--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/symbian-qemu-0.9.1-12/python-2.6.1/Lib/test/test_unittest.py Fri Jul 31 15:01:17 2009 +0100
@@ -0,0 +1,2297 @@
+"""Test script for unittest.
+
+By Collin Winter <collinw at gmail.com>
+
+Still need testing:
+ TestCase.{assert,fail}* methods (some are tested implicitly)
+"""
+
+from test import test_support
+import unittest
+from unittest import TestCase
+import types
+
+### Support code
+################################################################
+
+class LoggingResult(unittest.TestResult):
+ def __init__(self, log):
+ self._events = log
+ super(LoggingResult, self).__init__()
+
+ def startTest(self, test):
+ self._events.append('startTest')
+ super(LoggingResult, self).startTest(test)
+
+ def stopTest(self, test):
+ self._events.append('stopTest')
+ super(LoggingResult, self).stopTest(test)
+
+ def addFailure(self, *args):
+ self._events.append('addFailure')
+ super(LoggingResult, self).addFailure(*args)
+
+ def addError(self, *args):
+ self._events.append('addError')
+ super(LoggingResult, self).addError(*args)
+
+class TestEquality(object):
+ # Check for a valid __eq__ implementation
+ def test_eq(self):
+ for obj_1, obj_2 in self.eq_pairs:
+ self.assertEqual(obj_1, obj_2)
+ self.assertEqual(obj_2, obj_1)
+
+ # Check for a valid __ne__ implementation
+ def test_ne(self):
+ for obj_1, obj_2 in self.ne_pairs:
+ self.failIfEqual(obj_1, obj_2)
+ self.failIfEqual(obj_2, obj_1)
+
+class TestHashing(object):
+ # Check for a valid __hash__ implementation
+ def test_hash(self):
+ for obj_1, obj_2 in self.eq_pairs:
+ try:
+ assert hash(obj_1) == hash(obj_2)
+ except KeyboardInterrupt:
+ raise
+ except AssertionError:
+ self.fail("%s and %s do not hash equal" % (obj_1, obj_2))
+ except Exception, e:
+ self.fail("Problem hashing %s and %s: %s" % (obj_1, obj_2, e))
+
+ for obj_1, obj_2 in self.ne_pairs:
+ try:
+ assert hash(obj_1) != hash(obj_2)
+ except KeyboardInterrupt:
+ raise
+ except AssertionError:
+ self.fail("%s and %s hash equal, but shouldn't" % (obj_1, obj_2))
+ except Exception, e:
+ self.fail("Problem hashing %s and %s: %s" % (obj_1, obj_2, e))
+
+
+################################################################
+### /Support code
+
+class Test_TestLoader(TestCase):
+
+ ### Tests for TestLoader.loadTestsFromTestCase
+ ################################################################
+
+ # "Return a suite of all tests cases contained in the TestCase-derived
+ # class testCaseClass"
+ def test_loadTestsFromTestCase(self):
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+
+ tests = unittest.TestSuite([Foo('test_1'), Foo('test_2')])
+
+ loader = unittest.TestLoader()
+ self.assertEqual(loader.loadTestsFromTestCase(Foo), tests)
+
+ # "Return a suite of all tests cases contained in the TestCase-derived
+ # class testCaseClass"
+ #
+ # Make sure it does the right thing even if no tests were found
+ def test_loadTestsFromTestCase__no_matches(self):
+ class Foo(unittest.TestCase):
+ def foo_bar(self): pass
+
+ empty_suite = unittest.TestSuite()
+
+ loader = unittest.TestLoader()
+ self.assertEqual(loader.loadTestsFromTestCase(Foo), empty_suite)
+
+ # "Return a suite of all tests cases contained in the TestCase-derived
+ # class testCaseClass"
+ #
+ # What happens if loadTestsFromTestCase() is given an object
+ # that isn't a subclass of TestCase? Specifically, what happens
+ # if testCaseClass is a subclass of TestSuite?
+ #
+ # This is checked for specifically in the code, so we better add a
+ # test for it.
+ def test_loadTestsFromTestCase__TestSuite_subclass(self):
+ class NotATestCase(unittest.TestSuite):
+ pass
+
+ loader = unittest.TestLoader()
+ try:
+ loader.loadTestsFromTestCase(NotATestCase)
+ except TypeError:
+ pass
+ else:
+ self.fail('Should raise TypeError')
+
+ # "Return a suite of all tests cases contained in the TestCase-derived
+ # class testCaseClass"
+ #
+ # Make sure loadTestsFromTestCase() picks up the default test method
+ # name (as specified by TestCase), even though the method name does
+ # not match the default TestLoader.testMethodPrefix string
+ def test_loadTestsFromTestCase__default_method_name(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ pass
+
+ loader = unittest.TestLoader()
+ # This has to be false for the test to succeed
+ self.failIf('runTest'.startswith(loader.testMethodPrefix))
+
+ suite = loader.loadTestsFromTestCase(Foo)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [Foo('runTest')])
+
+ ################################################################
+ ### /Tests for TestLoader.loadTestsFromTestCase
+
+ ### Tests for TestLoader.loadTestsFromModule
+ ################################################################
+
+ # "This method searches `module` for classes derived from TestCase"
+ def test_loadTestsFromModule__TestCase_subclass(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromModule(m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ expected = [loader.suiteClass([MyTestCase('test')])]
+ self.assertEqual(list(suite), expected)
+
+ # "This method searches `module` for classes derived from TestCase"
+ #
+ # What happens if no tests are found (no TestCase instances)?
+ def test_loadTestsFromModule__no_TestCase_instances(self):
+ m = types.ModuleType('m')
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromModule(m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [])
+
+ # "This method searches `module` for classes derived from TestCase"
+ #
+ # What happens if no tests are found (TestCases instances, but no tests)?
+ def test_loadTestsFromModule__no_TestCase_tests(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromModule(m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ self.assertEqual(list(suite), [loader.suiteClass()])
+
+ # "This method searches `module` for classes derived from TestCase"s
+ #
+ # What happens if loadTestsFromModule() is given something other
+ # than a module?
+ #
+ # XXX Currently, it succeeds anyway. This flexibility
+ # should either be documented or loadTestsFromModule() should
+ # raise a TypeError
+ #
+ # XXX Certain people are using this behaviour. We'll add a test for it
+ def test_loadTestsFromModule__not_a_module(self):
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+
+ class NotAModule(object):
+ test_2 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromModule(NotAModule)
+
+ reference = [unittest.TestSuite([MyTestCase('test')])]
+ self.assertEqual(list(suite), reference)
+
+ ################################################################
+ ### /Tests for TestLoader.loadTestsFromModule()
+
+ ### Tests for TestLoader.loadTestsFromName()
+ ################################################################
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # Is ValueError raised in response to an empty name?
+ def test_loadTestsFromName__empty_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromName('')
+ except ValueError, e:
+ self.assertEqual(str(e), "Empty module name")
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise ValueError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # What happens when the name contains invalid characters?
+ def test_loadTestsFromName__malformed_name(self):
+ loader = unittest.TestLoader()
+
+ # XXX Should this raise ValueError or ImportError?
+ try:
+ loader.loadTestsFromName('abc () //')
+ except ValueError:
+ pass
+ except ImportError:
+ pass
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise ValueError")
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to a
+ # module"
+ #
+ # What happens when a module by that name can't be found?
+ def test_loadTestsFromName__unknown_module_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromName('sdasfasfasdf')
+ except ImportError, e:
+ self.assertEqual(str(e), "No module named sdasfasfasdf")
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise ImportError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # What happens when the module is found, but the attribute can't?
+ def test_loadTestsFromName__unknown_attr_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromName('unittest.sdasfasfasdf')
+ except AttributeError, e:
+ self.assertEqual(str(e), "'module' object has no attribute 'sdasfasfasdf'")
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # What happens when we provide the module, but the attribute can't be
+ # found?
+ def test_loadTestsFromName__relative_unknown_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromName('sdasfasfasdf', unittest)
+ except AttributeError, e:
+ self.assertEqual(str(e), "'module' object has no attribute 'sdasfasfasdf'")
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # Does loadTestsFromName raise ValueError when passed an empty
+ # name relative to a provided module?
