# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0 # For details: https://bitbucket.org/ned/coveragepy/src/default/NOTICE.txt """Tests for files.py""" import os import os.path from coverage import files from coverage.files import ( TreeMatcher, FnmatchMatcher, ModuleMatcher, PathAliases, find_python_files, abs_file, actual_path, flat_rootname, ) from coverage.misc import CoverageException from coverage import env from tests.coveragetest import CoverageTest class FilesTest(CoverageTest): """Tests of coverage.files.""" def abs_path(self, p): """Return the absolute path for `p`.""" return os.path.join(os.getcwd(), os.path.normpath(p)) def test_simple(self): self.make_file("hello.py") files.set_relative_directory() self.assertEqual(files.relative_filename(u"hello.py"), u"hello.py") a = self.abs_path("hello.py") self.assertNotEqual(a, "hello.py") self.assertEqual(files.relative_filename(a), "hello.py") def test_peer_directories(self): self.make_file("sub/proj1/file1.py") self.make_file("sub/proj2/file2.py") a1 = self.abs_path("sub/proj1/file1.py") a2 = self.abs_path("sub/proj2/file2.py") d = os.path.normpath("sub/proj1") os.chdir(d) files.set_relative_directory() self.assertEqual(files.relative_filename(a1), "file1.py") self.assertEqual(files.relative_filename(a2), a2) def test_filepath_contains_absolute_prefix_twice(self): # https://bitbucket.org/ned/coveragepy/issue/194 # Build a path that has two pieces matching the absolute path prefix. # Technically, this test doesn't do that on Windows, but drive # letters make that impractical to achieve. files.set_relative_directory() d = abs_file(os.curdir) trick = os.path.splitdrive(d)[1].lstrip(os.path.sep) rel = os.path.join('sub', trick, 'file1.py') self.assertEqual(files.relative_filename(abs_file(rel)), rel) def test_flat_rootname(self): self.assertEqual(flat_rootname("a/b/c.py"), "a_b_c_py") self.assertEqual(flat_rootname(r"c:\foo\bar.html"), "_foo_bar_html") class MatcherTest(CoverageTest): """Tests of file matchers.""" def setUp(self): super(MatcherTest, self).setUp() files.set_relative_directory() def assertMatches(self, matcher, filepath, matches): """The `matcher` should agree with `matches` about `filepath`.""" canonical = files.canonical_filename(filepath) self.assertEqual( matcher.match(canonical), matches, "File %s should have matched as %s" % (filepath, matches) ) def test_tree_matcher(self): matches_to_try = [ (self.make_file("sub/file1.py"), True), (self.make_file("sub/file2.c"), True), (self.make_file("sub2/file3.h"), False), (self.make_file("sub3/file4.py"), True), (self.make_file("sub3/file5.c"), False), ] trees = [ files.canonical_filename("sub"), files.canonical_filename("sub3/file4.py"), ] tm = TreeMatcher(trees) self.assertEqual(tm.info(), trees) for filepath, matches in matches_to_try: self.assertMatches(tm, filepath, matches) def test_module_matcher(self): matches_to_try = [ ('test', True), ('trash', False), ('testing', False), ('test.x', True), ('test.x.y.z', True), ('py', False), ('py.t', False), ('py.test', True), ('py.testing', False), ('py.test.buz', True), ('py.test.buz.baz', True), ('__main__', False), ('mymain', True), ('yourmain', False), ] modules = ['test', 'py.test', 'mymain'] mm = ModuleMatcher(modules) self.assertEqual( mm.info(), modules ) for modulename, matches in matches_to_try: self.assertEqual( mm.match(modulename), matches, modulename, ) def test_fnmatch_matcher(self): matches_to_try = [ (self.make_file("sub/file1.py"), True), (self.make_file("sub/file2.c"), False), (self.make_file("sub2/file3.h"), True), (self.make_file("sub3/file4.py"), True), (self.make_file("sub3/file5.c"), False), ] fnm = FnmatchMatcher(["*.py", "*/sub2/*"]) self.assertEqual(fnm.info(), ["*.py", "*/sub2/*"]) for filepath, matches in matches_to_try: self.assertMatches(fnm, filepath, matches) def test_fnmatch_matcher_overload(self): fnm = FnmatchMatcher(["*x%03d*.txt" % i for i in range(500)]) self.assertMatches(fnm, "x007foo.txt", True) self.assertMatches(fnm, "x123foo.txt", True) self.assertMatches(fnm, "x798bar.txt", False) def test_fnmatch_windows_paths(self): # We should be able to match Windows paths even if we are running on # a non-Windows OS. fnm = FnmatchMatcher(["*/foo.py"]) self.assertMatches(fnm, r"dir\foo.py", True) fnm = FnmatchMatcher([r"*\foo.py"]) self.assertMatches(fnm, r"dir\foo.py", True) class PathAliasesTest(CoverageTest): """Tests for coverage/files.py:PathAliases""" run_in_temp_dir = False def assert_mapped(self, aliases, inp, out): """Assert that `inp` mapped through `aliases` produces `out`. `out` is canonicalized first, since aliases always produce canonicalized paths. """ self.assertEqual(aliases.map(inp), files.canonical_filename(out)) def assert_not_mapped(self, aliases, inp): """Assert that `inp` mapped through `aliases` is unchanged.""" self.assertEqual(aliases.map(inp), inp) def test_noop(self): aliases = PathAliases() self.assert_not_mapped(aliases, '/ned/home/a.py') def test_nomatch(self): aliases = PathAliases() aliases.add('/home/*/src', './mysrc') self.assert_not_mapped(aliases, '/home/foo/a.py') def test_wildcard(self): aliases = PathAliases() aliases.add('/ned/home/*/src', './mysrc') self.assert_mapped(aliases, '/ned/home/foo/src/a.py', './mysrc/a.py') aliases = PathAliases() aliases.add('/ned/home/*/src/', './mysrc') self.assert_mapped(aliases, '/ned/home/foo/src/a.py', './mysrc/a.py') def test_no_accidental_match(self): aliases = PathAliases() aliases.add('/home/*/src', './mysrc') self.assert_not_mapped(aliases, '/home/foo/srcetc') def test_multiple_patterns(self): aliases = PathAliases() aliases.add('/home/*/src', './mysrc') aliases.add('/lib/*/libsrc', './mylib') self.assert_mapped(aliases, '/home/foo/src/a.py', './mysrc/a.py') self.assert_mapped(aliases, '/lib/foo/libsrc/a.py', './mylib/a.py') def test_cant_have_wildcard_at_end(self): aliases = PathAliases() msg = "Pattern must not end with wildcards." with self.assertRaisesRegex(CoverageException, msg): aliases.add("/ned/home/*", "fooey") with self.assertRaisesRegex(CoverageException, msg): aliases.add("/ned/home/*/", "fooey") with self.assertRaisesRegex(CoverageException, msg): aliases.add("/ned/home/*/*/", "fooey") def test_no_accidental_munging(self): aliases = PathAliases() aliases.add(r'c:\Zoo\boo', 'src/') aliases.add('/home/ned$', 'src/') self.assert_mapped(aliases, r'c:\Zoo\boo\foo.py', 'src/foo.py') self.assert_mapped(aliases, r'/home/ned$/foo.py', 'src/foo.py') def test_paths_are_os_corrected(self): aliases = PathAliases() aliases.add('/home/ned/*/src', './mysrc') aliases.add(r'c:\ned\src', './mysrc') self.assert_mapped(aliases, r'C:\Ned\src\sub\a.py', './mysrc/sub/a.py') aliases = PathAliases() aliases.add('/home/ned/*/src', r'.\mysrc') aliases.add(r'c:\ned\src', r'.\mysrc') self.assert_mapped(aliases, r'/home/ned/foo/src/sub/a.py', r'.\mysrc\sub\a.py') def test_leading_wildcard(self): aliases = PathAliases() aliases.add('*/d1', './mysrc1') aliases.add('*/d2', './mysrc2') self.assert_mapped(aliases, '/foo/bar/d1/x.py', './mysrc1/x.py') self.assert_mapped(aliases, '/foo/bar/d2/y.py', './mysrc2/y.py') def test_dot(self): for d in ('.', '..', '../other', '~'): aliases = PathAliases() aliases.add(d, '/the/source') the_file = os.path.join(d, 'a.py') the_file = os.path.expanduser(the_file) the_file = os.path.abspath(os.path.realpath(the_file)) assert '~' not in the_file # to be sure the test is pure. self.assert_mapped(aliases, the_file, '/the/source/a.py') class FindPythonFilesTest(CoverageTest): """Tests of `find_python_files`.""" def test_find_python_files(self): self.make_file("sub/a.py") self.make_file("sub/b.py") self.make_file("sub/x.c") # nope: not .py self.make_file("sub/ssub/__init__.py") self.make_file("sub/ssub/s.py") self.make_file("sub/ssub/~s.py") # nope: editor effluvia self.make_file("sub/lab/exp.py") # nope: no __init__.py self.make_file("sub/windows.pyw") py_files = set(find_python_files("sub")) self.assert_same_files(py_files, [ "sub/a.py", "sub/b.py", "sub/ssub/__init__.py", "sub/ssub/s.py", "sub/windows.pyw", ]) class WindowsFileTest(CoverageTest): """Windows-specific tests of file name handling.""" run_in_temp_dir = False def setUp(self): if not env.WINDOWS: self.skipTest("Only need to run Windows tests on Windows.") super(WindowsFileTest, self).setUp() def test_actual_path(self): self.assertEquals(actual_path(r'c:\Windows'), actual_path(r'C:\wINDOWS'))