# -*- coding: utf-8 -*- """Run tests. This will find all modules whose name match a given prefix in the test directory, and run them. Various command line options provide additional facilities. Command line options: -v: verbose -- run tests in verbose mode with output to stdout -q: quiet -- don't print anything except if a test fails -t: testdir -- directory where the tests will be found -x: exclude -- add a test to exclude -p: profile -- profiled execution -c: capture -- capture standard out/err during tests -d: dbc -- enable design-by-contract -m: match -- only run test matching the tag pattern which follow If no non-option arguments are present, prefixes used are 'test', 'regrtest', 'smoketest' and 'unittest'. :copyright: 2003-2008 LOGILAB S.A. (Paris, FRANCE), all rights reserved. :contact: http://www.logilab.fr/ -- mailto:contact@logilab.fr :license: General Public License version 2 - http://www.gnu.org/licenses """ __docformat__ = "restructuredtext en" # modified copy of some functions from test/regrtest.py from PyXml # disable camel case warning # pylint: disable-msg=C0103 import sys import os, os.path as osp import re import time import getopt import traceback import inspect import unittest import difflib import types import tempfile import math from shutil import rmtree from operator import itemgetter from warnings import warn from compiler.consts import CO_GENERATOR from ConfigParser import ConfigParser try: from test import test_support except ImportError: # not always available class TestSupport: def unload(self, test): pass test_support = TestSupport() from logilab.common.deprecation import class_renamed, deprecated_function, \ obsolete # pylint: disable-msg=W0622 from logilab.common.compat import set, enumerate, any, sorted # pylint: enable-msg=W0622 from logilab.common.modutils import load_module_from_name from logilab.common.debugger import Debugger, colorize_source from logilab.common.decorators import cached from logilab.common import textutils __all__ = ['main', 'unittest_main', 'find_tests', 'run_test', 'spawn'] DEFAULT_PREFIXES = ('test', 'regrtest', 'smoketest', 'unittest', 'func', 'validation') ENABLE_DBC = False FILE_RESTART = ".pytest.restart" # used by unittest to count the number of relevant levels in the traceback __unittest = 1 def with_tempdir(callable): """A decorator ensuring no temporary file left when the function return Work only for temporary file create with the tempfile module""" def proxy(*args, **kargs): old_tmpdir = tempfile.gettempdir() new_tmpdir = tempfile.mkdtemp("-logilab-common-testlib","temp-dir-") tempfile.tempdir = new_tmpdir try: return callable(*args, **kargs) finally: try: rmtree(new_tmpdir, ignore_errors=True) finally: tempfile.tempdir = old_tmpdir return proxy def main(testdir=None, exitafter=True): """Execute a test suite. This also parses command-line options and modifies its behaviour accordingly. tests -- a list of strings containing test names (optional) testdir -- the directory in which to look for tests (optional) Users other than the Python test suite will certainly want to specify testdir; if it's omitted, the directory containing the Python test suite is searched for. If the tests argument is omitted, the tests listed on the command-line will be used. If that's empty, too, then all *.py files beginning with test_ will be used. """ try: opts, args = getopt.getopt(sys.argv[1:], 'hvqxr:t:pcd', ['help']) except getopt.error, msg: print msg print __doc__ return 2 verbose = 0 quiet = False profile = False exclude = [] capture = 0 for o, a in opts: if o == '-v': verbose += 1 elif o == '-q': quiet = True verbose = 0 elif o == '-x': exclude.append(a) elif o == '-t': testdir = a elif o == '-p': profile = True elif o == '-c': capture += 1 elif o == '-d': global ENABLE_DBC ENABLE_DBC = True elif o in ('-h', '--help'): print __doc__ sys.exit(0) args = [item.rstrip('.py') for item in args] exclude = [item.rstrip('.py') for item in exclude] if testdir is not None: os.chdir(testdir) sys.path.insert(0, '') tests = find_tests('.', args or DEFAULT_PREFIXES, excludes=exclude) # Tell tests to be moderately quiet test_support.verbose = verbose if profile: print >> sys.stderr, '** profiled run' from hotshot import Profile prof = Profile('stones.prof') start_time, start_ctime = time.time(), time.clock() good, bad, skipped, all_result = prof.runcall(run_tests, tests, quiet, verbose, None, capture) end_time, end_ctime = time.time(), time.clock() prof.close() else: start_time, start_ctime = time.time(), time.clock() good, bad, skipped, all_result = run_tests(tests, quiet, verbose, None, capture) end_time, end_ctime = time.time(), time.clock() if not quiet: print '*'*80 if all_result: print 'Ran %s test cases in %0.2fs (%0.2fs CPU)' % ( all_result.testsRun, end_time - start_time, end_ctime - start_ctime), if all_result.errors: print ', %s errors' % len(all_result.errors), if all_result.failures: print ', %s failed' % len(all_result.failures), if all_result.skipped: print ', %s skipped' % len(all_result.skipped), print if good: if not bad and not skipped and len(good) > 1: print "All", print _count(len(good), "test"), "OK." if bad: print _count(len(bad), "test"), "failed:", print ', '.join(bad) if skipped: print _count(len(skipped), "test"), "skipped:", print ', '.join(['%s (%s)' % (test, msg) for test, msg in skipped]) if profile: from hotshot import stats stats = stats.load('stones.prof') stats.sort_stats('time', 'calls') stats.print_stats(30) if exitafter: sys.exit(len(bad) + len(skipped)) else: sys.path.pop(0) return len(bad) main = obsolete("testlib.main() is obsolete, use the pytest tool instead")(main) def run_tests(tests, quiet, verbose, runner=None, capture=0): """Execute a list of tests. :rtype: tuple :return: tuple (list of passed tests, list of failed tests, list of skipped tests) """ good = [] bad = [] skipped = [] all_result = None for test in tests: if not quiet: print print '-'*80 print "Executing", test result = run_test(test, verbose, runner, capture) if type(result) is type(''): # an unexpected error occured skipped.append( (test, result)) else: if all_result is None: all_result = result else: all_result.testsRun += result.testsRun all_result.failures += result.failures all_result.errors += result.errors all_result.skipped += result.skipped if result.errors or result.failures: bad.append(test) if verbose: print "test", test, \ "failed -- %s errors, %s failures" % ( len(result.errors), len(result.failures)) else: good.append(test) return good, bad, skipped, all_result def find_tests(testdir, prefixes=DEFAULT_PREFIXES, suffix=".py", excludes=(), remove_suffix=True): """ Return a list of all applicable test modules. """ tests = [] for name in os.listdir(testdir): if not suffix or name.endswith(suffix): for prefix in prefixes: if name.startswith(prefix): if remove_suffix and name.endswith(suffix): name = name[:-len(suffix)] if name not in excludes: tests.append(name) tests.sort() return tests def run_test(test, verbose, runner=None, capture=0): """ Run a single test. test -- the name of the test verbose -- if true, print more messages """ test_support.unload(test) try: m = load_module_from_name(test, path=sys.path) # m = __import__(test, globals(), locals(), sys.path) try: suite = m.suite if callable(suite): suite = suite() except AttributeError: loader = unittest.TestLoader() suite = loader.loadTestsFromModule(m) if runner is None: runner = SkipAwareTextTestRunner(capture=capture) # verbosity=0) return runner.run(suite) except KeyboardInterrupt, v: raise KeyboardInterrupt, v, sys.exc_info()[2] except: # raise type, value = sys.exc_info()[:2] msg = "test %s crashed -- %s : %s" % (test, type, value) if verbose: traceback.print_exc() return msg def _count(n, word): """format word according to n""" if n == 1: return "%d %s" % (n, word) else: return "%d %ss" % (n, word) ## PostMortem Debug facilities ##### def start_interactive_mode(result): """starts an interactive shell so that the user can inspect errors """ debuggers = result.debuggers descrs = result.error_descrs + result.fail_descrs if len(debuggers) == 1: # don't ask for test name if there's only one failure debuggers[0].start() else: while True: testindex = 0 print "Choose a test to debug:" # order debuggers in the same way than errors were printed print "\n".join(['\t%s : %s' % (i, descr) for i, (_, descr) in enumerate(descrs)]) print "Type 'exit' (or ^D) to quit" print try: todebug = raw_input('Enter a test name: ') if todebug.strip().lower() == 'exit': print break else: try: testindex = int(todebug) debugger = debuggers[descrs[testindex][0]] except (ValueError, IndexError): print "ERROR: invalid test number %r" % (todebug, ) else: debugger.start() except (EOFError, KeyboardInterrupt): print break # test utils ################################################################## from cStringIO import StringIO class SkipAwareTestResult(unittest._TextTestResult): def __init__(self, stream, descriptions, verbosity, exitfirst=False, capture=0, printonly=None, pdbmode=False, cvg=None, colorize=False): super(SkipAwareTestResult, self).__init__(stream, descriptions, verbosity) self.skipped = [] self.debuggers = [] self.fail_descrs = [] self.error_descrs = [] self.exitfirst = exitfirst self.capture = capture self.printonly = printonly self.pdbmode = pdbmode self.cvg = cvg self.colorize = colorize self.pdbclass = Debugger self.verbose = verbosity > 1 def descrs_for(self, flavour): return getattr(self, '%s_descrs' % flavour.lower()) def _create_pdb(self, test_descr, flavour): self.descrs_for(flavour).append( (len(self.debuggers), test_descr) ) if self.pdbmode: self.debuggers.append(self.pdbclass(sys.exc_info()[2])) def _exc_info_to_string(self, err, test): """Converts a sys.exc_info()-style tuple of values into a string. This method is overridden here because we want to colorize lines if --color is passed, and display local variables if --verbose is passed """ exctype, exc, tb = err output = ['Traceback (most recent call last)'] frames = inspect.getinnerframes(tb) colorize = self.colorize # count number of relevant levels in the traceback: skip first since # it's our own _proceed function, and then start counting, using # unittest's heuristic nb_frames_skipped = self._count_relevant_tb_levels(tb.tb_next) for index, (frame, filename, lineno, funcname, ctx, ctxindex) in enumerate(frames): if not (0 < index <= nb_frames_skipped): continue filename = osp.abspath(filename) if ctx is None: # pyc files or C extensions for instance source = '' else: source = ''.join(ctx) if colorize: filename = textutils.colorize_ansi(filename, 'magenta') source = colorize_source(source) output.append(' File "%s", line %s, in %s' % (filename, lineno, funcname)) output.append(' %s' % source.strip()) if self.verbose: output.append('%r == %r' % (dir(frame), test.__module__)) output.append('') output.append(' ' + ' local variables '.center(66, '-')) for varname, value in sorted(frame.f_locals.items()): output.append(' %s: %r' % (varname, value)) if varname == 'self': # special handy processing for self for varname, value in sorted(vars(value).items()): output.append(' self.%s: %r' % (varname, value)) output.append(' ' + '-' * 66) output.append('') output.append(''.join(traceback.format_exception_only(exctype, exc))) return '\n'.join(output) def addError(self, test, err): """err == (exc_type, exc, tcbk)""" exc_type, exc, _ = err # if exc_type == TestSkipped: self.addSkipped(test, exc) else: if self.exitfirst: self.shouldStop = True descr = self.getDescription(test) super(SkipAwareTestResult, self).addError(test, err) self._create_pdb(descr, 'error') def addFailure(self, test, err): if self.exitfirst: self.shouldStop = True descr = self.getDescription(test) super(SkipAwareTestResult, self).addFailure(test, err) self._create_pdb(descr, 'fail') def addSkipped(self, test, reason): self.skipped.append((test, self.getDescription(test), reason)) if self.showAll: self.stream.writeln("SKIPPED") elif self.dots: self.stream.write('S') def printErrors(self): super(SkipAwareTestResult, self).printErrors() self.printSkippedList() def printSkippedList(self): for _, descr, err in self.skipped: # test, descr, err self.stream.writeln(self.separator1) self.stream.writeln("%s: %s" % ('SKIPPED', descr)) self.stream.writeln("\t%s" % err) def printErrorList(self, flavour, errors): for (_, descr), (test, err) in zip(self.descrs_for(flavour), errors): self.stream.writeln(self.separator1) if self.colorize: self.stream.writeln("%s: %s" % ( textutils.colorize_ansi(flavour, color='red'), descr)) else: self.stream.writeln("%s: %s" % (flavour, descr)) self.stream.writeln(self.separator2) self.stream.writeln(err) try: output, errput = test.captured_output() except AttributeError: pass # original unittest else: if output: self.stream.writeln(self.separator2) self.stream.writeln("captured stdout".center( len(self.separator2))) self.stream.writeln(self.separator2) self.stream.writeln(output) else: self.stream.writeln('no stdout'.center( len(self.separator2))) if errput: self.stream.writeln(self.separator2) self.stream.writeln("captured stderr".center( len(self.separator2))) self.stream.writeln(self.separator2) self.stream.writeln(errput) else: self.stream.writeln('no stderr'.center( len(self.separator2))) def run(self, result, runcondition=None, options=None): for test in self._tests: if result.shouldStop: break try: test(result, runcondition, options) except TypeError: # this might happen if a raw unittest.TestCase is defined # and used with python (and not pytest) warn("%s should extend lgc.testlib.TestCase instead of unittest.TestCase" % test) test(result) return result unittest.TestSuite.run = run # backward compatibility: TestSuite might be imported from lgc.testlib TestSuite = unittest.TestSuite # python2.3 compat def __call__(self, *args, **kwds): return self.run(*args, **kwds) unittest.TestSuite.