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Unlike other modules, it's based -around a simple API that does not come with too much magic and is -composable. -""" -from .core import Argument as Argument -from .core import BaseCommand as BaseCommand -from .core import Command as Command -from .core import CommandCollection as CommandCollection -from .core import Context as Context -from .core import Group as Group -from .core import MultiCommand as MultiCommand -from .core import Option as Option -from .core import Parameter as Parameter -from .decorators import argument as argument -from .decorators import command as command -from .decorators import confirmation_option as confirmation_option -from .decorators import group as group -from .decorators import help_option as help_option -from .decorators import make_pass_decorator as make_pass_decorator -from .decorators import option as option -from .decorators import pass_context as pass_context -from .decorators import pass_obj as pass_obj -from .decorators import password_option as password_option -from .decorators import version_option as version_option -from .exceptions import Abort as Abort -from .exceptions import BadArgumentUsage as BadArgumentUsage -from .exceptions import BadOptionUsage as BadOptionUsage -from .exceptions import BadParameter as BadParameter -from .exceptions import ClickException as ClickException -from .exceptions import FileError as FileError -from .exceptions import MissingParameter as MissingParameter -from .exceptions import NoSuchOption as NoSuchOption -from .exceptions import UsageError as UsageError -from .formatting import HelpFormatter as HelpFormatter -from .formatting import wrap_text as wrap_text -from .globals import get_current_context as get_current_context -from .parser import OptionParser as OptionParser -from .termui import clear as clear -from .termui import confirm as confirm -from .termui import echo_via_pager as echo_via_pager -from .termui import edit as edit -from .termui import getchar as getchar -from .termui import launch as launch -from .termui import pause as pause -from .termui import progressbar as progressbar -from .termui import prompt as prompt -from .termui import secho as secho -from .termui import style as style -from .termui import unstyle as unstyle -from .types import BOOL as BOOL -from .types import Choice as Choice -from .types import DateTime as DateTime -from .types import File as File -from .types import FLOAT as FLOAT -from .types import FloatRange as FloatRange -from .types import INT as INT -from .types import IntRange as IntRange -from .types import ParamType as ParamType -from .types import Path as Path -from .types import STRING as STRING -from .types import Tuple as Tuple -from .types import UNPROCESSED as UNPROCESSED -from .types import UUID as UUID -from .utils import echo as echo -from .utils import format_filename as format_filename -from .utils import get_app_dir as get_app_dir -from .utils import get_binary_stream as get_binary_stream -from .utils import get_text_stream as get_text_stream -from .utils import open_file as open_file - -__version__ = "8.1.7" diff --git a/venv/lib/python3.11/site-packages/click/__pycache__/__init__.cpython-311.pyc b/venv/lib/python3.11/site-packages/click/__pycache__/__init__.cpython-311.pyc deleted file mode 100644 index 5c7a0df..0000000 Binary files a/venv/lib/python3.11/site-packages/click/__pycache__/__init__.cpython-311.pyc and /dev/null differ diff --git a/venv/lib/python3.11/site-packages/click/__pycache__/_compat.cpython-311.pyc b/venv/lib/python3.11/site-packages/click/__pycache__/_compat.cpython-311.pyc deleted file mode 100644 index 9445e2f..0000000 Binary files a/venv/lib/python3.11/site-packages/click/__pycache__/_compat.cpython-311.pyc and /dev/null differ diff --git a/venv/lib/python3.11/site-packages/click/__pycache__/_termui_impl.cpython-311.pyc b/venv/lib/python3.11/site-packages/click/__pycache__/_termui_impl.cpython-311.pyc deleted file mode 100644 index 8200660..0000000 Binary files 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- -def _make_text_stream( - stream: t.BinaryIO, - encoding: t.Optional[str], - errors: t.Optional[str], - force_readable: bool = False, - force_writable: bool = False, -) -> t.TextIO: - if encoding is None: - encoding = get_best_encoding(stream) - if errors is None: - errors = "replace" - return _NonClosingTextIOWrapper( - stream, - encoding, - errors, - line_buffering=True, - force_readable=force_readable, - force_writable=force_writable, - ) - - -def is_ascii_encoding(encoding: str) -> bool: - """Checks if a given encoding is ascii.""" - try: - return codecs.lookup(encoding).name == "ascii" - except LookupError: - return False - - -def get_best_encoding(stream: t.IO[t.Any]) -> str: - """Returns the default stream encoding if not found.""" - rv = getattr(stream, "encoding", None) or sys.getdefaultencoding() - if is_ascii_encoding(rv): - return "utf-8" - return rv - - -class _NonClosingTextIOWrapper(io.TextIOWrapper): - def __init__( - self, - stream: t.BinaryIO, - encoding: t.Optional[str], - errors: t.Optional[str], - force_readable: bool = False, - force_writable: bool = False, - **extra: t.Any, - ) -> None: - self._stream = stream = t.cast( - t.BinaryIO, _FixupStream(stream, force_readable, force_writable) - ) - super().__init__(stream, encoding, errors, **extra) - - def __del__(self) -> None: - try: - self.detach() - except Exception: - pass - - def isatty(self) -> bool: - # https://bitbucket.org/pypy/pypy/issue/1803 - return self._stream.isatty() - - -class _FixupStream: - """The new io interface needs more from streams than streams - traditionally implement. As such, this fix-up code is necessary in - some circumstances. - - The forcing of readable and writable flags are there because some tools - put badly patched objects on sys (one such offender are certain version - of jupyter notebook). - """ - - def __init__( - self, - stream: t.BinaryIO, - force_readable: bool = False, - force_writable: bool = False, - ): - self._stream = stream - self._force_readable = force_readable - self._force_writable = force_writable - - def __getattr__(self, name: str) -> t.Any: - return getattr(self._stream, name) - - def read1(self, size: int) -> bytes: - f = getattr(self._stream, "read1", None) - - if f is not None: - return t.cast(bytes, f(size)) - - return self._stream.read(size) - - def readable(self) -> bool: - if self._force_readable: - return True - x = getattr(self._stream, "readable", None) - if x is not None: - return t.cast(bool, x()) - try: - self._stream.read(0) - except Exception: - return False - return True - - def writable(self) -> bool: - if self._force_writable: - return True - x = getattr(self._stream, "writable", None) - if x is not None: - return t.cast(bool, x()) - try: - self._stream.write("") # type: ignore - except Exception: - try: - self._stream.write(b"") - except Exception: - return False - return True - - def seekable(self) -> bool: - x = getattr(self._stream, "seekable", None) - if x is not None: - return t.cast(bool, x()) - try: - self._stream.seek(self._stream.tell()) - except Exception: - return False - return True - - -def _is_binary_reader(stream: t.IO[t.Any], default: bool = False) -> bool: - try: - return isinstance(stream.read(0), bytes) - except Exception: - return default - # This happens in some cases where the stream was already - # closed. In this case, we assume the default. - - -def _is_binary_writer(stream: t.IO[t.Any], default: bool = False) -> bool: - try: - stream.write(b"") - except Exception: - try: - stream.write("") - return False - except Exception: - pass - return default - return True - - -def _find_binary_reader(stream: t.IO[t.Any]) -> t.Optional[t.BinaryIO]: - # We need to figure out if the given stream is already binary. - # This can happen because the official docs recommend detaching - # the streams to get binary streams. Some code might do this, so - # we need to deal with this case explicitly. - if _is_binary_reader(stream, False): - return t.cast(t.BinaryIO, stream) - - buf = getattr(stream, "buffer", None) - - # Same situation here; this time we assume that the buffer is - # actually binary in case it's closed. - if buf is not None and _is_binary_reader(buf, True): - return t.cast(t.BinaryIO, buf) - - return None - - -def _find_binary_writer(stream: t.IO[t.Any]) -> t.Optional[t.BinaryIO]: - # We need to figure out if the given stream is already binary. - # This can happen because the official docs recommend detaching - # the streams to get binary streams. Some code might do this, so - # we need to deal with this case explicitly. - if _is_binary_writer(stream, False): - return t.cast(t.BinaryIO, stream) - - buf = getattr(stream, "buffer", None) - - # Same situation here; this time we assume that the buffer is - # actually binary in case it's closed. - if buf is not None and _is_binary_writer(buf, True): - return t.cast(t.BinaryIO, buf) - - return None - - -def _stream_is_misconfigured(stream: t.TextIO) -> bool: - """A stream is misconfigured if its encoding is ASCII.""" - # If the stream does not have an encoding set, we assume it's set - # to ASCII. This appears to happen in certain unittest - # environments. It's not quite clear what the correct behavior is - # but this at least will force Click to recover somehow. - return is_ascii_encoding(getattr(stream, "encoding", None) or "ascii") - - -def _is_compat_stream_attr(stream: t.TextIO, attr: str, value: t.Optional[str]) -> bool: - """A stream attribute is compatible if it is equal to the - desired value or the desired value is unset and the attribute - has a value. - """ - stream_value = getattr(stream, attr, None) - return stream_value == value or (value is None and stream_value is not None) - - -def _is_compatible_text_stream( - stream: t.TextIO, encoding: t.Optional[str], errors: t.Optional[str] -) -> bool: - """Check if a stream's encoding and errors attributes are - compatible with the desired values. - """ - return _is_compat_stream_attr( - stream, "encoding", encoding - ) and _is_compat_stream_attr(stream, "errors", errors) - - -def _force_correct_text_stream( - text_stream: t.IO[t.Any], - encoding: t.Optional[str], - errors: t.Optional[str], - is_binary: t.Callable[[t.IO[t.Any], bool], bool], - find_binary: t.Callable[[t.IO[t.Any]], t.Optional[t.BinaryIO]], - force_readable: bool = False, - force_writable: bool = False, -) -> t.TextIO: - if is_binary(text_stream, False): - binary_reader = t.cast(t.BinaryIO, text_stream) - else: - text_stream = t.cast(t.TextIO, text_stream) - # If the stream looks compatible, and won't default to a - # misconfigured ascii encoding, return it as-is. - if _is_compatible_text_stream(text_stream, encoding, errors) and not ( - encoding is None and _stream_is_misconfigured(text_stream) - ): - return text_stream - - # Otherwise, get the underlying binary reader. - possible_binary_reader = find_binary(text_stream) - - # If that's not possible, silently use the original reader - # and get mojibake instead of exceptions. - if possible_binary_reader is None: - return text_stream - - binary_reader = possible_binary_reader - - # Default errors to replace instead of strict in order to get - # something that works. - if errors is None: - errors = "replace" - - # Wrap the binary stream in a text stream with the correct - # encoding parameters. - return _make_text_stream( - binary_reader, - encoding, - errors, - force_readable=force_readable, - force_writable=force_writable, - ) - - -def _force_correct_text_reader( - text_reader: t.IO[t.Any], - encoding: t.Optional[str], - errors: t.Optional[str], - force_readable: bool = False, -) -> t.TextIO: - return _force_correct_text_stream( - text_reader, - encoding, - errors, - _is_binary_reader, - _find_binary_reader, - force_readable=force_readable, - ) - - -def _force_correct_text_writer( - text_writer: t.IO[t.Any], - encoding: t.Optional[str], - errors: t.Optional[str], - force_writable: bool = False, -) -> t.TextIO: - return _force_correct_text_stream( - text_writer, - encoding, - errors, - _is_binary_writer, - _find_binary_writer, - force_writable=force_writable, - ) - - -def get_binary_stdin() -> t.BinaryIO: - reader = _find_binary_reader(sys.stdin) - if reader is None: - raise RuntimeError("Was not able to determine binary stream for sys.stdin.") - return reader - - -def get_binary_stdout() -> t.BinaryIO: - writer = _find_binary_writer(sys.stdout) - if writer is None: - raise RuntimeError("Was not able to determine binary stream for sys.stdout.") - return writer - - -def get_binary_stderr() -> t.BinaryIO: - writer = _find_binary_writer(sys.stderr) - if writer is None: - raise RuntimeError("Was not able to determine binary stream for sys.stderr.") - return writer - - -def get_text_stdin( - encoding: t.Optional[str] = None, errors: t.Optional[str] = None -) -> t.TextIO: - rv = _get_windows_console_stream(sys.stdin, encoding, errors) - if rv is not None: - return rv - return _force_correct_text_reader(sys.stdin, encoding, errors, force_readable=True) - - -def get_text_stdout( - encoding: t.Optional[str] = None, errors: t.Optional[str] = None -) -> t.TextIO: - rv = _get_windows_console_stream(sys.stdout, encoding, errors) - if rv is not None: - return rv - return _force_correct_text_writer(sys.stdout, encoding, errors, force_writable=True) - - -def get_text_stderr( - encoding: t.Optional[str] = None, errors: t.Optional[str] = None -) -> t.TextIO: - rv = _get_windows_console_stream(sys.stderr, encoding, errors) - if rv is not None: - return rv - return _force_correct_text_writer(sys.stderr, encoding, errors, force_writable=True) - - -def _wrap_io_open( - file: t.Union[str, "os.PathLike[str]", int], - mode: str, - encoding: t.Optional[str], - errors: t.Optional[str], -) -> t.IO[t.Any]: - """Handles not passing ``encoding`` and ``errors`` in binary mode.""" - if "b" in mode: - return open(file, mode) - - return open(file, mode, encoding=encoding, errors=errors) - - -def open_stream( - filename: "t.Union[str, os.PathLike[str]]", - mode: str = "r", - encoding: t.Optional[str] = None, - errors: t.Optional[str] = "strict", - atomic: bool = False, -) -> t.Tuple[t.IO[t.Any], bool]: - binary = "b" in mode - filename = os.fspath(filename) - - # Standard streams first. These are simple because they ignore the - # atomic flag. Use fsdecode to handle Path("-"). - if os.fsdecode(filename) == "-": - if any(m in mode for m in ["w", "a", "x"]): - if binary: - return get_binary_stdout(), False - return get_text_stdout(encoding=encoding, errors=errors), False - if binary: - return get_binary_stdin(), False - return get_text_stdin(encoding=encoding, errors=errors), False - - # Non-atomic writes directly go out through the regular open functions. - if not atomic: - return _wrap_io_open(filename, mode, encoding, errors), True - - # Some usability stuff for atomic writes - if "a" in mode: - raise ValueError( - "Appending to an existing file is not supported, because that" - " would involve an expensive `copy`-operation to a temporary" - " file. Open the file in normal `w`-mode and copy explicitly" - " if that's what you're after." - ) - if "x" in mode: - raise ValueError("Use the `overwrite`-parameter instead.") - if "w" not in mode: - raise ValueError("Atomic writes only make sense with `w`-mode.") - - # Atomic writes are more complicated. They work by opening a file - # as a proxy in the same folder and then using the fdopen - # functionality to wrap it in a Python file. Then we wrap it in an - # atomic file that moves the file over on close. - import errno - import random - - try: - perm: t.Optional[int] = os.stat(filename).st_mode - except OSError: - perm = None - - flags = os.O_RDWR | os.O_CREAT | os.O_EXCL - - if binary: - flags |= getattr(os, "O_BINARY", 0) - - while True: - tmp_filename = os.path.join( - os.path.dirname(filename), - f".