+ #
+ # XXX Should probably raise a ValueError instead of an AttributeError
+ def test_loadTestsFromName__relative_empty_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromName('', unittest)
+ except AttributeError, e:
+ pass
+ else:
+ self.fail("Failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # What happens when an impossible name is given, relative to the provided
+ # `module`?
+ def test_loadTestsFromName__relative_malformed_name(self):
+ loader = unittest.TestLoader()
+
+ # XXX Should this raise AttributeError or ValueError?
+ try:
+ loader.loadTestsFromName('abc () //', unittest)
+ except ValueError:
+ pass
+ except AttributeError:
+ pass
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise ValueError")
+
+ # "The method optionally resolves name relative to the given module"
+ #
+ # Does loadTestsFromName raise TypeError when the `module` argument
+ # isn't a module object?
+ #
+ # XXX Accepts the not-a-module object, ignorning the object's type
+ # This should raise an exception or the method name should be changed
+ #
+ # XXX Some people are relying on this, so keep it for now
+ def test_loadTestsFromName__relative_not_a_module(self):
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+
+ class NotAModule(object):
+ test_2 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromName('test_2', NotAModule)
+
+ reference = [MyTestCase('test')]
+ self.assertEqual(list(suite), reference)
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # Does it raise an exception if the name resolves to an invalid
+ # object?
+ def test_loadTestsFromName__relative_bad_object(self):
+ m = types.ModuleType('m')
+ m.testcase_1 = object()
+
+ loader = unittest.TestLoader()
+ try:
+ loader.loadTestsFromName('testcase_1', m)
+ except TypeError:
+ pass
+ else:
+ self.fail("Should have raised TypeError")
+
+ # "The specifier name is a ``dotted name'' that may
+ # resolve either to ... a test case class"
+ def test_loadTestsFromName__relative_TestCase_subclass(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromName('testcase_1', m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [MyTestCase('test')])
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ def test_loadTestsFromName__relative_TestSuite(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testsuite = unittest.TestSuite([MyTestCase('test')])
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromName('testsuite', m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ self.assertEqual(list(suite), [MyTestCase('test')])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a test method within a test case class"
+ def test_loadTestsFromName__relative_testmethod(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromName('testcase_1.test', m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ self.assertEqual(list(suite), [MyTestCase('test')])
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # Does loadTestsFromName() raise the proper exception when trying to
+ # resolve "a test method within a test case class" that doesn't exist
+ # for the given name (relative to a provided module)?
+ def test_loadTestsFromName__relative_invalid_testmethod(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ try:
+ loader.loadTestsFromName('testcase_1.testfoo', m)
+ except AttributeError, e:
+ self.assertEqual(str(e), "type object 'MyTestCase' has no attribute 'testfoo'")
+ else:
+ self.fail("Failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a ... TestSuite instance"
+ def test_loadTestsFromName__callable__TestSuite(self):
+ m = types.ModuleType('m')
+ testcase_1 = unittest.FunctionTestCase(lambda: None)
+ testcase_2 = unittest.FunctionTestCase(lambda: None)
+ def return_TestSuite():
+ return unittest.TestSuite([testcase_1, testcase_2])
+ m.return_TestSuite = return_TestSuite
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromName('return_TestSuite', m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [testcase_1, testcase_2])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a TestCase ... instance"
+ def test_loadTestsFromName__callable__TestCase_instance(self):
+ m = types.ModuleType('m')
+ testcase_1 = unittest.FunctionTestCase(lambda: None)
+ def return_TestCase():
+ return testcase_1
+ m.return_TestCase = return_TestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromName('return_TestCase', m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [testcase_1])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a TestCase or TestSuite instance"
+ #
+ # What happens if the callable returns something else?
+ def test_loadTestsFromName__callable__wrong_type(self):
+ m = types.ModuleType('m')
+ def return_wrong():
+ return 6
+ m.return_wrong = return_wrong
+
+ loader = unittest.TestLoader()
+ try:
+ suite = loader.loadTestsFromName('return_wrong', m)
+ except TypeError:
+ pass
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise TypeError")
+
+ # "The specifier can refer to modules and packages which have not been
+ # imported; they will be imported as a side-effect"
+ def test_loadTestsFromName__module_not_loaded(self):
+ # We're going to try to load this module as a side-effect, so it
+ # better not be loaded before we try.
+ #
+ # Why pick audioop? Google shows it isn't used very often, so there's
+ # a good chance that it won't be imported when this test is run
+ module_name = 'audioop'
+
+ import sys
+ if module_name in sys.modules:
+ del sys.modules[module_name]
+
+ loader = unittest.TestLoader()
+ try:
+ suite = loader.loadTestsFromName(module_name)
+
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [])
+
+ # audioop should now be loaded, thanks to loadTestsFromName()
+ self.failUnless(module_name in sys.modules)
+ finally:
+ if module_name in sys.modules:
+ del sys.modules[module_name]
+
+ ################################################################
+ ### Tests for TestLoader.loadTestsFromName()
+
+ ### Tests for TestLoader.loadTestsFromNames()
+ ################################################################
+
+ # "Similar to loadTestsFromName(), but takes a sequence of names rather
+ # than a single name."
+ #
+ # What happens if that sequence of names is empty?
+ def test_loadTestsFromNames__empty_name_list(self):
+ loader = unittest.TestLoader()
+
+ suite = loader.loadTestsFromNames([])
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [])
+
+ # "Similar to loadTestsFromName(), but takes a sequence of names rather
+ # than a single name."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # What happens if that sequence of names is empty?
+ #
+ # XXX Should this raise a ValueError or just return an empty TestSuite?
+ def test_loadTestsFromNames__relative_empty_name_list(self):
+ loader = unittest.TestLoader()
+
+ suite = loader.loadTestsFromNames([], unittest)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [])
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # Is ValueError raised in response to an empty name?
+ def test_loadTestsFromNames__empty_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromNames([''])
+ except ValueError, e:
+ self.assertEqual(str(e), "Empty module name")
+ else:
+ self.fail("TestLoader.loadTestsFromNames failed to raise ValueError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # What happens when presented with an impossible module name?
+ def test_loadTestsFromNames__malformed_name(self):
+ loader = unittest.TestLoader()
+
+ # XXX Should this raise ValueError or ImportError?
+ try:
+ loader.loadTestsFromNames(['abc () //'])
+ except ValueError:
+ pass
+ except ImportError:
+ pass
+ else:
+ self.fail("TestLoader.loadTestsFromNames failed to raise ValueError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # What happens when no module can be found for the given name?
+ def test_loadTestsFromNames__unknown_module_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromNames(['sdasfasfasdf'])
+ except ImportError, e:
+ self.assertEqual(str(e), "No module named sdasfasfasdf")
+ else:
+ self.fail("TestLoader.loadTestsFromNames failed to raise ImportError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # What happens when the module can be found, but not the attribute?
+ def test_loadTestsFromNames__unknown_attr_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromNames(['unittest.sdasfasfasdf', 'unittest'])
+ except AttributeError, e:
+ self.assertEqual(str(e), "'module' object has no attribute 'sdasfasfasdf'")
+ else:
+ self.fail("TestLoader.loadTestsFromNames failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # What happens when given an unknown attribute on a specified `module`
+ # argument?
+ def test_loadTestsFromNames__unknown_name_relative_1(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromNames(['sdasfasfasdf'], unittest)
+ except AttributeError, e:
+ self.assertEqual(str(e), "'module' object has no attribute 'sdasfasfasdf'")
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # Do unknown attributes (relative to a provided module) still raise an
+ # exception even in the presence of valid attribute names?
+ def test_loadTestsFromNames__unknown_name_relative_2(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromNames(['TestCase', 'sdasfasfasdf'], unittest)
+ except AttributeError, e:
+ self.assertEqual(str(e), "'module' object has no attribute 'sdasfasfasdf'")
+ else:
+ self.fail("TestLoader.loadTestsFromName failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # What happens when faced with the empty string?
+ #
+ # XXX This currently raises AttributeError, though ValueError is probably
+ # more appropriate
+ def test_loadTestsFromNames__relative_empty_name(self):
+ loader = unittest.TestLoader()
+
+ try:
+ loader.loadTestsFromNames([''], unittest)
+ except AttributeError:
+ pass
+ else:
+ self.fail("Failed to raise ValueError")
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ # ...
