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# utils.py
# Copyright (C) 2008, 2009 Michael Trier (mtrier@gmail.com) and contributors
#
# This module is part of GitPython and is released under
# the BSD License: http://www.opensource.org/licenses/bsd-license.php

from abc import abstractmethod
import os.path as osp
from .compat import is_win
import contextlib
from functools import wraps
import getpass
import logging
import os
import platform
import subprocess
import re
import shutil
import stat
from sys import maxsize
import time
from urllib.parse import urlsplit, urlunsplit
import warnings

# from git.objects.util import Traversable

# typing ---------------------------------------------------------

from typing import (
    Any,
    AnyStr,
    BinaryIO,
    Callable,
    Dict,
    Generator,
    IO,
    Iterator,
    List,
    Optional,
    Pattern,
    Sequence,
    Tuple,
    TypeVar,
    Union,
    cast,
    TYPE_CHECKING,
    overload,
)

import pathlib

if TYPE_CHECKING:
    from git.remote import Remote
    from git.repo.base import Repo
    from git.config import GitConfigParser, SectionConstraint
    from git import Git

    # from git.objects.base import IndexObject


from .types import (
    Literal,
    SupportsIndex,
    Protocol,
    runtime_checkable,  # because behind py version guards
    PathLike,
    HSH_TD,
    Total_TD,
    Files_TD,  # aliases
    Has_id_attribute,
)

T_IterableObj = TypeVar("T_IterableObj", bound=Union["IterableObj", "Has_id_attribute"], covariant=True)
# So IterableList[Head] is subtype of IterableList[IterableObj]

# ---------------------------------------------------------------------


from gitdb.util import (  # NOQA @IgnorePep8
    make_sha,
    LockedFD,  # @UnusedImport
    file_contents_ro,  # @UnusedImport
    file_contents_ro_filepath,  # @UnusedImport
    LazyMixin,  # @UnusedImport
    to_hex_sha,  # @UnusedImport
    to_bin_sha,  # @UnusedImport
    bin_to_hex,  # @UnusedImport
    hex_to_bin,  # @UnusedImport
)


# NOTE:  Some of the unused imports might be used/imported by others.
# Handle once test-cases are back up and running.
# Most of these are unused here, but are for use by git-python modules so these
# don't see gitdb all the time. Flake of course doesn't like it.
__all__ = [
    "stream_copy",
    "join_path",
    "to_native_path_linux",
    "join_path_native",
    "Stats",
    "IndexFileSHA1Writer",
    "IterableObj",
    "IterableList",
    "BlockingLockFile",
    "LockFile",
    "Actor",
    "get_user_id",
    "assure_directory_exists",
    "RemoteProgress",
    "CallableRemoteProgress",
    "rmtree",
    "unbare_repo",
    "HIDE_WINDOWS_KNOWN_ERRORS",
]

log = logging.getLogger(__name__)

# types############################################################


#: We need an easy way to see if Appveyor TCs start failing,
#: so the errors marked with this var are considered "acknowledged" ones, awaiting remedy,
#: till then, we wish to hide them.
HIDE_WINDOWS_KNOWN_ERRORS = is_win and os.environ.get("HIDE_WINDOWS_KNOWN_ERRORS", True)
HIDE_WINDOWS_FREEZE_ERRORS = is_win and os.environ.get("HIDE_WINDOWS_FREEZE_ERRORS", True)

# { Utility Methods

T = TypeVar("T")


def unbare_repo(func: Callable[..., T]) -> Callable[..., T]:
    """Methods with this decorator raise :class:`.exc.InvalidGitRepositoryError` if they
    encounter a bare repository"""

    from .exc import InvalidGitRepositoryError

    @wraps(func)
    def wrapper(self: "Remote", *args: Any, **kwargs: Any) -> T:
        if self.repo.bare:
            raise InvalidGitRepositoryError("Method '%s' cannot operate on bare repositories" % func.__name__)
        # END bare method
        return func(self, *args, **kwargs)

    # END wrapper

    return wrapper


@contextlib.contextmanager
def cwd(new_dir: PathLike) -> Generator[PathLike, None, None]:
    old_dir = os.getcwd()
    os.chdir(new_dir)
    try:
        yield new_dir
    finally:
        os.chdir(old_dir)


def rmtree(path: PathLike) -> None:
    """Remove the given recursively.