__call__ = __call__ class SkipAwareTextTestRunner(unittest.TextTestRunner): def __init__(self, stream=sys.stderr, verbosity=1, exitfirst=False, capture=False, printonly=None, pdbmode=False, cvg=None, test_pattern=None, skipped_patterns=(), colorize=False, options=None): super(SkipAwareTextTestRunner, self).__init__(stream=stream, verbosity=verbosity) self.exitfirst = exitfirst self.capture = capture self.printonly = printonly self.pdbmode = pdbmode self.cvg = cvg self.test_pattern = test_pattern self.skipped_patterns = skipped_patterns self.colorize = colorize self.options = options def _this_is_skipped(self, testedname): return any([(pat in testedname) for pat in self.skipped_patterns]) def _runcondition(self, test, skipgenerator=True): if isinstance(test, InnerTest): testname = test.name else: if isinstance(test, TestCase): meth = test._get_test_method() func = meth.im_func testname = '%s.%s' % (meth.im_class.__name__, func.__name__) elif isinstance(test, types.FunctionType): func = test testname = func.__name__ elif isinstance(test, types.MethodType): func = test.im_func testname = '%s.%s' % (test.im_class.__name__, func.__name__) else: return True # Not sure when this happens if is_generator(func) and skipgenerator: return self.does_match_tags(func) # Let inner tests decide at run time # print 'testname', testname, self.test_pattern if self._this_is_skipped(testname): return False # this was explicitly skipped if self.test_pattern is not None: try: classpattern, testpattern = self.test_pattern.split('.') klass, name = testname.split('.') if classpattern not in klass or testpattern not in name: return False except ValueError: if self.test_pattern not in testname: return False return self.does_match_tags(test) def does_match_tags(self, test): if self.options is not None: tags_pattern = getattr(self.options, 'tags_pattern', None) if tags_pattern is not None: tags = getattr(test, 'tags', Tags()) return tags.match(tags_pattern) return True # no pattern def _makeResult(self): return SkipAwareTestResult(self.stream, self.descriptions, self.verbosity, self.exitfirst, self.capture, self.printonly, self.pdbmode, self.cvg, self.colorize) def run(self, test): "Run the given test case or test suite." result = self._makeResult() startTime = time.time() test(result, self._runcondition, self.options) stopTime = time.time() timeTaken = stopTime - startTime result.printErrors() self.stream.writeln(result.separator2) run = result.testsRun self.stream.writeln("Ran %d test%s in %.3fs" % (run, run != 1 and "s" or "", timeTaken)) self.stream.writeln() if not result.wasSuccessful(): if self.colorize: self.stream.write(textutils.colorize_ansi("FAILED", color='red')) else: self.stream.write("FAILED") else: if self.colorize: self.stream.write(textutils.colorize_ansi("OK", color='green')) else: self.stream.write("OK") failed, errored, skipped = map(len, (result.failures, result.errors, result.skipped)) det_results = [] for name, value in (("failures", result.failures), ("errors",result.errors), ("skipped", result.skipped)): if value: det_results.append("%s=%i" % (name, len(value))) if det_results: self.stream.write(" (") self.stream.write(', '.join(det_results)) self.stream.write(")") self.stream.writeln("") return result class keywords(dict): """Keyword args (**kwargs) support for generative tests.""" class starargs(tuple): """Variable arguments (*args) for generative tests.""" def __new__(cls, *args): return tuple.__new__(cls, args) class NonStrictTestLoader(unittest.TestLoader): """ Overrides default testloader to be able to omit classname when specifying tests to run on command line. For example, if the file test_foo.py contains :: class FooTC(TestCase): def test_foo1(self): # ... def test_foo2(self): # ... def test_bar1(self): # ... class BarTC(TestCase): def test_bar2(self): # ... 'python test_foo.py' will run the 3 tests in FooTC 'python test_foo.py FooTC' will run the 3 tests in FooTC 'python test_foo.py test_foo' will run test_foo1 and test_foo2 'python test_foo.py test_foo1' will run test_foo1 'python test_foo.py test_bar' will run FooTC.test_bar1 and BarTC.test_bar2 """ def __init__(self): self.skipped_patterns = [] def loadTestsFromNames(self, names, module=None): suites = [] for name in names: suites.extend(self.loadTestsFromName(name, module)) return self.suiteClass(suites) def _collect_tests(self, module): tests = {} for obj in vars(module).values(): if (issubclass(type(obj), (types.ClassType, type)) and issubclass(obj, unittest.TestCase)): classname = obj.__name__ if classname[0] == '_' or self._this_is_skipped(classname): continue methodnames = [] # obj is a TestCase class for attrname in dir(obj): if attrname.startswith(self.testMethodPrefix): attr = getattr(obj, attrname) if callable(attr): methodnames.append(attrname) # keep track of class (obj) for convenience tests[classname] = (obj, methodnames) return tests def loadTestsFromSuite(self, module, suitename): try: suite = getattr(module, suitename)() except AttributeError: return [] assert hasattr(suite, '_tests'), \ "%s.%s is not a valid TestSuite" % (module.__name__, suitename) # python2.3 does not implement __iter__ on suites, we need to return # _tests explicitly return suite._tests def loadTestsFromName(self, name, module=None): parts = name.split('.') if module is None or len(parts) > 2: # let the base class do its job here return [super(NonStrictTestLoader, self).loadTestsFromName(name)] tests = self._collect_tests(module) # import pprint # pprint.pprint(tests) collected = [] if len(parts) == 1: pattern = parts[0] if callable(getattr(module, pattern, None) ) and pattern not in tests: # consider it as a suite return self.loadTestsFromSuite(module, pattern) if pattern in tests: # case python unittest_foo.py MyTestTC klass, methodnames = tests[pattern] for methodname in methodnames: collected = [klass(methodname) for methodname in methodnames] else: # case python unittest_foo.py something for klass, methodnames in tests.values(): collected += [klass(methodname) for methodname in methodnames] elif len(parts) == 2: # case "MyClass.test_1" classname, pattern = parts klass, methodnames = tests.get(classname, (None, [])) for methodname in methodnames: collected = [klass(methodname) for methodname in methodnames] return collected def _this_is_skipped(self, testedname): return any([(pat in testedname) for pat in self.skipped_patterns]) def getTestCaseNames(self, testCaseClass): """Return a sorted sequence of method names found within testCaseClass """ is_skipped = self._this_is_skipped classname = testCaseClass.