+ # "The method optionally resolves name relative to the given module"
+ #
+ # What happens when presented with an impossible attribute name?
+ def test_loadTestsFromNames__relative_malformed_name(self):
+ loader = unittest.TestLoader()
+
+ # XXX Should this raise AttributeError or ValueError?
+ try:
+ loader.loadTestsFromNames(['abc () //'], unittest)
+ except AttributeError:
+ pass
+ except ValueError:
+ pass
+ else:
+ self.fail("TestLoader.loadTestsFromNames failed to raise ValueError")
+
+ # "The method optionally resolves name relative to the given module"
+ #
+ # Does loadTestsFromNames() make sure the provided `module` is in fact
+ # a module?
+ #
+ # XXX This validation is currently not done. This flexibility should
+ # either be documented or a TypeError should be raised.
+ def test_loadTestsFromNames__relative_not_a_module(self):
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+
+ class NotAModule(object):
+ test_2 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['test_2'], NotAModule)
+
+ reference = [unittest.TestSuite([MyTestCase('test')])]
+ self.assertEqual(list(suite), reference)
+
+ # "The specifier name is a ``dotted name'' that may resolve either to
+ # a module, a test case class, a TestSuite instance, a test method
+ # within a test case class, or a callable object which returns a
+ # TestCase or TestSuite instance."
+ #
+ # Does it raise an exception if the name resolves to an invalid
+ # object?
+ def test_loadTestsFromNames__relative_bad_object(self):
+ m = types.ModuleType('m')
+ m.testcase_1 = object()
+
+ loader = unittest.TestLoader()
+ try:
+ loader.loadTestsFromNames(['testcase_1'], m)
+ except TypeError:
+ pass
+ else:
+ self.fail("Should have raised TypeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a test case class"
+ def test_loadTestsFromNames__relative_TestCase_subclass(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['testcase_1'], m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ expected = loader.suiteClass([MyTestCase('test')])
+ self.assertEqual(list(suite), [expected])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a TestSuite instance"
+ def test_loadTestsFromNames__relative_TestSuite(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testsuite = unittest.TestSuite([MyTestCase('test')])
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['testsuite'], m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ self.assertEqual(list(suite), [m.testsuite])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to ... a
+ # test method within a test case class"
+ def test_loadTestsFromNames__relative_testmethod(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['testcase_1.test'], m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ ref_suite = unittest.TestSuite([MyTestCase('test')])
+ self.assertEqual(list(suite), [ref_suite])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to ... a
+ # test method within a test case class"
+ #
+ # Does the method gracefully handle names that initially look like they
+ # resolve to "a test method within a test case class" but don't?
+ def test_loadTestsFromNames__relative_invalid_testmethod(self):
+ m = types.ModuleType('m')
+ class MyTestCase(unittest.TestCase):
+ def test(self):
+ pass
+ m.testcase_1 = MyTestCase
+
+ loader = unittest.TestLoader()
+ try:
+ loader.loadTestsFromNames(['testcase_1.testfoo'], m)
+ except AttributeError, e:
+ self.assertEqual(str(e), "type object 'MyTestCase' has no attribute 'testfoo'")
+ else:
+ self.fail("Failed to raise AttributeError")
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a ... TestSuite instance"
+ def test_loadTestsFromNames__callable__TestSuite(self):
+ m = types.ModuleType('m')
+ testcase_1 = unittest.FunctionTestCase(lambda: None)
+ testcase_2 = unittest.FunctionTestCase(lambda: None)
+ def return_TestSuite():
+ return unittest.TestSuite([testcase_1, testcase_2])
+ m.return_TestSuite = return_TestSuite
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['return_TestSuite'], m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ expected = unittest.TestSuite([testcase_1, testcase_2])
+ self.assertEqual(list(suite), [expected])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a TestCase ... instance"
+ def test_loadTestsFromNames__callable__TestCase_instance(self):
+ m = types.ModuleType('m')
+ testcase_1 = unittest.FunctionTestCase(lambda: None)
+ def return_TestCase():
+ return testcase_1
+ m.return_TestCase = return_TestCase
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['return_TestCase'], m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ ref_suite = unittest.TestSuite([testcase_1])
+ self.assertEqual(list(suite), [ref_suite])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a TestCase or TestSuite instance"
+ #
+ # Are staticmethods handled correctly?
+ def test_loadTestsFromNames__callable__call_staticmethod(self):
+ m = types.ModuleType('m')
+ class Test1(unittest.TestCase):
+ def test(self):
+ pass
+
+ testcase_1 = Test1('test')
+ class Foo(unittest.TestCase):
+ @staticmethod
+ def foo():
+ return testcase_1
+ m.Foo = Foo
+
+ loader = unittest.TestLoader()
+ suite = loader.loadTestsFromNames(['Foo.foo'], m)
+ self.failUnless(isinstance(suite, loader.suiteClass))
+
+ ref_suite = unittest.TestSuite([testcase_1])
+ self.assertEqual(list(suite), [ref_suite])
+
+ # "The specifier name is a ``dotted name'' that may resolve ... to
+ # ... a callable object which returns a TestCase or TestSuite instance"
+ #
+ # What happens when the callable returns something else?
+ def test_loadTestsFromNames__callable__wrong_type(self):
+ m = types.ModuleType('m')
+ def return_wrong():
+ return 6
+ m.return_wrong = return_wrong
+
+ loader = unittest.TestLoader()
+ try:
+ suite = loader.loadTestsFromNames(['return_wrong'], m)
+ except TypeError:
+ pass
+ else:
+ self.fail("TestLoader.loadTestsFromNames failed to raise TypeError")
+
+ # "The specifier can refer to modules and packages which have not been
+ # imported; they will be imported as a side-effect"
+ def test_loadTestsFromNames__module_not_loaded(self):
+ # We're going to try to load this module as a side-effect, so it
+ # better not be loaded before we try.
+ #
+ # Why pick audioop? Google shows it isn't used very often, so there's
+ # a good chance that it won't be imported when this test is run
+ module_name = 'audioop'
+
+ import sys
+ if module_name in sys.modules:
+ del sys.modules[module_name]
+
+ loader = unittest.TestLoader()
+ try:
+ suite = loader.loadTestsFromNames([module_name])
+
+ self.failUnless(isinstance(suite, loader.suiteClass))
+ self.assertEqual(list(suite), [unittest.TestSuite()])
+
+ # audioop should now be loaded, thanks to loadTestsFromName()
+ self.failUnless(module_name in sys.modules)
+ finally:
+ if module_name in sys.modules:
+ del sys.modules[module_name]
+
+ ################################################################
+ ### /Tests for TestLoader.loadTestsFromNames()
+
+ ### Tests for TestLoader.getTestCaseNames()
+ ################################################################
+
+ # "Return a sorted sequence of method names found within testCaseClass"
+ #
+ # Test.foobar is defined to make sure getTestCaseNames() respects
+ # loader.testMethodPrefix
+ def test_getTestCaseNames(self):
+ class Test(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foobar(self): pass
+
+ loader = unittest.TestLoader()
+
+ self.assertEqual(loader.getTestCaseNames(Test), ['test_1', 'test_2'])
+
+ # "Return a sorted sequence of method names found within testCaseClass"
+ #
+ # Does getTestCaseNames() behave appropriately if no tests are found?
+ def test_getTestCaseNames__no_tests(self):
+ class Test(unittest.TestCase):
+ def foobar(self): pass
+
+ loader = unittest.TestLoader()
+
+ self.assertEqual(loader.getTestCaseNames(Test), [])
+
+ # "Return a sorted sequence of method names found within testCaseClass"
+ #
+ # Are not-TestCases handled gracefully?
+ #
+ # XXX This should raise a TypeError, not return a list
+ #
+ # XXX It's too late in the 2.5 release cycle to fix this, but it should
+ # probably be revisited for 2.6
+ def test_getTestCaseNames__not_a_TestCase(self):
+ class BadCase(int):
+ def test_foo(self):
+ pass
+
+ loader = unittest.TestLoader()
+ names = loader.getTestCaseNames(BadCase)
+
+ self.assertEqual(names, ['test_foo'])
+
+ # "Return a sorted sequence of method names found within testCaseClass"
+ #
+ # Make sure inherited names are handled.
