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Direktori : /proc/thread-self/root/proc/self/root/opt/alt/python37/lib/python3.7/site-packages/nose/ |
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""" Test Suites ----------- Provides a LazySuite, which is a suite whose test list is a generator function, and ContextSuite,which can run fixtures (setup/teardown functions or methods) for the context that contains its tests. """ import logging import sys import unittest from nose.case import Test from nose.config import Config from nose.proxy import ResultProxyFactory from nose.util import isclass, resolve_name, try_run if sys.platform == 'cli': if sys.version_info[:2] < (2, 6): import clr clr.AddReference("IronPython") from IronPython.Runtime.Exceptions import StringException else: class StringException(Exception): pass log = logging.getLogger(__name__) #log.setLevel(logging.DEBUG) # Singleton for default value -- see ContextSuite.__init__ below _def = object() def _strclass(cls): return "%s.%s" % (cls.__module__, cls.__name__) class MixedContextError(Exception): """Error raised when a context suite sees tests from more than one context. """ pass class LazySuite(unittest.TestSuite): """A suite that may use a generator as its list of tests """ def __init__(self, tests=()): """Initialize the suite. tests may be an iterable or a generator """ super(LazySuite, self).__init__() self._set_tests(tests) def __iter__(self): return iter(self._tests) def __repr__(self): return "<%s tests=generator (%s)>" % ( _strclass(self.__class__), id(self)) def __hash__(self): return object.__hash__(self) __str__ = __repr__ def addTest(self, test): self._precache.append(test) # added to bypass run changes in 2.7's unittest def run(self, result): for test in self._tests: if result.shouldStop: break test(result) return result def __bool__(self): log.debug("tests in %s?", id(self)) if self._precache: return True if self.test_generator is None: return False try: test = next(self.test_generator) if test is not None: self._precache.append(test) return True except StopIteration: pass return False def _get_tests(self): log.debug("precache is %s", self._precache) for test in self._precache: yield test if self.test_generator is None: return for test in self.test_generator: yield test def _set_tests(self, tests): self._precache = [] is_suite = isinstance(tests, unittest.TestSuite) if callable(tests) and not is_suite: self.test_generator = tests() elif is_suite: # Suites need special treatment: they must be called like # tests for their setup/teardown to run (if any) self.addTests([tests]) self.test_generator = None else: self.addTests(tests) self.test_generator = None _tests = property(_get_tests, _set_tests, None, "Access the tests in this suite. Access is through a " "generator, so iteration may not be repeatable.") class ContextSuite(LazySuite): """A suite with context. A ContextSuite executes fixtures (setup and teardown functions or methods) for the context containing its tests. The context may be explicitly passed. If it is not, a context (or nested set of contexts) will be constructed by examining the tests in the suite. """ failureException = unittest.TestCase.failureException was_setup = False was_torndown = False classSetup = ('setup_class', 'setup_all', 'setupClass', 'setupAll', 'setUpClass', 'setUpAll') classTeardown = ('teardown_class', 'teardown_all', 'teardownClass', 'teardownAll', 'tearDownClass', 'tearDownAll') moduleSetup = ('setup_module', 'setupModule', 'setUpModule', 'setup', 'setUp') moduleTeardown = ('teardown_module', 'teardownModule', 'tearDownModule', 'teardown', 'tearDown') packageSetup = ('setup_package', 'setupPackage', 'setUpPackage') packageTeardown = ('teardown_package', 'teardownPackage', 'tearDownPackage') def __init__(self, tests=(), context=None, factory=None, config=None, resultProxy=None, can_split=True): log.debug("Context suite for %s (%s) (%s)", tests, context, id(self)) self.context = context self.factory = factory if config is None: config = Config() self.config = config self.resultProxy = resultProxy self.has_run = False self.can_split = can_split self.error_context = None super(ContextSuite, self).__init__(tests) def __repr__(self): return "<%s context=%s>" % ( _strclass(self.