def test_less_than(self):
     a = DirectoryEntry("a", "/b/baz", RegularFile, inode=7)
     dot = DirectoryEntry(".", "/bar/baz", RegularFile, inode=7L)
     self.assertLess(dot, a)
     self.assertGreater(a, dot)
     self.assertLessEqual(a, a)
     self.assertGreaterEqual(a, a)
Beispiel #2
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 def test_equal_dirents(self):
     first = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7)
     second = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7)
     self.assertEquals(first, second)
     self.assertEquals(second, first)
Beispiel #3
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 def test_is_not_hashable_because_it_is_mutable(self):
     first = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7)
     import collections
     self.assertTrue(isinstance(first, collections.Hashable))
Beispiel #4
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 def test_disequal_inodes_different_attrs(self):
     first = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7)
     second = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=8)
     self.assertNotEqual(first, second)
     self.assertNotEqual(second, first)
Beispiel #5
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def set_up_workspace():
    def ino(f):
        return os.lstat(f).st_ino

    test_tree = {}
    test_tree["contents"] = set()
    test_tree["contents: extra recursive"] = set()
    test_tree["contents: normal-?-file"] = set()
    test_tree["contents: normal*"] = set()

    root = tempfile.mkdtemp(prefix="pyreaddir.unittests.")
    test_tree["root dir"] = root

    # Create a normal file
    normal = os.path.join(root, "normal-file")
    f = open(normal, "w")
    f.close()

    test_tree["normal"] = DirectoryEntry("normal-file",
                                         root,
                                         RegularFile,
                                         inode=ino(normal))
    test_tree["contents"].add(test_tree["normal"])
    test_tree["contents: normal*"].add(test_tree["normal"])

    # Make more more files, used for glob tests
    normal = os.path.join(root, "normal-1-file")
    f = open(normal, "w")
    f.close()
    test_tree["normal-1"] = DirectoryEntry("normal-1-file",
                                           root,
                                           RegularFile,
                                           inode=ino(normal))
    test_tree["contents"].add(test_tree["normal-1"])
    test_tree["contents: normal-?-file"].add(test_tree["normal-1"])
    test_tree["contents: normal*"].add(test_tree["normal-1"])

    normal = os.path.join(root, "normal-2-file")
    f = open(normal, "w")
    f.close()
    test_tree["normal-2"] = DirectoryEntry("normal-2-file",
                                           root,
                                           RegularFile,
                                           inode=ino(normal))
    test_tree["contents"].add(test_tree["normal-2"])
    test_tree["contents: normal-?-file"].add(test_tree["normal-2"])
    test_tree["contents: normal*"].add(test_tree["normal-2"])

    normal = os.path.join(root, ".hidden-file")
    f = open(normal, "w")
    f.close()
    test_tree["hidden"] = DirectoryEntry(".hidden-file",
                                         root,
                                         RegularFile,
                                         inode=ino(normal))
    test_tree["contents"].add(test_tree["hidden"])

    # Create a directory
    test_dir = os.path.join(root, "directory")
    os.mkdir(test_dir)

    test_tree["directory"] = DirectoryEntry("directory",
                                            root,
                                            Directory,
                                            inode=ino(test_dir))
    test_tree["contents"].add(test_tree["directory"])

    test_dir = os.path.join(root, "normal-3-file")  # It lies
    os.mkdir(test_dir)

    test_tree["directory-3"] = DirectoryEntry("normal-3-file",
                                              root,
                                              Directory,
                                              inode=ino(test_dir))
    test_tree["contents"].add(test_tree["directory-3"])
    test_tree["contents: normal-?-file"].add(test_tree["directory-3"])
    test_tree["contents: normal*"].add(test_tree["directory-3"])

    if True:
        # (Just indent to show structure)
        # Create a file *in* that directory:
        inner = os.path.join(test_dir, "inner-normal-file")
        f = open(inner, "w")
        f.close()
        test_tree["file in directory"] = DirectoryEntry("inner-normal-file",
                                                        test_dir,
                                                        RegularFile,
                                                        inode=ino(inner))
        test_tree["contents: extra recursive"].add(
            test_tree["file in directory"])

    # Create a named pipe
    fifo = os.path.join(root, "fifo")
    os.mkfifo(fifo)

    test_tree["named pipe"] = DirectoryEntry("fifo",
                                             root,
                                             NamedPipe,
                                             inode=ino(fifo))
    test_tree["contents"].add(test_tree["named pipe"])

    # Create devices?!

    # Create symlink to directory
    link_dir = os.path.join(root, "symlink-to-dir")
    os.symlink(test_dir, link_dir)

    test_tree["directory symlink"] = DirectoryEntry("symlink-to-dir",
                                                    root,
                                                    SymbolicLink,
                                                    inode=ino(link_dir))
    test_tree["contents"].add(test_tree["directory symlink"])

    # Create symlink to file
    link_file = os.path.join(root, "symlink-to-file")
    os.symlink(normal, link_file)

    test_tree["file symlink"] = DirectoryEntry("symlink-to-file",
                                               root,
                                               SymbolicLink,
                                               inode=ino(link_file))
    test_tree["contents"].add(test_tree["file symlink"])

    # Create socket?!

    # Create whiteout?!

    # Add . and ..
    test_tree["dot"] = DirectoryEntry(".", root, Directory, inode=ino(root))
    test_tree["contents"].add(test_tree["dot"])

    test_tree["dotdot"] = DirectoryEntry("..",
                                         root,
                                         Directory,
                                         inode=ino(os.path.join(root, "..")))
    test_tree["contents"].add(test_tree["dotdot"])

    return test_tree
 def test_different_name_has_unequal_hash(self):
     other = DirectoryEntry("sporz", "/bar/baz", RegularFile, inode=7L)
     self.assertNotEqual(hash(self.e), hash(other))
 def test_different_inode_is_unequal(self):
     other = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=8L)
     self.assertNotEqual(self.e, other)
 def test_no_inode_is_unequal(self):
     other = DirectoryEntry("foo", "/bar/baz", RegularFile)
     self.assertNotEqual(self.e, other)
 def test_different_type_is_unequal(self):
     other = DirectoryEntry("foo", "/bar/baz", Directory, inode=7L)
     self.assertNotEqual(self.e, other)
Beispiel #10
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 def setUp(self):
     self.e = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7L)
Beispiel #11
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 def test_almost_exact_dupe_has_same_hash(self):
     exact_dupe = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7)
     self.assertEqual(hash(self.e), hash(exact_dupe))
Beispiel #12
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 def test_equal_but_different_kind_of_inode_integer(self):
     equal = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7)
     self.assertEqual(self.e, equal)
Beispiel #13
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 def test_exact_dupe_is_equal(self):
     exact_dupe = DirectoryEntry("foo", "/bar/baz", RegularFile, inode=7L)
     self.assertEqual(self.e, exact_dupe)