__name__ if classname[0] == '_' or is_skipped(classname): return [] testnames = super(NonStrictTestLoader, self).getTestCaseNames( testCaseClass) return [testname for testname in testnames if not is_skipped(testname)] class SkipAwareTestProgram(unittest.TestProgram): # XXX: don't try to stay close to unittest.py, use optparse USAGE = """\ Usage: %(progName)s [options] [test] [...] Options: -h, --help Show this message -v, --verbose Verbose output -i, --pdb Enable test failure inspection -x, --exitfirst Exit on first failure -c, --capture Captures and prints standard out/err only on errors -p, --printonly Only prints lines matching specified pattern (implies capture) -s, --skip skip test matching this pattern (no regexp for now) -q, --quiet Minimal output --color colorize tracebacks -m, --match Run only test whose tag match this pattern -P, --profile FILE: Run the tests using cProfile and saving results in FILE Examples: %(progName)s - run default set of tests %(progName)s MyTestSuite - run suite 'MyTestSuite' %(progName)s MyTestCase.testSomething - run MyTestCase.testSomething %(progName)s MyTestCase - run all 'test*' test methods in MyTestCase """ def __init__(self, module='__main__', defaultTest=None, batchmode=False, cvg=None, options=None, outstream=sys.stderr): self.batchmode = batchmode self.cvg = cvg self.options = options self.outstream = outstream super(SkipAwareTestProgram, self).__init__( module=module, defaultTest=defaultTest, testLoader=NonStrictTestLoader()) def parseArgs(self, argv): self.pdbmode = False self.exitfirst = False self.capture = 0 self.printonly = None self.skipped_patterns = [] self.test_pattern = None self.tags_pattern = None self.colorize = False self.profile_name = None import getopt try: options, args = getopt.getopt(argv[1:], 'hHvixrqcp:s:m:P:', ['help', 'verbose', 'quiet', 'pdb', 'exitfirst', 'restart', 'capture', 'printonly=', 'skip=', 'color', 'match=', 'profile=']) for opt, value in options: if opt in ('-h', '-H', '--help'): self.usageExit() if opt in ('-i', '--pdb'): self.pdbmode = True if opt in ('-x', '--exitfirst'): self.exitfirst = True if opt in ('-r', '--restart'): self.restart = True self.exitfirst = True if opt in ('-q', '--quiet'): self.verbosity = 0 if opt in ('-v', '--verbose'): self.verbosity = 2 if opt in ('-c', '--capture'): self.capture += 1 if opt in ('-p', '--printonly'): self.printonly = re.compile(value) if opt in ('-s', '--skip'): self.skipped_patterns = [pat.strip() for pat in value.split(', ')] if opt == '--color': self.colorize = True if opt in ('-m', '--match'): #self.tags_pattern = value self.options["tag_pattern"] = value if opt in ('-P', '--profile'): self.profile_name = value self.testLoader.skipped_patterns = self.skipped_patterns if self.printonly is not None: self.capture += 1 if len(args) == 0 and self.defaultTest is None: suitefunc = getattr(self.module, 'suite', None) if isinstance(suitefunc, (types.FunctionType, types.MethodType)): self.test = self.module.suite() else: self.test = self.testLoader.loadTestsFromModule(self.module) return if len(args) > 0: self.test_pattern = args[0] self.testNames = args else: self.testNames = (self.defaultTest, ) self.createTests() except getopt.error, msg: self.usageExit(msg) def runTests(self): if self.profile_name: import cProfile cProfile.runctx('self._runTests()', globals(), locals(), self.profile_name ) else: return self._runTests() def _runTests(self): if hasattr(self.module, 'setup_module'): try: self.module.setup_module(self.options) except Exception, exc: print 'setup_module error:', exc sys.exit(1) self.testRunner = SkipAwareTextTestRunner(verbosity=self.verbosity, stream=self.outstream, exitfirst=self.exitfirst, capture=self.capture, printonly=self.printonly, pdbmode=self.pdbmode, cvg=self.cvg, test_pattern=self.test_pattern, skipped_patterns=self.skipped_patterns, colorize=self.colorize, options=self.options) def removeSucceededTests(obj, succTests): """ Recurcive function that removes succTests from a TestSuite or TestCase """ if isinstance(obj, TestSuite): removeSucceededTests(obj._tests, succTests) if isinstance(obj, list): for el in obj[:]: if isinstance(el, TestSuite): removeSucceededTests(el, succTests) elif isinstance(el, TestCase): descr = '.'.join((el.__class__.__module__, el.__class__.__name__, el._testMethodName)) if descr in succTests: obj.remove(el) # take care, self.options may be None if getattr(self.options, 'restart', False): # retrieve succeeded tests from FILE_RESTART try: restartfile = open(FILE_RESTART, 'r') try: try: succeededtests = list(elem.rstrip('\n\r') for elem in restartfile.readlines()) removeSucceededTests(self.test, succeededtests) except Exception, e: raise e finally: restartfile.close() except Exception ,e: raise "Error while reading \ succeeded tests into", osp.join(os.getcwd(),FILE_RESTART) result = self.testRunner.run(self.test) if hasattr(self.module, 'teardown_module'): try: self.module.teardown_module(self.options, result) except Exception, exc: print 'teardown_module error:', exc sys.exit(1) if os.environ.get('PYDEBUG'): warn("PYDEBUG usage is deprecated, use -i / --pdb instead", DeprecationWarning) self.pdbmode = True if result.debuggers and self.pdbmode: start_interactive_mode(result) if not self.batchmode: sys.exit(not result.wasSuccessful()) self.result = result class FDCapture: """adapted from py lib (http://codespeak.net/py) Capture IO to/from a given os-level filedescriptor. """ def __init__(self, fd, attr='stdout', printonly=None): self.targetfd = fd self.tmpfile = os.tmpfile() # self.maketempfile() self.printonly = printonly # save original file descriptor self._savefd = os.dup(fd) # override original file descriptor os.dup2(self.tmpfile.fileno(), fd) # also modify sys module directly self.oldval = getattr(sys, attr) setattr(sys, attr, self) # self.tmpfile) self.attr = attr def write(self, msg): # msg might be composed of several lines for line in msg.splitlines(): line += '\n' # keepdend=True is not enough if self.printonly is None or self.printonly.search(line) is