""" Tests for django.utils. """ from unittest import TestCase from django.utils import html, checksums from django.utils.functional import SimpleLazyObject import timesince import datastructures import datetime_safe import itercompat import tzinfo from decorators import DecoratorFromMiddlewareTests from functional import FunctionalTestCase # We need this because "datastructures" uses sorted() and the tests are run in # the scope of this module. try: sorted except NameError: from django.utils.itercompat import sorted # For Python 2.3 # Extra tests __test__ = { 'timesince': timesince, 'datastructures': datastructures, 'datetime_safe': datetime_safe, 'itercompat': itercompat, 'tzinfo': tzinfo, } from dateformat import * from feedgenerator import * from termcolors import * class TestUtilsHtml(TestCase): def check_output(self, function, value, output=None): """ Check that function(value) equals output. If output is None, check that function(value) equals value. """ if output is None: output = value self.assertEqual(function(value), output) def test_escape(self): f = html.escape items = ( ('&','&'), ('<', '<'), ('>', '>'), ('"', '"'), ("'", '''), ) # Substitution patterns for testing the above items. patterns = ("%s", "asdf%sfdsa", "%s1", "1%sb") for value, output in items: for pattern in patterns: self.check_output(f, pattern % value, pattern % output) # Check repeated values. self.check_output(f, value * 2, output * 2) # Verify it doesn't double replace &. self.check_output(f, '<&', '<&') def test_linebreaks(self): f = html.linebreaks items = ( ("para1\n\npara2\r\rpara3", "
para1
\n\npara2
\n\npara3
"), ("para1\nsub1\rsub2\n\npara2", "para1
sub1
sub2
para2
"), ("para1\r\n\r\npara2\rsub1\r\rpara4", "para1
\n\npara2
sub1
para4
"), ("para1\tmore\n\npara2", "para1\tmore
\n\npara2
"), ) for value, output in items: self.check_output(f, value, output) def test_strip_tags(self): f = html.strip_tags items = ( ('hello
\nworld
', 'hello
world
'), ('\n\t
\n\n', '\n\n'), ) for value, output in items: self.check_output(f, value, output) def test_strip_entities(self): f = html.strip_entities # Strings that should come out untouched. values = ("&", "&a", "&a", "aa") for value in values: self.check_output(f, value) # Valid entities that should be stripped from the patterns. entities = ("", "", "&a;", "&fdasdfasdfasdf;") patterns = ( ("asdf %(entity)s ", "asdf "), ("%(entity)s%(entity)s", ""), ("&%(entity)s%(entity)s", "&"), ("%(entity)s3", "3"), ) for entity in entities: for in_pattern, output in patterns: self.check_output(f, in_pattern % {'entity': entity}, output) def test_fix_ampersands(self): f = html.fix_ampersands # Strings without ampersands or with ampersands already encoded. values = ("a", "b", "&a;", "& &x; ", "asdf") patterns = ( ("%s", "%s"), ("&%s", "&%s"), ("&%s&", "&%s&"), ) for value in values: for in_pattern, out_pattern in patterns: self.check_output(f, in_pattern % value, out_pattern % value) # Strings with ampersands that need encoding. items = ( ("", "&#;"), ("ͫ ;", "ͫ ;"), ("abc;", "abc;"), ) for value, output in items: self.check_output(f, value, output) class TestUtilsChecksums(TestCase): def check_output(self, function, value, output=None): """ Check that function(value) equals output. If output is None, check that function(value) equals value. """ if output is None: output = value self.assertEqual(function(value), output) def test_luhn(self): f = checksums.luhn items = ( (4111111111111111, True), ('4111111111111111', True), (4222222222222, True), (378734493671000, True), (5424000000000015, True), (5555555555554444, True), (1008, True), ('0000001008', True), ('000000001008', True), (4012888888881881, True), (1234567890123456789012345678909, True), (4111111111211111, False), (42222222222224, False), (100, False), ('100', False), ('0000100', False), ('abc', False), (None, False), (object(), False), ) for value, output in items: self.check_output(f, value, output) class _ComplexObject(object): def __init__(self, name): self.name = name def __eq__(self, other): return self.name == other.name def __hash__(self): return hash(self.name) def __str__(self): return "I am _ComplexObject(%r)" % self.name def __unicode__(self): return unicode(self.name) def __repr__(self): return "_ComplexObject(%r)" % self.name complex_object = lambda: _ComplexObject("joe") class TestUtilsSimpleLazyObject(TestCase): """ Tests for SimpleLazyObject """ # Note that concrete use cases for SimpleLazyObject are also found in the # auth context processor tests (unless the implementation of that function # is changed). def test_equality(self): self.assertEqual(complex_object(), SimpleLazyObject(complex_object)) self.assertEqual(SimpleLazyObject(complex_object), complex_object()) def test_hash(self): # hash() equality would not be true for many objects, but it should be # for _ComplexObject self.assertEqual(hash(complex_object()), hash(SimpleLazyObject(complex_object))) def test_repr(self): # For debugging, it will really confuse things if there is no clue that # SimpleLazyObject is actually a proxy object. So we don't # proxy __repr__ self.assert_("SimpleLazyObject" in repr(SimpleLazyObject(complex_object))) def test_str(self): self.assertEqual("I am _ComplexObject('joe')", str(SimpleLazyObject(complex_object))) def test_unicode(self): self.assertEqual(u"joe", unicode(SimpleLazyObject(complex_object))) def test_class(self): # This is important for classes that use __class__ in things like # equality tests. self.assertEqual(_ComplexObject, SimpleLazyObject(complex_object).__class__) def test_deepcopy(self): import django.utils.copycompat as copy # Check that we *can* do deep copy, and that it returns the right # objects. # First, for an unevaluated SimpleLazyObject s = SimpleLazyObject(complex_object) assert s._wrapped is None s2 = copy.deepcopy(s) assert s._wrapped is None # something has gone wrong is s is evaluated self.assertEqual(s2, complex_object()) # Second, for an evaluated SimpleLazyObject name = s.name # evaluate assert s._wrapped is not None s3 = copy.deepcopy(s) self.assertEqual(s3, complex_object()) if __name__ == "__main__": import doctest doctest.testmod()