+ #
+ # TestP.foobar is defined to make sure getTestCaseNames() respects
+ # loader.testMethodPrefix
+ def test_getTestCaseNames__inheritance(self):
+ class TestP(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foobar(self): pass
+
+ class TestC(TestP):
+ def test_1(self): pass
+ def test_3(self): pass
+
+ loader = unittest.TestLoader()
+
+ names = ['test_1', 'test_2', 'test_3']
+ self.assertEqual(loader.getTestCaseNames(TestC), names)
+
+ ################################################################
+ ### /Tests for TestLoader.getTestCaseNames()
+
+ ### Tests for TestLoader.testMethodPrefix
+ ################################################################
+
+ # "String giving the prefix of method names which will be interpreted as
+ # test methods"
+ #
+ # Implicit in the documentation is that testMethodPrefix is respected by
+ # all loadTestsFrom* methods.
+ def test_testMethodPrefix__loadTestsFromTestCase(self):
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+
+ tests_1 = unittest.TestSuite([Foo('foo_bar')])
+ tests_2 = unittest.TestSuite([Foo('test_1'), Foo('test_2')])
+
+ loader = unittest.TestLoader()
+ loader.testMethodPrefix = 'foo'
+ self.assertEqual(loader.loadTestsFromTestCase(Foo), tests_1)
+
+ loader.testMethodPrefix = 'test'
+ self.assertEqual(loader.loadTestsFromTestCase(Foo), tests_2)
+
+ # "String giving the prefix of method names which will be interpreted as
+ # test methods"
+ #
+ # Implicit in the documentation is that testMethodPrefix is respected by
+ # all loadTestsFrom* methods.
+ def test_testMethodPrefix__loadTestsFromModule(self):
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+ m.Foo = Foo
+
+ tests_1 = [unittest.TestSuite([Foo('foo_bar')])]
+ tests_2 = [unittest.TestSuite([Foo('test_1'), Foo('test_2')])]
+
+ loader = unittest.TestLoader()
+ loader.testMethodPrefix = 'foo'
+ self.assertEqual(list(loader.loadTestsFromModule(m)), tests_1)
+
+ loader.testMethodPrefix = 'test'
+ self.assertEqual(list(loader.loadTestsFromModule(m)), tests_2)
+
+ # "String giving the prefix of method names which will be interpreted as
+ # test methods"
+ #
+ # Implicit in the documentation is that testMethodPrefix is respected by
+ # all loadTestsFrom* methods.
+ def test_testMethodPrefix__loadTestsFromName(self):
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+ m.Foo = Foo
+
+ tests_1 = unittest.TestSuite([Foo('foo_bar')])
+ tests_2 = unittest.TestSuite([Foo('test_1'), Foo('test_2')])
+
+ loader = unittest.TestLoader()
+ loader.testMethodPrefix = 'foo'
+ self.assertEqual(loader.loadTestsFromName('Foo', m), tests_1)
+
+ loader.testMethodPrefix = 'test'
+ self.assertEqual(loader.loadTestsFromName('Foo', m), tests_2)
+
+ # "String giving the prefix of method names which will be interpreted as
+ # test methods"
+ #
+ # Implicit in the documentation is that testMethodPrefix is respected by
+ # all loadTestsFrom* methods.
+ def test_testMethodPrefix__loadTestsFromNames(self):
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+ m.Foo = Foo
+
+ tests_1 = unittest.TestSuite([unittest.TestSuite([Foo('foo_bar')])])
+ tests_2 = unittest.TestSuite([Foo('test_1'), Foo('test_2')])
+ tests_2 = unittest.TestSuite([tests_2])
+
+ loader = unittest.TestLoader()
+ loader.testMethodPrefix = 'foo'
+ self.assertEqual(loader.loadTestsFromNames(['Foo'], m), tests_1)
+
+ loader.testMethodPrefix = 'test'
+ self.assertEqual(loader.loadTestsFromNames(['Foo'], m), tests_2)
+
+ # "The default value is 'test'"
+ def test_testMethodPrefix__default_value(self):
+ loader = unittest.TestLoader()
+ self.failUnless(loader.testMethodPrefix == 'test')
+
+ ################################################################
+ ### /Tests for TestLoader.testMethodPrefix
+
+ ### Tests for TestLoader.sortTestMethodsUsing
+ ################################################################
+
+ # "Function to be used to compare method names when sorting them in
+ # getTestCaseNames() and all the loadTestsFromX() methods"
+ def test_sortTestMethodsUsing__loadTestsFromTestCase(self):
+ def reversed_cmp(x, y):
+ return -cmp(x, y)
+
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+
+ loader = unittest.TestLoader()
+ loader.sortTestMethodsUsing = reversed_cmp
+
+ tests = loader.suiteClass([Foo('test_2'), Foo('test_1')])
+ self.assertEqual(loader.loadTestsFromTestCase(Foo), tests)
+
+ # "Function to be used to compare method names when sorting them in
+ # getTestCaseNames() and all the loadTestsFromX() methods"
+ def test_sortTestMethodsUsing__loadTestsFromModule(self):
+ def reversed_cmp(x, y):
+ return -cmp(x, y)
+
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ m.Foo = Foo
+
+ loader = unittest.TestLoader()
+ loader.sortTestMethodsUsing = reversed_cmp
+
+ tests = [loader.suiteClass([Foo('test_2'), Foo('test_1')])]
+ self.assertEqual(list(loader.loadTestsFromModule(m)), tests)
+
+ # "Function to be used to compare method names when sorting them in
+ # getTestCaseNames() and all the loadTestsFromX() methods"
+ def test_sortTestMethodsUsing__loadTestsFromName(self):
+ def reversed_cmp(x, y):
+ return -cmp(x, y)
+
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ m.Foo = Foo
+
+ loader = unittest.TestLoader()
+ loader.sortTestMethodsUsing = reversed_cmp
+
+ tests = loader.suiteClass([Foo('test_2'), Foo('test_1')])
+ self.assertEqual(loader.loadTestsFromName('Foo', m), tests)
+
+ # "Function to be used to compare method names when sorting them in
+ # getTestCaseNames() and all the loadTestsFromX() methods"
+ def test_sortTestMethodsUsing__loadTestsFromNames(self):
+ def reversed_cmp(x, y):
+ return -cmp(x, y)
+
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ m.Foo = Foo
+
+ loader = unittest.TestLoader()
+ loader.sortTestMethodsUsing = reversed_cmp
+
+ tests = [loader.suiteClass([Foo('test_2'), Foo('test_1')])]
+ self.assertEqual(list(loader.loadTestsFromNames(['Foo'], m)), tests)
+
+ # "Function to be used to compare method names when sorting them in
+ # getTestCaseNames()"
+ #
+ # Does it actually affect getTestCaseNames()?
+ def test_sortTestMethodsUsing__getTestCaseNames(self):
+ def reversed_cmp(x, y):
+ return -cmp(x, y)
+
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+
+ loader = unittest.TestLoader()
+ loader.sortTestMethodsUsing = reversed_cmp
+
+ test_names = ['test_2', 'test_1']
+ self.assertEqual(loader.getTestCaseNames(Foo), test_names)
+
+ # "The default value is the built-in cmp() function"
+ def test_sortTestMethodsUsing__default_value(self):
+ loader = unittest.TestLoader()
+ self.failUnless(loader.sortTestMethodsUsing is cmp)
+
+ # "it can be set to None to disable the sort."
+ #
+ # XXX How is this different from reassigning cmp? Are the tests returned
+ # in a random order or something? This behaviour should die
+ def test_sortTestMethodsUsing__None(self):
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+
+ loader = unittest.TestLoader()
+ loader.sortTestMethodsUsing = None
+
+ test_names = ['test_2', 'test_1']
+ self.assertEqual(set(loader.getTestCaseNames(Foo)), set(test_names))
+
+ ################################################################
+ ### /Tests for TestLoader.sortTestMethodsUsing
+
+ ### Tests for TestLoader.suiteClass
+ ################################################################
+
+ # "Callable object that constructs a test suite from a list of tests."