None: self.tmpfile.write(line) else: os.write(self._savefd, line) ## def maketempfile(self): ## tmpf = os.tmpfile() ## fd = os.dup(tmpf.fileno()) ## newf = os.fdopen(fd, tmpf.mode, 0) # No buffering ## tmpf.close() ## return newf def restore(self): """restore original fd and returns captured output""" #XXX: hack hack hack self.tmpfile.flush() try: ref_file = getattr(sys, '__%s__' % self.attr) ref_file.flush() except AttributeError: pass if hasattr(self.oldval, 'flush'): self.oldval.flush() # restore original file descriptor os.dup2(self._savefd, self.targetfd) # restore sys module setattr(sys, self.attr, self.oldval) # close backup descriptor os.close(self._savefd) # go to beginning of file and read it self.tmpfile.seek(0) return self.tmpfile.read() def _capture(which='stdout', printonly=None): """private method, should not be called directly (cf. capture_stdout() and capture_stderr()) """ assert which in ('stdout', 'stderr' ), "Can only capture stdout or stderr, not %s" % which if which == 'stdout': fd = 1 else: fd = 2 return FDCapture(fd, which, printonly) def capture_stdout(printonly=None): """captures the standard output returns a handle object which has a `restore()` method. The restore() method returns the captured stdout and restores it """ return _capture('stdout', printonly) def capture_stderr(printonly=None): """captures the standard error output returns a handle object which has a `restore()` method. The restore() method returns the captured stderr and restores it """ return _capture('stderr', printonly) def unittest_main(module='__main__', defaultTest=None, batchmode=False, cvg=None, options=None, outstream=sys.stderr): """use this functon if you want to have the same functionality as unittest.main""" return SkipAwareTestProgram(module, defaultTest, batchmode, cvg, options, outstream) class TestSkipped(Exception): """raised when a test is skipped""" def is_generator(function): flags = function.func_code.co_flags return flags & CO_GENERATOR def parse_generative_args(params): args = [] varargs = () kwargs = {} flags = 0 # 2 <=> starargs, 4 <=> kwargs for param in params: if isinstance(param, starargs): varargs = param if flags: raise TypeError('found starargs after keywords !') flags |= 2 args += list(varargs) elif isinstance(param, keywords): kwargs = param if flags & 4: raise TypeError('got multiple keywords parameters') flags |= 4 elif flags & 2 or flags & 4: raise TypeError('found parameters after kwargs or args') else: args.append(param) return args, kwargs class InnerTest(tuple): def __new__(cls, name, *data): instance = tuple.__new__(cls, data) instance.name = name return instance class ClassGetProperty(object): """this is a simple property-like class but for class attributes. """ def __init__(self, getter): self.getter = getter def __get__(self, obj, objtype): # pylint: disable-msg=W0613 "__get__(objn objtype) -> objtype" return self.getter(objtype) class TestCase(unittest.TestCase): """unittest.TestCase with some additional methods""" capture = False pdbclass = Debugger def __init__(self, methodName='runTest'): super(TestCase, self).__init__(methodName) # internal API changed in python2.5 if sys.version_info >= (2, 5): self.__exc_info = self._exc_info self.__testMethodName = self._testMethodName else: # let's give easier access to _testMethodName to every subclasses self._testMethodName = self.__testMethodName self._captured_stdout = "" self._captured_stderr = "" self._out = [] self._err = [] self._current_test_descr = None self._options_ = None def datadir(cls): # pylint: disable-msg=E0213 """helper attribute holding the standard test's data directory NOTE: this is a logilab's standard """ mod = __import__(cls.__module__) return osp.join(osp.dirname(osp.abspath(mod.__file__)), 'data') # cache it (use a class method to cache on class since TestCase is # instantiated for each test run) datadir = ClassGetProperty(cached(datadir)) def datapath(self, fname): """joins the object's datadir and `fname`""" return osp.join(self.datadir, fname) def set_description(self, descr): """sets the current test's description. This can be useful for generative tests because it allows to specify a description per yield """ self._current_test_descr = descr # override default's unittest.py feature def shortDescription(self): """override default unitest shortDescription to handle correctly generative tests """ if self._current_test_descr is not None: return self._current_test_descr return super(TestCase, self).shortDescription() def captured_output(self): """return a two tuple with standard output and error stripped""" return self._captured_stdout.strip(), self._captured_stderr.strip() def _start_capture(self): """start_capture if enable""" if self.capture: self.start_capture() def _stop_capture(self): """stop_capture and restore previous output""" self._force_output_restore() def start_capture(self, printonly=None): """start_capture""" self._out.append(capture_stdout(printonly or self._printonly)) self._err.append(capture_stderr(printonly or self._printonly)) def printonly(self, pattern, flags=0): """set the pattern of line to print""" rgx = re.compile(pattern, flags) if self._out: self._out[-1].printonly = rgx self._err[-1].printonly = rgx else: self.start_capture(printonly=rgx) def stop_capture(self): """stop output and error capture""" if self._out: _out = self._out.pop() _err = self._err.pop() return _out.restore(), _err.restore() return '', '' def _force_output_restore(self): """remove all capture set""" while self._out: self._captured_stdout += self._out.pop().restore() self._captured_stderr += self._err.pop().restore() def quiet_run(self, result, func, *args, **kwargs): self._start_capture() try: func(*args, **kwargs) except (KeyboardInterrupt, SystemExit): self._stop_capture() raise except: self._stop_capture() result.addError(self, self.__exc_info()) return False self._stop_capture() return True def _get_test_method(self): """return the test method""" return getattr(self, self.__testMethodName) def optval(self, option, default=None): """return the option value or default if the option is not define""" return getattr(self._options_, option, default) def __call__(self, result=None, runcondition=None, options=None): """rewrite TestCase.