# Copyright (C) 2009 Google Inc. All rights reserved.
#
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# modification, are permitted provided that the following conditions are
# met:
#
#    * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
#    * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following disclaimer
# in the documentation and/or other materials provided with the
# distribution.
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# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

import StringIO
import errno
import hashlib
import os
import re

from webkitpy.common.system import path


class MockFileSystem(object):
    sep = '/'
    pardir = '..'

    def __init__(self, files=None, dirs=None, cwd='/'):
        """Initializes a "mock" filesystem that can be used to completely
        stub out a filesystem.

        Args:
            files: a dict of filenames -> file contents. A file contents
                value of None is used to indicate that the file should
                not exist.
        """
        self.files = files or {}
        self.written_files = {}
        self.last_tmpdir = None
        self.current_tmpno = 0
        self.cwd = cwd
        self.dirs = set(dirs or [])
        self.dirs.add(cwd)
        for f in self.files:
            d = self.dirname(f)
            while not d in self.dirs:
                self.dirs.add(d)
                d = self.dirname(d)

    def clear_written_files(self):
        # This function can be used to track what is written between steps in a test.
        self.written_files = {}

    def _raise_not_found(self, path):
        raise IOError(errno.ENOENT, path, os.strerror(errno.ENOENT))

    def _split(self, path):
        # This is not quite a full implementation of os.path.split
        # http://docs.python.org/library/os.path.html#os.path.split
        if self.sep in path:
            return path.rsplit(self.sep, 1)
        return ('', path)

    def abspath(self, path):
        if os.path.isabs(path):
            return self.normpath(path)
        return self.abspath(self.join(self.cwd, path))

    def realpath(self, path):
        return self.abspath(path)

    def basename(self, path):
        return self._split(path)[1]

    def expanduser(self, path):
        if path[0] != "~":
            return path
        parts = path.split(self.sep, 1)
        home_directory = self.sep + "Users" + self.sep + "mock"
        if len(parts) == 1:
            return home_directory
        return home_directory + self.sep + parts[1]

    def path_to_module(self, module_name):
        return "/mock-checkout/Tools/Scripts/" + module_name.replace('.', '/') + ".py"

    def chdir(self, path):
        path = self.normpath(path)
        if not self.isdir(path):
            raise OSError(errno.ENOENT, path, os.strerror(errno.ENOENT))
        self.cwd = path

    def copyfile(self, source, destination):
        if not self.exists(source):
            self._raise_not_found(source)
        if self.isdir(source):
            raise IOError(errno.EISDIR, source, os.strerror(errno.EISDIR))
        if self.isdir(destination):
            raise IOError(errno.EISDIR, destination, os.strerror(errno.EISDIR))
        if not self.exists(self.dirname(destination)):
            raise IOError(errno.ENOENT, destination, os.strerror(errno.ENOENT))

        self.files[destination] = self.files[source]
        self.written_files[destination] = self.files[source]

    def dirname(self, path):
        return self._split(path)[0]

    def exists(self, path):
        return self.isfile(path) or self.isdir(path)

    def files_under(self, path, dirs_to_skip=[], file_filter=None):
        def filter_all(fs, dirpath, basename):
            return True

        file_filter = file_filter or filter_all
        files = []
        if self.isfile(path):
            if file_filter(self, self.dirname(path), self.basename(path)) and self.files[path] is not None:
                files.append(path)
            return files

        if self.basename(path) in dirs_to_skip:
            return []

        if not path.endswith(self.sep):
            path += self.sep

        dir_substrings = [self.sep + d + self.sep for d in dirs_to_skip]
        for filename in self.files:
            if not filename.startswith(path):
                continue

            suffix = filename[len(path) - 1:]
            if any(dir_substring in suffix for dir_substring in dir_substrings):
                continue

            dirpath, basename = self._split(filename)
            if file_filter(self, dirpath, basename) and self.files[filename] is not None:
                files.append(filename)

        return files

    def getcwd(self):
        return self.cwd

    def glob(self, glob_string):
        # FIXME: This handles '*', but not '?', '[', or ']'.
        glob_string = re.escape(glob_string)
        glob_string = glob_string.replace('\\*', '[^\\/]*') + '$'
        glob_string = glob_string.replace('\\/', '/')
        path_filter = lambda path: re.match(glob_string, path)