+ def test_suiteClass__loadTestsFromTestCase(self):
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+
+ tests = [Foo('test_1'), Foo('test_2')]
+
+ loader = unittest.TestLoader()
+ loader.suiteClass = list
+ self.assertEqual(loader.loadTestsFromTestCase(Foo), tests)
+
+ # It is implicit in the documentation for TestLoader.suiteClass that
+ # all TestLoader.loadTestsFrom* methods respect it. Let's make sure
+ def test_suiteClass__loadTestsFromModule(self):
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+ m.Foo = Foo
+
+ tests = [[Foo('test_1'), Foo('test_2')]]
+
+ loader = unittest.TestLoader()
+ loader.suiteClass = list
+ self.assertEqual(loader.loadTestsFromModule(m), tests)
+
+ # It is implicit in the documentation for TestLoader.suiteClass that
+ # all TestLoader.loadTestsFrom* methods respect it. Let's make sure
+ def test_suiteClass__loadTestsFromName(self):
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+ m.Foo = Foo
+
+ tests = [Foo('test_1'), Foo('test_2')]
+
+ loader = unittest.TestLoader()
+ loader.suiteClass = list
+ self.assertEqual(loader.loadTestsFromName('Foo', m), tests)
+
+ # It is implicit in the documentation for TestLoader.suiteClass that
+ # all TestLoader.loadTestsFrom* methods respect it. Let's make sure
+ def test_suiteClass__loadTestsFromNames(self):
+ m = types.ModuleType('m')
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def foo_bar(self): pass
+ m.Foo = Foo
+
+ tests = [[Foo('test_1'), Foo('test_2')]]
+
+ loader = unittest.TestLoader()
+ loader.suiteClass = list
+ self.assertEqual(loader.loadTestsFromNames(['Foo'], m), tests)
+
+ # "The default value is the TestSuite class"
+ def test_suiteClass__default_value(self):
+ loader = unittest.TestLoader()
+ self.failUnless(loader.suiteClass is unittest.TestSuite)
+
+ ################################################################
+ ### /Tests for TestLoader.suiteClass
+
+### Support code for Test_TestSuite
+################################################################
+
+class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+ def test_3(self): pass
+ def runTest(self): pass
+
+def _mk_TestSuite(*names):
+ return unittest.TestSuite(Foo(n) for n in names)
+
+################################################################
+### /Support code for Test_TestSuite
+
+class Test_TestSuite(TestCase, TestEquality):
+
+ ### Set up attributes needed by inherited tests
+ ################################################################
+
+ # Used by TestEquality.test_eq
+ eq_pairs = [(unittest.TestSuite(), unittest.TestSuite())
+ ,(unittest.TestSuite(), unittest.TestSuite([]))
+ ,(_mk_TestSuite('test_1'), _mk_TestSuite('test_1'))]
+
+ # Used by TestEquality.test_ne
+ ne_pairs = [(unittest.TestSuite(), _mk_TestSuite('test_1'))
+ ,(unittest.TestSuite([]), _mk_TestSuite('test_1'))
+ ,(_mk_TestSuite('test_1', 'test_2'), _mk_TestSuite('test_1', 'test_3'))
+ ,(_mk_TestSuite('test_1'), _mk_TestSuite('test_2'))]
+
+ ################################################################
+ ### /Set up attributes needed by inherited tests
+
+ ### Tests for TestSuite.__init__
+ ################################################################
+
+ # "class TestSuite([tests])"
+ #
+ # The tests iterable should be optional
+ def test_init__tests_optional(self):
+ suite = unittest.TestSuite()
+
+ self.assertEqual(suite.countTestCases(), 0)
+
+ # "class TestSuite([tests])"
+ # ...
+ # "If tests is given, it must be an iterable of individual test cases
+ # or other test suites that will be used to build the suite initially"
+ #
+ # TestSuite should deal with empty tests iterables by allowing the
+ # creation of an empty suite
+ def test_init__empty_tests(self):
+ suite = unittest.TestSuite([])
+
+ self.assertEqual(suite.countTestCases(), 0)
+
+ # "class TestSuite([tests])"
+ # ...
+ # "If tests is given, it must be an iterable of individual test cases
+ # or other test suites that will be used to build the suite initially"
+ #
+ # TestSuite should allow any iterable to provide tests
+ def test_init__tests_from_any_iterable(self):
+ def tests():
+ yield unittest.FunctionTestCase(lambda: None)
+ yield unittest.FunctionTestCase(lambda: None)
+
+ suite_1 = unittest.TestSuite(tests())
+ self.assertEqual(suite_1.countTestCases(), 2)
+
+ suite_2 = unittest.TestSuite(suite_1)
+ self.assertEqual(suite_2.countTestCases(), 2)
+
+ suite_3 = unittest.TestSuite(set(suite_1))
+ self.assertEqual(suite_3.countTestCases(), 2)
+
+ # "class TestSuite([tests])"
+ # ...
+ # "If tests is given, it must be an iterable of individual test cases
+ # or other test suites that will be used to build the suite initially"
+ #
+ # Does TestSuite() also allow other TestSuite() instances to be present
+ # in the tests iterable?
+ def test_init__TestSuite_instances_in_tests(self):
+ def tests():
+ ftc = unittest.FunctionTestCase(lambda: None)
+ yield unittest.TestSuite([ftc])
+ yield unittest.FunctionTestCase(lambda: None)
+
+ suite = unittest.TestSuite(tests())
+ self.assertEqual(suite.countTestCases(), 2)
+
+ ################################################################
+ ### /Tests for TestSuite.__init__
+
+ # Container types should support the iter protocol
+ def test_iter(self):
+ test1 = unittest.FunctionTestCase(lambda: None)
+ test2 = unittest.FunctionTestCase(lambda: None)
+ suite = unittest.TestSuite((test1, test2))
+
+ self.assertEqual(list(suite), [test1, test2])
+
+ # "Return the number of tests represented by the this test object.
+ # ...this method is also implemented by the TestSuite class, which can
+ # return larger [greater than 1] values"
+ #
+ # Presumably an empty TestSuite returns 0?
+ def test_countTestCases_zero_simple(self):
+ suite = unittest.TestSuite()
+
+ self.assertEqual(suite.countTestCases(), 0)
+
+ # "Return the number of tests represented by the this test object.
+ # ...this method is also implemented by the TestSuite class, which can
+ # return larger [greater than 1] values"
+ #
+ # Presumably an empty TestSuite (even if it contains other empty
+ # TestSuite instances) returns 0?
+ def test_countTestCases_zero_nested(self):
+ class Test1(unittest.TestCase):
+ def test(self):
+ pass
+
+ suite = unittest.TestSuite([unittest.TestSuite()])
+
+ self.assertEqual(suite.countTestCases(), 0)
+
+ # "Return the number of tests represented by the this test object.
+ # ...this method is also implemented by the TestSuite class, which can
+ # return larger [greater than 1] values"
+ def test_countTestCases_simple(self):
+ test1 = unittest.FunctionTestCase(lambda: None)
+ test2 = unittest.FunctionTestCase(lambda: None)
+ suite = unittest.TestSuite((test1, test2))
+
+ self.assertEqual(suite.countTestCases(), 2)
+
+ # "Return the number of tests represented by the this test object.
+ # ...this method is also implemented by the TestSuite class, which can
+ # return larger [greater than 1] values"
+ #
+ # Make sure this holds for nested TestSuite instances, too
+ def test_countTestCases_nested(self):
+ class Test1(unittest.TestCase):
+ def test1(self): pass
+ def test2(self): pass
+
+ test2 = unittest.FunctionTestCase(lambda: None)
+ test3 = unittest.FunctionTestCase(lambda: None)
+ child = unittest.TestSuite((Test1('test2'), test2))
+ parent = unittest.TestSuite((test3, child, Test1('test1')))
+
+ self.assertEqual(parent.countTestCases(), 4)
+
+ # "Run the tests associated with this suite, collecting the result into
+ # the test result object passed as result."
+ #
+ # And if there are no tests? What then?
+ def test_run__empty_suite(self):
+ events = []
+ result = LoggingResult(events)
+
+ suite = unittest.TestSuite()
+
+ suite.run(result)
+
+ self.assertEqual(events, [])
+
+ # "Note that unlike TestCase.run(), TestSuite.run() requires the
+ # "result object to be passed in."
+ def test_run__requires_result(self):
+ suite = unittest.TestSuite()
+
+ try:
+ suite.run()
+ except TypeError:
+ pass
+ else:
+ self.fail("Failed to raise TypeError")
+
+ # "Run the tests associated with this suite, collecting the result into
+ # the test result object passed as result."
