# Copyright (c) 2010 testtools developers. See LICENSE for details. """Tests for miscellaneous compatibility functions""" import linecache import os import sys import tempfile import traceback import testtools from testtools.compat import ( _b, _detect_encoding, _get_source_encoding, _u, str_is_unicode, text_repr, unicode_output_stream, ) from testtools.matchers import ( MatchesException, Not, Raises, ) class TestDetectEncoding(testtools.TestCase): """Test detection of Python source encodings""" def _check_encoding(self, expected, lines, possibly_invalid=False): """Check lines are valid Python and encoding is as expected""" if not possibly_invalid: compile(_b("".join(lines)), "", "exec") encoding = _detect_encoding(lines) self.assertEqual(expected, encoding, "Encoding %r expected but got %r from lines %r" % (expected, encoding, lines)) def test_examples_from_pep(self): """Check the examples given in PEP 263 all work as specified See 'Examples' section of """ # With interpreter binary and using Emacs style file encoding comment: self._check_encoding("latin-1", ( "#!/usr/bin/python\n", "# -*- coding: latin-1 -*-\n", "import os, sys\n")) self._check_encoding("iso-8859-15", ( "#!/usr/bin/python\n", "# -*- coding: iso-8859-15 -*-\n", "import os, sys\n")) self._check_encoding("ascii", ( "#!/usr/bin/python\n", "# -*- coding: ascii -*-\n", "import os, sys\n")) # Without interpreter line, using plain text: self._check_encoding("utf-8", ( "# This Python file uses the following encoding: utf-8\n", "import os, sys\n")) # Text editors might have different ways of defining the file's # encoding, e.g. self._check_encoding("latin-1", ( "#!/usr/local/bin/python\n", "# coding: latin-1\n", "import os, sys\n")) # Without encoding comment, Python's parser will assume ASCII text: self._check_encoding("ascii", ( "#!/usr/local/bin/python\n", "import os, sys\n")) # Encoding comments which don't work: # Missing "coding:" prefix: self._check_encoding("ascii", ( "#!/usr/local/bin/python\n", "# latin-1\n", "import os, sys\n")) # Encoding comment not on line 1 or 2: self._check_encoding("ascii", ( "#!/usr/local/bin/python\n", "#\n", "# -*- coding: latin-1 -*-\n", "import os, sys\n")) # Unsupported encoding: self._check_encoding("ascii", ( "#!/usr/local/bin/python\n", "# -*- coding: utf-42 -*-\n", "import os, sys\n"), possibly_invalid=True) def test_bom(self): """Test the UTF-8 BOM counts as an encoding declaration""" self._check_encoding("utf-8", ( "\xef\xbb\xbfimport sys\n", )) self._check_encoding("utf-8", ( "\xef\xbb\xbf# File encoding: UTF-8\n", )) self._check_encoding("utf-8", ( '\xef\xbb\xbf"""Module docstring\n', '\xef\xbb\xbfThat should just be a ZWNB"""\n')) self._check_encoding("latin-1", ( '"""Is this coding: latin-1 or coding: utf-8 instead?\n', '\xef\xbb\xbfThose should be latin-1 bytes"""\n')) self._check_encoding("utf-8", ( "\xef\xbb\xbf# Is the coding: utf-8 or coding: euc-jp instead?\n", '"""Module docstring say \xe2\x98\x86"""\n')) def test_multiple_coding_comments(self): """Test only the first of multiple coding declarations counts""" self._check_encoding("iso-8859-1", ( "# Is the coding: iso-8859-1\n", "# Or is it coding: iso-8859-2\n"), possibly_invalid=True) self._check_encoding("iso-8859-1", ( "#!/usr/bin/python\n", "# Is the coding: iso-8859-1\n", "# Or is it coding: iso-8859-2\n")) self._check_encoding("iso-8859-1", ( "# Is the coding: iso-8859-1 or coding: iso-8859-2\n", "# Or coding: iso-8859-3 or coding: iso-8859-4\n"), possibly_invalid=True) self._check_encoding("iso-8859-2", ( "# Is the coding iso-8859-1 or coding: iso-8859-2\n", "# Spot the missing colon above\n")) class TestGetSourceEncoding(testtools.TestCase): """Test reading and caching the encodings of source files""" def setUp(self): testtools.TestCase.setUp(self) dir = tempfile.mkdtemp() self.addCleanup(os.rmdir, dir) self.filename = os.path.join(dir, self.id().rsplit(".", 1)[1] + ".py") self._written = False def put_source(self, text): f = open(self.filename, "w") try: f.write(text) finally: f.close() if not self._written: self._written = True self.addCleanup(os.remove, self.filename) self.addCleanup(linecache.cache.pop, self.filename, None) def