    :note: we use shutil rmtree but adjust its behaviour to see whether files that
        couldn't be deleted are read-only. Windows will not remove them in that case"""

    def onerror(func: Callable, path: PathLike, exc_info: str) -> None:
        # Is the error an access error ?
        os.chmod(path, stat.S_IWUSR)

        try:
            func(path)  # Will scream if still not possible to delete.
        except Exception as ex:
            if HIDE_WINDOWS_KNOWN_ERRORS:
                from unittest import SkipTest

                raise SkipTest("FIXME: fails with: PermissionError\n  {}".format(ex)) from ex
            raise

    return shutil.rmtree(path, False, onerror)


def rmfile(path: PathLike) -> None:
    """Ensure file deleted also on *Windows* where read-only files need special treatment."""
    if osp.isfile(path):
        if is_win:
            os.chmod(path, 0o777)
        os.remove(path)


def stream_copy(source: BinaryIO, destination: BinaryIO, chunk_size: int = 512 * 1024) -> int:
    """Copy all data from the source stream into the destination stream in chunks
    of size chunk_size

    :return: amount of bytes written"""
    br = 0
    while True:
        chunk = source.read(chunk_size)
        destination.write(chunk)
        br += len(chunk)
        if len(chunk) < chunk_size:
            break
    # END reading output stream
    return br


def join_path(a: PathLike, *p: PathLike) -> PathLike:
    """Join path tokens together similar to osp.join, but always use
    '/' instead of possibly '\' on windows."""
    path = str(a)
    for b in p:
        b = str(b)
        if not b:
            continue
        if b.startswith("/"):
            path += b[1:]
        elif path == "" or path.endswith("/"):
            path += b
        else:
            path += "/" + b
    # END for each path token to add
    return path


if is_win:

    def to_native_path_windows(path: PathLike) -> PathLike:
        path = str(path)
        return path.replace("/", "\\")

    def to_native_path_linux(path: PathLike) -> str:
        path = str(path)
        return path.replace("\\", "/")

    __all__.append("to_native_path_windows")
    to_native_path = to_native_path_windows
else:
    # no need for any work on linux
    def to_native_path_linux(path: PathLike) -> str:
        return str(path)

    to_native_path = to_native_path_linux


def join_path_native(a: PathLike, *p: PathLike) -> PathLike:
    """
    As join path, but makes sure an OS native path is returned. This is only
        needed to play it safe on my dear windows and to assure nice paths that only
        use '\'"""
    return to_native_path(join_path(a, *p))


def assure_directory_exists(path: PathLike, is_file: bool = False) -> bool:
    """Assure that the directory pointed to by path exists.

    :param is_file: If True, path is assumed to be a file and handled correctly.
        Otherwise it must be a directory
    :return: True if the directory was created, False if it already existed"""
    if is_file:
        path = osp.dirname(path)
    # END handle file
    if not osp.isdir(path):
        os.makedirs(path, exist_ok=True)
        return True
    return False


def _get_exe_extensions() -> Sequence[str]:
    PATHEXT = os.environ.get("PATHEXT", None)
    return (
        tuple(p.upper() for p in PATHEXT.split(os.pathsep)) if PATHEXT else (".BAT", "COM", ".EXE") if is_win else ("")
    )


def py_where(program: str, path: Optional[PathLike] = None) -> List[str]:
    # From: http://stackoverflow.com/a/377028/548792
    winprog_exts = _get_exe_extensions()

    def is_exec(fpath: str) -> bool:
        return (
            osp.isfile(fpath)
            and os.access(fpath, os.X_OK)
            and (os.name != "nt" or not winprog_exts or any(fpath.upper().endswith(ext) for ext in winprog_exts))
        )

    progs = []
    if not path:
        path = os.environ["PATH"]
    for folder in str(path).split(os.pathsep):
        folder = folder.strip('"')
        if folder:
            exe_path = osp.join(folder, program)
            for f in [exe_path] + ["%s%s" % (exe_path, e) for e in winprog_exts]:
                if is_exec(f):
                    progs.append(f)
    return progs


def _cygexpath(drive: Optional[str], path: str) -> str:
    if osp.isabs(path) and not drive:
        # Invoked from `cygpath()` directly with `D:Apps\123`?
        #  It's an error, leave it alone just slashes)
        p = path  # convert to str if AnyPath given
    else:
        p = path and osp.normpath(osp.expandvars(osp.expanduser(path)))
        if osp.isabs(p):
            if drive:
                # Confusing, maybe a remote system should expand vars.
                p = path
            else:
                p = cygpath(p)
        elif drive:
            p = "/proc/cygdrive/%s/%s" % (drive.lower(), p)
    p_str = str(p)  # ensure it is a str and not AnyPath
    return p_str.replace("\\", "/")