+ def test_run(self):
+ events = []
+ result = LoggingResult(events)
+
+ class LoggingCase(unittest.TestCase):
+ def run(self, result):
+ events.append('run %s' % self._testMethodName)
+
+ def test1(self): pass
+ def test2(self): pass
+
+ tests = [LoggingCase('test1'), LoggingCase('test2')]
+
+ unittest.TestSuite(tests).run(result)
+
+ self.assertEqual(events, ['run test1', 'run test2'])
+
+ # "Add a TestCase ... to the suite"
+ def test_addTest__TestCase(self):
+ class Foo(unittest.TestCase):
+ def test(self): pass
+
+ test = Foo('test')
+ suite = unittest.TestSuite()
+
+ suite.addTest(test)
+
+ self.assertEqual(suite.countTestCases(), 1)
+ self.assertEqual(list(suite), [test])
+
+ # "Add a ... TestSuite to the suite"
+ def test_addTest__TestSuite(self):
+ class Foo(unittest.TestCase):
+ def test(self): pass
+
+ suite_2 = unittest.TestSuite([Foo('test')])
+
+ suite = unittest.TestSuite()
+ suite.addTest(suite_2)
+
+ self.assertEqual(suite.countTestCases(), 1)
+ self.assertEqual(list(suite), [suite_2])
+
+ # "Add all the tests from an iterable of TestCase and TestSuite
+ # instances to this test suite."
+ #
+ # "This is equivalent to iterating over tests, calling addTest() for
+ # each element"
+ def test_addTests(self):
+ class Foo(unittest.TestCase):
+ def test_1(self): pass
+ def test_2(self): pass
+
+ test_1 = Foo('test_1')
+ test_2 = Foo('test_2')
+ inner_suite = unittest.TestSuite([test_2])
+
+ def gen():
+ yield test_1
+ yield test_2
+ yield inner_suite
+
+ suite_1 = unittest.TestSuite()
+ suite_1.addTests(gen())
+
+ self.assertEqual(list(suite_1), list(gen()))
+
+ # "This is equivalent to iterating over tests, calling addTest() for
+ # each element"
+ suite_2 = unittest.TestSuite()
+ for t in gen():
+ suite_2.addTest(t)
+
+ self.assertEqual(suite_1, suite_2)
+
+ # "Add all the tests from an iterable of TestCase and TestSuite
+ # instances to this test suite."
+ #
+ # What happens if it doesn't get an iterable?
+ def test_addTest__noniterable(self):
+ suite = unittest.TestSuite()
+
+ try:
+ suite.addTests(5)
+ except TypeError:
+ pass
+ else:
+ self.fail("Failed to raise TypeError")
+
+ def test_addTest__noncallable(self):
+ suite = unittest.TestSuite()
+ self.assertRaises(TypeError, suite.addTest, 5)
+
+ def test_addTest__casesuiteclass(self):
+ suite = unittest.TestSuite()
+ self.assertRaises(TypeError, suite.addTest, Test_TestSuite)
+ self.assertRaises(TypeError, suite.addTest, unittest.TestSuite)
+
+ def test_addTests__string(self):
+ suite = unittest.TestSuite()
+ self.assertRaises(TypeError, suite.addTests, "foo")
+
+
+class Test_FunctionTestCase(TestCase):
+
+ # "Return the number of tests represented by the this test object. For
+ # TestCase instances, this will always be 1"
+ def test_countTestCases(self):
+ test = unittest.FunctionTestCase(lambda: None)
+
+ self.assertEqual(test.countTestCases(), 1)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if setUp() raises
+ # an exception.
+ def test_run_call_order__error_in_setUp(self):
+ events = []
+ result = LoggingResult(events)
+
+ def setUp():
+ events.append('setUp')
+ raise RuntimeError('raised by setUp')
+
+ def test():
+ events.append('test')
+
+ def tearDown():
+ events.append('tearDown')
+
+ expected = ['startTest', 'setUp', 'addError', 'stopTest']
+ unittest.FunctionTestCase(test, setUp, tearDown).run(result)
+ self.assertEqual(events, expected)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if the test raises
+ # an error (as opposed to a failure).
+ def test_run_call_order__error_in_test(self):
+ events = []
+ result = LoggingResult(events)
+
+ def setUp():
+ events.append('setUp')
+
+ def test():
+ events.append('test')
+ raise RuntimeError('raised by test')
+
+ def tearDown():
+ events.append('tearDown')
+
+ expected = ['startTest', 'setUp', 'test', 'addError', 'tearDown',
+ 'stopTest']
+ unittest.FunctionTestCase(test, setUp, tearDown).run(result)
+ self.assertEqual(events, expected)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if the test signals
+ # a failure (as opposed to an error).
+ def test_run_call_order__failure_in_test(self):
+ events = []
+ result = LoggingResult(events)
+
+ def setUp():
+ events.append('setUp')
+
+ def test():
+ events.append('test')
+ self.fail('raised by test')
+
+ def tearDown():
+ events.append('tearDown')
+
+ expected = ['startTest', 'setUp', 'test', 'addFailure', 'tearDown',
+ 'stopTest']
+ unittest.FunctionTestCase(test, setUp, tearDown).run(result)
+ self.assertEqual(events, expected)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if tearDown() raises
+ # an exception.
+ def test_run_call_order__error_in_tearDown(self):
+ events = []
+ result = LoggingResult(events)
+
+ def setUp():
+ events.append('setUp')
+
+ def test():
+ events.append('test')
+
+ def tearDown():
+ events.append('tearDown')
+ raise RuntimeError('raised by tearDown')
+
+ expected = ['startTest', 'setUp', 'test', 'tearDown', 'addError',
+ 'stopTest']
+ unittest.FunctionTestCase(test, setUp, tearDown).run(result)
+ self.assertEqual(events, expected)
+
+ # "Return a string identifying the specific test case."
+ #
+ # Because of the vague nature of the docs, I'm not going to lock this
+ # test down too much. Really all that can be asserted is that the id()
+ # will be a string (either 8-byte or unicode -- again, because the docs
+ # just say "string")
+ def test_id(self):
+ test = unittest.FunctionTestCase(lambda: None)
+
+ self.failUnless(isinstance(test.id(), basestring))
+
+ # "Returns a one-line description of the test, or None if no description
+ # has been provided. The default implementation of this method returns
+ # the first line of the test method's docstring, if available, or None."
+ def test_shortDescription__no_docstring(self):
+ test = unittest.FunctionTestCase(lambda: None)
+
+ self.assertEqual(test.shortDescription(), None)
+
+ # "Returns a one-line description of the test, or None if no description
+ # has been provided. The default implementation of this method returns
+ # the first line of the test method's docstring, if available, or None."
+ def test_shortDescription__singleline_docstring(self):
+ desc = "this tests foo"
+ test = unittest.FunctionTestCase(lambda: None, description=desc)
+
+ self.assertEqual(test.shortDescription(), "this tests foo")
+
+class Test_TestResult(TestCase):
+ # Note: there are not separate tests for TestResult.wasSuccessful(),
+ # TestResult.errors, TestResult.failures, TestResult.testsRun or
+ # TestResult.shouldStop because these only have meaning in terms of
+ # other TestResult methods.
+ #
+ # Accordingly, tests for the aforenamed attributes are incorporated
+ # in with the tests for the defining methods.
+ ################################################################
+
+ def test_init(self):
+ result = unittest.TestResult()
+
+ self.failUnless(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 0)
+ self.assertEqual(len(result.failures), 0)
+ self.assertEqual(result.testsRun, 0)
+ self.assertEqual(result.shouldStop, False)
+
+ # "This method can be called to signal that the set of tests being
+ # run should be aborted by setting the TestResult's shouldStop
+ # attribute to True."
+ def test_stop(self):
+ result = unittest.TestResult()
+
+ result.stop()
+
+ self.assertEqual(result.shouldStop, True)
+
+ # "Called when the test case test is about to be run. The default
+ # implementation simply increments the instance's testsRun counter."
+ def test_startTest(self):
+ class Foo(unittest.TestCase):
+ def test_1(self):
+ pass
+
+ test = Foo('test_1')
+
+ result = unittest.TestResult()
+
+ result.startTest(test)
+
+ self.failUnless(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 0)
+ self.assertEqual(len(result.failures), 0)
+ self.assertEqual(result.testsRun, 1)
+ self.assertEqual(result.shouldStop, False)
+
+ result.stopTest(test)
+
+ # "Called after the test case test has been executed, regardless of
+ # the outcome. The default implementation does nothing."