__atomic-write{random.randrange(1 << 32):08x}", - ) - try: - fd = os.open(tmp_filename, flags, 0o666 if perm is None else perm) - break - except OSError as e: - if e.errno == errno.EEXIST or ( - os.name == "nt" - and e.errno == errno.EACCES - and os.path.isdir(e.filename) - and os.access(e.filename, os.W_OK) - ): - continue - raise - - if perm is not None: - os.chmod(tmp_filename, perm) # in case perm includes bits in umask - - f = _wrap_io_open(fd, mode, encoding, errors) - af = _AtomicFile(f, tmp_filename, os.path.realpath(filename)) - return t.cast(t.IO[t.Any], af), True - - -class _AtomicFile: - def __init__(self, f: t.IO[t.Any], tmp_filename: str, real_filename: str) -> None: - self._f = f - self._tmp_filename = tmp_filename - self._real_filename = real_filename - self.closed = False - - @property - def name(self) -> str: - return self._real_filename - - def close(self, delete: bool = False) -> None: - if self.closed: - return - self._f.close() - os.replace(self._tmp_filename, self._real_filename) - self.closed = True - - def __getattr__(self, name: str) -> t.Any: - return getattr(self._f, name) - - def __enter__(self) -> "_AtomicFile": - return self - - def __exit__(self, exc_type: t.Optional[t.Type[BaseException]], *_: t.Any) -> None: - self.close(delete=exc_type is not None) - - def __repr__(self) -> str: - return repr(self._f) - - -def strip_ansi(value: str) -> str: - return _ansi_re.sub("", value) - - -def _is_jupyter_kernel_output(stream: t.IO[t.Any]) -> bool: - while isinstance(stream, (_FixupStream, _NonClosingTextIOWrapper)): - stream = stream._stream - - return stream.__class__.__module__.startswith("ipykernel.") - - -def should_strip_ansi( - stream: t.Optional[t.IO[t.Any]] = None, color: t.Optional[bool] = None -) -> bool: - if color is None: - if stream is None: - stream = sys.stdin - return not isatty(stream) and not _is_jupyter_kernel_output(stream) - return not color - - -# On Windows, wrap the output streams with colorama to support ANSI -# color codes. -# NOTE: double check is needed so mypy does not analyze this on Linux -if sys.platform.startswith("win") and WIN: - from ._winconsole import _get_windows_console_stream - - def _get_argv_encoding() -> str: - import locale - - return locale.getpreferredencoding() - - _ansi_stream_wrappers: t.MutableMapping[t.TextIO, t.TextIO] = WeakKeyDictionary() - - def auto_wrap_for_ansi( # noqa: F811 - stream: t.TextIO, color: t.Optional[bool] = None - ) -> t.TextIO: - """Support ANSI color and style codes on Windows by wrapping a - stream with colorama. - """ - try: - cached = _ansi_stream_wrappers.get(stream) - except Exception: - cached = None - - if cached is not None: - return cached - - import colorama - - strip = should_strip_ansi(stream, color) - ansi_wrapper = colorama.AnsiToWin32(stream, strip=strip) - rv = t.cast(t.TextIO, ansi_wrapper.stream) - _write = rv.write - - def _safe_write(s): - try: - return _write(s) - except BaseException: - ansi_wrapper.reset_all() - raise - - rv.write = _safe_write - - try: - _ansi_stream_wrappers[stream] = rv - except Exception: - pass - - return rv - -else: - - def _get_argv_encoding() -> str: - return getattr(sys.stdin, "encoding", None) or sys.getfilesystemencoding() - - def _get_windows_console_stream( - f: t.TextIO, encoding: t.Optional[str], errors: t.Optional[str] - ) -> t.Optional[t.TextIO]: - return None - - -def term_len(x: str) -> int: - return len(strip_ansi(x)) - - -def isatty(stream: t.IO[t.Any]) -> bool: - try: - return stream.isatty() - except Exception: - return False - - -def _make_cached_stream_func( - src_func: t.Callable[[], t.Optional[t.TextIO]], - wrapper_func: t.Callable[[], t.TextIO], -) -> t.Callable[[], t.Optional[t.TextIO]]: - cache: t.MutableMapping[t.TextIO, t.TextIO] = WeakKeyDictionary() - - def func() -> t.Optional[t.TextIO]: - stream = src_func() - - if stream is None: - return None - - try: - rv = cache.get(stream) - except Exception: - rv = None - if rv is not None: - return rv - rv = wrapper_func() - try: - cache[stream] = rv - except Exception: - pass - return rv - - return func - - -_default_text_stdin = _make_cached_stream_func(lambda: sys.stdin, get_text_stdin) -_default_text_stdout = _make_cached_stream_func(lambda: sys.stdout, get_text_stdout) -_default_text_stderr = _make_cached_stream_func(lambda: sys.stderr, get_text_stderr) - - -binary_streams: t.Mapping[str, t.Callable[[], t.BinaryIO]] = { - "stdin": get_binary_stdin, - "stdout": get_binary_stdout, - "stderr": get_binary_stderr, -} - -text_streams: t.Mapping[ - str, t.Callable[[t.Optional[str], t.Optional[str]], t.TextIO] -] = { - "stdin": get_text_stdin, - "stdout": get_text_stdout, - "stderr": get_text_stderr, -} diff --git a/venv/lib/python3.11/site-packages/click/_termui_impl.py b/venv/lib/python3.11/site-packages/click/_termui_impl.py deleted file mode 100644 index f744657..0000000 --- a/venv/lib/python3.11/site-packages/click/_termui_impl.py +++ /dev/null @@ -1,739 +0,0 @@ -""" -This module contains implementations for the termui module. To keep the -import time of Click down, some infrequently used functionality is -placed in this module and only imported as needed. -""" -import contextlib -import math -import os -import sys -import time -import typing as t -from gettext import gettext as _ -from io import StringIO -from types import TracebackType - -from ._compat import _default_text_stdout -from ._compat import CYGWIN -from ._compat import get_best_encoding -from ._compat import isatty -from ._compat import open_stream -from ._compat import strip_ansi -from ._compat import term_len -from ._compat import WIN -from .exceptions import ClickException -from .utils import echo - -V = t.TypeVar("V") - -if os.name == "nt": - BEFORE_BAR = "\r" - AFTER_BAR = "\n" -else: - BEFORE_BAR = "\r\033[?25l" - AFTER_BAR = "\033[?25h\n" - - -class ProgressBar(t.Generic[V]): - def __init__( - self, - iterable: t.Optional[t.Iterable[V]], - length: t.Optional[int] = None, - fill_char: str = "#", - empty_char: str = " ", - bar_template: str = "%(bar)s", - info_sep: str = " ", - show_eta: bool = True, - show_percent: t.Optional[bool] = None, - show_pos: bool = False, - item_show_func: t.Optional[t.Callable[[t.Optional[V]], t.Optional[str]]] = None, - label: t.Optional[str] = None, - file: t.Optional[t.TextIO] = None, - color: t.Optional[bool] = None, - update_min_steps: int = 1, - width: int = 30, - ) -> None: - self.fill_char = fill_char - self.empty_char = empty_char - self.bar_template = bar_template - self.info_sep = info_sep - self.show_eta = show_eta - self.show_percent = show_percent - self.show_pos = show_pos - self.item_show_func = item_show_func - self.label: str = label or "" - - if file is None: - file = _default_text_stdout() - - # There are no standard streams attached to write to. For example, - # pythonw on Windows. - if file is None: - file = StringIO() - - self.file = file - self.color = color - self.update_min_steps = update_min_steps - self._completed_intervals = 0 - self.width: int = width - self.autowidth: bool = width == 0 - - if length is None: - from operator import length_hint - - length = length_hint(iterable, -1) - - if length == -1: - length = None - if iterable is None: - if length is None: - raise TypeError("iterable or length is required") - iterable = t.cast(t.Iterable[V], range(length)) - self.iter: t.Iterable[V] = iter(iterable) - self.length = length - self.pos = 0 - self.avg: t.List[float] = [] - self.last_eta: float - self.start: float - self.start = self.last_eta = time.time() - self.eta_known: bool = False - self.finished: bool = False - self.max_width: t.Optional[int] = None - self.entered: bool = False - self.current_item: t.Optional[V] = None - self.is_hidden: bool = not isatty(self.file) - self._last_line: t.Optional[str] = None - - def __enter__(self) -> "ProgressBar[V]": - self.entered = True - self.render_progress() - return self - - def __exit__( - self, - exc_type: t.Optional[t.Type[BaseException]], - exc_value: t.Optional[BaseException], - tb: t.Optional[TracebackType], - ) -> None: - self.render_finish() - - def __iter__(self) -> t.Iterator[V]: - if not self.entered: - raise RuntimeError("You need to use progress bars in a with block.") - self.render_progress() - return self.generator() - - def __next__(self) -> V: - # Iteration is defined in terms of a generator function, - # returned by iter(self); use that to define next(). This works - # because `self.iter` is an iterable consumed by that generator, - # so it is re-entry safe. Calling `next(self.generator())` - # twice works and does "what you want". - return next(iter(self)) - - def render_finish(self) -> None: - if self.is_hidden: - return - self.file.write(AFTER_BAR) - self.file.flush() - - @property - def pct(self) -> float: - if self.finished: - return 1.0 - return min(self.pos / (float(self.length or 1) or 1), 1.0) - - @property - def time_per_iteration(self) -> float: - if not self.avg: - return 0.0 - return sum(self.avg) / float(len(self.avg)) - - @property - def eta(self) -> float: - if self.length is not None and not self.finished: - return self.time_per_iteration * (self.length - self.pos) - return 0.0 - - def format_eta(self) -> str: - if self.eta_known: - t = int(self.eta) - seconds = t % 60 - t //= 60 - minutes = t % 60 - t //= 60 - hours = t % 24 - t //= 24 - if t > 0: - return f"{t}d {hours:02}:{minutes:02}:{seconds:02}" - else: - return f"{hours:02}:{minutes:02}:{seconds:02}" - return "" - - def format_pos(self) -> str: - pos = str(self.pos) - if self.length is not None: - pos += f"/{self.length}" - return pos - - def format_pct(self) -> str: - return f"{int(self.pct * 100): 4}%"[1:] - - def format_bar(self) -> str: - if self.length is not None: - bar_length = int(self.pct * self.width) - bar = self.fill_char * bar_length - bar += self.empty_char * (self.width - bar_length) - elif self.finished: - bar = self.fill_char * self.width - else: - chars = list(self.empty_char * (self.width or 1)) - if self.time_per_iteration != 0: - chars[ - int( - (math.cos(self.pos * self.time_per_iteration) / 2.0 + 0.5) - * self.width - ) - ] = self.fill_char - bar = "".join(chars) - return bar - - def format_progress_line(self) -> str: - show_percent = self.show_percent - - info_bits = [] - if self.length is not None and show_percent is None: - show_percent = not self.show_pos - - if self.show_pos: - info_bits.append(self.format_pos()) - if show_percent: - info_bits.append(self.format_pct()) - if self.show_eta and self.eta_known and not self.finished: - info_bits.append(self.format_eta()) - if self.item_show_func is not None: - item_info = self.item_show_func(self.current_item) - if item_info is not None: - info_bits.append(item_info) - - return ( - self.bar_template - % { - "label": self.label, - "bar": self.format_bar(), - "info": self.info_sep.join(info_bits), - } - ).rstrip() - - def render_progress(self) -> None: - import shutil - - if self.is_hidden: - # Only output the label as it changes if the output is not a - # TTY. Use file=stderr if you expect to be piping stdout. - if self._last_line != self.label: - self._last_line = self.label - echo(self.label, file=self.file, color=self.color) - - return - - buf = [] - # Update width in case the terminal has been resized - if self.autowidth: - old_width = self.width - self.width = 0 - clutter_length = term_len(self.format_progress_line()) - new_width = max(0, shutil.get_terminal_size().columns - clutter_length) - if new_width < old_width: - buf.append(BEFORE_BAR) - buf.append(" " * self.max_width) # type: ignore - self.max_width = new_width - self.width = new_width - - clear_width = self.width - if self.max_width is not None: - clear_width = self.max_width - - buf.append(BEFORE_BAR) - line = self.format_progress_line() - line_len = term_len(line) - if self.max_width is None or self.max_width < line_len: - self.max_width = line_len - - buf.append(line) - buf.append(" " * (clear_width - line_len)) - line = "".join(buf) - # Render the line only if it changed. - - if line != self._last_line: - self._last_line = line - echo(line, file=self.file, color=self.color, nl=False) - self.file.flush() - - def make_step(self, n_steps: int) -> None: - self.pos += n_steps - if self.length is not None and self.pos >= self.length: - self.finished = True - - if (time.time() - self.last_eta) < 1.0: - return - - self.last_eta = time.time() - - # self.avg is a rolling list of length <= 7 of steps where steps are - # defined as time elapsed divided by the total progress through - # self.length. - if self.pos: - step = (time.time() - self.start) / self.pos - else: - step = time.time() - self.start - - self.avg = self.avg[-6:] + [step] - - self.eta_known = self.length is not None - - def update(self, n_steps: int, current_item: t.Optional[V] = None) -> None: - """Update the progress bar by advancing a specified number of - steps, and optionally set the ``current_item`` for this new - position. - - :param n_steps: Number of steps to advance. - :param current_item: Optional item to set as ``current_item`` - for the updated position. - - .. versionchanged:: 8.0 - Added the ``current_item`` optional parameter. - - .. versionchanged:: 8.0 - Only render when the number of steps meets the - ``update_min_steps`` threshold. - """ - if current_item is not None: - self.current_item = current_item - - self._completed_intervals += n_steps - - if self._completed_intervals >= self.update_min_steps: - self.make_step(self._completed_intervals) - self.render_progress() - self._completed_intervals = 0 - - def finish(self) -> None: - self.eta_known = False - self.current_item = None - self.finished = True - - def generator(self) -> t.Iterator[V]: - """Return a generator which yields the items added to the bar - during construction, and updates the progress bar *after* the - yielded block returns. - """ - # WARNING: the iterator interface for `ProgressBar` relies on - # this