test_nonexistent_file_as_ascii(self): """When file can't be found, the encoding should default to ascii""" self.assertEquals("ascii", _get_source_encoding(self.filename)) def test_encoding_is_cached(self): """The encoding should stay the same if the cache isn't invalidated""" self.put_source( "# coding: iso-8859-13\n" "import os\n") self.assertEquals("iso-8859-13", _get_source_encoding(self.filename)) self.put_source( "# coding: rot-13\n" "vzcbeg bf\n") self.assertEquals("iso-8859-13", _get_source_encoding(self.filename)) def test_traceback_rechecks_encoding(self): """A traceback function checks the cache and resets the encoding""" self.put_source( "# coding: iso-8859-8\n" "import os\n") self.assertEquals("iso-8859-8", _get_source_encoding(self.filename)) self.put_source( "# coding: utf-8\n" "import os\n") try: exec (compile("raise RuntimeError\n", self.filename, "exec")) except RuntimeError: traceback.extract_tb(sys.exc_info()[2]) else: self.fail("RuntimeError not raised") self.assertEquals("utf-8", _get_source_encoding(self.filename)) class _FakeOutputStream(object): """A simple file-like object for testing""" def __init__(self): self.writelog = [] def write(self, obj): self.writelog.append(obj) class TestUnicodeOutputStream(testtools.TestCase): """Test wrapping output streams so they work with arbitrary unicode""" uni = _u("pa\u026a\u03b8\u0259n") def setUp(self): super(TestUnicodeOutputStream, self).setUp() if sys.platform == "cli": self.skip("IronPython shouldn't wrap streams to do encoding") def test_no_encoding_becomes_ascii(self): """A stream with no encoding attribute gets ascii/replace strings""" sout = _FakeOutputStream() unicode_output_stream(sout).write(self.uni) self.assertEqual([_b("pa???n")], sout.writelog) def test_encoding_as_none_becomes_ascii(self): """A stream with encoding value of None gets ascii/replace strings""" sout = _FakeOutputStream() sout.encoding = None unicode_output_stream(sout).write(self.uni) self.assertEqual([_b("pa???n")], sout.writelog) def test_bogus_encoding_becomes_ascii(self): """A stream with a bogus encoding gets ascii/replace strings""" sout = _FakeOutputStream() sout.encoding = "bogus" unicode_output_stream(sout).write(self.uni) self.assertEqual([_b("pa???n")], sout.writelog) def test_partial_encoding_replace(self): """A string which can be partly encoded correctly should be""" sout = _FakeOutputStream() sout.encoding = "iso-8859-7" unicode_output_stream(sout).write(self.uni) self.assertEqual([_b("pa?\xe8?n")], sout.writelog) @testtools.skipIf(str_is_unicode, "Tests behaviour when str is not unicode") def test_unicode_encodings_wrapped_when_str_is_not_unicode(self): """A unicode encoding is wrapped but needs no error handler""" sout = _FakeOutputStream() sout.encoding = "utf-8" uout = unicode_output_stream(sout) self.assertEqual(uout.errors, "strict") uout.write(self.uni) self.assertEqual([_b("pa\xc9\xaa\xce\xb8\xc9\x99n")], sout.writelog) @testtools.skipIf(not str_is_unicode, "Tests behaviour when str is unicode") def test_unicode_encodings_not_wrapped_when_str_is_unicode(self): # No wrapping needed if native str type is unicode sout = _FakeOutputStream() sout.encoding = "utf-8" uout = unicode_output_stream(sout) self.assertIs(uout, sout) def test_stringio(self): """A StringIO object should maybe get an ascii native str type""" try: from cStringIO import StringIO newio = False except ImportError: from io import StringIO newio = True sout = StringIO() soutwrapper = unicode_output_stream(sout) if newio: self.expectFailure("Python 3 StringIO expects text not bytes", self.assertThat, lambda: soutwrapper.write(self.uni), Not(Raises(MatchesException(TypeError)))) soutwrapper.write(self.uni) self.assertEqual("pa???n", sout.getvalue()) class TestTextRepr(testtools.TestCase): """Ensure in extending repr, basic behaviours are not being broken""" ascii_examples = ( # Single character examples # C0 control codes should be escaped except multiline \n ("\x00", "'\\x00'", "'''\\\n\\x00'''"), ("\b", "'\\x08'", "'''\\\n\\x08'''"), ("\t", "'\\t'", "'''\\\n\\t'''"), ("\n", "'\\n'", "'''\\\n\n'''"), ("\r", "'\\r'", "'''\\\n\\r'''"), # Quotes