_cygpath_parsers: Tuple[Tuple[Pattern[str], Callable, bool], ...] = (
    # See: https://msdn.microsoft.com/en-us/library/windows/desktop/aa365247(v=vs.85).aspx
    # and: https://www.cygwin.com/cygwin-ug-net/using.html#unc-paths
    (
        re.compile(r"\\\\\?\\UNC\\([^\\]+)\\([^\\]+)(?:\\(.*))?"),
        (lambda server, share, rest_path: "//%s/%s/%s" % (server, share, rest_path.replace("\\", "/"))),
        False,
    ),
    (re.compile(r"\\\\\?\\(\w):[/\\](.*)"), (_cygexpath), False),
    (re.compile(r"(\w):[/\\](.*)"), (_cygexpath), False),
    (re.compile(r"file:(.*)", re.I), (lambda rest_path: rest_path), True),
    (re.compile(r"(\w{2,}:.*)"), (lambda url: url), False),  # remote URL, do nothing
)


def cygpath(path: str) -> str:
    """Use :meth:`git.cmd.Git.polish_url()` instead, that works on any environment."""
    path = str(path)  # ensure is str and not AnyPath.
    # Fix to use Paths when 3.5 dropped. or to be just str if only for urls?
    if not path.startswith(("/cygdrive", "//", "/proc/cygdrive")):
        for regex, parser, recurse in _cygpath_parsers:
            match = regex.match(path)
            if match:
                path = parser(*match.groups())
                if recurse:
                    path = cygpath(path)
                break
        else:
            path = _cygexpath(None, path)

    return path


_decygpath_regex = re.compile(r"(?:/proc)?/cygdrive/(\w)(/.*)?")


def decygpath(path: PathLike) -> str:
    path = str(path)
    m = _decygpath_regex.match(path)
    if m:
        drive, rest_path = m.groups()
        path = "%s:%s" % (drive.upper(), rest_path or "")

    return path.replace("/", "\\")


#: Store boolean flags denoting if a specific Git executable
#: is from a Cygwin installation (since `cache_lru()` unsupported on PY2).
_is_cygwin_cache: Dict[str, Optional[bool]] = {}


@overload
def is_cygwin_git(git_executable: None) -> Literal[False]:
    ...


@overload
def is_cygwin_git(git_executable: PathLike) -> bool:
    ...


def is_cygwin_git(git_executable: Union[None, PathLike]) -> bool:
    if is_win:
        # is_win seems to be true only for Windows-native pythons
        # cygwin has os.name = posix, I think
        return False

    if git_executable is None:
        return False

    git_executable = str(git_executable)
    is_cygwin = _is_cygwin_cache.get(git_executable)  # type: Optional[bool]
    if is_cygwin is None:
        is_cygwin = False
        try:
            git_dir = osp.dirname(git_executable)
            if not git_dir:
                res = py_where(git_executable)
                git_dir = osp.dirname(res[0]) if res else ""

            # Just a name given, not a real path.
            uname_cmd = osp.join(git_dir, "uname")
            process = subprocess.Popen([uname_cmd], stdout=subprocess.PIPE, universal_newlines=True)
            uname_out, _ = process.communicate()
            # retcode = process.poll()
            is_cygwin = "CYGWIN" in uname_out
        except Exception as ex:
            log.debug("Failed checking if running in CYGWIN due to: %r", ex)
        _is_cygwin_cache[git_executable] = is_cygwin

    return is_cygwin


def get_user_id() -> str:
    """:return: string identifying the currently active system user as name@node"""
    return "%s@%s" % (getpass.getuser(), platform.node())


def finalize_process(proc: Union[subprocess.Popen, "Git.AutoInterrupt"], **kwargs: Any) -> None:
    """Wait for the process (clone, fetch, pull or push) and handle its errors accordingly"""
    # TODO: No close proc-streams??
    proc.wait(**kwargs)


@overload
def expand_path(p: None, expand_vars: bool = ...) -> None:
    ...


@overload
def expand_path(p: PathLike, expand_vars: bool = ...) -> str:
    # improve these overloads when 3.5 dropped
    ...


def expand_path(p: Union[None, PathLike], expand_vars: bool = True) -> Optional[PathLike]:
    if isinstance(p, pathlib.Path):
        return p.resolve()
    try:
        p = osp.expanduser(p)  # type: ignore
        if expand_vars:
            p = osp.expandvars(p)  # type: ignore
        return osp.normpath(osp.abspath(p))  # type: ignore
    except Exception:
        return None


def remove_password_if_present(cmdline: Sequence[str]) -> List[str]:
    """
    Parse any command line argument and if on of the element is an URL with a
    username and/or password, replace them by stars (in-place).

    If nothing found just returns the command line as-is.