        # We could use fnmatch.fnmatch, but that might not do the right thing on windows.
        existing_files = [path for path, contents in self.files.items() if contents is not None]
        return filter(path_filter, existing_files) + filter(path_filter, self.dirs)

    def isabs(self, path):
        return path.startswith(self.sep)

    def isfile(self, path):
        return path in self.files and self.files[path] is not None

    def isdir(self, path):
        return self.normpath(path) in self.dirs

    def _slow_but_correct_join(self, *comps):
        return re.sub(re.escape(os.path.sep), self.sep, os.path.join(*comps))

    def join(self, *comps):
        # This function is called a lot, so we optimize it; there are
        # unittests to check that we match _slow_but_correct_join(), above.
        path = ''
        sep = self.sep
        for comp in comps:
            if not comp:
                continue
            if comp[0] == sep:
                path = comp
                continue
            if path:
                path += sep
            path += comp
        if comps[-1] == '' and path:
            path += '/'
        path = path.replace(sep + sep, sep)
        return path

    def listdir(self, path):
        sep = self.sep
        if not self.isdir(path):
            raise OSError("%s is not a directory" % path)

        if not path.endswith(sep):
            path += sep

        dirs = []
        files = []
        for f in self.files:
            if self.exists(f) and f.startswith(path):
                remaining = f[len(path):]
                if sep in remaining:
                    dir = remaining[:remaining.index(sep)]
                    if not dir in dirs:
                        dirs.append(dir)
                else:
                    files.append(remaining)
        return dirs + files

    def mtime(self, path):
        if self.exists(path):
            return 0
        self._raise_not_found(path)

    def _mktemp(self, suffix='', prefix='tmp', dir=None, **kwargs):
        if dir is None:
            dir = self.sep + '__im_tmp'
        curno = self.current_tmpno
        self.current_tmpno += 1
        self.last_tmpdir = self.join(dir, '%s_%u_%s' % (prefix, curno, suffix))
        return self.last_tmpdir

    def mkdtemp(self, **kwargs):
        class TemporaryDirectory(object):
            def __init__(self, fs, **kwargs):
                self._kwargs = kwargs
                self._filesystem = fs
                self._directory_path = fs._mktemp(**kwargs)
                fs.maybe_make_directory(self._directory_path)

            def __str__(self):
                return self._directory_path

            def __enter__(self):
                return self._directory_path

            def __exit__(self, type, value, traceback):
                # Only self-delete if necessary.

                # FIXME: Should we delete non-empty directories?
                if self._filesystem.exists(self._directory_path):
                    self._filesystem.rmtree(self._directory_path)

        return TemporaryDirectory(fs=self, **kwargs)

    def maybe_make_directory(self, *path):
        norm_path = self.normpath(self.join(*path))
        while norm_path and not self.isdir(norm_path):
            self.dirs.add(norm_path)
            norm_path = self.dirname(norm_path)

    def move(self, source, destination):
        if self.files[source] is None:
            self._raise_not_found(source)
        self.files[destination] = self.files[source]
        self.written_files[destination] = self.files[destination]
        self.files[source] = None
        self.written_files[source] = None

    def _slow_but_correct_normpath(self, path):
        return re.sub(re.escape(os.path.sep), self.sep, os.path.normpath(path))

    def normpath(self, path):
        # This function is called a lot, so we try to optimize the common cases
        # instead of always calling _slow_but_correct_normpath(), above.
        if '..' in path or '/./' in path:
            # This doesn't happen very often; don't bother trying to optimize it.
            return self._slow_but_correct_normpath(path)
        if not path:
            return '.'
        if path == '/':
            return path
        if path == '/.':
            return '/'
        if path.endswith('/.'):
            return path[:-2]
        if path.endswith('/'):
            return path[:-1]
        return path

    def open_binary_tempfile(self, suffix=''):
        path = self._mktemp(suffix)
        return (WritableBinaryFileObject(self, path), path)

    def open_binary_file_for_reading(self, path):
        if self.files[path] is None:
            self._raise_not_found(path)
        return ReadableBinaryFileObject(self, path, self.files[path])

    def read_binary_file(self, path):
        # Intentionally raises KeyError if we don't recognize the path.
        if self.files[path] is None:
            self._raise_not_found(path)
        return self.files[path]

    def write_binary_file(self, path, contents):
        # FIXME: should this assert if dirname(path) doesn't exist?
        self.maybe_make_directory(self.dirname(path))
        self.files[path] = contents
        self.written_files[path] = contents

