# -*- test-case-name: twisted.trial.test.test_runner -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ A miscellany of code used to run Trial tests. Maintainer: Jonathan Lange """ __all__ = [ 'TestSuite', 'DestructiveTestSuite', 'DryRunVisitor', 'ErrorHolder', 'LoggedSuite', 'TestHolder', 'TestLoader', 'TrialRunner', 'TrialSuite', 'filenameToModule', 'isPackage', 'isPackageDirectory', 'isTestCase', 'name', 'samefile', 'NOT_IN_TEST', ] import os, types, warnings, sys, inspect, imp import doctest, time from twisted.python import reflect, log, failure, modules, filepath from twisted.python.deprecate import deprecatedModuleAttribute from twisted.python.versions import Version from twisted.internet import defer from twisted.trial import util, unittest from twisted.trial.itrial import ITestCase from twisted.trial.reporter import _ExitWrapper, UncleanWarningsReporterWrapper # These are imported so that they remain in the public API for t.trial.runner from twisted.trial.unittest import TestSuite from zope.interface import implements pyunit = __import__('unittest') def isPackage(module): """Given an object return True if the object looks like a package""" if not isinstance(module, types.ModuleType): return False basename = os.path.splitext(os.path.basename(module.__file__))[0] return basename == '__init__' def isPackageDirectory(dirname): """Is the directory at path 'dirname' a Python package directory? Returns the name of the __init__ file (it may have a weird extension) if dirname is a package directory. Otherwise, returns False""" for ext in zip(*imp.get_suffixes())[0]: initFile = '__init__' + ext if os.path.exists(os.path.join(dirname, initFile)): return initFile return False def samefile(filename1, filename2): """ A hacky implementation of C{os.path.samefile}. Used by L{filenameToModule} when the platform doesn't provide C{os.path.samefile}. Do not use this. """ return os.path.abspath(filename1) == os.path.abspath(filename2) def filenameToModule(fn): """ Given a filename, do whatever possible to return a module object matching that file. If the file in question is a module in Python path, properly import and return that module. Otherwise, load the source manually. @param fn: A filename. @return: A module object. @raise ValueError: If C{fn} does not exist. """ if not os.path.exists(fn): raise ValueError("%r doesn't exist" % (fn,)) try: ret = reflect.namedAny(reflect.filenameToModuleName(fn)) except (ValueError, AttributeError): # Couldn't find module. The file 'fn' is not in PYTHONPATH return _importFromFile(fn) # ensure that the loaded module matches the file retFile = os.path.splitext(ret.__file__)[0] + '.py' # not all platforms (e.g. win32) have os.path.samefile same = getattr(os.path, 'samefile', samefile) if os.path.isfile(fn) and not same(fn, retFile): del sys.modules[ret.__name__] ret = _importFromFile(fn) return ret def _importFromFile(fn, moduleName=None): fn = _resolveDirectory(fn) if not moduleName: moduleName = os.path.splitext(os.path.split(fn)[-1])[0] if moduleName in sys.modules: return sys.modules[moduleName] fd = open(fn, 'r') try: module = imp.load_source(moduleName, fn, fd) finally: fd.close() return module def _resolveDirectory(fn): if os.path.isdir(fn): initFile = isPackageDirectory(fn) if initFile: fn = os.path.join(fn, initFile) else: raise ValueError('%r is not a package directory' % (fn,)) return fn def _getMethodNameInClass(method): """ Find the attribute name on the method's class which refers to the method. For some methods, notably decorators which have not had __name__ set correctly: getattr(method.im_class, method.__name__) != method """ if getattr(method.im_class, method.__name__, object()) != method: for alias in dir(method.im_class): if getattr(method.im_class, alias, object()) == method: return alias return method.