    This should be used for every log line that print a command line, as well as
    exception messages.
    """
    new_cmdline = []
    for index, to_parse in enumerate(cmdline):
        new_cmdline.append(to_parse)
        try:
            url = urlsplit(to_parse)
            # Remove password from the URL if present
            if url.password is None and url.username is None:
                continue

            if url.password is not None:
                url = url._replace(netloc=url.netloc.replace(url.password, "*****"))
            if url.username is not None:
                url = url._replace(netloc=url.netloc.replace(url.username, "*****"))
            new_cmdline[index] = urlunsplit(url)
        except ValueError:
            # This is not a valid URL
            continue
    return new_cmdline


# } END utilities

# { Classes


class RemoteProgress(object):
    """
    Handler providing an interface to parse progress information emitted by git-push
    and git-fetch and to dispatch callbacks allowing subclasses to react to the progress.
    """

    _num_op_codes: int = 9
    (
        BEGIN,
        END,
        COUNTING,
        COMPRESSING,
        WRITING,
        RECEIVING,
        RESOLVING,
        FINDING_SOURCES,
        CHECKING_OUT,
    ) = [1 << x for x in range(_num_op_codes)]
    STAGE_MASK = BEGIN | END
    OP_MASK = ~STAGE_MASK

    DONE_TOKEN = "done."
    TOKEN_SEPARATOR = ", "

    __slots__ = (
        "_cur_line",
        "_seen_ops",
        "error_lines",  # Lines that started with 'error:' or 'fatal:'.
        "other_lines",
    )  # Lines not denoting progress (i.e.g. push-infos).
    re_op_absolute = re.compile(r"(remote: )?([\w\s]+):\s+()(\d+)()(.*)")
    re_op_relative = re.compile(r"(remote: )?([\w\s]+):\s+(\d+)% \((\d+)/(\d+)\)(.*)")

    def __init__(self) -> None:
        self._seen_ops: List[int] = []
        self._cur_line: Optional[str] = None
        self.error_lines: List[str] = []
        self.other_lines: List[str] = []

    def _parse_progress_line(self, line: AnyStr) -> None:
        """Parse progress information from the given line as retrieved by git-push
        or git-fetch.

        - Lines that do not contain progress info are stored in :attr:`other_lines`.
        - Lines that seem to contain an error (i.e. start with error: or fatal:) are stored
            in :attr:`error_lines`."""
        # handle
        # Counting objects: 4, done.
        # Compressing objects:  50% (1/2)
        # Compressing objects: 100% (2/2)
        # Compressing objects: 100% (2/2), done.
        if isinstance(line, bytes):  # mypy argues about ternary assignment
            line_str = line.decode("utf-8")
        else:
            line_str = line
        self._cur_line = line_str

        if self._cur_line.startswith(("error:", "fatal:")):
            self.error_lines.append(self._cur_line)
            return

        # find escape characters and cut them away - regex will not work with
        # them as they are non-ascii. As git might expect a tty, it will send them
        last_valid_index = None
        for i, c in enumerate(reversed(line_str)):
            if ord(c) < 32:
                # its a slice index
                last_valid_index = -i - 1
            # END character was non-ascii
        # END for each character in line
        if last_valid_index is not None:
            line_str = line_str[:last_valid_index]
        # END cut away invalid part
        line_str = line_str.rstrip()

        cur_count, max_count = None, None
        match = self.re_op_relative.match(line_str)
        if match is None:
            match = self.re_op_absolute.match(line_str)

        if not match:
            self.line_dropped(line_str)
            self.other_lines.append(line_str)
            return
        # END could not get match

        op_code = 0
        _remote, op_name, _percent, cur_count, max_count, message = match.groups()

        # get operation id
        if op_name == "Counting objects":
            op_code |= self.COUNTING
        elif op_name == "Compressing objects":
            op_code |= self.COMPRESSING
        elif op_name == "Writing objects":
            op_code |= self.WRITING
        elif op_name == "Receiving objects":
            op_code |= self.RECEIVING
        elif op_name == "Resolving deltas":
            op_code |= self.RESOLVING
        elif op_name == "Finding sources":
            op_code |= self.FINDING_SOURCES
        elif op_name == "Checking out files":
            op_code |= self.CHECKING_OUT
        else:
            # Note: On windows it can happen that partial lines are sent
            # Hence we get something like "CompreReceiving objects", which is
            # a blend of "Compressing objects" and "Receiving objects".
            # This can't really be prevented, so we drop the line verbosely
            # to make sure we get informed in case the process spits out new
            # commands at some point.
            self.line_dropped(line_str)
            # Note: Don't add this line to the other lines, as we have to silently
            # drop it
            return None
        # END handle op code