+ def test_stopTest(self):
+ class Foo(unittest.TestCase):
+ def test_1(self):
+ pass
+
+ test = Foo('test_1')
+
+ result = unittest.TestResult()
+
+ result.startTest(test)
+
+ self.failUnless(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 0)
+ self.assertEqual(len(result.failures), 0)
+ self.assertEqual(result.testsRun, 1)
+ self.assertEqual(result.shouldStop, False)
+
+ result.stopTest(test)
+
+ # Same tests as above; make sure nothing has changed
+ self.failUnless(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 0)
+ self.assertEqual(len(result.failures), 0)
+ self.assertEqual(result.testsRun, 1)
+ self.assertEqual(result.shouldStop, False)
+
+ # "addSuccess(test)"
+ # ...
+ # "Called when the test case test succeeds"
+ # ...
+ # "wasSuccessful() - Returns True if all tests run so far have passed,
+ # otherwise returns False"
+ # ...
+ # "testsRun - The total number of tests run so far."
+ # ...
+ # "errors - A list containing 2-tuples of TestCase instances and
+ # formatted tracebacks. Each tuple represents a test which raised an
+ # unexpected exception. Contains formatted
+ # tracebacks instead of sys.exc_info() results."
+ # ...
+ # "failures - A list containing 2-tuples of TestCase instances and
+ # formatted tracebacks. Each tuple represents a test where a failure was
+ # explicitly signalled using the TestCase.fail*() or TestCase.assert*()
+ # methods. Contains formatted tracebacks instead
+ # of sys.exc_info() results."
+ def test_addSuccess(self):
+ class Foo(unittest.TestCase):
+ def test_1(self):
+ pass
+
+ test = Foo('test_1')
+
+ result = unittest.TestResult()
+
+ result.startTest(test)
+ result.addSuccess(test)
+ result.stopTest(test)
+
+ self.failUnless(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 0)
+ self.assertEqual(len(result.failures), 0)
+ self.assertEqual(result.testsRun, 1)
+ self.assertEqual(result.shouldStop, False)
+
+ # "addFailure(test, err)"
+ # ...
+ # "Called when the test case test signals a failure. err is a tuple of
+ # the form returned by sys.exc_info(): (type, value, traceback)"
+ # ...
+ # "wasSuccessful() - Returns True if all tests run so far have passed,
+ # otherwise returns False"
+ # ...
+ # "testsRun - The total number of tests run so far."
+ # ...
+ # "errors - A list containing 2-tuples of TestCase instances and
+ # formatted tracebacks. Each tuple represents a test which raised an
+ # unexpected exception. Contains formatted
+ # tracebacks instead of sys.exc_info() results."
+ # ...
+ # "failures - A list containing 2-tuples of TestCase instances and
+ # formatted tracebacks. Each tuple represents a test where a failure was
+ # explicitly signalled using the TestCase.fail*() or TestCase.assert*()
+ # methods. Contains formatted tracebacks instead
+ # of sys.exc_info() results."
+ def test_addFailure(self):
+ import sys
+
+ class Foo(unittest.TestCase):
+ def test_1(self):
+ pass
+
+ test = Foo('test_1')
+ try:
+ test.fail("foo")
+ except:
+ exc_info_tuple = sys.exc_info()
+
+ result = unittest.TestResult()
+
+ result.startTest(test)
+ result.addFailure(test, exc_info_tuple)
+ result.stopTest(test)
+
+ self.failIf(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 0)
+ self.assertEqual(len(result.failures), 1)
+ self.assertEqual(result.testsRun, 1)
+ self.assertEqual(result.shouldStop, False)
+
+ test_case, formatted_exc = result.failures[0]
+ self.failUnless(test_case is test)
+ self.failUnless(isinstance(formatted_exc, str))
+
+ # "addError(test, err)"
+ # ...
+ # "Called when the test case test raises an unexpected exception err
+ # is a tuple of the form returned by sys.exc_info():
+ # (type, value, traceback)"
+ # ...
+ # "wasSuccessful() - Returns True if all tests run so far have passed,
+ # otherwise returns False"
+ # ...
+ # "testsRun - The total number of tests run so far."
+ # ...
+ # "errors - A list containing 2-tuples of TestCase instances and
+ # formatted tracebacks. Each tuple represents a test which raised an
+ # unexpected exception. Contains formatted
+ # tracebacks instead of sys.exc_info() results."
+ # ...
+ # "failures - A list containing 2-tuples of TestCase instances and
+ # formatted tracebacks. Each tuple represents a test where a failure was
+ # explicitly signalled using the TestCase.fail*() or TestCase.assert*()
+ # methods. Contains formatted tracebacks instead
+ # of sys.exc_info() results."
+ def test_addError(self):
+ import sys
+
+ class Foo(unittest.TestCase):
+ def test_1(self):
+ pass
+
+ test = Foo('test_1')
+ try:
+ raise TypeError()
+ except:
+ exc_info_tuple = sys.exc_info()
+
+ result = unittest.TestResult()
+
+ result.startTest(test)
+ result.addError(test, exc_info_tuple)
+ result.stopTest(test)
+
+ self.failIf(result.wasSuccessful())
+ self.assertEqual(len(result.errors), 1)
+ self.assertEqual(len(result.failures), 0)
+ self.assertEqual(result.testsRun, 1)
+ self.assertEqual(result.shouldStop, False)
+
+ test_case, formatted_exc = result.errors[0]
+ self.failUnless(test_case is test)
+ self.failUnless(isinstance(formatted_exc, str))
+
+### Support code for Test_TestCase
+################################################################
+
+class Foo(unittest.TestCase):
+ def runTest(self): pass
+ def test1(self): pass
+
+class Bar(Foo):
+ def test2(self): pass
+
+################################################################
+### /Support code for Test_TestCase
+
+class Test_TestCase(TestCase, TestEquality, TestHashing):
+
+ ### Set up attributes used by inherited tests
+ ################################################################
+
+ # Used by TestHashing.test_hash and TestEquality.test_eq
+ eq_pairs = [(Foo('test1'), Foo('test1'))]
+
+ # Used by TestEquality.test_ne
+ ne_pairs = [(Foo('test1'), Foo('runTest'))
+ ,(Foo('test1'), Bar('test1'))
+ ,(Foo('test1'), Bar('test2'))]
+
+ ################################################################
+ ### /Set up attributes used by inherited tests
+
+
+ # "class TestCase([methodName])"
+ # ...
+ # "Each instance of TestCase will run a single test method: the
+ # method named methodName."
+ # ...
+ # "methodName defaults to "runTest"."
+ #
+ # Make sure it really is optional, and that it defaults to the proper
+ # thing.
+ def test_init__no_test_name(self):
+ class Test(unittest.TestCase):
+ def runTest(self): raise MyException()
+ def test(self): pass
+
+ self.assertEqual(Test().id()[-13:], '.Test.runTest')
+
+ # "class TestCase([methodName])"
+ # ...
+ # "Each instance of TestCase will run a single test method: the
+ # method named methodName."
+ def test_init__test_name__valid(self):
+ class Test(unittest.TestCase):
+ def runTest(self): raise MyException()
+ def test(self): pass
+
+ self.assertEqual(Test('test').id()[-10:], '.Test.test')
+
+ # "class TestCase([methodName])"
+ # ...
+ # "Each instance of TestCase will run a single test method: the
+ # method named methodName."
+ def test_init__test_name__invalid(self):
+ class Test(unittest.TestCase):
+ def runTest(self): raise MyException()
+ def test(self): pass
+
+ try:
+ Test('testfoo')
+ except ValueError:
+ pass
+ else:
+ self.fail("Failed to raise ValueError")
+
+ # "Return the number of tests represented by the this test object. For
+ # TestCase instances, this will always be 1"
+ def test_countTestCases(self):
+ class Foo(unittest.TestCase):
+ def test(self): pass
+
+ self.assertEqual(Foo('test').countTestCases(), 1)
+
+ # "Return the default type of test result object to be used to run this
+ # test. For TestCase instances, this will always be
+ # unittest.TestResult; subclasses of TestCase should
+ # override this as necessary."