__call__ to support generative tests This is mostly a copy/paste from unittest.py (i.e same variable names, same logic, except for the generative tests part) """ if result is None: result = self.defaultTestResult() result.pdbclass = self.pdbclass # if self.capture is True here, it means it was explicitly specified # in the user's TestCase class. If not, do what was asked on cmd line self.capture = self.capture or getattr(result, 'capture', False) self._options_ = options self._printonly = getattr(result, 'printonly', None) # if result.cvg: # result.cvg.start() testMethod = self._get_test_method() if runcondition and not runcondition(testMethod): return # test is skipped result.startTest(self) try: if not self.quiet_run(result, self.setUp): return # generative tests if is_generator(testMethod.im_func): success = self._proceed_generative(result, testMethod, runcondition) else: status = self._proceed(result, testMethod) success = (status == 0) if not self.quiet_run(result, self.tearDown): return if success: if hasattr(options, "exitfirst") and options.exitfirst: # add this test to restart file try: restartfile = open(FILE_RESTART, 'a') try: try: descr = '.'.join((self.__class__.__module__, self.__class__.__name__, self._testMethodName)) restartfile.write(descr+os.linesep) except Exception, e: raise e finally: restartfile.close() except Exception, e: print >> sys.__stderr__, "Error while saving \ succeeded test into", osp.join(os.getcwd(),FILE_RESTART) raise e result.addSuccess(self) finally: # if result.cvg: # result.cvg.stop() result.stopTest(self) def _proceed_generative(self, result, testfunc, runcondition=None): # cancel startTest()'s increment result.testsRun -= 1 self._start_capture() success = True try: for params in testfunc(): if runcondition and not runcondition(testfunc, skipgenerator=False): if not (isinstance(params, InnerTest) and runcondition(params)): continue if not isinstance(params, (tuple, list)): params = (params, ) func = params[0] args, kwargs = parse_generative_args(params[1:]) # increment test counter manually result.testsRun += 1 status = self._proceed(result, func, args, kwargs) if status == 0: result.addSuccess(self) success = True else: success = False if status == 2: result.shouldStop = True if result.shouldStop: # either on error or on exitfirst + error break except: # if an error occurs between two yield result.addError(self, self.__exc_info()) success = False self._stop_capture() return success def _proceed(self, result, testfunc, args=(), kwargs=None): """proceed the actual test returns 0 on success, 1 on failure, 2 on error Note: addSuccess can't be called here because we have to wait for tearDown to be successfully executed to declare the test as successful """ self._start_capture() kwargs = kwargs or {} try: testfunc(*args, **kwargs) self._stop_capture() except self.failureException: self._stop_capture() result.addFailure(self, self.__exc_info()) return 1 except KeyboardInterrupt: self._stop_capture() raise except: self._stop_capture() result.addError(self, self.__exc_info()) return 2 return 0 def defaultTestResult(self): """return a new instance of the defaultTestResult""" return SkipAwareTestResult() def skip(self, msg=None): """mark a test as skipped for the reason""" msg = msg or 'test was skipped' raise TestSkipped(msg) skipped_test = deprecated_function(skip) def assertIn(self, object, set): """assert are in """ self.assert_(object in set, "%s not in %s" % (object, set)) def assertNotIn(self, object, set): """assert are not in """ self.assert_(object not in set, "%s in %s" % (object, set)) def assertDictEquals(self, dict1, dict2): """compares two dicts If the two dict differ, the first difference is shown in the error message """ dict1 = dict(dict1) msgs = [] for key, value in dict2.items(): try: if dict1[key] != value: msgs.append('%r != %r for key %r' % (dict1[key], value, key)) del dict1[key] except KeyError: msgs.append('missing %r key' % key) if dict1: msgs.append('dict2 is lacking %r' % dict1) if msgs: self.fail('\n'.join(msgs)) assertDictEqual = assertDictEquals def assertUnorderedIterableEquals(self, got, expected, msg=None): """compares two iterable and shows difference between both""" got, expected = list(got), list(expected) self.assertSetEqual(set(got), set(expected), msg) if len(got) != len(expected): if msg is None: msg = ['Iterable have the same elements but not the same number', '\t\ti\t'] got_count = {} expected_count = {} for element in got: got_count[element] = got_count.get(element,0) + 1 for element in expected: expected_count[element] = expected_count.get(element,0) + 1 # we know that got_count.key() == expected_count.key() # because of assertSetEquals for element, count in got_count.iteritems(): other_count = expected_count[element] if other_count != count: msg.append('\t%s\t%s\t%s' % (element, other_count, count)) self.fail(msg) assertUnorderedIterableEqual = assertUnorderedIterableEquals assertUnordIterEquals = assertUnordIterEqual = assertUnorderedIterableEqual def assertSetEquals(self,got,expected, msg=None): if not(isinstance(got, set) and isinstance(expected, set)): warn("the assertSetEquals function if now intended for set only."\ "use assertUnorderedIterableEquals instead.", DeprecationWarning, 2) return self.assertUnorderedIterableEquals(got,expected, msg) items={} items['missing'] = expected - got items['unexpected'] = got - expected if any(items.itervalues()): if msg is None: msg = '\n'.join('%s:\n\t%s' % (key,"\n\t".join(str(value) for value in values)) for key, values in items.iteritems() if values) self.fail(msg) assertSetEqual = assertSetEquals def assertListEquals(self, list_1, list_2, msg=None): """compares two lists If the two list differ, the first difference is shown in the error message """ _l1 = list_1[:] for i, value in enumerate(list_2): try: if _l1[0] != value: from pprint import pprint pprint(list_1) pprint(list_2) self.fail('%r != %r for index %d' % (_l1[0], value, i)) del _l1[0] except IndexError: if msg is None: msg = 'list_1 has only %d elements, not %s '\ '(at least %r missing)'% (i, len(list_2), value) self.fail(msg) if _l1: if msg is None: msg = 'list_2 is lacking %r' % _l1 self.fail(msg) assertListEqual = assertListEquals def assertLinesEquals(self, list_1, list_2, msg=None): """assert list of lines are equal""" self.assertListEquals(list_1.splitlines(), list_2.splitlines(), msg) assertLineEqual = assertLinesEquals def assertXMLWellFormed(self, stream, msg=None): """asserts the XML stream is well-formed (no DTD conformance check)""" from xml.sax import make_parser, SAXParseException parser = make_parser() try: parser.parse(stream) except SAXParseException: if msg is None: msg = 'XML stream not well formed' self.fail(msg) assertXMLValid = deprecated_function(assertXMLWellFormed, 'assertXMLValid renamed to more precise assertXMLWellFormed') def assertXMLStringWellFormed(self, xml_string, msg=None): """asserts the XML string is well-formed (no DTD conformance