and only works because this is a simple generator which - # doesn't create or manage additional state. If this function - # changes, the impact should be evaluated both against - # `iter(bar)` and `next(bar)`. `next()` in particular may call - # `self.generator()` repeatedly, and this must remain safe in - # order for that interface to work. - if not self.entered: - raise RuntimeError("You need to use progress bars in a with block.") - - if self.is_hidden: - yield from self.iter - else: - for rv in self.iter: - self.current_item = rv - - # This allows show_item_func to be updated before the - # item is processed. Only trigger at the beginning of - # the update interval. - if self._completed_intervals == 0: - self.render_progress() - - yield rv - self.update(1) - - self.finish() - self.render_progress() - - -def pager(generator: t.Iterable[str], color: t.Optional[bool] = None) -> None: - """Decide what method to use for paging through text.""" - stdout = _default_text_stdout() - - # There are no standard streams attached to write to. For example, - # pythonw on Windows. - if stdout is None: - stdout = StringIO() - - if not isatty(sys.stdin) or not isatty(stdout): - return _nullpager(stdout, generator, color) - pager_cmd = (os.environ.get("PAGER", None) or "").strip() - if pager_cmd: - if WIN: - return _tempfilepager(generator, pager_cmd, color) - return _pipepager(generator, pager_cmd, color) - if os.environ.get("TERM") in ("dumb", "emacs"): - return _nullpager(stdout, generator, color) - if WIN or sys.platform.startswith("os2"): - return _tempfilepager(generator, "more <", color) - if hasattr(os, "system") and os.system("(less) 2>/dev/null") == 0: - return _pipepager(generator, "less", color) - - import tempfile - - fd, filename = tempfile.mkstemp() - os.close(fd) - try: - if hasattr(os, "system") and os.system(f'more "{filename}"') == 0: - return _pipepager(generator, "more", color) - return _nullpager(stdout, generator, color) - finally: - os.unlink(filename) - - -def _pipepager(generator: t.Iterable[str], cmd: str, color: t.Optional[bool]) -> None: - """Page through text by feeding it to another program. Invoking a - pager through this might support colors. - """ - import subprocess - - env = dict(os.environ) - - # If we're piping to less we might support colors under the - # condition that - cmd_detail = cmd.rsplit("/", 1)[-1].split() - if color is None and cmd_detail[0] == "less": - less_flags = f"{os.environ.get('LESS', '')}{' '.join(cmd_detail[1:])}" - if not less_flags: - env["LESS"] = "-R" - color = True - elif "r" in less_flags or "R" in less_flags: - color = True - - c = subprocess.Popen(cmd, shell=True, stdin=subprocess.PIPE, env=env) - stdin = t.cast(t.BinaryIO, c.stdin) - encoding = get_best_encoding(stdin) - try: - for text in generator: - if not color: - text = strip_ansi(text) - - stdin.write(text.encode(encoding, "replace")) - except (OSError, KeyboardInterrupt): - pass - else: - stdin.close() - - # Less doesn't respect ^C, but catches it for its own UI purposes (aborting - # search or other commands inside less). - # - # That means when the user hits ^C, the parent process (click) terminates, - # but less is still alive, paging the output and messing up the terminal. - # - # If the user wants to make the pager exit on ^C, they should set - # `LESS='-K'`. It's not our decision to make. - while True: - try: - c.wait() - except KeyboardInterrupt: - pass - else: - break - - -def _tempfilepager( - generator: t.Iterable[str], cmd: str, color: t.Optional[bool] -) -> None: - """Page through text by invoking a program on a temporary file.""" - import tempfile - - fd, filename = tempfile.mkstemp() - # TODO: This never terminates if the passed generator never terminates. - text = "".join(generator) - if not color: - text = strip_ansi(text) - encoding = get_best_encoding(sys.stdout) - with open_stream(filename, "wb")[0] as f: - f.write(text.encode(encoding)) - try: - os.system(f'{cmd} "{filename}"') - finally: - os.close(fd) - os.unlink(filename) - - -def _nullpager( - stream: t.TextIO, generator: t.Iterable[str], color: t.Optional[bool] -) -> None: - """Simply print unformatted text. This is the ultimate fallback.""" - for text in generator: - if not color: - text = strip_ansi(text) - stream.write(text) - - -class Editor: - def __init__( - self, - editor: t.Optional[str] = None, - env: t.Optional[t.Mapping[str, str]] = None, - require_save: bool = True, - extension: str = ".txt", - ) -> None: - self.editor = editor - self.env = env - self.require_save = require_save - self.extension = extension - - def get_editor(self) -> str: - if self.editor is not None: - return self.editor - for key in "VISUAL", "EDITOR": - rv = os.environ.get(key) - if rv: - return rv - if WIN: - return "notepad" - for editor in "sensible-editor", "vim", "nano": - if os.system(f"which {editor} >/dev/null 2>&1") == 0: - return editor - return "vi" - - def edit_file(self, filename: str) -> None: - import subprocess - - editor = self.get_editor() - environ: t.Optional[t.Dict[str, str]] = None - - if self.env: - environ = os.environ.copy() - environ.update(self.env) - - try: - c = subprocess.Popen(f'{editor} "{filename}"', env=environ, shell=True) - exit_code = c.wait() - if exit_code != 0: - raise ClickException( - _("{editor}: Editing failed").format(editor=editor) - ) - except OSError as e: - raise ClickException( - _("{editor}: Editing failed: {e}").format(editor=editor, e=e) - ) from e - - def edit(self, text: t.Optional[t.AnyStr]) -> t.Optional[t.AnyStr]: - import tempfile - - if not text: - data = b"" - elif isinstance(text, (bytes, bytearray)): - data = text - else: - if text and not text.endswith("\n"): - text += "\n" - - if WIN: - data = text.replace("\n", "\r\n").encode("utf-8-sig") - else: - data = text.encode("utf-8") - - fd, name = tempfile.mkstemp(prefix="editor-", suffix=self.extension) - f: t.BinaryIO - - try: - with os.fdopen(fd, "wb") as f: - f.write(data) - - # If the filesystem resolution is 1 second, like Mac OS - # 10.12 Extended, or 2 seconds, like FAT32, and the editor - # closes very fast, require_save can fail. Set the modified - # time to be 2 seconds in the past to work around this. - os.utime(name, (os.path.getatime(name), os.path.getmtime(name) - 2)) - # Depending on the resolution, the exact value might not be - # recorded, so get the new recorded value. - timestamp = os.path.getmtime(name) - - self.edit_file(name) - - if self.require_save and os.path.getmtime(name) == timestamp: - return None - - with open(name, "rb") as f: - rv = f.read() - - if isinstance(text, (bytes, bytearray)): - return rv - - return rv.decode("utf-8-sig").replace("\r\n", "\n") # type: ignore - finally: - os.unlink(name) - - -def open_url(url: str, wait: bool = False, locate: bool = False) -> int: - import subprocess - - def _unquote_file(url: str) -> str: - from urllib.parse import unquote - - if url.startswith("file://"): - url = unquote(url[7:]) - - return url - - if sys.platform == "darwin": - args = ["open"] - if wait: - args.append("-W") - if locate: - args.append("-R") - args.append(_unquote_file(url)) - null = open("/dev/null", "w") - try: - return subprocess.Popen(args, stderr=null).wait() - finally: - null.close() - elif WIN: - if locate: - url = _unquote_file(url.replace('"', "")) - args = f'explorer /select,"{url}"' - else: - url = url.replace('"', "") - wait_str = "/WAIT" if wait else "" - args = f'start {wait_str} "" "{url}"' - return os.system(args) - elif CYGWIN: - if locate: - url = os.path.dirname(_unquote_file(url).replace('"', "")) - args = f'cygstart "{url}"' - else: - url = url.replace('"', "") - wait_str = "-w" if wait else "" - args = f'cygstart {wait_str} "{url}"' - return os.system(args) - - try: - if locate: - url = os.path.dirname(_unquote_file(url)) or "." - else: - url = _unquote_file(url) - c = subprocess.Popen(["xdg-open", url]) - if wait: - return c.wait() - return 0 - except OSError: - if url.startswith(("http://", "https://")) and not locate and not wait: - import webbrowser - - webbrowser.open(url) - return 0 - return 1 - - -def _translate_ch_to_exc(ch: str) -> t.Optional[BaseException]: - if ch == "\x03": - raise KeyboardInterrupt() - - if ch == "\x04" and not WIN: # Unix-like, Ctrl+D - raise EOFError() - - if ch == "\x1a" and WIN: # Windows, Ctrl+Z - raise EOFError() - - return None - - -if WIN: - import msvcrt - - @contextlib.contextmanager - def raw_terminal() -> t.Iterator[int]: - yield -1 - - def getchar(echo: bool) -> str: - # The function `getch` will return a bytes object corresponding to - # the pressed character. Since Windows 10 build 1803, it will also - # return \x00 when called a second time after pressing a regular key. - # - # `getwch` does not share this probably-bugged behavior. Moreover, it - # returns a Unicode object by default, which is what we want. - # - # Either of these functions will return \x00 or \xe0 to indicate - # a special key, and you need to call the same function again to get - # the "rest" of the code. The fun part is that \u00e0 is - # "latin small letter a with grave", so if you type that on a French - # keyboard, you _also_ get a \xe0. - # E.g., consider the Up arrow. This returns \xe0 and then \x48. The - # resulting Unicode string reads as "a with grave" + "capital H". - # This is indistinguishable from when the user actually types - # "a with grave" and then "capital H". - # - # When \xe0 is returned, we assume it's part of a special-key sequence - # and call `getwch` again, but that means that when the user types - # the \u00e0 character, `getchar` doesn't return until a second - # character is typed. - # The alternative is returning immediately, but that would mess up - # cross-platform handling of arrow keys and others that start with - # \xe0. Another option is using `getch`, but then we can't reliably - # read non-ASCII characters, because return values of `getch` are - # limited to the current 8-bit codepage. - # - # Anyway, Click doesn't claim to do this Right(tm), and using `getwch` - # is doing the right thing in more situations than with `getch`. - func: t.Callable[[], str] - - if echo: - func = msvcrt.getwche # type: ignore - else: - func = msvcrt.getwch # type: ignore - - rv = func() - - if rv in ("\x00", "\xe0"): - # \x00 and \xe0 are control characters that indicate special key, - # see above. - rv += func() - - _translate_ch_to_exc(rv) - return rv - -else: - import tty - import termios - - @contextlib.contextmanager - def raw_terminal() -> t.Iterator[int]: - f: t.Optional[t.TextIO] - fd: int - - if not isatty(sys.stdin): - f = open("/dev/tty") - fd = f.fileno() - else: - fd = sys.stdin.fileno() - f = None - - try: - old_settings = termios.tcgetattr(fd) - - try: - tty.setraw(fd) - yield fd - finally: - termios.tcsetattr(fd, termios.TCSADRAIN, old_settings) - sys.stdout.flush() - - if f is not None: - f.close() - except termios.error: - pass - - def getchar(echo: bool) -> str: - with raw_terminal() as fd: - ch = os.read(fd, 32).decode(get_best_encoding(sys.stdin), "replace") - - if echo and isatty(sys.stdout): - sys.stdout.write(ch) - - _translate_ch_to_exc(ch) - return ch diff --git a/venv/lib/python3.11/site-packages/click/_textwrap.py b/venv/lib/python3.11/site-packages/click/_textwrap.py deleted file mode 100644 index b47dcbd..0000000 --- a/venv/lib/python3.11/site-packages/click/_textwrap.py +++ /dev/null @@ -1,49 +0,0 @@ -import textwrap -import typing as t -from contextlib import contextmanager - - -class TextWrapper(textwrap.TextWrapper): - def _handle_long_word( - self, - reversed_chunks: t.List[str], - cur_line: t.List[str], - cur_len: int, - width: int, - ) -> None: - space_left = max(width - cur_len, 1) - - if self.break_long_words: - last = reversed_chunks[-1] - cut = last[:space_left] - res = last[space_left:] - cur_line.append(cut) - reversed_chunks[-1] = res - elif not cur_line: - cur_line.append(reversed_chunks.pop()) - - @contextmanager - def extra_indent(self, indent: str) -> t.Iterator[None]: - old_initial_indent = self.initial_indent - old_subsequent_indent = self.subsequent_indent - self.initial_indent += indent - self.subsequent_indent += indent - - try: - yield - finally: - self.initial_indent = old_initial_indent - self.subsequent_indent = old_subsequent_indent - - def indent_only(self, text: str) -> str: - rv = [] - - for idx, line in enumerate(text.splitlines()): - indent = self.initial_indent - - if idx > 0: - indent = self.subsequent_indent - - rv.append(f"{indent}{line}") - - return "\n".join(rv) diff --git a/venv/lib/python3.11/site-packages/click/_winconsole.py b/venv/lib/python3.11/site-packages/click/_winconsole.py deleted file mode 100644 index 6b20df3..0000000 --- a/venv/lib/python3.11/site-packages/click/_winconsole.py +++ /dev/null @@ -1,279 +0,0 @@ -# This module is based on the excellent work by Adam Bartoš who -# provided a lot of what went into the implementation here in -# the discussion to issue1602 in the Python bug tracker. -# -# There are some general differences in regards to how this works -# compared to the original patches as we do not need to patch -# the entire interpreter but just work in our little world of -# echo and prompt. -import io -import sys -import time -import typing as t -from ctypes import byref -from ctypes import c_char -from ctypes import c_char_p -from ctypes import c_int -from ctypes import c_ssize_t -from ctypes import c_ulong -from ctypes import c_void_p -from ctypes import POINTER -from ctypes import py_object -from ctypes import Structure -from ctypes.wintypes import DWORD -from ctypes.wintypes import HANDLE -from ctypes.wintypes import LPCWSTR -from ctypes.wintypes import LPWSTR - -from ._compat import _NonClosingTextIOWrapper - -assert sys.platform == "win32" -import msvcrt # noqa: E402 -from ctypes import windll # noqa: E402 -from ctypes import WINFUNCTYPE # noqa: E402 - -c_ssize_p = POINTER(c_ssize_t) - -kernel32 = windll.kernel32 -GetStdHandle = kernel32.GetStdHandle -ReadConsoleW = kernel32.ReadConsoleW -WriteConsoleW = kernel32.WriteConsoleW -GetConsoleMode = kernel32.GetConsoleMode -GetLastError = kernel32.GetLastError -GetCommandLineW = WINFUNCTYPE(LPWSTR)(("GetCommandLineW", windll.kernel32)) -CommandLineToArgvW = WINFUNCTYPE(POINTER(LPWSTR), LPCWSTR, POINTER(c_int))( - ("CommandLineToArgvW", windll.shell32) -) -LocalFree = WINFUNCTYPE(c_void_p, c_void_p)(("LocalFree", windll.kernel32)) - -STDIN_HANDLE = GetStdHandle(-10) -STDOUT_HANDLE = GetStdHandle(-11) -STDERR_HANDLE = GetStdHandle(-12) - -PyBUF_SIMPLE = 0 -PyBUF_WRITABLE = 1 - -ERROR_SUCCESS = 0 -ERROR_NOT_ENOUGH_MEMORY = 8 -ERROR_OPERATION_ABORTED = 995 - -STDIN_FILENO = 0 -STDOUT_FILENO = 1 -STDERR_FILENO = 2 - -EOF = b"\x1a" -MAX_BYTES_WRITTEN = 32767 - -try: - from ctypes import pythonapi -except ImportError: - # On PyPy we cannot get buffers so our ability to operate here is - # severely limited. - get_buffer = None -else: - - class Py_buffer(Structure): - _fields_ = [ - ("buf", c_void_p), - ("obj", py_object), - ("len", c_ssize_t), - ("itemsize", c_ssize_t), - ("readonly", c_int), - ("ndim", c_int), - ("format", c_char_p), - ("shape", c_ssize_p), - ("strides", c_ssize_p), - ("suboffsets", c_ssize_p), - ("internal", c_void_p), - ] - - PyObject_GetBuffer = pythonapi.PyObject_GetBuffer - PyBuffer_Release = pythonapi.PyBuffer_Release - - def get_buffer(obj, writable=False): - buf = Py_buffer() - flags = PyBUF_WRITABLE if writable else PyBUF_SIMPLE - PyObject_GetBuffer(py_object(obj), byref(buf), flags) - - try: - buffer_type = c_char * buf.len - return buffer_type.from_address(buf.buf) - finally: - PyBuffer_Release(byref(buf)) - - -class _WindowsConsoleRawIOBase(io.RawIOBase): - def __init__(self, handle): - self.handle = handle - - def isatty(self): - super().isatty() - return True - - -class _WindowsConsoleReader(_WindowsConsoleRawIOBase): - def readable(self): - return True - - def readinto(self, b): - bytes_to_be_read = len(b) - if not bytes_to_be_read: - return 0 - elif bytes_to_be_read % 2: - raise ValueError( - "cannot read odd number of bytes from UTF-16-LE encoded console" - ) - - buffer = get_buffer(b, writable=True) - code_units_to_be_read = bytes_to_be_read // 2 - code_units_read = c_ulong() - - rv = ReadConsoleW( - HANDLE(self.handle), - buffer, - code_units_to_be_read, - byref(code_units_read), - None, - ) - if GetLastError() == ERROR_OPERATION_ABORTED: - # wait for KeyboardInterrupt - time.sleep(0.1) - if not rv: - raise OSError(f"Windows error: {GetLastError()}") - - if buffer[0] == EOF: - return 0 - return 2 * code_units_read.value - - -class _WindowsConsoleWriter(_WindowsConsoleRawIOBase): - def writable(self): - return True - - @staticmethod - def _get_error_message(errno): - if errno == ERROR_SUCCESS: - return "ERROR_SUCCESS" - elif errno == ERROR_NOT_ENOUGH_MEMORY: - return "ERROR_NOT_ENOUGH_MEMORY" - return f"Windows error {errno}" - - def write(self, b): - bytes_to_be_written = len(b) - buf = get_buffer(b) - code_units_to_be_written = min(bytes_to_be_written, MAX_BYTES_WRITTEN) // 2 - code_units_written = c_ulong() - - WriteConsoleW( - HANDLE(self.handle), - buf, - code_units_to_be_written, - byref(code_units_written), - None, - ) - bytes_written = 2 * code_units_written.value - - if bytes_written == 0 and bytes_to_be_written > 0: - raise OSError(self._get_error_message(GetLastError())) - return bytes_written - - -class ConsoleStream: - def __init__(self, text_stream: t.TextIO, byte_stream: t.BinaryIO) -> None: - self._text_stream = text_stream - self.buffer = byte_stream - - @property - def name(self) -> str: - return self.buffer.name - - def write(self, x: t.AnyStr) -> int: - if isinstance(x, str): - return self._text_stream.write(x) - try: - self.flush() - except Exception: - pass - return self.buffer.write(x) - - def writelines(self, lines: t.Iterable[t.AnyStr]) -> None: - for line in lines: - self.write(line) - - def __getattr__(self, name: str) -> t.Any: - return getattr(self._text_stream, name) - - def isatty(self) -> bool: - return self.buffer.isatty() - - def __repr__(self): - return f"" - - -def _get_text_stdin(buffer_stream: t.BinaryIO) -> t.TextIO: - text_stream = _NonClosingTextIOWrapper( - io.BufferedReader(_WindowsConsoleReader(STDIN_HANDLE)), - "utf-16-le", - "strict", - line_buffering=True, - ) - return t.cast(t.TextIO, ConsoleStream(text_stream, buffer_stream)) - - -def _get_text_stdout(buffer_stream: t.BinaryIO) -> t.TextIO: - text_stream = _NonClosingTextIOWrapper( - io.BufferedWriter(_WindowsConsoleWriter(STDOUT_HANDLE)), - "utf-16-le", - "strict", - line_buffering=True, - ) - return t.cast(t.TextIO, ConsoleStream(text_stream, buffer_stream)) - - -def _get_text_stderr(buffer_stream: t.BinaryIO) -> t.TextIO: - text_stream = _NonClosingTextIOWrapper( - io.BufferedWriter(_WindowsConsoleWriter(STDERR_HANDLE)), - "utf-16-le", - "strict", - line_buffering=True, - ) - return t.cast(t.TextIO, ConsoleStream(text_stream, buffer_stream)) - - -_stream_factories: t.Mapping[int, t.Callable[[t.BinaryIO], t.TextIO]] = { - 0: _get_text_stdin, - 1: _get_text_stdout, - 2: _get_text_stderr, -} - - -def _is_console(f: t.TextIO) -> bool: - if not hasattr(f, "fileno"): - return False - - try: - fileno = f.fileno() - except (OSError, io.UnsupportedOperation): - return False - - handle = msvcrt.get_osfhandle(fileno) - return bool(GetConsoleMode(handle, byref(DWORD()))) - - -def _get_windows_console_stream( - f: t.TextIO, encoding: t.Optional[str], errors: t.Optional[str] -) -> t.Optional[t.TextIO]: - if ( - get_buffer is not None - and encoding in {"utf-16-le", None} - and errors in {"strict", None} - and _is_console(f) - ): - func = _stream_factories.get(f.fileno()) - if func is not None: - b = getattr(f, "buffer", None) - - if b is None: - return None - - return func(b) diff --git a/venv/lib/python3.11/site-packages/click/core.py b/venv/lib/python3.11/site-packages/click/core.py deleted file mode 100644 index cc65e89..0000000 --- a/venv/lib/python3.11/site-packages/click/core.py +++ /dev/null @@ -1,3042 +0,0 @@ -import enum -import errno -import inspect -import os -import sys -import typing as t -from collections import abc -from contextlib import contextmanager -from contextlib import ExitStack -from functools import update_wrapper -from gettext import gettext as _ -from gettext import ngettext -from itertools import repeat -from types import TracebackType - -from . import types -from .exceptions import Abort -from .exceptions import BadParameter -from .exceptions import ClickException -from .exceptions import Exit -from .exceptions import MissingParameter -from .exceptions import UsageError -from .formatting import HelpFormatter -from .formatting import join_options -from .globals import pop_context -from .globals import push_context -from .parser import _flag_needs_value -from .parser import OptionParser -from .parser import split_opt -from .termui import confirm -from .termui import prompt -from .termui import style -from .utils import _detect_program_name -from .utils import _expand_args -from .utils import echo -from .utils import make_default_short_help -from .utils import make_str -from .utils import PacifyFlushWrapper - -if t.TYPE_CHECKING: - import typing_extensions as te - from .shell_completion import CompletionItem - -F = t.TypeVar("F", bound=t.Callable[..., t.Any]) -V = t.TypeVar("V") - - -def _complete_visible_commands( - ctx: "Context", incomplete: str -) -> t.Iterator[t.Tuple[str, "Command"]]: - """List all the subcommands of a group that start with the - incomplete value and aren't hidden. - - :param ctx: Invocation context for the group. - :param incomplete: Value being completed. May be empty. - """ - multi = t.cast(MultiCommand, ctx.command) - - for name in multi.list_commands(ctx): - if name.startswith(incomplete): - command = multi.get_command(ctx, name) - - if command is not None and not command.hidden: - yield name, command - - -def _check_multicommand( - base_command: "MultiCommand", cmd_name: str, cmd: "Command", register: bool = False -) -> None: - if not base_command.chain or not isinstance(cmd, MultiCommand): - return - if register: - hint = ( - "It is not possible to add multi commands as children to" - " another multi command that is in chain mode." - ) - else: - hint = ( - "Found a multi command as subcommand to a multi command" - " that is in chain mode. This is not supported." - ) - raise RuntimeError( - f"{hint}. Command {base_command.name!r} is set to chain and" - f" {cmd_name!r} was added as a subcommand but it in itself is a" - f" multi command. ({cmd_name!r} is a {type(cmd).__name__}" - f" within a chained {type(base_command).__name__} named" - f" {base_command.name!r})." - ) - - -def batch(iterable: t.Iterable[V], batch_size: int) -> t.List[t.Tuple[V, ...]]: - return list(zip(*repeat(iter(iterable), batch_size))) - - -@contextmanager -def augment_usage_errors( - ctx: "Context", param: t.Optional["Parameter"] = None -) -> t.Iterator[None]: - """Context manager that attaches extra information to exceptions.""" - try: - yield - except BadParameter as e: - if e.ctx is None: - e.ctx = ctx - if param is not None and e.param is None: - e.param = param - raise - except UsageError as e: - if e.ctx is None: - e.ctx = ctx - raise - - -def iter_params_for_processing( - invocation_order: t.Sequence["Parameter"], - declaration_order: t.Sequence["Parameter"], -) -> t.List["Parameter"]: - """Given a sequence of parameters in the order as should be considered - for processing and an iterable of parameters that exist, this returns - a list in the correct order as they should be processed. - """ - - def sort_key(item: "Parameter") -> t.Tuple[bool, float]: - try: - idx: float = invocation_order.index(item) - except ValueError: - idx = float("inf") - - return not item.is_eager, idx - - return sorted(declaration_order, key=sort_key) - - -class ParameterSource(enum.Enum): - """This is an :class:`~enum.Enum` that indicates the source of a - parameter's value. - - Use :meth:`click.Context.get_parameter_source` to get the - source for a parameter by name. - - .. versionchanged:: 8.0 - Use :class:`~enum.Enum` and drop the ``validate`` method. - - .. versionchanged:: 8.0 - Added the ``PROMPT`` value. - """ - - COMMANDLINE = enum.auto() - """The value was provided by the command line args.""" - ENVIRONMENT = enum.auto() - """The value was provided with an environment variable.""" - DEFAULT = enum.auto() - """Used the default specified by the parameter.""" - DEFAULT_MAP = enum.auto() - """Used a default provided by :attr:`Context.default_map`.""" - PROMPT = enum.auto() - """Used a prompt to confirm a default or provide a value.""" - - -class Context: - """The context is a special internal object that holds state relevant - for the script execution at every single level. It's normally invisible - to commands unless they opt-in to getting access to it. - - The context is useful as it can pass internal objects around and can - control special execution features such as reading data from - environment variables. - - A context can be used as context manager in which case it will call - :meth:`close` on teardown. - - :param command: the command class for this context. - :param parent: the parent context. - :param info_name: the info name for this invocation. Generally this - is the most descriptive name for the script or - command. For the toplevel script it is usually - the name of the script, for commands below it it's - the name of the script. - :param obj: an arbitrary object of user data. - :param auto_envvar_prefix: the prefix to use for automatic environment - variables. If this is `None` then reading - from environment variables is disabled. This - does not affect manually set environment - variables which are always read. - :param default_map: a dictionary (like object) with default values - for parameters. - :param terminal_width: the width of the terminal. The default is - inherit from parent context. If no context - defines the terminal width then auto - detection will be applied. - :param max_content_width: the maximum width for content rendered by - Click (this currently only affects help - pages). This defaults to 80 characters if - not overridden. In other words: even if the - terminal is larger than that, Click will not - format things wider than 80 characters by - default. In addition to that, formatters might - add some safety mapping on the right. - :param resilient_parsing: if this flag is enabled then Click will - parse without any interactivity or callback - invocation. Default values will also be - ignored. This is useful for implementing - things such as completion support. - :param allow_extra_args: if this is set to `True` then extra arguments - at the end will not raise an error and will be - kept on the context. The default is to inherit - from the command. - :param allow_interspersed_args: if this is set to `False` then options - and arguments cannot be mixed. The - default is to inherit from the command. - :param ignore_unknown_options: instructs click to ignore options it does - not know and keeps them for later - processing. - :param help_option_names: optionally a list of strings that define how - the default help parameter is named. The - default is ``['--help']``. - :param token_normalize_func: an optional function that is used to - normalize tokens (options, choices, - etc.). This for instance can be used to - implement case insensitive behavior. - :param color: controls if the terminal supports ANSI colors or not. The - default is autodetection. This is only needed if ANSI - codes are used in texts that Click prints which is by - default not the case. This for instance would affect - help output. - :param show_default: Show the default value for commands. If this - value is not set, it defaults to the value from the parent - context. ``Command.show_default`` overrides this default for the - specific command. - - .. versionchanged:: 8.1 - The ``show_default`` parameter is overridden by - ``Command.show_default``, instead of the other way around. - - .. versionchanged:: 8.0 - The ``show_default`` parameter defaults to the value from the - parent context. - - .. versionchanged:: 7.1 - Added the ``show_default`` parameter. - - .. versionchanged:: 4.0 - Added the ``color``, ``ignore_unknown_options``, and - ``max_content_width`` parameters. - - .. versionchanged:: 3.0 - Added the ``allow_extra_args`` and ``allow_interspersed_args`` - parameters. - - .. versionchanged:: 2.0 - Added the ``resilient_parsing``, ``help_option_names``, and - ``token_normalize_func`` parameters. - """ - - #: The formatter class to create with :meth:`make_formatter`. - #: - #: .. versionadded:: 8.0 - formatter_class: t.Type["HelpFormatter"] = HelpFormatter - - def __init__( - self, - command: "Command", - parent: t.Optional["Context"] = None, - info_name: t.Optional[str] = None, - obj: t.Optional[t.Any] = None, - auto_envvar_prefix: t.Optional[str] = None, - default_map: t.Optional[t.MutableMapping[str, t.Any]] = None, - terminal_width: t.Optional[int] = None, - max_content_width: t.Optional[int] = None, - resilient_parsing: bool = False, - allow_extra_args: t.Optional[bool] = None, - allow_interspersed_args: t.Optional[bool] = None, - ignore_unknown_options: t.Optional[bool] = None, - help_option_names: t.Optional[t.List[str]] = None, - token_normalize_func: t.Optional[t.Callable[[str], str]] = None, - color: t.Optional[bool] = None, - show_default: t.Optional[bool] = None, - ) -> None: - #: the parent context or `None` if none exists. - self.parent = parent - #: the :class:`Command` for this context. - self.command = command - #: the descriptive information name - self.info_name = info_name - #: Map of parameter names to their parsed values. Parameters - #: with ``expose_value=False`` are not stored. - self.params: t.Dict[str, t.Any] = {} - #: the leftover arguments. - self.args: t.List[str] = [] - #: protected arguments. These are arguments that are prepended - #: to `args` when certain parsing scenarios are encountered but - #: must be never propagated to another arguments. This is used - #: to implement nested parsing. - self.protected_args: t.List[str] = [] - #: the collected prefixes of the command's options. - self._opt_prefixes: t.Set[str] = set(parent._opt_prefixes) if parent else set() - - if obj is None and parent is not None: - obj = parent.obj - - #: the user object stored. - self.obj: t.Any = obj - self._meta: t.Dict[str, t.Any] = getattr(parent, "meta", {}) - - #: A dictionary (-like object) with defaults for parameters. - if ( - default_map is None - and info_name is not None - and parent is not None - and parent.default_map is not None - ): - default_map = parent.default_map.get(info_name) - - self.default_map: t.Optional[t.MutableMapping[str, t.Any]] = default_map - - #: This flag indicates if a subcommand is going to be executed. A - #: group callback can use this information to figure out if it's - #: being executed directly or because the execution flow passes - #: onwards to a subcommand. By default it's None, but it can be - #: the name of the subcommand to execute. - #: - #: If chaining is enabled this will be set to ``'*'`` in case - #: any commands are executed. It is however not possible to - #: figure out which ones. If you require this knowledge you - #: should use a :func:`result_callback`. - self.invoked_subcommand: t.Optional[str] = None - - if terminal_width is None and parent is not None: - terminal_width = parent.terminal_width - - #: The width of the terminal (None is autodetection). - self.terminal_width: t.Optional[int] = terminal_width - - if max_content_width is None and parent is not None: - max_content_width = parent.max_content_width - - #: The maximum width of formatted content (None implies a sensible - #: default which is 80 for most things). - self.max_content_width: t.Optional[int] = max_content_width - - if allow_extra_args is None: - allow_extra_args = command.allow_extra_args - - #: Indicates if the context allows extra args or if it should - #: fail on parsing. - #: - #: .. versionadded:: 3.0 - self.allow_extra_args = allow_extra_args - - if allow_interspersed_args is None: - allow_interspersed_args = command.allow_interspersed_args - - #: Indicates if the context allows mixing of arguments and - #: options or not. - #: - #: .. versionadded:: 3.0 - self.allow_interspersed_args: bool = allow_interspersed_args - - if ignore_unknown_options is None: - ignore_unknown_options = command.ignore_unknown_options - - #: Instructs click to ignore options that a command does not - #: understand and will store it on the context for later - #: processing. This is primarily useful for situations where you - #: want to call into external programs. Generally this pattern is - #: strongly discouraged because it's not possibly to losslessly - #: forward all arguments. - #: - #: .. versionadded:: 4.0 - self.ignore_unknown_options: bool = ignore_unknown_options - - if help_option_names is None: - if parent is not None: - help_option_names = parent.help_option_names - else: - help_option_names = ["--help"] - - #: The names for the help options. - self.help_option_names: t.List[str] = help_option_names - - if token_normalize_func is None and parent is not None: - token_normalize_func = parent.token_normalize_func - - #: An optional normalization function for tokens. This is - #: options, choices, commands etc. - self.token_normalize_func: t.Optional[ - t.Callable[[str], str] - ] = token_normalize_func - - #: Indicates if resilient parsing is enabled. In that case Click - #: will do its best to not cause any failures and default values - #: will be ignored. Useful for completion. - self.resilient_parsing: bool = resilient_parsing - - # If there is no envvar prefix yet, but the parent has one and - # the command on this level has a name, we can expand the envvar - # prefix automatically. - if auto_envvar_prefix is None: - if ( - parent is not None - and parent.auto_envvar_prefix is not None - and self.info_name is not None - ): - auto_envvar_prefix = ( - f"{parent.auto_envvar_prefix}_{self.info_name.upper()}" - ) - else: - auto_envvar_prefix = auto_envvar_prefix.upper() - - if auto_envvar_prefix is not None: - auto_envvar_prefix = auto_envvar_prefix.replace("-", "_") - - self.auto_envvar_prefix: t.Optional[str] = auto_envvar_prefix - - if color is None and parent is not None: - color = parent.color - - #: Controls if styling output is wanted or not. - self.color: t.Optional[bool] = color - - if show_default is None and parent is not None: - show_default = parent.show_default - - #: Show option default values when formatting help text. - self.show_default: t.Optional[bool] = show_default - - self._close_callbacks: t.List[t.Callable[[], t.Any]] = [] - self._depth = 0 - self._parameter_source: t.Dict[str, ParameterSource] = {} - self._exit_stack = ExitStack() - - def to_info_dict(self) -> t.Dict[str, t.Any]: - """Gather information that could be useful for a tool generating - user-facing documentation. This traverses the entire CLI - structure. - - .. code-block:: python - - with Context(cli) as ctx: - info = ctx.to_info_dict() - - .. versionadded:: 8.0 - """ - return { - "command": self.command.to_info_dict(self), - "info_name": self.info_name, - "allow_extra_args": self.allow_extra_args, - "allow_interspersed_args": self.allow_interspersed_args, - "ignore_unknown_options": self.ignore_unknown_options, - "auto_envvar_prefix": self.auto_envvar_prefix, - } - - def __enter__(self) -> "Context": - self._depth += 1 - push_context(self) - return self - - def __exit__( - self, - exc_type: t.Optional[t.Type[BaseException]], - exc_value: t.Optional[BaseException], - tb: t.Optional[TracebackType], - ) -> None: - self._depth -= 1 - if self._depth == 0: - self.close() - pop_context() - - @contextmanager - def scope(self, cleanup: bool = True) -> t.Iterator["Context"]: - """This helper method can be used with the context object to promote - it to the current thread local (see :func:`get_current_context`). - The default behavior of this is to invoke the cleanup functions which - can be disabled by setting `cleanup` to `False`. The cleanup - functions are typically used for things such as closing file handles. - - If the cleanup is intended the context object can also be directly - used as a context manager. - - Example usage:: - - with ctx.scope(): - assert get_current_context() is ctx - - This is equivalent:: - - with ctx: - assert get_current_context() is ctx - - .. versionadded:: 5.0 - - :param cleanup: controls if the cleanup functions should be run or - not. The default is to run these functions. In - some situations the context only wants to be - temporarily pushed in which case this can be disabled. - Nested pushes automatically defer the cleanup. - """ - if not cleanup: - self._depth += 1 - try: - with self as rv: - yield rv - finally: - if not cleanup: - self._depth -= 1 - - @property - def meta(self) -> t.Dict[str, t.Any]: - """This is a dictionary which is shared with all the contexts - that are nested. It exists so that click utilities can store some - state here if they need to. It is however the responsibility of - that code to manage this dictionary well. - - The keys are supposed to be unique dotted strings. For instance - module paths are a good choice for it. What is stored in there is - irrelevant for the operation of click. However what is important is - that code that places data here adheres to the general semantics of - the system. - - Example usage:: - - LANG_KEY = f'{__name__}.lang' - - def set_language(value): - ctx = get_current_context() - ctx.meta[LANG_KEY] = value - - def get_language(): - return get_current_context().meta.get(LANG_KEY, 'en_US') - - .. versionadded:: 5.0 - """ - return self._meta - - def make_formatter(self) -> HelpFormatter: - """Creates the :class:`~click.HelpFormatter` for the help and - usage output. - - To quickly customize the formatter class used without overriding - this method, set the :attr:`formatter_class` attribute. - - .. versionchanged:: 8.0 - Added the :attr:`formatter_class` attribute. - """ - return self.formatter_class( - width=self.terminal_width, max_width=self.max_content_width - ) - - def with_resource(self, context_manager: t.ContextManager[V]) -> V: - """Register a resource as if it were used in a ``with`` - statement. The resource will be cleaned up when the context is - popped. - - Uses :meth:`contextlib.ExitStack.enter_context`. It calls the - resource's ``__enter__()`` method and returns the result. When - the context is popped, it closes the stack, which calls the - resource's ``__exit__()`` method. - - To register a cleanup function for something that isn't a - context manager, use :meth:`call_on_close`. Or use something - from :mod:`contextlib` to turn it into a context manager first. - - .. code-block:: python - - @click.group() - @click.option("--name") - @click.pass_context - def cli(ctx): - ctx.obj = ctx.with_resource(connect_db(name)) - - :param context_manager: The context manager to enter. - :return: Whatever ``context_manager.__enter__()`` returns. - - .. versionadded:: 8.0 - """ - return self._exit_stack.enter_context(context_manager) - - def call_on_close(self, f: t.Callable[..., t.Any]) -> t.Callable[..., t.Any]: - """Register a function to be called when the context tears down. - - This can be used to close resources opened during the script - execution. Resources that support Python's context manager - protocol which would be used in a ``with`` statement should be - registered with :meth:`with_resource` instead. - - :param f: The function to execute on teardown. - """ - return self._exit_stack.callback(f) - - def close(self) -> None: - """Invoke all close callbacks registered with - :meth:`call_on_close`, and exit all context managers entered - with :meth:`with_resource`. - """ - self._exit_stack.close() - # In case the context is reused, create a new exit stack. - self._exit_stack = ExitStack() - - @property - def command_path(self) -> str: - """The computed command path. This is used for the ``usage`` - information on the help page. It's automatically created by - combining the info names of the chain of contexts to the root. - """ - rv = "" - if self.info_name is not None: - rv = self.info_name - if self.parent is not None: - parent_command_path = [self.parent.command_path] - - if isinstance(self.parent.command, Command): - for param in self.parent.command.get_params(self): - parent_command_path.extend(param.get_usage_pieces(self)) - - rv = f"{' '.join(parent_command_path)} {rv}" - return rv.lstrip() - - def find_root(self) -> "Context": - """Finds the outermost context.""" - node = self - while node.parent is not None: - node = node.parent - return node - - def find_object(self, object_type: t.Type[V]) -> t.Optional[V]: - """Finds the closest object of a given type.""" - node: t.Optional["Context"] = self - - while node is not None: - if isinstance(node.obj, object_type): - return node.obj - - node = node.parent - - return None - - def ensure_object(self, object_type: t.Type[V]) -> V: - """Like :meth:`find_object` but sets the innermost object to a - new instance of `object_type` if it does not exist. - """ - rv = self.find_object(object_type) - if rv is None: - self.obj = rv = object_type() - return rv - - @t.overload - def lookup_default( - self, name: str, call: "te.Literal[True]" = True - ) -> t.Optional[t.Any]: - ... - - @t.overload - def lookup_default( - self, name: str, call: "te.Literal[False]" = ... - ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: - ... - - def lookup_default(self, name: str, call: bool = True) -> t.Optional[t.Any]: - """Get the default for a parameter from :attr:`default_map`. - - :param name: Name of the parameter. - :param call: If the default is a callable, call it. Disable to - return the callable instead. - - .. versionchanged:: 8.0 - Added the ``call`` parameter. - """ - if self.default_map is not None: - value = self.default_map.get(name) - - if call and callable(value): - return value() - - return value - - return None - - def fail(self, message: str) -> "te.NoReturn": - """Aborts the execution of the program with a specific error - message. - - :param message: the error message to fail with. - """ - raise UsageError(message, self) - - def abort(self) -> "te.NoReturn": - """Aborts the script.""" - raise Abort() - - def exit(self, code: int = 0) -> "te.NoReturn": - """Exits the application with a given exit code.""" - raise Exit(code) - - def get_usage(self) -> str: - """Helper method to get formatted usage string for the current - context and command. - """ - return self.command.get_usage(self) - - def get_help(self) -> str: - """Helper method to get formatted help page for the current - context and command. - """ - return self.command.get_help(self) - - def _make_sub_context(self, command: "Command") -> "Context": - """Create a new context of the same type as this context, but - for a new command. - - :meta private: - """ - return type(self)(command, info_name=command.name, parent=self) - - @t.overload - def invoke( - __self, # noqa: B902 - __callback: "t.Callable[..., V]", - *args: t.Any, - **kwargs: t.Any, - ) -> V: - ... - - @t.overload - def invoke( - __self, # noqa: B902 - __callback: "Command", - *args: t.Any, - **kwargs: t.Any, - ) -> t.Any: - ... - - def invoke( - __self, # noqa: B902 - __callback: t.Union["Command", "t.Callable[..., V]"], - *args: t.Any, - **kwargs: t.Any, - ) -> t.Union[t.Any, V]: - """Invokes a command callback in exactly the way it expects. There - are two ways to invoke this method: - - 1. the first argument can be a callback and all other arguments and - keyword arguments are forwarded directly to the function. - 2. the first argument is a click command object. In that case all - arguments are forwarded as well but proper click parameters - (options and click arguments) must be keyword arguments and Click - will fill in defaults. - - Note that before Click 3.2 keyword arguments were not properly filled - in against the intention of this code and no context was created. For - more information about this change and why it was done in a bugfix - release see :ref:`upgrade-to-3.2`. - - .. versionchanged:: 8.0 - All ``kwargs`` are tracked in :attr:`params` so they will be - passed if :meth:`forward` is called at multiple levels. - """ - if isinstance(__callback, Command): - other_cmd = __callback - - if other_cmd.callback is None: - raise TypeError( - "The given command does not have a callback that can be invoked." - ) - else: - __callback = t.cast("t.Callable[..., V]", other_cmd.callback) - - ctx = __self._make_sub_context(other_cmd) - - for param in other_cmd.params: - if