ def tearDown(self): self.flushLoggedErrors(RuntimeError) def test_construct(self): """ Check that we can construct a L{runner.LoggedSuite} and that it starts empty. """ suite = runner.LoggedSuite() self.assertEqual(suite.countTestCases(), 0) def test_capturesError(self): """ Chek that a L{LoggedSuite} reports any logged errors to its result. """ result = reporter.TestResult() suite = runner.LoggedSuite([BreakingSuite()]) suite.run(result) self.assertEqual(len(result.errors), 1) self.assertEqual(result.errors[0][0].id(), runner.NOT_IN_TEST) self.assertTrue(result.errors[0][1].check(RuntimeError)) class TestHolderTests(unittest.SynchronousTestCase): def setUp(self): self.description = "description" self.holder = runner.TestHolder(self.description) def test_holder(self): """ Check that L{runner.TestHolder} takes a description as a parameter and that this description is returned by the C{id} and C{shortDescription} methods. """ self.assertEqual(self.holder.id(), self.description) self.assertEqual(self.holder.shortDescription(), self.description) def test_holderImplementsITestCase(self): """ L{runner.TestHolder} implements L{ITestCase}. """ self.assertIdentical(self.holder, ITestCase(self.holder)) self.assertTrue( verifyObject(ITestCase, self.holder), "%r claims to provide %r but does not do so correctly." % (self.holder, ITestCase), ) def test_runsWithStandardResult(self): """ A L{runner.TestHolder} can run against the standard Python C{TestResult}. """ result = pyunit.TestResult() self.holder.run(result) self.assertTrue(result.wasSuccessful()) self.assertEqual(1, result.testsRun) class ErrorHolderTestsMixin: """ This mixin defines test methods which can be applied to a L{runner.ErrorHolder} constructed with either a L{Failure} or a C{exc_info}-style tuple. Subclass this and implement C{setUp} to create C{self.holder} referring to a L{runner.ErrorHolder} instance and C{self.error} referring to a L{Failure} which the holder holds. """ exceptionForTests = ZeroDivisionError("integer division or modulo by zero") class TestResultStub: """ Stub for L{TestResult}. """ def __init__(self): self.errors = [] def startTest(self, test): pass def stopTest(self, test): pass def addError(self, test, error): self.errors.append((test, error)) def test_runsWithStandardResult(self): """ A L{runner.ErrorHolder} can run against the standard Python C{TestResult}. """ result = pyunit.TestResult() self.holder.run(result) self.assertFalse(result.wasSuccessful()) self.assertEqual(1, result.testsRun) def test_run(self): """ L{runner.ErrorHolder} adds an error to the result when run. """ self.holder.run(self.result) self.assertEqual( self.result.errors, [(self.holder, (self.error.type, self.error.value, self.error.tb))], ) def test_call(self): """ L{runner.ErrorHolder} adds an error to the result when called. """ self.holder(self.result) self.assertEqual( self.result.errors, [(self.holder, (self.error.type, self.error.value, self.error.tb))], ) def test_countTestCases(self): """ L{runner.ErrorHolder.countTestCases} always returns 0. """ self.assertEqual(self.holder.countTestCases(), 0) def test_repr(self): """ L{runner.ErrorHolder.__repr__} returns a string describing the error it holds. """ expected = "<ErrorHolder description='description' " "error={}>".format( repr(self.holder.error[1]) ) self.assertEqual(repr(self.holder), expected) class FailureHoldingErrorHolderTests(ErrorHolderTestsMixin, TestHolderTests): """ Tests for L{runner.ErrorHolder} behaving similarly to L{runner.TestHolder} when constructed with a L{Failure} representing its error. """ def setUp(self): self.description = "description" # make a real Failure so we can construct ErrorHolder() try: raise self.exceptionForTests except ZeroDivisionError: self.error = failure.Failure() self.holder = runner.ErrorHolder(self.description, self.error) self.result = self.TestResultStub() class ExcInfoHoldingErrorHolderTests(ErrorHolderTestsMixin, TestHolderTests): """ Tests for L{runner.ErrorHolder} behaving similarly to L{runner.TestHolder} when constructed with a C{exc_info}-style tuple representing its error. """ def setUp(self): self.description = "description" # make a real Failure so we can construct ErrorHolder() try: raise self.exceptionForTests except ZeroDivisionError: exceptionInfo = sys.exc_info() self.error = failure.Failure() self.holder = runner.ErrorHolder(self.description, exceptionInfo) self.result = self.TestResultStub() class MalformedMethodTests(unittest.SynchronousTestCase): """ Test that trial manages when test methods don't have correct signatures. """ class ContainMalformed(pyunit.TestCase): """ This TestCase holds malformed test methods that trial should handle. """ def test_foo(self, blah): pass def test_bar(): # type: ignore[misc] pass test_spam = defer.inlineCallbacks(test_bar) def _test(self, method): """ Wrapper for one of the test method of L{ContainMalformed}. """ stream = StringIO() trialRunner = runner.TrialRunner(reporter.Reporter, stream=stream) test = MalformedMethodTests.ContainMalformed(method) result = trialRunner.run(test) self.assertEqual(result.testsRun, 1) self.assertFalse(result.wasSuccessful()) self.assertEqual(len(result.errors), 1) def test_extraArg(self): """ Test when the method has extra (useless) arguments. """ self._test("test_foo") def test_noArg(self): """ Test when the method doesn't have even self as argument. """ self._test("test_bar") def test_decorated(self): """ Test a decorated method also fails. """ self._test("test_spam") class DestructiveTestSuiteTests(unittest.SynchronousTestCase): """ Test for L{runner.DestructiveTestSuite}. """ def test_basic(self): """ Thes destructive test suite should run the tests normally. """ called = [] class MockTest(pyunit.TestCase): def test_foo(test): called.append(True) test = MockTest("test_foo") result = reporter.TestResult() suite = runner.DestructiveTestSuite([test]) self.assertEqual(called, []) suite.run(result) self.assertEqual(called, [True]) self.assertEqual(suite.countTestCases(), 0) def test_shouldStop(self): """ Test the C{shouldStop} management: raising a C{KeyboardInterrupt} must interrupt the suite. """ called = [] class MockTest(unittest.TestCase): def test_foo1(test): called.append(1) def test_foo2(test): raise KeyboardInterrupt() def test_foo3(test): called.append(2) result = reporter.TestResult() loader = runner.TestLoader() loader.suiteFactory = runner.DestructiveTestSuite suite = loader.loadClass(MockTest) self.assertEqual(called, []) suite.run(result) self.assertEqual(called, [1]) # The last test shouldn't have been run self.assertEqual(suite.countTestCases(), 1) def test_cleanup(self): """ Checks that the test suite cleanups its tests during the run, so that it ends empty. """ class MockTest(pyunit.TestCase): def test_foo(test): pass test = MockTest("test_foo") result = reporter.TestResult() suite = runner.DestructiveTestSuite([test]) self.assertEqual(suite.countTestCases(), 1) suite.run(result) self.assertEqual(suite.countTestCases(), 0) class RunnerDeprecationTests(unittest.SynchronousTestCase): class FakeReporter(reporter.Reporter): """ Fake reporter that does *not* implement done() but *does* implement printErrors, separator, printSummary, stream, write and writeln without deprecations. """ done = None separator = None stream = None def printErrors(self, *args): pass def printSummary(self, *args): pass def write(self, *args): pass def writeln(self, *args): pass def test_reporterDeprecations(self): """ The runner emits a warning if it is using a result that doesn't implement 'done'. """ trialRunner = runner.TrialRunner(None) result = self.FakeReporter() trialRunner._makeResult = lambda: result def f(): # We have to use a pyunit test, otherwise we'll get deprecation # warnings about using iterate() in a test. trialRunner.run(pyunit.TestCase("id")) f() warnings = self.flushWarnings([self.test_reporterDeprecations]) self.assertEqual(warnings[0]["category"], DeprecationWarning) self.assertEqual( warnings[0]["message"], "%s should implement done() but doesn't. Falling back to " "printErrors() and friends." % reflect.qual(result.__class__), ) self.assertTrue(__file__.startswith(warnings[0]["filename"])) self.assertEqual(len(warnings), 1) class QualifiedNameWalkerTests(unittest.SynchronousTestCase): """ Tests for L{twisted.trial.runner._qualNameWalker}. """ def test_walksDownPath(self): """ C{_qualNameWalker} is a generator that, when given a Python qualified name, yields that name, and then the parent of that name, and so forth, along with a list of the tried components, in a 2-tuple. """ walkerResults = list(runner._qualNameWalker("walker.texas.ranger")) self.assertEqual( walkerResults, [ ("walker.texas.ranger", []), ("walker.texas", ["ranger"]), ("walker", ["texas", "ranger"]), ], ) class TrialMainDoesNothingTests(unittest.SynchronousTestCase): """ Importing L{twisted.trial.__main__} will not run the script unless it is actually C{__main__}. """ def test_importDoesNothing(self): """ If we import L{twisted.trial.__main__}, it should do nothing. """ # We shouldn't suddenly drop into a script when we import this! __import__("twisted.trial.__main__")