__name__ class DestructiveTestSuite(TestSuite): """ A test suite which remove the tests once run, to minimize memory usage. """ def run(self, result): """ Almost the same as L{TestSuite.run}, but with C{self._tests} being empty at the end. """ while self._tests: if result.shouldStop: break test = self._tests.pop(0) test(result) return result # When an error occurs outside of any test, the user will see this string # in place of a test's name. NOT_IN_TEST = "" class LoggedSuite(TestSuite): """ Any errors logged in this suite will be reported to the L{TestResult} object. """ def run(self, result): """ Run the suite, storing all errors in C{result}. If an error is logged while no tests are running, then it will be added as an error to C{result}. @param result: A L{TestResult} object. """ observer = unittest._logObserver observer._add() super(LoggedSuite, self).run(result) observer._remove() for error in observer.getErrors(): result.addError(TestHolder(NOT_IN_TEST), error) observer.flushErrors() class TrialSuite(TestSuite): """ Suite to wrap around every single test in a C{trial} run. Used internally by Trial to set up things necessary for Trial tests to work, regardless of what context they are run in. """ def __init__(self, tests=(), forceGarbageCollection=False): if forceGarbageCollection: newTests = [] for test in tests: test = unittest.decorate( test, unittest._ForceGarbageCollectionDecorator) newTests.append(test) tests = newTests suite = LoggedSuite(tests) super(TrialSuite, self).__init__([suite]) def _bail(self): from twisted.internet import reactor d = defer.Deferred() reactor.addSystemEventTrigger('after', 'shutdown', lambda: d.callback(None)) reactor.fireSystemEvent('shutdown') # radix's suggestion # As long as TestCase does crap stuff with the reactor we need to # manually shutdown the reactor here, and that requires util.wait # :( # so that the shutdown event completes unittest.TestCase('mktemp')._wait(d) def run(self, result): try: TestSuite.run(self, result) finally: self._bail() def name(thing): """ @param thing: an object from modules (instance of PythonModule, PythonAttribute), a TestCase subclass, or an instance of a TestCase. """ if isTestCase(thing): # TestCase subclass theName = reflect.qual(thing) else: # thing from trial, or thing from modules. # this monstrosity exists so that modules' objects do not have to # implement id(). -jml try: theName = thing.id() except AttributeError: theName = thing.name return theName def isTestCase(obj): """ @return: C{True} if C{obj} is a class that contains test cases, C{False} otherwise. Used to find all the tests in a module. """ try: return issubclass(obj, pyunit.TestCase) except TypeError: return False class TestHolder(object): """ Placeholder for a L{TestCase} inside a reporter. As far as a L{TestResult} is concerned, this looks exactly like a unit test. """ implements(ITestCase) failureException = None def __init__(self, description): """ @param description: A string to be displayed L{TestResult}. """ self.description = description def __call__(self, result): return self.run(result) def id(self): return self.description def countTestCases(self): return 0 def run(self, result): """ This test is just a placeholder. Run the test successfully. @param result: The C{TestResult} to store the results in. @type result: L{twisted.trial.itrial.IReporter}. """ result.startTest(self) result.addSuccess(self) result.stopTest(self) def shortDescription(self): return self.description class ErrorHolder(TestHolder): """ Used to insert arbitrary errors into a test suite run. Provides enough methods to look like a C{TestCase}, however, when it is run, it simply adds an error to the C{TestResult}. The most common use-case is for when a module fails to import. """ def __init__(self, description, error): """ @param description: A string used by C{TestResult}s to identify this error. Generally, this is the name of a module that failed to import. @param error: The error to be added to the result. Can be an `exc_info` tuple or a L{twisted.python.failure.Failure}. """ super(ErrorHolder, self).