param.name not in kwargs and param.expose_value: - kwargs[param.name] = param.type_cast_value( # type: ignore - ctx, param.get_default(ctx) - ) - - # Track all kwargs as params, so that forward() will pass - # them on in subsequent calls. - ctx.params.update(kwargs) - else: - ctx = __self - - with augment_usage_errors(__self): - with ctx: - return __callback(*args, **kwargs) - - def forward( - __self, __cmd: "Command", *args: t.Any, **kwargs: t.Any # noqa: B902 - ) -> t.Any: - """Similar to :meth:`invoke` but fills in default keyword - arguments from the current context if the other command expects - it. This cannot invoke callbacks directly, only other commands. - - .. versionchanged:: 8.0 - All ``kwargs`` are tracked in :attr:`params` so they will be - passed if ``forward`` is called at multiple levels. - """ - # Can only forward to other commands, not direct callbacks. - if not isinstance(__cmd, Command): - raise TypeError("Callback is not a command.") - - for param in __self.params: - if param not in kwargs: - kwargs[param] = __self.params[param] - - return __self.invoke(__cmd, *args, **kwargs) - - def set_parameter_source(self, name: str, source: ParameterSource) -> None: - """Set the source of a parameter. This indicates the location - from which the value of the parameter was obtained. - - :param name: The name of the parameter. - :param source: A member of :class:`~click.core.ParameterSource`. - """ - self._parameter_source[name] = source - - def get_parameter_source(self, name: str) -> t.Optional[ParameterSource]: - """Get the source of a parameter. This indicates the location - from which the value of the parameter was obtained. - - This can be useful for determining when a user specified a value - on the command line that is the same as the default value. It - will be :attr:`~click.core.ParameterSource.DEFAULT` only if the - value was actually taken from the default. - - :param name: The name of the parameter. - :rtype: ParameterSource - - .. versionchanged:: 8.0 - Returns ``None`` if the parameter was not provided from any - source. - """ - return self._parameter_source.get(name) - - -class BaseCommand: - """The base command implements the minimal API contract of commands. - Most code will never use this as it does not implement a lot of useful - functionality but it can act as the direct subclass of alternative - parsing methods that do not depend on the Click parser. - - For instance, this can be used to bridge Click and other systems like - argparse or docopt. - - Because base commands do not implement a lot of the API that other - parts of Click take for granted, they are not supported for all - operations. For instance, they cannot be used with the decorators - usually and they have no built-in callback system. - - .. versionchanged:: 2.0 - Added the `context_settings` parameter. - - :param name: the name of the command to use unless a group overrides it. - :param context_settings: an optional dictionary with defaults that are - passed to the context object. - """ - - #: The context class to create with :meth:`make_context`. - #: - #: .. versionadded:: 8.0 - context_class: t.Type[Context] = Context - #: the default for the :attr:`Context.allow_extra_args` flag. - allow_extra_args = False - #: the default for the :attr:`Context.allow_interspersed_args` flag. - allow_interspersed_args = True - #: the default for the :attr:`Context.ignore_unknown_options` flag. - ignore_unknown_options = False - - def __init__( - self, - name: t.Optional[str], - context_settings: t.Optional[t.MutableMapping[str, t.Any]] = None, - ) -> None: - #: the name the command thinks it has. Upon registering a command - #: on a :class:`Group` the group will default the command name - #: with this information. You should instead use the - #: :class:`Context`\'s :attr:`~Context.info_name` attribute. - self.name = name - - if context_settings is None: - context_settings = {} - - #: an optional dictionary with defaults passed to the context. - self.context_settings: t.MutableMapping[str, t.Any] = context_settings - - def to_info_dict(self, ctx: Context) -> t.Dict[str, t.Any]: - """Gather information that could be useful for a tool generating - user-facing documentation. This traverses the entire structure - below this command. - - Use :meth:`click.Context.to_info_dict` to traverse the entire - CLI structure. - - :param ctx: A :class:`Context` representing this command. - - .. versionadded:: 8.0 - """ - return {"name": self.name} - - def __repr__(self) -> str: - return f"<{self.__class__.__name__} {self.name}>" - - def get_usage(self, ctx: Context) -> str: - raise NotImplementedError("Base commands cannot get usage") - - def get_help(self, ctx: Context) -> str: - raise NotImplementedError("Base commands cannot get help") - - def make_context( - self, - info_name: t.Optional[str], - args: t.List[str], - parent: t.Optional[Context] = None, - **extra: t.Any, - ) -> Context: - """This function when given an info name and arguments will kick - off the parsing and create a new :class:`Context`. It does not - invoke the actual command callback though. - - To quickly customize the context class used without overriding - this method, set the :attr:`context_class` attribute. - - :param info_name: the info name for this invocation. Generally this - is the most descriptive name for the script or - command. For the toplevel script it's usually - the name of the script, for commands below it's - the name of the command. - :param args: the arguments to parse as list of strings. - :param parent: the parent context if available. - :param extra: extra keyword arguments forwarded to the context - constructor. - - .. versionchanged:: 8.0 - Added the :attr:`context_class` attribute. - """ - for key, value in self.context_settings.items(): - if key not in extra: - extra[key] = value - - ctx = self.context_class( - self, info_name=info_name, parent=parent, **extra # type: ignore - ) - - with ctx.scope(cleanup=False): - self.parse_args(ctx, args) - return ctx - - def parse_args(self, ctx: Context, args: t.List[str]) -> t.List[str]: - """Given a context and a list of arguments this creates the parser - and parses the arguments, then modifies the context as necessary. - This is automatically invoked by :meth:`make_context`. - """ - raise NotImplementedError("Base commands do not know how to parse arguments.") - - def invoke(self, ctx: Context) -> t.Any: - """Given a context, this invokes the command. The default - implementation is raising a not implemented error. - """ - raise NotImplementedError("Base commands are not invocable by default") - - def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: - """Return a list of completions for the incomplete value. Looks - at the names of chained multi-commands. - - Any command could be part of a chained multi-command, so sibling - commands are valid at any point during command completion. Other - command classes will return more completions. - - :param ctx: Invocation context for this command. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - from click.shell_completion import CompletionItem - - results: t.List["CompletionItem"] = [] - - while ctx.parent is not None: - ctx = ctx.parent - - if isinstance(ctx.command, MultiCommand) and ctx.command.chain: - results.extend( - CompletionItem(name, help=command.get_short_help_str()) - for name, command in _complete_visible_commands(ctx, incomplete) - if name not in ctx.protected_args - ) - - return results - - @t.overload - def main( - self, - args: t.Optional[t.Sequence[str]] = None, - prog_name: t.Optional[str] = None, - complete_var: t.Optional[str] = None, - standalone_mode: "te.Literal[True]" = True, - **extra: t.Any, - ) -> "te.NoReturn": - ... - - @t.overload - def main( - self, - args: t.Optional[t.Sequence[str]] = None, - prog_name: t.Optional[str] = None, - complete_var: t.Optional[str] = None, - standalone_mode: bool = ..., - **extra: t.Any, - ) -> t.Any: - ... - - def main( - self, - args: t.Optional[t.Sequence[str]] = None, - prog_name: t.Optional[str] = None, - complete_var: t.Optional[str] = None, - standalone_mode: bool = True, - windows_expand_args: bool = True, - **extra: t.Any, - ) -> t.Any: - """This is the way to invoke a script with all the bells and - whistles as a command line application. This will always terminate - the application after a call. If this is not wanted, ``SystemExit`` - needs to be caught. - - This method is also available by directly calling the instance of - a :class:`Command`. - - :param args: the arguments that should be used for parsing. If not - provided, ``sys.argv[1:]`` is used. - :param prog_name: the program name that should be used. By default - the program name is constructed by taking the file - name from ``sys.argv[0]``. - :param complete_var: the environment variable that controls the - bash completion support. The default is - ``"__COMPLETE"`` with prog_name in - uppercase. - :param standalone_mode: the default behavior is to invoke the script - in standalone mode. Click will then - handle exceptions and convert them into - error messages and the function will never - return but shut down the interpreter. If - this is set to `False` they will be - propagated to the caller and the return - value of this function is the return value - of :meth:`invoke`. - :param windows_expand_args: Expand glob patterns, user dir, and - env vars in command line args on Windows. - :param extra: extra keyword arguments are forwarded to the context - constructor. See :class:`Context` for more information. - - .. versionchanged:: 8.0.1 - Added the ``windows_expand_args`` parameter to allow - disabling command line arg expansion on Windows. - - .. versionchanged:: 8.0 - When taking arguments from ``sys.argv`` on Windows, glob - patterns, user dir, and env vars are expanded. - - .. versionchanged:: 3.0 - Added the ``standalone_mode`` parameter. - """ - if args is None: - args = sys.argv[1:] - - if os.name == "nt" and windows_expand_args: - args = _expand_args(args) - else: - args = list(args) - - if prog_name is None: - prog_name = _detect_program_name() - - # Process shell completion requests and exit early. - self._main_shell_completion(extra, prog_name, complete_var) - - try: - try: - with self.make_context(prog_name, args, **extra) as ctx: - rv = self.invoke(ctx) - if not standalone_mode: - return rv - # it's not safe to `ctx.exit(rv)` here! - # note that `rv` may actually contain data like "1" which - # has obvious effects - # more subtle case: `rv=[None, None]` can come out of - # chained commands which all returned `None` -- so it's not - # even always obvious that `rv` indicates success/failure - # by its truthiness/falsiness - ctx.exit() - except (EOFError, KeyboardInterrupt) as e: - echo(file=sys.stderr) - raise Abort() from e - except ClickException as e: - if not standalone_mode: - raise - e.show() - sys.exit(e.exit_code) - except OSError as e: - if e.errno == errno.EPIPE: - sys.stdout = t.cast(t.TextIO, PacifyFlushWrapper(sys.stdout)) - sys.stderr = t.cast(t.TextIO, PacifyFlushWrapper(sys.stderr)) - sys.exit(1) - else: - raise - except Exit as e: - if standalone_mode: - sys.exit(e.exit_code) - else: - # in non-standalone mode, return the exit code - # note that this is only reached if `self.invoke` above raises - # an Exit explicitly -- thus bypassing the check there which - # would return its result - # the results of non-standalone execution may therefore be - # somewhat ambiguous: if there are codepaths which lead to - # `ctx.exit(1)` and to `return 1`, the caller won't be able to - # tell the difference between the two - return e.exit_code - except Abort: - if not standalone_mode: - raise - echo(_("Aborted!"), file=sys.stderr) - sys.exit(1) - - def _main_shell_completion( - self, - ctx_args: t.MutableMapping[str, t.Any], - prog_name: str, - complete_var: t.Optional[str] = None, - ) -> None: - """Check if the shell is asking for tab completion, process - that, then exit early. Called from :meth:`main` before the - program is invoked. - - :param prog_name: Name of the executable in the shell. - :param complete_var: Name of the environment variable that holds - the completion instruction. Defaults to - ``_{PROG_NAME}_COMPLETE``. - - .. versionchanged:: 8.2.0 - Dots (``.``) in ``prog_name`` are replaced with underscores (``_``). - """ - if complete_var is None: - complete_name = prog_name.replace("-", "_").replace(".", "_") - complete_var = f"_{complete_name}_COMPLETE".upper() - - instruction = os.environ.get(complete_var) - - if not instruction: - return - - from .shell_completion import shell_complete - - rv = shell_complete(self, ctx_args, prog_name, complete_var, instruction) - sys.exit(rv) - - def __call__(self, *args: t.Any, **kwargs: t.Any) -> t.Any: - """Alias for :meth:`main`.""" - return self.main(*args, **kwargs) - - -class Command(BaseCommand): - """Commands are the basic building block of command line interfaces in - Click. A basic command handles command line parsing and might dispatch - more parsing to commands nested below it. - - :param name: the name of the command to use unless a group overrides it. - :param context_settings: an optional dictionary with defaults that are - passed to the context object. - :param callback: the callback to invoke. This is optional. - :param params: the parameters to register with this command. This can - be either :class:`Option` or :class:`Argument` objects. - :param help: the help string to use for this command. - :param epilog: like the help string but it's printed at the end of the - help page after everything else. - :param short_help: the short help to use for this command. This is - shown on the command listing of the parent command. - :param add_help_option: by default each command registers a ``--help`` - option. This can be disabled by this parameter. - :param no_args_is_help: this controls what happens if no arguments are - provided. This option is disabled by default. - If enabled this will add ``--help`` as argument - if no arguments are passed - :param hidden: hide this command from help outputs. - - :param deprecated: issues a message indicating that - the command is deprecated. - - .. versionchanged:: 8.1 - ``help``, ``epilog``, and ``short_help`` are stored unprocessed, - all formatting is done when outputting help text, not at init, - and is done even if not using the ``@command`` decorator. - - .. versionchanged:: 8.0 - Added a ``repr`` showing the command name. - - .. versionchanged:: 7.1 - Added the ``no_args_is_help`` parameter. - - .. versionchanged:: 2.0 - Added the ``context_settings`` parameter. - """ - - def __init__( - self, - name: t.Optional[str], - context_settings: t.Optional[t.MutableMapping[str, t.Any]] = None, - callback: t.Optional[t.Callable[..., t.Any]] = None, - params: t.Optional[t.List["Parameter"]] = None, - help: t.Optional[str] = None, - epilog: t.Optional[str] = None, - short_help: t.Optional[str] = None, - options_metavar: t.Optional[str] = "[OPTIONS]", - add_help_option: bool = True, - no_args_is_help: bool = False, - hidden: bool = False, - deprecated: bool = False, - ) -> None: - super().