# Copyright (C) 2006, 2011 Canonical Ltd # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA """Test that lazy regexes are not compiled right away""" import pickle import re from .. import errors from .. import ( lazy_regex, tests, ) class TestErrors(tests.TestCase): def test_invalid_pattern(self): error = lazy_regex.InvalidPattern('Bad pattern msg.') self.assertEqualDiff("Invalid pattern(s) found. Bad pattern msg.", str(error)) class InstrumentedLazyRegex(lazy_regex.LazyRegex): """Keep track of actions on the lazy regex""" _actions = [] @classmethod def use_actions(cls, actions): cls._actions = actions def __getattr__(self, attr): self._actions.append(('__getattr__', attr)) return super(InstrumentedLazyRegex, self).__getattr__(attr) def _real_re_compile(self, *args, **kwargs): self._actions.append(('_real_re_compile', args, kwargs)) return super(InstrumentedLazyRegex, self)._real_re_compile( *args, **kwargs) class TestLazyRegex(tests.TestCase): def test_lazy_compile(self): """Make sure that LazyRegex objects compile at the right time""" actions = [] InstrumentedLazyRegex.use_actions(actions) pattern = InstrumentedLazyRegex(args=('foo',)) actions.append(('created regex', 'foo')) # This match call should compile the regex and go through __getattr__ pattern.match('foo') # But a further call should not go through __getattr__ because it has # been bound locally. pattern.match('foo') self.assertEqual([('created regex', 'foo'), ('__getattr__', 'match'), ('_real_re_compile', ('foo',), {}), ], actions) def test_bad_pattern(self): """Ensure lazy regex handles bad patterns cleanly.""" p = lazy_regex.lazy_compile('RE:[') # As p.match is lazy, we make it into a lambda so its handled # by assertRaises correctly. e = self.assertRaises(lazy_regex.InvalidPattern, lambda: p.match('foo')) # Expect either old or new form of error message self.assertContainsRe(e.msg, '^"RE:\\[" ' '(unexpected end of regular expression' '|unterminated character set at position 3)$') class TestLazyCompile(tests.TestCase): def test_simple_acts_like_regex(self): """Test that the returned object has basic regex like functionality""" pattern = lazy_regex.lazy_compile('foo') self.assertIsInstance(pattern, lazy_regex.LazyRegex) self.assertTrue(pattern.match('foo')) self.assertIs(None, pattern.match('bar')) def test_extra_args(self): """Test that extra arguments are also properly passed""" pattern = lazy_regex.lazy_compile('foo', re.I) self.assertIsInstance(pattern, lazy_regex.LazyRegex) self.assertTrue(pattern.match('foo')) self.assertTrue(pattern.match('Foo')) def test_findall(self): pattern = lazy_regex.lazy_compile('fo*') self.assertEqual(['f', 'fo', 'foo', 'fooo'], pattern.findall('f fo foo fooo')) def test_finditer(self): pattern = lazy_regex.lazy_compile('fo*') matches = [(m.start(), m.end(), m.group()) for m in pattern.finditer('foo bar fop')] self.assertEqual([(0, 3, 'foo'), (8, 10, 'fo')], matches) def test_match(self): pattern = lazy_regex.lazy_compile('fo*') self.assertIs(None, pattern.match('baz foo')) self.assertEqual('fooo', pattern.match('fooo').group()) def test_search(self): pattern = lazy_regex.lazy_compile('fo*') self.assertEqual('foo', pattern.search('baz foo').group()) self.assertEqual('fooo', pattern.search('fooo').group()) def test_split(self): pattern = lazy_regex.lazy_compile('[,;]+') self.assertEqual(['x', 'y', 'z'], pattern.split('x,y;z')) def test_pickle(self): # When pickling, just compile the regex. # Sphinx, which we use for documentation, pickles # some compiled regexes. lazy_pattern = lazy_regex.lazy_compile('[,;]+') pickled = pickle.dumps(lazy_pattern) unpickled_lazy_pattern = pickle.loads(pickled) self.assertEqual(['x', 'y', 'z'], unpickled_lazy_pattern.split('x,y;z')) class TestInstallLazyCompile(tests.TestCase): """Tests for lazy compiled regexps. Other tests, and breezy in general, count on the lazy regexp compiler being installed, and this is done by loading breezy. So these tests assume it is installed, and leave it installed when they're done. """ def test_install(self): # Don't count on it being present lazy_regex.install_lazy_compile() pattern = re.compile('foo') self.assertIsInstance(pattern, lazy_regex.LazyRegex) def test_reset(self): lazy_regex.reset_compile() self.addCleanup(lazy_regex.install_lazy_compile) pattern = re.compile('foo') self.assertFalse(isinstance(pattern, lazy_regex.LazyRegex), 'lazy_regex.reset_compile() did not restore the original' ' compile() function %s' % (type(pattern),)) # but the returned object should still support regex operations m = pattern.match('foo') self.assertEqual('foo', m.group())