    def open_text_file_for_reading(self, path):
        if self.files[path] is None:
            self._raise_not_found(path)
        return ReadableTextFileObject(self, path, self.files[path])

    def open_text_file_for_writing(self, path):
        return WritableTextFileObject(self, path)

    def read_text_file(self, path):
        return self.read_binary_file(path).decode('utf-8')

    def write_text_file(self, path, contents):
        return self.write_binary_file(path, contents.encode('utf-8'))

    def sha1(self, path):
        contents = self.read_binary_file(path)
        return hashlib.sha1(contents).hexdigest()

    def relpath(self, path, start='.'):
        # Since os.path.relpath() calls os.path.normpath()
        # (see http://docs.python.org/library/os.path.html#os.path.abspath )
        # it also removes trailing slashes and converts forward and backward
        # slashes to the preferred slash os.sep.
        start = self.abspath(start)
        path = self.abspath(path)

        if not path.lower().startswith(start.lower()):
            # path is outside the directory given by start; compute path from root
            return '../' * start.count('/') + path

        rel_path = path[len(start):]

        if not rel_path:
            # Then the paths are the same.
            pass
        elif rel_path[0] == self.sep:
            # It is probably sufficient to remove just the first character
            # since os.path.normpath() collapses separators, but we use
            # lstrip() just to be sure.
            rel_path = rel_path.lstrip(self.sep)
        else:
            # We are in the case typified by the following example:
            # path = "/tmp/foobar", start = "/tmp/foo" -> rel_path = "bar"
            # FIXME: We return a less-than-optimal result here.
            return '../' * start.count('/') + path

        return rel_path

    def remove(self, path):
        if self.files[path] is None:
            self._raise_not_found(path)
        self.files[path] = None
        self.written_files[path] = None

    def rmtree(self, path):
        path = self.normpath(path)

        for f in self.files:
            if f.startswith(path):
                self.files[f] = None

        self.dirs = set(filter(lambda d: not d.startswith(path), self.dirs))

    def copytree(self, source, destination):
        source = self.normpath(source)
        destination = self.normpath(destination)

        for source_file in self.files:
            if source_file.startswith(source):
                destination_path = self.join(destination, self.relpath(source_file, source))
                self.maybe_make_directory(self.dirname(destination_path))
                self.files[destination_path] = self.files[source_file]

    def split(self, path):
        idx = path.rfind(self.sep)
        if idx == -1:
            return ('', path)
        return (path[:idx], path[(idx + 1):])

    def splitext(self, path):
        idx = path.rfind('.')
        if idx == -1:
            idx = len(path)
        return (path[0:idx], path[idx:])


class WritableBinaryFileObject(object):
    def __init__(self, fs, path):
        self.fs = fs
        self.path = path
        self.closed = False
        self.fs.files[path] = ""

    def __enter__(self):
        return self

    def __exit__(self, type, value, traceback):
        self.close()

    def close(self):
        self.closed = True

    def write(self, str):
        self.fs.files[self.path] += str
        self.fs.written_files[self.path] = self.fs.files[self.path]


class WritableTextFileObject(WritableBinaryFileObject):
    def write(self, str):
        WritableBinaryFileObject.write(self, str.encode('utf-8'))


class ReadableBinaryFileObject(object):
    def __init__(self, fs, path, data):
        self.fs = fs
        self.path = path
        self.closed = False
        self.data = data
        self.offset = 0

    def __enter__(self):
        return self

    def __exit__(self, type, value, traceback):
        self.close()

    def close(self):
        self.closed = True

    def read(self, bytes=None):
        if not bytes:
            return self.data[self.offset:]
        start = self.offset
        self.offset += bytes
        return self.data[start:self.offset]


class ReadableTextFileObject(ReadableBinaryFileObject):
    def __init__(self, fs, path, data):
        super(ReadableTextFileObject, self).__init__(fs, path, StringIO.StringIO(data.decode("utf-8")))

    def close(self):
        self.data.close()
        super(ReadableTextFileObject, self).close()

    def read(self, bytes=-1):
        return self.data.read(bytes)

    def readline(self, length=None):
        return self.data.readline(length)

    def __iter__(self):
        return self.data.__iter__()

    def next(self):
        return self.data.next()

    def seek(self, offset, whence=os.SEEK_SET):
        self.data.seek(offset, whence)