__init__(name, context_settings) - #: the callback to execute when the command fires. This might be - #: `None` in which case nothing happens. - self.callback = callback - #: the list of parameters for this command in the order they - #: should show up in the help page and execute. Eager parameters - #: will automatically be handled before non eager ones. - self.params: t.List["Parameter"] = params or [] - self.help = help - self.epilog = epilog - self.options_metavar = options_metavar - self.short_help = short_help - self.add_help_option = add_help_option - self.no_args_is_help = no_args_is_help - self.hidden = hidden - self.deprecated = deprecated - - def to_info_dict(self, ctx: Context) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict(ctx) - info_dict.update( - params=[param.to_info_dict() for param in self.get_params(ctx)], - help=self.help, - epilog=self.epilog, - short_help=self.short_help, - hidden=self.hidden, - deprecated=self.deprecated, - ) - return info_dict - - def get_usage(self, ctx: Context) -> str: - """Formats the usage line into a string and returns it. - - Calls :meth:`format_usage` internally. - """ - formatter = ctx.make_formatter() - self.format_usage(ctx, formatter) - return formatter.getvalue().rstrip("\n") - - def get_params(self, ctx: Context) -> t.List["Parameter"]: - rv = self.params - help_option = self.get_help_option(ctx) - - if help_option is not None: - rv = [*rv, help_option] - - return rv - - def format_usage(self, ctx: Context, formatter: HelpFormatter) -> None: - """Writes the usage line into the formatter. - - This is a low-level method called by :meth:`get_usage`. - """ - pieces = self.collect_usage_pieces(ctx) - formatter.write_usage(ctx.command_path, " ".join(pieces)) - - def collect_usage_pieces(self, ctx: Context) -> t.List[str]: - """Returns all the pieces that go into the usage line and returns - it as a list of strings. - """ - rv = [self.options_metavar] if self.options_metavar else [] - - for param in self.get_params(ctx): - rv.extend(param.get_usage_pieces(ctx)) - - return rv - - def get_help_option_names(self, ctx: Context) -> t.List[str]: - """Returns the names for the help option.""" - all_names = set(ctx.help_option_names) - for param in self.params: - all_names.difference_update(param.opts) - all_names.difference_update(param.secondary_opts) - return list(all_names) - - def get_help_option(self, ctx: Context) -> t.Optional["Option"]: - """Returns the help option object.""" - help_options = self.get_help_option_names(ctx) - - if not help_options or not self.add_help_option: - return None - - def show_help(ctx: Context, param: "Parameter", value: str) -> None: - if value and not ctx.resilient_parsing: - echo(ctx.get_help(), color=ctx.color) - ctx.exit() - - return Option( - help_options, - is_flag=True, - is_eager=True, - expose_value=False, - callback=show_help, - help=_("Show this message and exit."), - ) - - def make_parser(self, ctx: Context) -> OptionParser: - """Creates the underlying option parser for this command.""" - parser = OptionParser(ctx) - for param in self.get_params(ctx): - param.add_to_parser(parser, ctx) - return parser - - def get_help(self, ctx: Context) -> str: - """Formats the help into a string and returns it. - - Calls :meth:`format_help` internally. - """ - formatter = ctx.make_formatter() - self.format_help(ctx, formatter) - return formatter.getvalue().rstrip("\n") - - def get_short_help_str(self, limit: int = 45) -> str: - """Gets short help for the command or makes it by shortening the - long help string. - """ - if self.short_help: - text = inspect.cleandoc(self.short_help) - elif self.help: - text = make_default_short_help(self.help, limit) - else: - text = "" - - if self.deprecated: - text = _("(Deprecated) {text}").format(text=text) - - return text.strip() - - def format_help(self, ctx: Context, formatter: HelpFormatter) -> None: - """Writes the help into the formatter if it exists. - - This is a low-level method called by :meth:`get_help`. - - This calls the following methods: - - - :meth:`format_usage` - - :meth:`format_help_text` - - :meth:`format_options` - - :meth:`format_epilog` - """ - self.format_usage(ctx, formatter) - self.format_help_text(ctx, formatter) - self.format_options(ctx, formatter) - self.format_epilog(ctx, formatter) - - def format_help_text(self, ctx: Context, formatter: HelpFormatter) -> None: - """Writes the help text to the formatter if it exists.""" - if self.help is not None: - # truncate the help text to the first form feed - text = inspect.cleandoc(self.help).partition("\f")[0] - else: - text = "" - - if self.deprecated: - text = _("(Deprecated) {text}").format(text=text) - - if text: - formatter.write_paragraph() - - with formatter.indentation(): - formatter.write_text(text) - - def format_options(self, ctx: Context, formatter: HelpFormatter) -> None: - """Writes all the options into the formatter if they exist.""" - opts = [] - for param in self.get_params(ctx): - rv = param.get_help_record(ctx) - if rv is not None: - opts.append(rv) - - if opts: - with formatter.section(_("Options")): - formatter.write_dl(opts) - - def format_epilog(self, ctx: Context, formatter: HelpFormatter) -> None: - """Writes the epilog into the formatter if it exists.""" - if self.epilog: - epilog = inspect.cleandoc(self.epilog) - formatter.write_paragraph() - - with formatter.indentation(): - formatter.write_text(epilog) - - def parse_args(self, ctx: Context, args: t.List[str]) -> t.List[str]: - if not args and self.no_args_is_help and not ctx.resilient_parsing: - echo(ctx.get_help(), color=ctx.color) - ctx.exit() - - parser = self.make_parser(ctx) - opts, args, param_order = parser.parse_args(args=args) - - for param in iter_params_for_processing(param_order, self.get_params(ctx)): - value, args = param.handle_parse_result(ctx, opts, args) - - if args and not ctx.allow_extra_args and not ctx.resilient_parsing: - ctx.fail( - ngettext( - "Got unexpected extra argument ({args})", - "Got unexpected extra arguments ({args})", - len(args), - ).format(args=" ".join(map(str, args))) - ) - - ctx.args = args - ctx._opt_prefixes.update(parser._opt_prefixes) - return args - - def invoke(self, ctx: Context) -> t.Any: - """Given a context, this invokes the attached callback (if it exists) - in the right way. - """ - if self.deprecated: - message = _( - "DeprecationWarning: The command {name!r} is deprecated." - ).format(name=self.name) - echo(style(message, fg="red"), err=True) - - if self.callback is not None: - return ctx.invoke(self.callback, **ctx.params) - - def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: - """Return a list of completions for the incomplete value. Looks - at the names of options and chained multi-commands. - - :param ctx: Invocation context for this command. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - from click.shell_completion import CompletionItem - - results: t.List["CompletionItem"] = [] - - if incomplete and not incomplete[0].isalnum(): - for param in self.get_params(ctx): - if ( - not isinstance(param, Option) - or param.hidden - or ( - not param.multiple - and ctx.get_parameter_source(param.name) # type: ignore - is ParameterSource.COMMANDLINE - ) - ): - continue - - results.extend( - CompletionItem(name, help=param.help) - for name in [*param.opts, *param.secondary_opts] - if name.startswith(incomplete) - ) - - results.extend(super().shell_complete(ctx, incomplete)) - return results - - -class MultiCommand(Command): - """A multi command is the basic implementation of a command that - dispatches to subcommands. The most common version is the - :class:`Group`. - - :param invoke_without_command: this controls how the multi command itself - is invoked. By default it's only invoked - if a subcommand is provided. - :param no_args_is_help: this controls what happens if no arguments are - provided. This option is enabled by default if - `invoke_without_command` is disabled or disabled - if it's enabled. If enabled this will add - ``--help`` as argument if no arguments are - passed. - :param subcommand_metavar: the string that is used in the documentation - to indicate the subcommand place. - :param chain: if this is set to `True` chaining of multiple subcommands - is enabled. This restricts the form of commands in that - they cannot have optional arguments but it allows - multiple commands to be chained together. - :param result_callback: The result callback to attach to this multi - command. This can be set or changed later with the - :meth:`result_callback` decorator. - :param attrs: Other command arguments described in :class:`Command`. - """ - - allow_extra_args = True - allow_interspersed_args = False - - def __init__( - self, - name: t.Optional[str] = None, - invoke_without_command: bool = False, - no_args_is_help: t.Optional[bool] = None, - subcommand_metavar: t.Optional[str] = None, - chain: bool = False, - result_callback: t.Optional[t.Callable[..., t.Any]] = None, - **attrs: t.Any, - ) -> None: - super().__init__(name, **attrs) - - if no_args_is_help is None: - no_args_is_help = not invoke_without_command - - self.no_args_is_help = no_args_is_help - self.invoke_without_command = invoke_without_command - - if subcommand_metavar is None: - if chain: - subcommand_metavar = "COMMAND1 [ARGS]... [COMMAND2 [ARGS]...]..." - else: - subcommand_metavar = "COMMAND [ARGS]..." - - self.subcommand_metavar = subcommand_metavar - self.chain = chain - # The result callback that is stored. This can be set or - # overridden with the :func:`result_callback` decorator. - self._result_callback = result_callback - - if self.chain: - for param in self.params: - if isinstance(param, Argument) and not param.required: - raise RuntimeError( - "Multi commands in chain mode cannot have" - " optional arguments." - ) - - def to_info_dict(self, ctx: Context) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict(ctx) - commands = {} - - for name in self.list_commands(ctx): - command = self.get_command(ctx, name) - - if command is None: - continue - - sub_ctx = ctx._make_sub_context(command) - - with sub_ctx.scope(cleanup=False): - commands[name] = command.to_info_dict(sub_ctx) - - info_dict.update(commands=commands, chain=self.chain) - return info_dict - - def collect_usage_pieces(self, ctx: Context) -> t.List[str]: - rv = super().collect_usage_pieces(ctx) - rv.append(self.subcommand_metavar) - return rv - - def format_options(self, ctx: Context, formatter: HelpFormatter) -> None: - super().format_options(ctx, formatter) - self.format_commands(ctx, formatter) - - def result_callback(self, replace: bool = False) -> t.Callable[[F], F]: - """Adds a result callback to the command. By default if a - result callback is already registered this will chain them but - this can be disabled with the `replace` parameter. The result - callback is invoked with the return value of the subcommand - (or the list of return values from all subcommands if chaining - is enabled) as well as the parameters as they would be passed - to the main callback. - - Example:: - - @click.group() - @click.option('-i', '--input', default=23) - def cli(input): - return 42 - - @cli.result_callback() - def process_result(result, input): - return result + input - - :param replace: if set to `True` an already existing result - callback will be removed. - - .. versionchanged:: 8.0 - Renamed from ``resultcallback``. - - .. versionadded:: 3.0 - """ - - def decorator(f: F) -> F: - old_callback = self._result_callback - - if old_callback is None or replace: - self._result_callback = f - return f - - def function(__value, *args, **kwargs): # type: ignore - inner = old_callback(__value, *args, **kwargs) - return f(inner, *args, **kwargs) - - self._result_callback = rv = update_wrapper(t.cast(F, function), f) - return rv - - return decorator - - def format_commands(self, ctx: Context, formatter: HelpFormatter) -> None: - """Extra format methods for multi methods that adds all the commands - after the options. - """ - commands = [] - for subcommand in self.list_commands(ctx): - cmd = self.get_command(ctx, subcommand) - # What is this, the tool lied about a command. Ignore it - if cmd is None: - continue - if cmd.hidden: - continue - - commands.append((subcommand, cmd)) - - # allow for 3 times the default spacing - if len(commands): - limit = formatter.width - 6 - max(len(cmd[0]) for cmd in commands) - - rows = [] - for subcommand, cmd in commands: - help = cmd.get_short_help_str(limit) - rows.append((subcommand, help)) - - if rows: - with formatter.section(_("Commands")): - formatter.write_dl(rows) - - def parse_args(self, ctx: Context, args: t.List[str]) -> t.List[str]: - if not args and self.no_args_is_help and not ctx.resilient_parsing: - echo(ctx.get_help(), color=ctx.color) - ctx.exit() - - rest = super().parse_args(ctx, args) - - if self.chain: - ctx.protected_args = rest - ctx.args = [] - elif rest: - ctx.protected_args, ctx.args = rest[:1], rest[1:] - - return ctx.args - - def invoke(self, ctx: Context) -> t.Any: - def _process_result(value: t.Any) -> t.Any: - if self._result_callback is not None: - value = ctx.invoke(self._result_callback, value, **ctx.params) - return value - - if not ctx.protected_args: - if self.invoke_without_command: - # No subcommand was invoked, so the result callback is - # invoked with the group return value for regular - # groups, or an empty list for chained groups. - with ctx: - rv = super().invoke(ctx) - return _process_result([] if self.chain else rv) - ctx.fail(_("Missing command.")) - - # Fetch args back out - args = [*ctx.protected_args, *ctx.args] - ctx.args = [] - ctx.protected_args = [] - - # If we're not in chain mode, we only allow the invocation of a - # single command but we also inform the current context about the - # name of the command to invoke. - if not self.chain: - # Make sure the context is entered so we do not clean up - # resources until the result processor has worked. - with ctx: - cmd_name, cmd, args = self.resolve_command(ctx, args) - assert cmd is not None - ctx.invoked_subcommand = cmd_name - super().invoke(ctx) - sub_ctx = cmd.make_context(cmd_name, args, parent=ctx) - with sub_ctx: - return _process_result(sub_ctx.command.invoke(sub_ctx)) - - # In chain mode we create the contexts step by step, but after the - # base command has been invoked. Because at that point we do not - # know the subcommands yet, the invoked subcommand attribute is - # set to ``*`` to inform the command that subcommands are executed - # but nothing else. - with ctx: - ctx.invoked_subcommand = "*" if args else None - super().invoke(ctx) - - # Otherwise we make every single context and invoke