+ def test_defaultTestResult(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ pass
+
+ result = Foo().defaultTestResult()
+ self.assertEqual(type(result), unittest.TestResult)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if setUp() raises
+ # an exception.
+ def test_run_call_order__error_in_setUp(self):
+ events = []
+ result = LoggingResult(events)
+
+ class Foo(unittest.TestCase):
+ def setUp(self):
+ events.append('setUp')
+ raise RuntimeError('raised by Foo.setUp')
+
+ def test(self):
+ events.append('test')
+
+ def tearDown(self):
+ events.append('tearDown')
+
+ Foo('test').run(result)
+ expected = ['startTest', 'setUp', 'addError', 'stopTest']
+ self.assertEqual(events, expected)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if the test raises
+ # an error (as opposed to a failure).
+ def test_run_call_order__error_in_test(self):
+ events = []
+ result = LoggingResult(events)
+
+ class Foo(unittest.TestCase):
+ def setUp(self):
+ events.append('setUp')
+
+ def test(self):
+ events.append('test')
+ raise RuntimeError('raised by Foo.test')
+
+ def tearDown(self):
+ events.append('tearDown')
+
+ expected = ['startTest', 'setUp', 'test', 'addError', 'tearDown',
+ 'stopTest']
+ Foo('test').run(result)
+ self.assertEqual(events, expected)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if the test signals
+ # a failure (as opposed to an error).
+ def test_run_call_order__failure_in_test(self):
+ events = []
+ result = LoggingResult(events)
+
+ class Foo(unittest.TestCase):
+ def setUp(self):
+ events.append('setUp')
+
+ def test(self):
+ events.append('test')
+ self.fail('raised by Foo.test')
+
+ def tearDown(self):
+ events.append('tearDown')
+
+ expected = ['startTest', 'setUp', 'test', 'addFailure', 'tearDown',
+ 'stopTest']
+ Foo('test').run(result)
+ self.assertEqual(events, expected)
+
+ # "When a setUp() method is defined, the test runner will run that method
+ # prior to each test. Likewise, if a tearDown() method is defined, the
+ # test runner will invoke that method after each test. In the example,
+ # setUp() was used to create a fresh sequence for each test."
+ #
+ # Make sure the proper call order is maintained, even if tearDown() raises
+ # an exception.
+ def test_run_call_order__error_in_tearDown(self):
+ events = []
+ result = LoggingResult(events)
+
+ class Foo(unittest.TestCase):
+ def setUp(self):
+ events.append('setUp')
+
+ def test(self):
+ events.append('test')
+
+ def tearDown(self):
+ events.append('tearDown')
+ raise RuntimeError('raised by Foo.tearDown')
+
+ Foo('test').run(result)
+ expected = ['startTest', 'setUp', 'test', 'tearDown', 'addError',
+ 'stopTest']
+ self.assertEqual(events, expected)
+
+ # "This class attribute gives the exception raised by the test() method.
+ # If a test framework needs to use a specialized exception, possibly to
+ # carry additional information, it must subclass this exception in
+ # order to ``play fair'' with the framework. The initial value of this
+ # attribute is AssertionError"
+ def test_failureException__default(self):
+ class Foo(unittest.TestCase):
+ def test(self):
+ pass
+
+ self.failUnless(Foo('test').failureException is AssertionError)
+
+ # "This class attribute gives the exception raised by the test() method.
+ # If a test framework needs to use a specialized exception, possibly to
+ # carry additional information, it must subclass this exception in
+ # order to ``play fair'' with the framework."
+ #
+ # Make sure TestCase.run() respects the designated failureException
+ def test_failureException__subclassing__explicit_raise(self):
+ events = []
+ result = LoggingResult(events)
+
+ class Foo(unittest.TestCase):
+ def test(self):
+ raise RuntimeError()
+
+ failureException = RuntimeError
+
+ self.failUnless(Foo('test').failureException is RuntimeError)
+
+
+ Foo('test').run(result)
+ expected = ['startTest', 'addFailure', 'stopTest']
+ self.assertEqual(events, expected)
+
+ # "This class attribute gives the exception raised by the test() method.
+ # If a test framework needs to use a specialized exception, possibly to
+ # carry additional information, it must subclass this exception in
+ # order to ``play fair'' with the framework."
+ #
+ # Make sure TestCase.run() respects the designated failureException
+ def test_failureException__subclassing__implicit_raise(self):
+ events = []
+ result = LoggingResult(events)
+
+ class Foo(unittest.TestCase):
+ def test(self):
+ self.fail("foo")
+
+ failureException = RuntimeError
+
+ self.failUnless(Foo('test').failureException is RuntimeError)
+
+
+ Foo('test').run(result)
+ expected = ['startTest', 'addFailure', 'stopTest']
+ self.assertEqual(events, expected)
+
+ # "The default implementation does nothing."
+ def test_setUp(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ pass
+
+ # ... and nothing should happen
+ Foo().setUp()
+
+ # "The default implementation does nothing."
+ def test_tearDown(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ pass
+
+ # ... and nothing should happen
+ Foo().tearDown()
+
+ # "Return a string identifying the specific test case."
+ #
+ # Because of the vague nature of the docs, I'm not going to lock this
+ # test down too much. Really all that can be asserted is that the id()
+ # will be a string (either 8-byte or unicode -- again, because the docs
+ # just say "string")
+ def test_id(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ pass
+
+ self.failUnless(isinstance(Foo().id(), basestring))
+
+ # "Returns a one-line description of the test, or None if no description
+ # has been provided. The default implementation of this method returns
+ # the first line of the test method's docstring, if available, or None."
+ def test_shortDescription__no_docstring(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ pass
+
+ self.assertEqual(Foo().shortDescription(), None)
+
+ # "Returns a one-line description of the test, or None if no description
+ # has been provided. The default implementation of this method returns
+ # the first line of the test method's docstring, if available, or None."
+ def test_shortDescription__singleline_docstring(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ "this tests foo"
+ pass
+
+ self.assertEqual(Foo().shortDescription(), "this tests foo")
+
+ # "Returns a one-line description of the test, or None if no description
+ # has been provided. The default implementation of this method returns
+ # the first line of the test method's docstring, if available, or None."
+ def test_shortDescription__multiline_docstring(self):
+ class Foo(unittest.TestCase):
+ def runTest(self):
+ """this tests foo
+ blah, bar and baz are also tested"""
+ pass
+
+ self.assertEqual(Foo().shortDescription(), "this tests foo")
+
+ # "If result is omitted or None, a temporary result object is created
+ # and used, but is not made available to the caller"
+ def test_run__uses_defaultTestResult(self):
+ events = []
+
+ class Foo(unittest.TestCase):
+ def test(self):
+ events.append('test')
+
+ def defaultTestResult(self):
+ return LoggingResult(events)
+
+ # Make run() find a result object on its own
+ Foo('test').run()
+
+ expected = ['startTest', 'test', 'stopTest']
+ self.assertEqual(events, expected)
+
+class Test_Assertions(TestCase):
+ def test_AlmostEqual(self):
+ self.failUnlessAlmostEqual(1.00000001, 1.0)
+ self.failIfAlmostEqual(1.0000001, 1.0)
+ self.assertRaises(AssertionError,
+ self.failUnlessAlmostEqual, 1.0000001, 1.0)
+ self.assertRaises(AssertionError,
+ self.failIfAlmostEqual, 1.00000001, 1.0)
+
+ self.failUnlessAlmostEqual(1.1, 1.0, places=0)
+ self.assertRaises(AssertionError,
+ self.failUnlessAlmostEqual, 1.1, 1.0, places=1)
+
+ self.failUnlessAlmostEqual(0, .1+.1j, places=0)
+ self.failIfAlmostEqual(0, .1+.1j, places=1)
+ self.assertRaises(AssertionError,
+ self.failUnlessAlmostEqual, 0, .1+.1j, places=1)
+ self.assertRaises(AssertionError,
+ self.failIfAlmostEqual, 0, .1+.1j, places=0)
+
+######################################################################
+## Main
+######################################################################
+
+def test_main():
+ test_support.run_unittest(Test_TestCase, Test_TestLoader,
+ Test_TestSuite, Test_TestResult, Test_FunctionTestCase,
+ Test_Assertions)
+
+if __name__ == "__main__":
+ test_main()