        # figure out stage
        if op_code not in self._seen_ops:
            self._seen_ops.append(op_code)
            op_code |= self.BEGIN
        # END begin opcode

        if message is None:
            message = ""
        # END message handling

        message = message.strip()
        if message.endswith(self.DONE_TOKEN):
            op_code |= self.END
            message = message[: -len(self.DONE_TOKEN)]
        # END end message handling
        message = message.strip(self.TOKEN_SEPARATOR)

        self.update(
            op_code,
            cur_count and float(cur_count),
            max_count and float(max_count),
            message,
        )

    def new_message_handler(self) -> Callable[[str], None]:
        """
        :return:
            a progress handler suitable for handle_process_output(), passing lines on to this Progress
            handler in a suitable format"""

        def handler(line: AnyStr) -> None:
            return self._parse_progress_line(line.rstrip())

        # end
        return handler

    def line_dropped(self, line: str) -> None:
        """Called whenever a line could not be understood and was therefore dropped."""
        pass

    def update(
        self,
        op_code: int,
        cur_count: Union[str, float],
        max_count: Union[str, float, None] = None,
        message: str = "",
    ) -> None:
        """Called whenever the progress changes

        :param op_code:
            Integer allowing to be compared against Operation IDs and stage IDs.

            Stage IDs are BEGIN and END. BEGIN will only be set once for each Operation
            ID as well as END. It may be that BEGIN and END are set at once in case only
            one progress message was emitted due to the speed of the operation.
            Between BEGIN and END, none of these flags will be set

            Operation IDs are all held within the OP_MASK. Only one Operation ID will
            be active per call.
        :param cur_count: Current absolute count of items

        :param max_count:
            The maximum count of items we expect. It may be None in case there is
            no maximum number of items or if it is (yet) unknown.

        :param message:
            In case of the 'WRITING' operation, it contains the amount of bytes
            transferred. It may possibly be used for other purposes as well.

        You may read the contents of the current line in self._cur_line"""
        pass


class CallableRemoteProgress(RemoteProgress):
    """An implementation forwarding updates to any callable"""

    __slots__ = "_callable"

    def __init__(self, fn: Callable) -> None:
        self._callable = fn
        super(CallableRemoteProgress, self).__init__()

    def update(self, *args: Any, **kwargs: Any) -> None:
        self._callable(*args, **kwargs)


class Actor(object):
    """Actors hold information about a person acting on the repository. They
    can be committers and authors or anything with a name and an email as
    mentioned in the git log entries."""

    # PRECOMPILED REGEX
    name_only_regex = re.compile(r"<(.*)>")
    name_email_regex = re.compile(r"(.*) <(.*?)>")

    # ENVIRONMENT VARIABLES
    # read when creating new commits
    env_author_name = "GIT_AUTHOR_NAME"
    env_author_email = "GIT_AUTHOR_EMAIL"
    env_committer_name = "GIT_COMMITTER_NAME"
    env_committer_email = "GIT_COMMITTER_EMAIL"

    # CONFIGURATION KEYS
    conf_name = "name"
    conf_email = "email"

    __slots__ = ("name", "email")

    def __init__(self, name: Optional[str], email: Optional[str]) -> None:
        self.name = name
        self.email = email

    def __eq__(self, other: Any) -> bool:
        return self.name == other.name and self.email == other.email

    def __ne__(self, other: Any) -> bool:
        return not (self == other)

    def __hash__(self) -> int:
        return hash((self.name, self.email))

    def __str__(self) -> str:
        return self.name if self.name else ""

    def __repr__(self) -> str:
        return '<git.Actor "%s <%s>">' % (self.name, self.email)

    @classmethod
    def _from_string(cls, string: str) -> "Actor":
        """Create an Actor from a string.
        :param string: is the string, which is expected to be in regular git format

                John Doe <jdoe@example.com>

        :return: Actor"""
        m = cls.name_email_regex.search(string)
        if m:
            name, email = m.groups()
            return Actor(name, email)
        else:
            m = cls.name_only_regex.search(string)
            if m:
                return Actor(m.group(1), None)
            # assume best and use the whole string as name
            return Actor(string, None)
            # END special case name
        # END handle name/email matching