__class__), getattr(self.context, '__name__', self.context)) __str__ = __repr__ def id(self): if self.error_context: return '%s:%s' % (repr(self), self.error_context) else: return repr(self) def __hash__(self): return object.__hash__(self) # 2.3 compat -- force 2.4 call sequence def __call__(self, *arg, **kw): return self.run(*arg, **kw) def exc_info(self): """Hook for replacing error tuple output """ return sys.exc_info() def _exc_info(self): """Bottleneck to fix up IronPython string exceptions """ e = self.exc_info() if sys.platform == 'cli': if isinstance(e[0], StringException): # IronPython throws these StringExceptions, but # traceback checks type(etype) == str. Make a real # string here. e = (str(e[0]), e[1], e[2]) return e def run(self, result): """Run tests in suite inside of suite fixtures. """ # proxy the result for myself log.debug("suite %s (%s) run called, tests: %s", id(self), self, self._tests) #import pdb #pdb.set_trace() if self.resultProxy: result, orig = self.resultProxy(result, self), result else: result, orig = result, result try: self.setUp() except KeyboardInterrupt: raise except: self.error_context = 'setup' result.addError(self, self._exc_info()) return try: for test in self._tests: if result.shouldStop: log.debug("stopping") break # each nose.case.Test will create its own result proxy # so the cases need the original result, to avoid proxy # chains test(orig) finally: self.has_run = True try: self.tearDown() except KeyboardInterrupt: raise except: self.error_context = 'teardown' result.addError(self, self._exc_info()) def hasFixtures(self, ctx_callback=None): context = self.context if context is None: return False if self.implementsAnyFixture(context, ctx_callback=ctx_callback): return True # My context doesn't have any, but its ancestors might factory = self.factory if factory: ancestors = factory.context.get(self, []) for ancestor in ancestors: if self.implementsAnyFixture( ancestor, ctx_callback=ctx_callback): return True return False def implementsAnyFixture(self, context, ctx_callback): if isclass(context): names = self.classSetup + self.classTeardown else: names = self.moduleSetup + self.moduleTeardown if hasattr(context, '__path__'): names += self.packageSetup + self.packageTeardown # If my context has any fixture attribute, I have fixtures fixt = False for m in names: if hasattr(context, m): fixt = True break if ctx_callback is None: return fixt return ctx_callback(context, fixt) def setUp(self): log.debug("suite %s setUp called, tests: %s", id(self), self._tests) if not self: # I have no tests log.debug("suite %s has no tests", id(self)) return if self.was_setup: log.debug("suite %s already set up", id(self)) return context = self.context if context is None: return # before running my own context's setup, I need to # ask the factory if my context's contexts' setups have been run factory = self.factory if factory: # get a copy, since we'll be destroying it as we go ancestors = factory.context.get(self, [])[:] while ancestors: ancestor = ancestors.pop() log.debug("ancestor %s may need setup", ancestor) if ancestor in factory.was_setup: continue log.debug("ancestor %s does need setup", ancestor) self.setupContext(ancestor) if not context in factory.was_setup: self.setupContext(context) else: self.setupContext(context) self.was_setup = True log.debug("completed suite setup") def setupContext(self, context): self.config.plugins.startContext(context) log.debug("%s setup context %s", self, context) if self.factory: if context in self.factory.was_setup: return # note that I ran the setup for this context, so that I'll run # the teardown in my teardown self.factory.was_setup[context] = self if isclass(context): names = self.classSetup else: names = self.moduleSetup if hasattr(context, '__path__'): names = self.packageSetup + names try_run(context, names) def shortDescription(self): if self.context is None: return "test suite" return "test suite for %s" % self.context def tearDown(self): log.debug('context teardown') if not self.was_setup or self.was_torndown: log.debug( "No reason to teardown (was_setup? %s was_torndown? %s)" % (self.was_setup, self.was_torndown)) return self.was_torndown = True context = self.context if context is None: log.debug("No context to tear down") return # for each ancestor... if