__init__(description) self.error = util.excInfoOrFailureToExcInfo(error) def __repr__(self): return "" % ( self.description, self.error[1]) def run(self, result): """ Run the test, reporting the error. @param result: The C{TestResult} to store the results in. @type result: L{twisted.trial.itrial.IReporter}. """ result.startTest(self) result.addError(self, self.error) result.stopTest(self) class TestLoader(object): """ I find tests inside function, modules, files -- whatever -- then return them wrapped inside a Test (either a L{TestSuite} or a L{TestCase}). @ivar methodPrefix: A string prefix. C{TestLoader} will assume that all the methods in a class that begin with C{methodPrefix} are test cases. @ivar modulePrefix: A string prefix. Every module in a package that begins with C{modulePrefix} is considered a module full of tests. @ivar forceGarbageCollection: A flag applied to each C{TestCase} loaded. See L{unittest.TestCase} for more information. @ivar sorter: A key function used to sort C{TestCase}s, test classes, modules and packages. @ivar suiteFactory: A callable which is passed a list of tests (which themselves may be suites of tests). Must return a test suite. """ methodPrefix = 'test' modulePrefix = 'test_' def __init__(self): self.suiteFactory = TestSuite self.sorter = name self._importErrors = [] def sort(self, xs): """ Sort the given things using L{sorter}. @param xs: A list of test cases, class or modules. """ return sorted(xs, key=self.sorter) def findTestClasses(self, module): """Given a module, return all Trial test classes""" classes = [] for name, val in inspect.getmembers(module): if isTestCase(val): classes.append(val) return self.sort(classes) def findByName(self, name): """ Return a Python object given a string describing it. @param name: a string which may be either a filename or a fully-qualified Python name. @return: If C{name} is a filename, return the module. If C{name} is a fully-qualified Python name, return the object it refers to. """ if os.path.exists(name): return filenameToModule(name) return reflect.namedAny(name) def loadModule(self, module): """ Return a test suite with all the tests from a module. Included are TestCase subclasses and doctests listed in the module's __doctests__ module. If that's not good for you, put a function named either C{testSuite} or C{test_suite} in your module that returns a TestSuite, and I'll use the results of that instead. If C{testSuite} and C{test_suite} are both present, then I'll use C{testSuite}. """ ## XXX - should I add an optional parameter to disable the check for ## a custom suite. ## OR, should I add another method if not isinstance(module, types.ModuleType): raise TypeError("%r is not a module" % (module,)) if hasattr(module, 'testSuite'): return module.testSuite() elif hasattr(module, 'test_suite'): return module.test_suite() suite = self.suiteFactory() for testClass in self.findTestClasses(module): suite.addTest(self.loadClass(testClass)) if not hasattr(module, '__doctests__'): return suite docSuite = self.suiteFactory() for doctest in module.__doctests__: docSuite.addTest(self.loadDoctests(doctest)) return self.suiteFactory([suite, docSuite]) loadTestsFromModule = loadModule def loadClass(self, klass): """ Given a class which contains test cases, return a sorted list of C{TestCase} instances. """ if not (isinstance(klass, type) or isinstance(klass, types.ClassType)): raise TypeError("%r is not a class" % (klass,)) if not isTestCase(klass): raise ValueError("%r is not a test case" % (klass,)) names = self.getTestCaseNames(klass) tests = self.sort([self._makeCase(klass, self.methodPrefix+name) for name in names]) return self.suiteFactory(tests) loadTestsFromTestCase = loadClass def getTestCaseNames(self, klass): """ Given a class that contains C{TestCase}s, return a list of names of methods that probably contain tests. """ return reflect.prefixedMethodNames(klass, self.methodPrefix) def loadMethod(self, method): """ Given a method of a C{TestCase} that represents a test, return a C{TestCase} instance for that test. """ if not isinstance(method, types.MethodType): raise TypeError("%r not a method" % (method,)) return self._makeCase(method.im_class, _getMethodNameInClass(method)) def _makeCase(self, klass, methodName): return klass(methodName) def loadPackage(self, package, recurse=False): """ Load tests from a module object representing a package, and return a TestSuite containing those tests. Tests are only loaded from modules whose name begins with 'test_' (or whatever C{modulePrefix} is set to). @param package: a types.ModuleType object (or reasonable facsimilie obtained by importing) which may contain tests. @param recurse: A boolean. If True, inspect modules within packages within the given package (and so on), otherwise, only inspect modules in the package itself. @raise: TypeError if 'package' is not a package. @return: a TestSuite created with my suiteFactory, containing all the tests. """ if not isPackage(package): raise TypeError("%r is not a package" % (package,)) pkgobj = modules.getModule(package.