check)""" stream = StringIO(xml_string) self.assertXMLWellFormed(stream, msg) assertXMLStringValid = deprecated_function( assertXMLStringWellFormed, 'assertXMLStringValid renamed to more precise assertXMLStringWellFormed' ) def assertXMLEqualsTuple(self, element, tup): """compare an ElementTree Element to a tuple formatted as follow: (tagname, [attrib[, children[, text[, tail]]]])""" # check tag self.assertTextEquals(element.tag, tup[0]) # check attrib if len(element.attrib) or len(tup)>1: if len(tup)<=1: self.fail( "tuple %s has no attributes (%s expected)"%(tup, dict(element.attrib))) self.assertDictEquals(element.attrib, tup[1]) # check childrend if len(element) or len(tup)>2: if len(tup)<=2: self.fail( "tuple %s has no children (%i expected)"%(tup, len(element))) if len(element) != len(tup[2]): self.fail( "tuple %s has %i children%s (%i expected)"%(tup, len(tup[2]), ('', 's')[len(tup[2])>1], len(element))) for index in xrange(len(tup[2])): self.assertXMLEqualsTuple(element[index], tup[2][index]) #check text if element.text or len(tup)>3: if len(tup)<=3: self.fail( "tuple %s has no text value (%r expected)"%(tup, element.text)) self.assertTextEquals(element.text, tup[3]) #check tail if element.tail or len(tup)>4: if len(tup)<=4: self.fail( "tuple %s has no tail value (%r expected)"%(tup, element.tail)) self.assertTextEquals(element.tail, tup[4]) def _difftext(self, lines1, lines2, junk=None, msg_prefix='Texts differ'): junk = junk or (' ', '\t') # result is a generator result = difflib.ndiff(lines1, lines2, charjunk=lambda x: x in junk) read = [] for line in result: read.append(line) # lines that don't start with a ' ' are diff ones if not line.startswith(' '): self.fail('\n'.join(['%s\n'%msg_prefix]+read + list(result))) def assertTextEquals(self, text1, text2, junk=None, msg_prefix='Text differ'): """compare two multiline strings (using difflib and splitlines())""" msg = [] if not isinstance(text1, basestring): msg.append('text1 is not a string (%s)'%(type(text1))) if not isinstance(text2, basestring): msg.append('text2 is not a string (%s)'%(type(text2))) if msg: self.fail('\n'.join(msg)) self._difftext(text1.strip().splitlines(True), text2.strip().splitlines(True), junk, msg_prefix) assertTextEqual = assertTextEquals def assertStreamEquals(self, stream1, stream2, junk=None, msg_prefix='Stream differ'): """compare two streams (using difflib and readlines())""" # if stream2 is stream2, readlines() on stream1 will also read lines # in stream2, so they'll appear different, although they're not if stream1 is stream2: return # make sure we compare from the beginning of the stream stream1.seek(0) stream2.seek(0) # ocmpare self._difftext(stream1.readlines(), stream2.readlines(), junk, msg_prefix) assertStreamEqual = assertStreamEquals def assertFileEquals(self, fname1, fname2, junk=(' ', '\t')): """compares two files using difflib""" self.assertStreamEqual(file(fname1), file(fname2), junk, msg_prefix='Files differs\n-:%s\n+:%s\n'%(fname1, fname2)) assertFileEqual = assertFileEquals def assertDirEquals(self, path_a, path_b): """compares two files using difflib""" assert osp.exists(path_a), "%s doesn't exists" % path_a assert osp.exists(path_b), "%s doesn't exists" % path_b all_a = [ (ipath[len(path_a):].lstrip('/'), idirs, ifiles) for ipath, idirs, ifiles in os.walk(path_a)] all_a.sort(key=itemgetter(0)) all_b = [ (ipath[len(path_b):].lstrip('/'), idirs, ifiles) for ipath, idirs, ifiles in os.walk(path_b)] all_b.sort(key=itemgetter(0)) iter_a, iter_b = iter(all_a), iter(all_b) partial_iter = True ipath_a, idirs_a, ifiles_a = data_a = None, None, None while True: try: ipath_a, idirs_a, ifiles_a = datas_a = iter_a.next() partial_iter = False ipath_b, idirs_b, ifiles_b = datas_b = iter_b.next() partial_iter = True self.assert_(ipath_a == ipath_b, "unexpected %s in %s while looking %s from %s" % (ipath_a, path_a, ipath_b, path_b)) errors = {} sdirs_a = set(idirs_a) sdirs_b = set(idirs_b) errors["unexpected directories"] = sdirs_a - sdirs_b errors["missing directories"] = sdirs_b - sdirs_a sfiles_a = set(ifiles_a) sfiles_b = set(ifiles_b) errors["unexpected files"] = sfiles_a - sfiles_b errors["missing files"] = sfiles_b - sfiles_a msgs = [ "%s: %s"% (name, items) for name, items in errors.iteritems() if items] if msgs: msgs.insert(0,"%s and %s differ :" % ( osp.join(path_a, ipath_a), osp.join(path_b, ipath_b), )) self.fail("\n".join(msgs)) for files in (ifiles_a, ifiles_b): files.sort() for index, path in enumerate(ifiles_a): self.assertFileEquals(osp.join(path_a, ipath_a, path), osp.join(path_b, ipath_b, ifiles_b[index])) except StopIteration: break assertDirEqual = assertDirEquals def assertIsInstance(self, obj, klass, msg=None, strict=False): """compares two files using difflib""" if msg is None: if strict: msg = '%r is not of class %s but of %s' else: msg = '%r is not an instance of %s but of %s' msg = msg % (obj, klass, type(obj)) if strict: self.assert_(obj.__class__ is klass, msg) else: self.assert_(isinstance(obj, klass), msg) def assertIs(self, obj, other, msg=None): """compares identity of two reference""" if msg is None: msg = "%r is not %r"%(obj, other) self.assert_(obj is other, msg) def assertIsNot(self, obj, other, msg=None): """compares identity of two reference""" if msg is None: msg = "%r is %r"%(obj, other) self.assert_(obj is not other, msg ) def assertNone(self, obj, msg=None): """assert obj is None""" if msg is None: msg = "reference to %r when None expected"%(obj,) self.assert_( obj is None, msg ) def assertNotNone(self, obj, msg=None): """assert obj is not None""" if msg is None: msg = "unexpected reference to None" self.assert_( obj is not None, msg ) def assertFloatAlmostEquals(self, obj, other, prec=1e-5, msg=None): """compares two floats""" if msg is None: msg = "%r != %r" % (obj, other) self.assert_(math.fabs(obj - other) < prec, msg) def failUnlessRaises(self, excClass, callableObj, *args, **kwargs): """override default failUnlessRaise method to return the raised exception instance. Fail unless an exception of class excClass is thrown by callableObj when invoked with arguments args and keyword arguments kwargs. If a different type of exception is thrown, it will not be caught, and the test case will be deemed to have suffered an error, exactly as for an unexpected exception. """ try: callableObj(*args, **kwargs) except excClass, exc: return exc else: if hasattr(excClass, '__name__'): excName = excClass.