the ancestor was setup # and I did the setup, I can do teardown factory = self.factory if factory: ancestors = factory.context.get(self, []) + [context] for ancestor in ancestors: log.debug('ancestor %s may need teardown', ancestor) if not ancestor in factory.was_setup: log.debug('ancestor %s was not setup', ancestor) continue if ancestor in factory.was_torndown: log.debug('ancestor %s already torn down', ancestor) continue setup = factory.was_setup[ancestor] log.debug("%s setup ancestor %s", setup, ancestor) if setup is self: self.teardownContext(ancestor) else: self.teardownContext(context) def teardownContext(self, context): log.debug("%s teardown context %s", self, context) if self.factory: if context in self.factory.was_torndown: return self.factory.was_torndown[context] = self if isclass(context): names = self.classTeardown else: names = self.moduleTeardown if hasattr(context, '__path__'): names = self.packageTeardown + names try_run(context, names) self.config.plugins.stopContext(context) # FIXME the wrapping has to move to the factory? def _get_wrapped_tests(self): for test in self._get_tests(): if isinstance(test, Test) or isinstance(test, unittest.TestSuite): yield test else: yield Test(test, config=self.config, resultProxy=self.resultProxy) _tests = property(_get_wrapped_tests, LazySuite._set_tests, None, "Access the tests in this suite. Tests are returned " "inside of a context wrapper.") class ContextSuiteFactory(object): """Factory for ContextSuites. Called with a collection of tests, the factory decides on a hierarchy of contexts by introspecting the collection or the tests themselves to find the objects containing the test objects. It always returns one suite, but that suite may consist of a hierarchy of nested suites. """ suiteClass = ContextSuite def __init__(self, config=None, suiteClass=None, resultProxy=_def): if config is None: config = Config() self.config = config if suiteClass is not None: self.suiteClass = suiteClass # Using a singleton to represent default instead of None allows # passing resultProxy=None to turn proxying off. if resultProxy is _def: resultProxy = ResultProxyFactory(config=config) self.resultProxy = resultProxy self.suites = {} self.context = {} self.was_setup = {} self.was_torndown = {} def __call__(self, tests, **kw): """Return ``ContextSuite`` for tests. ``tests`` may either be a callable (in which case the resulting ContextSuite will have no parent context and be evaluated lazily) or an iterable. In that case the tests will wrapped in nose.case.Test, be examined and the context of each found and a suite of suites returned, organized into a stack with the outermost suites belonging to the outermost contexts. """ log.debug("Create suite for %s", tests) context = kw.pop('context', getattr(tests, 'context', None)) log.debug("tests %s context %s", tests, context) if context is None: tests = self.wrapTests(tests) try: context = self.findContext(tests) except MixedContextError: return self.makeSuite(self.mixedSuites(tests), None, **kw) return self.makeSuite(tests, context, **kw) def ancestry(self, context): """Return the ancestry of the context (that is, all of the packages and modules containing the context), in order of descent with the outermost ancestor last. This method is a generator. """ log.debug("get ancestry %s", context) if context is None: return # Methods include reference to module they are defined in, we # don't want that, instead want the module the class is in now # (classes are re-ancestored elsewhere). if hasattr(context, 'im_class'): context = context.__self__.__class__ elif hasattr(context, '__self__'): context = context.__self__.__class__ if hasattr(context, '__module__'): ancestors = context.__module__.split('.') elif hasattr(context, '__name__'): ancestors = context.__name__.split('.')[:-1] else: raise TypeError("%s has no ancestors?" % context) while ancestors: log.debug(" %s ancestors %s", context, ancestors) yield resolve_name('.'