    @classmethod
    def _main_actor(
        cls,
        env_name: str,
        env_email: str,
        config_reader: Union[None, "GitConfigParser", "SectionConstraint"] = None,
    ) -> "Actor":
        actor = Actor("", "")
        user_id = None  # We use this to avoid multiple calls to getpass.getuser()

        def default_email() -> str:
            nonlocal user_id
            if not user_id:
                user_id = get_user_id()
            return user_id

        def default_name() -> str:
            return default_email().split("@")[0]

        for attr, evar, cvar, default in (
            ("name", env_name, cls.conf_name, default_name),
            ("email", env_email, cls.conf_email, default_email),
        ):
            try:
                val = os.environ[evar]
                setattr(actor, attr, val)
            except KeyError:
                if config_reader is not None:
                    try:
                        val = config_reader.get("user", cvar)
                    except Exception:
                        val = default()
                    setattr(actor, attr, val)
                # END config-reader handling
                if not getattr(actor, attr):
                    setattr(actor, attr, default())
            # END handle name
        # END for each item to retrieve
        return actor

    @classmethod
    def committer(cls, config_reader: Union[None, "GitConfigParser", "SectionConstraint"] = None) -> "Actor":
        """
        :return: Actor instance corresponding to the configured committer. It behaves
            similar to the git implementation, such that the environment will override
            configuration values of config_reader. If no value is set at all, it will be
            generated
        :param config_reader: ConfigReader to use to retrieve the values from in case
            they are not set in the environment"""
        return cls._main_actor(cls.env_committer_name, cls.env_committer_email, config_reader)

    @classmethod
    def author(cls, config_reader: Union[None, "GitConfigParser", "SectionConstraint"] = None) -> "Actor":
        """Same as committer(), but defines the main author. It may be specified in the environment,
        but defaults to the committer"""
        return cls._main_actor(cls.env_author_name, cls.env_author_email, config_reader)


class Stats(object):

    """
    Represents stat information as presented by git at the end of a merge. It is
    created from the output of a diff operation.

    ``Example``::

     c = Commit( sha1 )
     s = c.stats
     s.total         # full-stat-dict
     s.files         # dict( filepath : stat-dict )

    ``stat-dict``

    A dictionary with the following keys and values::

      deletions = number of deleted lines as int
      insertions = number of inserted lines as int
      lines = total number of lines changed as int, or deletions + insertions

    ``full-stat-dict``

    In addition to the items in the stat-dict, it features additional information::

     files = number of changed files as int"""

    __slots__ = ("total", "files")

    def __init__(self, total: Total_TD, files: Dict[PathLike, Files_TD]):
        self.total = total
        self.files = files

    @classmethod
    def _list_from_string(cls, repo: "Repo", text: str) -> "Stats":
        """Create a Stat object from output retrieved by git-diff.

        :return: git.Stat"""

        hsh: HSH_TD = {
            "total": {"insertions": 0, "deletions": 0, "lines": 0, "files": 0},
            "files": {},
        }
        for line in text.splitlines():
            (raw_insertions, raw_deletions, filename) = line.split("\t")
            insertions = raw_insertions != "-" and int(raw_insertions) or 0
            deletions = raw_deletions != "-" and int(raw_deletions) or 0
            hsh["total"]["insertions"] += insertions
            hsh["total"]["deletions"] += deletions
            hsh["total"]["lines"] += insertions + deletions
            hsh["total"]["files"] += 1
            files_dict: Files_TD = {
                "insertions": insertions,
                "deletions": deletions,
                "lines": insertions + deletions,
            }
            hsh["files"][filename.strip()] = files_dict
        return Stats(hsh["total"], hsh["files"])


class IndexFileSHA1Writer(object):

    """Wrapper around a file-like object that remembers the SHA1 of
    the data written to it. It will write a sha when the stream is closed
    or if the asked for explicitly using write_sha.

    Only useful to the indexfile

    :note: Based on the dulwich project"""

    __slots__ = ("f", "sha1")

    def __init__(self, f: IO) -> None:
        self.f = f
        self.sha1 = make_sha(b"")

    def write(self, data: AnyStr) -> int:
        self.sha1.update(data)
        return self.f.write(data)

    def write_sha(self) -> bytes:
        sha = self.sha1.digest()
        self.f.write(sha)
        return sha

    def close(self) -> bytes:
        sha = self.write_sha()
        self.f.close()
        return sha

    def tell(self) -> int:
        return self.f.tell()


class LockFile(object):

    """Provides methods to obtain, check for, and release a file based lock which
    should be used to handle concurrent access to the same file.

    As we are a utility class to be derived from, we only use protected methods.