__name__ else: excName = str(excClass) raise self.failureException, "%s not raised" % excName assertRaises = failUnlessRaises import doctest class SkippedSuite(unittest.TestSuite): def test(self): """just there to trigger test execution""" self.skipped_test('doctest module has no DocTestSuite class') # DocTestFinder was introduced in python2.4 if sys.version_info >= (2, 4): class DocTestFinder(doctest.DocTestFinder): def __init__(self, *args, **kwargs): self.skipped = kwargs.pop('skipped', ()) doctest.DocTestFinder.__init__(self, *args, **kwargs) def _get_test(self, obj, name, module, globs, source_lines): """override default _get_test method to be able to skip tests according to skipped attribute's value Note: Python (<=2.4) use a _name_filter which could be used for that purpose but it's no longer available in 2.5 Python 2.5 seems to have a [SKIP] flag """ if getattr(obj, '__name__', '') in self.skipped: return None return doctest.DocTestFinder._get_test(self, obj, name, module, globs, source_lines) else: # this is a hack to make skipped work with python <= 2.3 class DocTestFinder(object): def __init__(self, skipped): self.skipped = skipped self.original_find_tests = doctest._find_tests doctest._find_tests = self._find_tests def _find_tests(self, module, prefix=None): tests = [] for testinfo in self.original_find_tests(module, prefix): testname, _, _, _ = testinfo # testname looks like A.B.C.function_name testname = testname.split('.')[-1] if testname not in self.skipped: tests.append(testinfo) return tests class DocTest(TestCase): """trigger module doctest I don't know how to make unittest.main consider the DocTestSuite instance without this hack """ skipped = () def __call__(self, result=None, runcondition=None, options=None):\ # pylint: disable-msg=W0613 try: finder = DocTestFinder(skipped=self.skipped) if sys.version_info >= (2, 4): suite = doctest.DocTestSuite(self.module, test_finder=finder) else: suite = doctest.DocTestSuite(self.module) except AttributeError: suite = SkippedSuite() return suite.run(result) run = __call__ def test(self): """just there to trigger test execution""" MAILBOX = None class MockSMTP: """fake smtplib.SMTP""" def __init__(self, host, port): self.host = host self.port = port global MAILBOX self.reveived = MAILBOX = [] def set_debuglevel(self, debuglevel): """ignore debug level""" def sendmail(self, fromaddr, toaddres, body): """push sent mail in the mailbox""" self.reveived.append((fromaddr, toaddres, body)) def quit(self): """ignore quit""" class MockConfigParser(ConfigParser): """fake ConfigParser.ConfigParser""" def __init__(self, options): ConfigParser.__init__(self) for section, pairs in options.iteritems(): self.add_section(section) for key, value in pairs.iteritems(): self.set(section,key,value) def write(self, _): raise NotImplementedError() class MockConnection: """fake DB-API 2.0 connexion AND cursor (i.e. cursor() return self)""" def __init__(self, results): self.received = [] self.states = [] self.results = results def cursor(self): """Mock cursor method""" return self def execute(self, query, args=None): """Mock execute method""" self.received.append( (query, args) ) def fetchone(self): """Mock fetchone method""" return self.results[0] def fetchall(self): """Mock fetchall method""" return self.results def commit(self): """Mock commiy method""" self.states.append( ('commit', len(self.received)) ) def rollback(self): """Mock rollback method""" self.states.append( ('rollback', len(self.received)) ) def close(self): """Mock close method""" pass MockConnexion = class_renamed('MockConnexion', MockConnection) def mock_object(**params): """creates an object using params to set attributes >>> option = mock_object(verbose=False, index=range(5)) >>> option.verbose False >>> option.index [0, 1, 2, 3, 4] """ return type('Mock', (), params)() def create_files(paths, chroot): """Creates directories and files found in . :param paths: list of relative paths to files or directories :param chroot: the root directory in which paths will be created >>> from os.path import isdir, isfile >>> isdir('/tmp/a') False >>> create_files(['a/b/foo.py', 'a/b/c/', 'a/b/c/d/e.py'], '/tmp') >>> isdir('/tmp/a') True >>> isdir('/tmp/a/b/c') True >>> isfile('/tmp/a/b/c/d/e.py') True >>> isfile('/tmp/a/b/foo.py') True """ dirs, files = set(), set() for path in paths: path = osp.join(chroot, path) filename = osp.basename(path) # path is a directory path if filename == '': dirs.add(path) # path is a filename path else: dirs.add(osp.dirname(path)) files.add(path) for dirpath in dirs: if not osp.isdir(dirpath): os.makedirs(dirpath) for filepath in files: file(filepath, 'w').close() def enable_dbc(*args): """ Without arguments, return True if contracts can be enabled and should be enabled (see option -d), return False otherwise. With arguments, return False if contracts can't or shouldn't be enabled, otherwise weave ContractAspect with items passed as arguments. """ if not ENABLE_DBC: return False try: from logilab.aspects.weaver import weaver from logilab.aspects.lib.contracts import ContractAspect except ImportError: sys.stderr.write( 'Warning: logilab.aspects is not available. Contracts disabled.') return False for arg in args: weaver.weave_module(arg, ContractAspect) return True class AttrObject: # XXX cf mock_object def __init__(self, **kwargs): self.__dict__.update(kwargs) def tag(*args): """descriptor adding tag to a function""" def desc(func): assert not hasattr(func, 'tags') func.tags = Tags(args) return func return desc class Tags(set): """A set of tag able validate an expression""" def __getitem__(self, key): return key in self def match(self, exp): return eval(exp, {}, self) def require_version(version): """ Compare version of python interpretor to the given one. Skip the test if older. """ def check_require_version(f): version_elements = version.split('.') try: compare = tuple([int(v) for v in version_elements]) except ValueError: raise ValueError('%s is not a correct version : should be X.Y[.Z].' % version) current = sys.version_info[:3] #print 'comp', current, compare if current < compare: #print 'version too old' def new_f(self, *args, **kwargs): self.skip('Need at least %s version of python. Current version is %s.' % (version, '.'.join([str(element) for element in current]))) new_f.__name__ = f.__name__ return new_f else: #print 'version young enough' return f return check_require_version def require_module(module): """ Check if the given module is loaded. Skip the test if not. """ def check_require_module(f): try: __import__(module) #print module, 'imported' return f except ImportError: #print module, 'can not be imported' def new_f(self, *args, **kwargs): self.skip('%s can not be imported.' % module) new_f.__name__ = f.__name__ return new_f return check_require_module