and backslash should match normal repr behaviour ('"', "'\"'", "'''\\\n\"'''"), ("'", "\"'\"", "'''\\\n\\''''"), ("\\", "'\\\\'", "'''\\\n\\\\'''"), # DEL is also unprintable and should be escaped ("\x7F", "'\\x7f'", "'''\\\n\\x7f'''"), # Character combinations that need double checking ("\r\n", "'\\r\\n'", "'''\\\n\\r\n'''"), ("\"'", "'\"\\''", "'''\\\n\"\\''''"), ("'\"", "'\\'\"'", "'''\\\n'\"'''"), ("\\n", "'\\\\n'", "'''\\\n\\\\n'''"), ("\\\n", "'\\\\\\n'", "'''\\\n\\\\\n'''"), ("\\' ", "\"\\\\' \"", "'''\\\n\\\\' '''"), ("\\'\n", "\"\\\\'\\n\"", "'''\\\n\\\\'\n'''"), ("\\'\"", "'\\\\\\'\"'", "'''\\\n\\\\'\"'''"), ("\\'''", "\"\\\\'''\"", "'''\\\n\\\\\\'\\'\\''''"), ) # Bytes with the high bit set should always be escaped bytes_examples = ( (_b("\x80"), "'\\x80'", "'''\\\n\\x80'''"), (_b("\xA0"), "'\\xa0'", "'''\\\n\\xa0'''"), (_b("\xC0"), "'\\xc0'", "'''\\\n\\xc0'''"), (_b("\xFF"), "'\\xff'", "'''\\\n\\xff'''"), (_b("\xC2\xA7"), "'\\xc2\\xa7'", "'''\\\n\\xc2\\xa7'''"), ) # Unicode doesn't escape printable characters as per the Python 3 model unicode_examples = ( # C1 codes are unprintable (_u("\x80"), "'\\x80'", "'''\\\n\\x80'''"), (_u("\x9F"), "'\\x9f'", "'''\\\n\\x9f'''"), # No-break space is unprintable (_u("\xA0"), "'\\xa0'", "'''\\\n\\xa0'''"), # Letters latin alphabets are printable (_u("\xA1"), _u("'\xa1'"), _u("'''\\\n\xa1'''")), (_u("\xFF"), _u("'\xff'"), _u("'''\\\n\xff'''")), (_u("\u0100"), _u("'\u0100'"), _u("'''\\\n\u0100'''")), # Line and paragraph seperators are unprintable (_u("\u2028"), "'\\u2028'", "'''\\\n\\u2028'''"), (_u("\u2029"), "'\\u2029'", "'''\\\n\\u2029'''"), # Unpaired surrogates are unprintable (_u("\uD800"), "'\\ud800'", "'''\\\n\\ud800'''"), (_u("\uDFFF"), "'\\udfff'", "'''\\\n\\udfff'''"), # Unprintable general categories not fully tested: Cc, Cf, Co, Cn, Zs ) b_prefix = repr(_b(""))[:-2] u_prefix = repr(_u(""))[:-2] def test_ascii_examples_oneline_bytes(self): for s, expected, _ in self.ascii_examples: b = _b(s) actual = text_repr(b, multiline=False) # Add self.assertIsInstance check? self.assertEqual(actual, self.b_prefix + expected) self.assertEqual(eval(actual), b) def test_ascii_examples_oneline_unicode(self): for s, expected, _ in self.ascii_examples: u = _u(s) actual = text_repr(u, multiline=False) self.assertEqual(actual, self.u_prefix + expected) self.assertEqual(eval(actual), u) def test_ascii_examples_multiline_bytes(self): for s, _, expected in self.ascii_examples: b = _b(s) actual = text_repr(b, multiline=True) self.assertEqual(actual, self.b_prefix + expected) self.assertEqual(eval(actual), b) def test_ascii_examples_multiline_unicode(self): for s, _, expected in self.ascii_examples: u = _u(s) actual = text_repr(u, multiline=True) self.assertEqual(actual, self.u_prefix + expected) self.assertEqual(eval(actual), u) def test_ascii_examples_defaultline_bytes(self): for s, one, multi in self.ascii_examples: expected = "\n" in s and multi or one self.assertEqual(text_repr(_b(s)), self.b_prefix + expected) def test_ascii_examples_defaultline_unicode(self): for s, one, multi in self.ascii_examples: expected = "\n" in s and multi or one self.assertEqual(text_repr(_u(s)), self.u_prefix + expected) def test_bytes_examples_oneline(self): for b, expected, _ in self.bytes_examples: actual = text_repr(b, multiline=False) self.assertEqual(actual, self.b_prefix + expected) self.assertEqual(eval(actual), b) def test_bytes_examples_multiline(self): for b, _, expected in self.bytes_examples: actual = text_repr(b, multiline=True) self.assertEqual(actual, self.b_prefix + expected) self.assertEqual(eval(actual), b) def test_unicode_examples_oneline(self): for u, expected, _ in self.unicode_examples: actual = text_repr(u, multiline=False) self.assertEqual(actual, self.u_prefix + expected) self.assertEqual(eval(actual), u) def test_unicode_examples_multiline(self): for u, _, expected in self.unicode_examples: actual = text_repr(u, multiline=True) self.assertEqual(actual, self.u_prefix + expected) self.assertEqual(eval(actual), u) def test_suite(): from unittest import TestLoader return TestLoader().loadTestsFromName(__name__)