    Locks will automatically be released on destruction"""

    __slots__ = ("_file_path", "_owns_lock")

    def __init__(self, file_path: PathLike) -> None:
        self._file_path = file_path
        self._owns_lock = False

    def __del__(self) -> None:
        self._release_lock()

    def _lock_file_path(self) -> str:
        """:return: Path to lockfile"""
        return "%s.lock" % (self._file_path)

    def _has_lock(self) -> bool:
        """:return: True if we have a lock and if the lockfile still exists
        :raise AssertionError: if our lock-file does not exist"""
        return self._owns_lock

    def _obtain_lock_or_raise(self) -> None:
        """Create a lock file as flag for other instances, mark our instance as lock-holder

        :raise IOError: if a lock was already present or a lock file could not be written"""
        if self._has_lock():
            return
        lock_file = self._lock_file_path()
        if osp.isfile(lock_file):
            raise IOError(
                "Lock for file %r did already exist, delete %r in case the lock is illegal"
                % (self._file_path, lock_file)
            )

        try:
            flags = os.O_WRONLY | os.O_CREAT | os.O_EXCL
            if is_win:
                flags |= os.O_SHORT_LIVED
            fd = os.open(lock_file, flags, 0)
            os.close(fd)
        except OSError as e:
            raise IOError(str(e)) from e

        self._owns_lock = True

    def _obtain_lock(self) -> None:
        """The default implementation will raise if a lock cannot be obtained.
        Subclasses may override this method to provide a different implementation"""
        return self._obtain_lock_or_raise()

    def _release_lock(self) -> None:
        """Release our lock if we have one"""
        if not self._has_lock():
            return

        # if someone removed our file beforhand, lets just flag this issue
        # instead of failing, to make it more usable.
        lfp = self._lock_file_path()
        try:
            rmfile(lfp)
        except OSError:
            pass
        self._owns_lock = False


class BlockingLockFile(LockFile):

    """The lock file will block until a lock could be obtained, or fail after
    a specified timeout.

    :note: If the directory containing the lock was removed, an exception will
        be raised during the blocking period, preventing hangs as the lock
        can never be obtained."""

    __slots__ = ("_check_interval", "_max_block_time")

    def __init__(
        self,
        file_path: PathLike,
        check_interval_s: float = 0.3,
        max_block_time_s: int = maxsize,
    ) -> None:
        """Configure the instance

        :param check_interval_s:
            Period of time to sleep until the lock is checked the next time.
            By default, it waits a nearly unlimited time

        :param max_block_time_s: Maximum amount of seconds we may lock"""
        super(BlockingLockFile, self).__init__(file_path)
        self._check_interval = check_interval_s
        self._max_block_time = max_block_time_s

    def _obtain_lock(self) -> None:
        """This method blocks until it obtained the lock, or raises IOError if
        it ran out of time or if the parent directory was not available anymore.
        If this method returns, you are guaranteed to own the lock"""
        starttime = time.time()
        maxtime = starttime + float(self._max_block_time)
        while True:
            try:
                super(BlockingLockFile, self)._obtain_lock()
            except IOError as e:
                # synity check: if the directory leading to the lockfile is not
                # readable anymore, raise an exception
                curtime = time.time()
                if not osp.isdir(osp.dirname(self._lock_file_path())):
                    msg = "Directory containing the lockfile %r was not readable anymore after waiting %g seconds" % (
                        self._lock_file_path(),
                        curtime - starttime,
                    )
                    raise IOError(msg) from e
                # END handle missing directory

                if curtime >= maxtime:
                    msg = "Waited %g seconds for lock at %r" % (
                        maxtime - starttime,
                        self._lock_file_path(),
                    )
                    raise IOError(msg) from e
                # END abort if we wait too long
                time.sleep(self._check_interval)
            else:
                break
        # END endless loop


class IterableList(List[T_IterableObj]):

    """
    List of iterable objects allowing to query an object by id or by named index::

     heads = repo.heads
     heads.master
     heads['master']
     heads[0]

    Iterable parent objects = [Commit, SubModule, Reference, FetchInfo, PushInfo]
    Iterable via inheritance = [Head, TagReference, RemoteReference]
    ]
    It requires an id_attribute name to be set which will be queried from its
    contained items to have a means for comparison.

    A prefix can be specified which is to be used in case the id returned by the
    items always contains a prefix that does not matter to the user, so it
    can be left out."""