__name__) if recurse: discovery = pkgobj.walkModules() else: discovery = pkgobj.iterModules() discovered = [] for disco in discovery: if disco.name.split(".")[-1].startswith(self.modulePrefix): discovered.append(disco) suite = self.suiteFactory() for modinfo in self.sort(discovered): try: module = modinfo.load() except: thingToAdd = ErrorHolder(modinfo.name, failure.Failure()) else: thingToAdd = self.loadModule(module) suite.addTest(thingToAdd) return suite def loadDoctests(self, module): """ Return a suite of tests for all the doctests defined in C{module}. @param module: A module object or a module name. """ if isinstance(module, str): try: module = reflect.namedAny(module) except: return ErrorHolder(module, failure.Failure()) if not inspect.ismodule(module): warnings.warn("trial only supports doctesting modules") return extraArgs = {} if sys.version_info > (2, 4): # Work around Python issue2604: DocTestCase.tearDown clobbers globs def saveGlobals(test): """ Save C{test.globs} and replace it with a copy so that if necessary, the original will be available for the next test run. """ test._savedGlobals = getattr(test, '_savedGlobals', test.globs) test.globs = test._savedGlobals.copy() extraArgs['setUp'] = saveGlobals return doctest.DocTestSuite(module, **extraArgs) def loadAnything(self, thing, recurse=False): """ Given a Python object, return whatever tests that are in it. Whatever 'in' might mean. @param thing: A Python object. A module, method, class or package. @param recurse: Whether or not to look in subpackages of packages. Defaults to False. @return: A C{TestCase} or C{TestSuite}. """ if isinstance(thing, types.ModuleType): if isPackage(thing): return self.loadPackage(thing, recurse) return self.loadModule(thing) elif isinstance(thing, types.ClassType): return self.loadClass(thing) elif isinstance(thing, type): return self.loadClass(thing) elif isinstance(thing, types.MethodType): return self.loadMethod(thing) raise TypeError("No loader for %r. Unrecognized type" % (thing,)) def loadByName(self, name, recurse=False): """ Given a string representing a Python object, return whatever tests are in that object. If C{name} is somehow inaccessible (e.g. the module can't be imported, there is no Python object with that name etc) then return an L{ErrorHolder}. @param name: The fully-qualified name of a Python object. """ try: thing = self.findByName(name) except: return ErrorHolder(name, failure.Failure()) return self.loadAnything(thing, recurse) loadTestsFromName = loadByName def loadByNames(self, names, recurse=False): """ Construct a TestSuite containing all the tests found in 'names', where names is a list of fully qualified python names and/or filenames. The suite returned will have no duplicate tests, even if the same object is named twice. """ things = [] errors = [] for name in names: try: things.append(self.findByName(name)) except: errors.append(ErrorHolder(name, failure.Failure())) suites = [self.loadAnything(thing, recurse) for thing in self._uniqueTests(things)] suites.extend(errors) return self.suiteFactory(suites) def _uniqueTests(self, things): """ Gather unique suite objects from loaded things. This will guarantee uniqueness of inherited methods on TestCases which would otherwise hash to same value and collapse to one test unexpectedly if using simpler means: e.g. set(). """ seen = set() for thing in things: if isinstance(thing, types.MethodType): thing = (thing, thing.im_class) else: thing = (thing,) if thing not in seen: yield thing[0] seen.add(thing) class DryRunVisitor(object): """ A visitor that makes a reporter think that every test visited has run successfully. """ deprecatedModuleAttribute( Version("Twisted", 13, 0, 0), "Trial no longer has support for visitors", "twisted.trial.runner", "DryRunVisitor") def __init__(self, reporter): """ @param reporter: A C{TestResult} object. """ self.reporter = reporter def markSuccessful(self, testCase): """ Convince the reporter that this test has been run successfully. """ self.reporter.startTest(testCase) self.reporter.addSuccess(testCase) self.reporter.stopTest(testCase) class TrialRunner(object): """ A specialised runner that the trial front end uses. """ DEBUG = 'debug' DRY_RUN = 'dry-run' def _setUpTestdir(self): self._tearDownLogFile() currentDir = os.getcwd() base = filepath.FilePath(self.workingDirectory) testdir, self._testDirLock = util._unusedTestDirectory(base) os.chdir(testdir.path) return currentDir def _tearDownTestdir(self, oldDir): os.chdir(oldDir) self._testDirLock.unlock() _log = log def _makeResult(self): reporter = self.reporterFactory(self.stream, self.tbformat, self.rterrors, self._log) if self._exitFirst: reporter = _ExitWrapper(reporter) if self.uncleanWarnings: reporter = UncleanWarningsReporterWrapper(reporter) return reporter def __init__(self, reporterFactory, mode=None, logfile='test.log', stream=sys.stdout, profile=False, tracebackFormat='default', realTimeErrors=False, uncleanWarnings=False, workingDirectory=None, forceGarbageCollection=False, debugger=None, exitFirst=False): self.reporterFactory = reporterFactory self.logfile = logfile self.mode = mode self.stream = stream self.tbformat = tracebackFormat self.rterrors = realTimeErrors self.uncleanWarnings = uncleanWarnings self._result = None self.workingDirectory = workingDirectory or '_trial_temp' self._logFileObserver = None self._logFileObject = None self._forceGarbageCollection = forceGarbageCollection self.debugger = debugger self._exitFirst = exitFirst if profile: self.run = util.profiled(self.run, 'profile.data') def _tearDownLogFile(self): if self._logFileObserver is not None: log.removeObserver(self._logFileObserver.emit) self._logFileObserver = None if self._logFileObject is not None: self._logFileObject.close() self._logFileObject = None def _setUpLogFile(self): self._tearDownLogFile() if self.logfile == '-': logFile = sys.stdout else: logFile = file(self.logfile, 'a') self._logFileObject = logFile self._logFileObserver = log.FileLogObserver(logFile) log.startLoggingWithObserver(self._logFileObserver.emit, 0) def run(self, test): """ Run the test or suite and return a result object. """ test = unittest.decorate(test, ITestCase) return self._runWithoutDecoration(test, self._forceGarbageCollection) def _runWithoutDecoration(self, test, forceGarbageCollection=False): """ Private helper that runs the given test but doesn't decorate it. """ result = self._makeResult() # decorate the suite with reactor cleanup and log starting # This should move out of the runner and be presumed to be # present suite = TrialSuite([test], forceGarbageCollection) startTime = time.time() if self.mode == self.DRY_RUN: for single in unittest._iterateTests(suite): result.startTest(single) result.addSuccess(single) result.stopTest(single) else: if self.mode == self.DEBUG: run = lambda: self.debugger.runcall(suite.run, result) else: run = lambda: suite.run(result) oldDir = self._setUpTestdir() try: self._setUpLogFile() run() finally: self._tearDownLogFile() self._tearDownTestdir(oldDir) endTime = time.time() done = getattr(result, 'done', None) if done is None: warnings.warn( "%s should implement done() but doesn't. Falling back to " "printErrors() and friends." % reflect.qual(result.__class__), category=DeprecationWarning, stacklevel=3) result.printErrors() result.writeln(result.separator) result.writeln('Ran %d tests in %.3fs', result.testsRun, endTime - startTime) result.write('\n') result.printSummary() else: result.done() return result def runUntilFailure(self, test): """ Repeatedly run C{test} until it fails. """ count = 0 while True: count += 1 self.stream.write("Test Pass %d\n" % (count,)) if count == 1: result = self.run(test) else: result = self._runWithoutDecoration(test) if result.testsRun == 0: break if not result.wasSuccessful(): break return result