import sys from django.test import TestCase, skipUnlessDBFeature, skipIfDBFeature if sys.version_info >= (2, 5): from python_25 import AssertNumQueriesTests class SkippingTestCase(TestCase): def test_assert_num_queries(self): def test_func(): raise ValueError self.assertRaises(ValueError, self.assertNumQueries, 2, test_func ) def test_skip_unless_db_feature(self): "A test that might be skipped is actually called." # Total hack, but it works, just want an attribute that's always true. @skipUnlessDBFeature("__class__") def test_func(): raise ValueError self.assertRaises(ValueError, test_func) class SaveRestoreWarningState(TestCase): def test_save_restore_warnings_state(self): """ Ensure save_warnings_state/restore_warnings_state work correctly. """ # In reality this test could be satisfied by many broken implementations # of save_warnings_state/restore_warnings_state (e.g. just # warnings.resetwarnings()) , but it is difficult to test more. import warnings self.save_warnings_state() class MyWarning(Warning): pass # Add a filter that causes an exception to be thrown, so we can catch it warnings.simplefilter("error", MyWarning) self.assertRaises(Warning, lambda: warnings.warn("warn", MyWarning)) # Now restore. self.restore_warnings_state() # After restoring, we shouldn't get an exception. But we don't want a # warning printed either, so we have to silence the warning. warnings.simplefilter("ignore", MyWarning) warnings.warn("warn", MyWarning) # Remove the filter we just added. self.restore_warnings_state() __test__ = {"API_TEST": r""" # Some checks of the doctest output normalizer. # Standard doctests do fairly >>> from django.utils import simplejson >>> from django.utils.xmlutils import SimplerXMLGenerator >>> from StringIO import StringIO >>> def produce_long(): ... return 42L >>> def produce_int(): ... return 42 >>> def produce_json(): ... return simplejson.dumps(['foo', {'bar': ('baz', None, 1.0, 2), 'whiz': 42}]) >>> def produce_xml(): ... stream = StringIO() ... xml = SimplerXMLGenerator(stream, encoding='utf-8') ... xml.startDocument() ... xml.startElement("foo", {"aaa" : "1.0", "bbb": "2.0"}) ... xml.startElement("bar", {"ccc" : "3.0"}) ... xml.characters("Hello") ... xml.endElement("bar") ... xml.startElement("whiz", {}) ... xml.characters("Goodbye") ... xml.endElement("whiz") ... xml.endElement("foo") ... xml.endDocument() ... return stream.getvalue() >>> def produce_xml_fragment(): ... stream = StringIO() ... xml = SimplerXMLGenerator(stream, encoding='utf-8') ... xml.startElement("foo", {"aaa": "1.0", "bbb": "2.0"}) ... xml.characters("Hello") ... xml.endElement("foo") ... xml.startElement("bar", {"ccc": "3.0", "ddd": "4.0"}) ... xml.endElement("bar") ... return stream.getvalue() # Long values are normalized and are comparable to normal integers ... >>> produce_long() 42 # ... and vice versa >>> produce_int() 42L # JSON output is normalized for field order, so it doesn't matter # which order json dictionary attributes are listed in output >>> produce_json() '["foo", {"bar": ["baz", null, 1.0, 2], "whiz": 42}]' >>> produce_json() '["foo", {"whiz": 42, "bar": ["baz", null, 1.0, 2]}]' # XML output is normalized for attribute order, so it doesn't matter # which order XML element attributes are listed in output >>> produce_xml() '\nHelloGoodbye' >>> produce_xml() '\nHelloGoodbye' >>> produce_xml_fragment() 'Hello' >>> produce_xml_fragment() 'Hello' """}