    __slots__ = ("_id_attr", "_prefix")

    def __new__(cls, id_attr: str, prefix: str = "") -> "IterableList[IterableObj]":
        return super(IterableList, cls).__new__(cls)

    def __init__(self, id_attr: str, prefix: str = "") -> None:
        self._id_attr = id_attr
        self._prefix = prefix

    def __contains__(self, attr: object) -> bool:
        # first try identity match for performance
        try:
            rval = list.__contains__(self, attr)
            if rval:
                return rval
        except (AttributeError, TypeError):
            pass
        # END handle match

        # otherwise make a full name search
        try:
            getattr(self, cast(str, attr))  # use cast to silence mypy
            return True
        except (AttributeError, TypeError):
            return False
        # END handle membership

    def __getattr__(self, attr: str) -> T_IterableObj:
        attr = self._prefix + attr
        for item in self:
            if getattr(item, self._id_attr) == attr:
                return item
        # END for each item
        return list.__getattribute__(self, attr)

    def __getitem__(self, index: Union[SupportsIndex, int, slice, str]) -> T_IterableObj:  # type: ignore

        assert isinstance(index, (int, str, slice)), "Index of IterableList should be an int or str"

        if isinstance(index, int):
            return list.__getitem__(self, index)
        elif isinstance(index, slice):
            raise ValueError("Index should be an int or str")
        else:
            try:
                return getattr(self, index)
            except AttributeError as e:
                raise IndexError("No item found with id %r" % (self._prefix + index)) from e
        # END handle getattr

    def __delitem__(self, index: Union[SupportsIndex, int, slice, str]) -> None:

        assert isinstance(index, (int, str)), "Index of IterableList should be an int or str"

        delindex = cast(int, index)
        if not isinstance(index, int):
            delindex = -1
            name = self._prefix + index
            for i, item in enumerate(self):
                if getattr(item, self._id_attr) == name:
                    delindex = i
                    break
                # END search index
            # END for each item
            if delindex == -1:
                raise IndexError("Item with name %s not found" % name)
            # END handle error
        # END get index to delete
        list.__delitem__(self, delindex)


class IterableClassWatcher(type):
    """Metaclass that watches"""

    def __init__(cls, name: str, bases: Tuple, clsdict: Dict) -> None:
        for base in bases:
            if type(base) == IterableClassWatcher:
                warnings.warn(
                    f"GitPython Iterable subclassed by {name}. "
                    "Iterable is deprecated due to naming clash since v3.1.18"
                    " and will be removed in 3.1.20, "
                    "Use IterableObj instead \n",
                    DeprecationWarning,
                    stacklevel=2,
                )


class Iterable(metaclass=IterableClassWatcher):

    """Defines an interface for iterable items which is to assure a uniform
    way to retrieve and iterate items within the git repository"""

    __slots__ = ()
    _id_attribute_ = "attribute that most suitably identifies your instance"

    @classmethod
    def list_items(cls, repo: "Repo", *args: Any, **kwargs: Any) -> Any:
        """
        Deprecated, use IterableObj instead.
        Find all items of this type - subclasses can specify args and kwargs differently.
        If no args are given, subclasses are obliged to return all items if no additional
        arguments arg given.

        :note: Favor the iter_items method as it will

        :return: list(Item,...) list of item instances"""
        out_list: Any = IterableList(cls._id_attribute_)
        out_list.extend(cls.iter_items(repo, *args, **kwargs))
        return out_list

    @classmethod
    def iter_items(cls, repo: "Repo", *args: Any, **kwargs: Any) -> Any:
        # return typed to be compatible with subtypes e.g. Remote
        """For more information about the arguments, see list_items
        :return:  iterator yielding Items"""
        raise NotImplementedError("To be implemented by Subclass")


@runtime_checkable
class IterableObj(Protocol):
    """Defines an interface for iterable items which is to assure a uniform
    way to retrieve and iterate items within the git repository

    Subclasses = [Submodule, Commit, Reference, PushInfo, FetchInfo, Remote]"""

    __slots__ = ()
    _id_attribute_: str

    @classmethod
    def list_items(cls, repo: "Repo", *args: Any, **kwargs: Any) -> IterableList[T_IterableObj]:
        """
        Find all items of this type - subclasses can specify args and kwargs differently.
        If no args are given, subclasses are obliged to return all items if no additional
        arguments arg given.

        :note: Favor the iter_items method as it will

        :return: list(Item,...) list of item instances"""
        out_list: IterableList = IterableList(cls._id_attribute_)
        out_list.extend(cls.iter_items(repo, *args, **kwargs))
        return out_list

    @classmethod
    @abstractmethod
    def iter_items(cls, repo: "Repo", *args: Any, **kwargs: Any) -> Iterator[T_IterableObj]:  # Iterator[T_IterableObj]:
        # return typed to be compatible with subtypes e.g. Remote
        """For more information about the arguments, see list_items
        :return:  iterator yielding Items"""
        raise NotImplementedError("To be implemented by Subclass")


# } END classes


class NullHandler(logging.Handler):
    def emit(self, record: object) -> None:
        pass

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