.join(ancestors)) ancestors.pop() def findContext(self, tests): if callable(tests) or isinstance(tests, unittest.TestSuite): return None context = None for test in tests: # Don't look at suites for contexts, only tests ctx = getattr(test, 'context', None) if ctx is None: continue if context is None: context = ctx elif context != ctx: raise MixedContextError( "Tests with different contexts in same suite! %s != %s" % (context, ctx)) return context def makeSuite(self, tests, context, **kw): suite = self.suiteClass( tests, context=context, config=self.config, factory=self, resultProxy=self.resultProxy, **kw) if context is not None: self.suites.setdefault(context, []).append(suite) self.context.setdefault(suite, []).append(context) log.debug("suite %s has context %s", suite, getattr(context, '__name__', None)) for ancestor in self.ancestry(context): self.suites.setdefault(ancestor, []).append(suite) self.context[suite].append(ancestor) log.debug("suite %s has ancestor %s", suite, ancestor.__name__) return suite def mixedSuites(self, tests): """The complex case where there are tests that don't all share the same context. Groups tests into suites with common ancestors, according to the following (essentially tail-recursive) procedure: Starting with the context of the first test, if it is not None, look for tests in the remaining tests that share that ancestor. If any are found, group into a suite with that ancestor as the context, and replace the current suite with that suite. Continue this process for each ancestor of the first test, until all ancestors have been processed. At this point if any tests remain, recurse with those tests as the input, returning a list of the common suite (which may be the suite or test we started with, if no common tests were found) plus the results of recursion. """ if not tests: return [] head = tests.pop(0) if not tests: return [head] # short circuit when none are left to combine suite = head # the common ancestry suite, so far tail = tests[:] context = getattr(head, 'context', None) if context is not None: ancestors = [context] + [a for a in self.ancestry(context)] for ancestor in ancestors: common = [suite] # tests with ancestor in common, so far remain = [] # tests that remain to be processed for test in tail: found_common = False test_ctx = getattr(test, 'context', None) if test_ctx is None: remain.append(test) continue if test_ctx is ancestor: common.append(test) continue for test_ancestor in self.ancestry(test_ctx): if test_ancestor is ancestor: common.append(test) found_common = True break if not found_common: remain.append(test) if common: suite = self.makeSuite(common, ancestor) tail = self.mixedSuites(remain) return [suite] + tail def wrapTests(self, tests): log.debug("wrap %s", tests) if callable(tests) or isinstance(tests, unittest.TestSuite): log.debug("I won't wrap") return tests wrapped = [] for test in tests: log.debug("wrapping %s", test) if isinstance(test, Test) or isinstance(test, unittest.TestSuite): wrapped.append(test) elif isinstance(test, ContextList): wrapped.append(self.makeSuite(test, context=test.context)) else: wrapped.append( Test(test, config=self.config, resultProxy=self.resultProxy) ) return wrapped class ContextList(object): """Not quite a suite -- a group of tests in a context. This is used to hint the ContextSuiteFactory about what context the tests belong to, in cases where it may be ambiguous or missing. """ def __init__(self, tests, context=None): self.tests = tests self.context = context def __iter__(self): return iter(self.tests) class FinalizingSuiteWrapper(unittest.TestSuite): """Wraps suite and calls final function after suite has executed. Used to call final functions in cases (like running in the standard test runner) where test running is not under nose's control. """ def __init__(self, suite, finalize): super(FinalizingSuiteWrapper, self).__init__() self.suite = suite self.finalize = finalize def __call__(self, *arg, **kw): return self.run(*arg, **kw) # 2.7 compat def __iter__(self): return iter(self.suite) def run(self, *arg, **kw): try: return self.suite(*arg, **kw) finally: self.finalize(*arg, **kw) # backwards compat -- sort of class TestDir: def __init__(*arg, **kw): raise NotImplementedError( "TestDir is not usable with nose 0.10. The class is present " "in nose.suite for backwards compatibility purposes but it " "may not be used.") class TestModule: def __init__(*arg, **kw): raise NotImplementedError( "TestModule is not usable with nose 0.10. The class is present " "in nose.suite for backwards compatibility purposes but it " "may not be used.")