them in a - # chain. In that case the return value to the result processor - # is the list of all invoked subcommand's results. - contexts = [] - while args: - cmd_name, cmd, args = self.resolve_command(ctx, args) - assert cmd is not None - sub_ctx = cmd.make_context( - cmd_name, - args, - parent=ctx, - allow_extra_args=True, - allow_interspersed_args=False, - ) - contexts.append(sub_ctx) - args, sub_ctx.args = sub_ctx.args, [] - - rv = [] - for sub_ctx in contexts: - with sub_ctx: - rv.append(sub_ctx.command.invoke(sub_ctx)) - return _process_result(rv) - - def resolve_command( - self, ctx: Context, args: t.List[str] - ) -> t.Tuple[t.Optional[str], t.Optional[Command], t.List[str]]: - cmd_name = make_str(args[0]) - original_cmd_name = cmd_name - - # Get the command - cmd = self.get_command(ctx, cmd_name) - - # If we can't find the command but there is a normalization - # function available, we try with that one. - if cmd is None and ctx.token_normalize_func is not None: - cmd_name = ctx.token_normalize_func(cmd_name) - cmd = self.get_command(ctx, cmd_name) - - # If we don't find the command we want to show an error message - # to the user that it was not provided. However, there is - # something else we should do: if the first argument looks like - # an option we want to kick off parsing again for arguments to - # resolve things like --help which now should go to the main - # place. - if cmd is None and not ctx.resilient_parsing: - if split_opt(cmd_name)[0]: - self.parse_args(ctx, ctx.args) - ctx.fail(_("No such command {name!r}.").format(name=original_cmd_name)) - return cmd_name if cmd else None, cmd, args[1:] - - def get_command(self, ctx: Context, cmd_name: str) -> t.Optional[Command]: - """Given a context and a command name, this returns a - :class:`Command` object if it exists or returns `None`. - """ - raise NotImplementedError - - def list_commands(self, ctx: Context) -> t.List[str]: - """Returns a list of subcommand names in the order they should - appear. - """ - return [] - - def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: - """Return a list of completions for the incomplete value. Looks - at the names of options, subcommands, and chained - multi-commands. - - :param ctx: Invocation context for this command. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - from click.shell_completion import CompletionItem - - results = [ - CompletionItem(name, help=command.get_short_help_str()) - for name, command in _complete_visible_commands(ctx, incomplete) - ] - results.extend(super().shell_complete(ctx, incomplete)) - return results - - -class Group(MultiCommand): - """A group allows a command to have subcommands attached. This is - the most common way to implement nesting in Click. - - :param name: The name of the group command. - :param commands: A dict mapping names to :class:`Command` objects. - Can also be a list of :class:`Command`, which will use - :attr:`Command.name` to create the dict. - :param attrs: Other command arguments described in - :class:`MultiCommand`, :class:`Command`, and - :class:`BaseCommand`. - - .. versionchanged:: 8.0 - The ``commands`` argument can be a list of command objects. - """ - - #: If set, this is used by the group's :meth:`command` decorator - #: as the default :class:`Command` class. This is useful to make all - #: subcommands use a custom command class. - #: - #: .. versionadded:: 8.0 - command_class: t.Optional[t.Type[Command]] = None - - #: If set, this is used by the group's :meth:`group` decorator - #: as the default :class:`Group` class. This is useful to make all - #: subgroups use a custom group class. - #: - #: If set to the special value :class:`type` (literally - #: ``group_class = type``), this group's class will be used as the - #: default class. This makes a custom group class continue to make - #: custom groups. - #: - #: .. versionadded:: 8.0 - group_class: t.Optional[t.Union[t.Type["Group"], t.Type[type]]] = None - # Literal[type] isn't valid, so use Type[type] - - def __init__( - self, - name: t.Optional[str] = None, - commands: t.Optional[ - t.Union[t.MutableMapping[str, Command], t.Sequence[Command]] - ] = None, - **attrs: t.Any, - ) -> None: - super().__init__(name, **attrs) - - if commands is None: - commands = {} - elif isinstance(commands, abc.Sequence): - commands = {c.name: c for c in commands if c.name is not None} - - #: The registered subcommands by their exported names. - self.commands: t.MutableMapping[str, Command] = commands - - def add_command(self, cmd: Command, name: t.Optional[str] = None) -> None: - """Registers another :class:`Command` with this group. If the name - is not provided, the name of the command is used. - """ - name = name or cmd.name - if name is None: - raise TypeError("Command has no name.") - _check_multicommand(self, name, cmd, register=True) - self.commands[name] = cmd - - @t.overload - def command(self, __func: t.Callable[..., t.Any]) -> Command: - ... - - @t.overload - def command( - self, *args: t.Any, **kwargs: t.Any - ) -> t.Callable[[t.Callable[..., t.Any]], Command]: - ... - - def command( - self, *args: t.Any, **kwargs: t.Any - ) -> t.Union[t.Callable[[t.Callable[..., t.Any]], Command], Command]: - """A shortcut decorator for declaring and attaching a command to - the group. This takes the same arguments as :func:`command` and - immediately registers the created command with this group by - calling :meth:`add_command`. - - To customize the command class used, set the - :attr:`command_class` attribute. - - .. versionchanged:: 8.1 - This decorator can be applied without parentheses. - - .. versionchanged:: 8.0 - Added the :attr:`command_class` attribute. - """ - from .decorators import command - - func: t.Optional[t.Callable[..., t.Any]] = None - - if args and callable(args[0]): - assert ( - len(args) == 1 and not kwargs - ), "Use 'command(**kwargs)(callable)' to provide arguments." - (func,) = args - args = () - - if self.command_class and kwargs.get("cls") is None: - kwargs["cls"] = self.command_class - - def decorator(f: t.Callable[..., t.Any]) -> Command: - cmd: Command = command(*args, **kwargs)(f) - self.add_command(cmd) - return cmd - - if func is not None: - return decorator(func) - - return decorator - - @t.overload - def group(self, __func: t.Callable[..., t.Any]) -> "Group": - ... - - @t.overload - def group( - self, *args: t.Any, **kwargs: t.Any - ) -> t.Callable[[t.Callable[..., t.Any]], "Group"]: - ... - - def group( - self, *args: t.Any, **kwargs: t.Any - ) -> t.Union[t.Callable[[t.Callable[..., t.Any]], "Group"], "Group"]: - """A shortcut decorator for declaring and attaching a group to - the group. This takes the same arguments as :func:`group` and - immediately registers the created group with this group by - calling :meth:`add_command`. - - To customize the group class used, set the :attr:`group_class` - attribute. - - .. versionchanged:: 8.1 - This decorator can be applied without parentheses. - - .. versionchanged:: 8.0 - Added the :attr:`group_class` attribute. - """ - from .decorators import group - - func: t.Optional[t.Callable[..., t.Any]] = None - - if args and callable(args[0]): - assert ( - len(args) == 1 and not kwargs - ), "Use 'group(**kwargs)(callable)' to provide arguments." - (func,) = args - args = () - - if self.group_class is not None and kwargs.get("cls") is None: - if self.group_class is type: - kwargs["cls"] = type(self) - else: - kwargs["cls"] = self.group_class - - def decorator(f: t.Callable[..., t.Any]) -> "Group": - cmd: Group = group(*args, **kwargs)(f) - self.add_command(cmd) - return cmd - - if func is not None: - return decorator(func) - - return decorator - - def get_command(self, ctx: Context, cmd_name: str) -> t.Optional[Command]: - return self.commands.get(cmd_name) - - def list_commands(self, ctx: Context) -> t.List[str]: - return sorted(self.commands) - - -class CommandCollection(MultiCommand): - """A command collection is a multi command that merges multiple multi - commands together into one. This is a straightforward implementation - that accepts a list of different multi commands as sources and - provides all the commands for each of them. - - See :class:`MultiCommand` and :class:`Command` for the description of - ``name`` and ``attrs``. - """ - - def __init__( - self, - name: t.Optional[str] = None, - sources: t.Optional[t.List[MultiCommand]] = None, - **attrs: t.Any, - ) -> None: - super().__init__(name, **attrs) - #: The list of registered multi commands. - self.sources: t.List[MultiCommand] = sources or [] - - def add_source(self, multi_cmd: MultiCommand) -> None: - """Adds a new multi command to the chain dispatcher.""" - self.sources.append(multi_cmd) - - def get_command(self, ctx: Context, cmd_name: str) -> t.Optional[Command]: - for source in self.sources: - rv = source.get_command(ctx, cmd_name) - - if rv is not None: - if self.chain: - _check_multicommand(self, cmd_name, rv) - - return rv - - return None - - def list_commands(self, ctx: Context) -> t.List[str]: - rv: t.Set[str] = set() - - for source in self.sources: - rv.update(source.list_commands(ctx)) - - return sorted(rv) - - -def _check_iter(value: t.Any) -> t.Iterator[t.Any]: - """Check if the value is iterable but not a string. Raises a type - error, or return an iterator over the value. - """ - if isinstance(value, str): - raise TypeError - - return iter(value) - - -class Parameter: - r"""A parameter to a command comes in two versions: they are either - :class:`Option`\s or :class:`Argument`\s. Other subclasses are currently - not supported by design as some of the internals for parsing are - intentionally not finalized. - - Some settings are supported by both options and arguments. - - :param param_decls: the parameter declarations for this option or - argument. This is a list of flags or argument - names. - :param type: the type that should be used. Either a :class:`ParamType` - or a Python type. The latter is converted into the former - automatically if supported. - :param required: controls if this is optional or not. - :param default: the default value if omitted. This can also be a callable, - in which case it's invoked when the default is needed - without any arguments. - :param callback: A function to further process or validate the value - after type conversion. It is called as ``f(ctx, param, value)`` - and must return the value. It is called for all sources, - including prompts. - :param nargs: the number of arguments to match. If not ``1`` the return - value is a tuple instead of single value. The default for - nargs is ``1`` (except if the type is a tuple, then it's - the arity of the tuple). If ``nargs=-1``, all remaining - parameters are collected. - :param metavar: how the value is represented in the help page. - :param expose_value: if this is `True` then the value is passed onwards - to the command callback and stored on the context, - otherwise it's skipped. - :param is_eager: eager values are processed before non eager ones. This - should not be set for arguments or it will inverse the - order of processing. - :param envvar: a string or list of strings that are environment variables - that should be checked. - :param shell_complete: A function that returns custom shell - completions. Used instead of the param's type completion if - given. Takes ``ctx, param, incomplete`` and must return a list - of :class:`~click.shell_completion.CompletionItem` or a list of - strings. - - .. versionchanged:: 8.0 - ``process_value`` validates required parameters and bounded - ``nargs``, and invokes the parameter callback before returning - the value. This allows the callback to validate prompts. - ``full_process_value`` is removed. - - .. versionchanged:: 8.0 - ``autocompletion`` is renamed to ``shell_complete`` and has new - semantics described above. The old name is deprecated and will - be removed in 8.1, until then it will be wrapped to match the - new requirements. - - .. versionchanged:: 8.0 - For ``multiple=True, nargs>1``, the default must be a list of - tuples. - - .. versionchanged:: 8.0 - Setting a default is no longer required for ``nargs>1``, it will - default to ``None``. ``multiple=True`` or ``nargs=-1`` will - default to ``()``. - - .. versionchanged:: 7.1 - Empty environment variables are ignored rather than taking the - empty string value. This makes it possible for scripts to clear - variables if they can't unset them. - - .. versionchanged:: 2.0 - Changed signature for parameter callback to also be passed the - parameter. The old callback format will still work, but it will - raise a warning to give you a chance to migrate the code easier. - """ - - param_type_name = "parameter" - - def __init__( - self, - param_decls: t.Optional[t.Sequence[str]] = None, - type: t.Optional[t.Union[types.ParamType, t.Any]] = None, - required: bool = False, - default: t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]] = None, - callback: t.Optional[t.Callable[[Context, "Parameter", t.Any], t.Any]] = None, - nargs: t.Optional[int] = None, - multiple: bool = False, - metavar: t.Optional[str] = None, - expose_value: bool = True, - is_eager: bool = False, - envvar: t.Optional[t.Union[str, t.Sequence[str]]] = None, - shell_complete: t.Optional[ - t.Callable[ - [Context, "Parameter", str], - t.Union[t.List["CompletionItem"], t.List[str]], - ] - ] = None, - ) -> None: - self.name: t.Optional[str] - self.opts: t.List[str] - self.secondary_opts: t.List[str] - self.name, self.opts, self.secondary_opts = self._parse_decls( - param_decls or (), expose_value - ) - self.type: types.ParamType = types.convert_type(type, default) - - # Default nargs to what the type tells us if we have that - # information available. - if nargs is None: - if self.type.is_composite: - nargs = self.type.arity - else: - nargs = 1 - - self.required = required - self.callback = callback - self.nargs = nargs - self.multiple = multiple - self.expose_value = expose_value - self.default = default - self.is_eager = is_eager - self.metavar = metavar - self.envvar = envvar - self._custom_shell_complete = shell_complete - - if __debug__: - if self.type.is_composite and nargs != self.type.arity: - raise ValueError( - f"'nargs' must be {self.type.arity} (or None) for" - f" type {self.type!r}, but it was {nargs}." - ) - - # Skip no default or callable default. - check_default = default if not callable(default) else None - - if check_default is not None: - if multiple: - try: - # Only check the first value against nargs. - check_default = next(_check_iter(check_default), None) - except TypeError: - raise ValueError( - "'default' must be a list when 'multiple' is true." - ) from None - - # Can be None for multiple with empty default. - if nargs != 1 and check_default is not None: - try: - _check_iter(check_default) - except TypeError: - if multiple: - message = ( - "'default' must be a list of lists when 'multiple' is" - " true and 'nargs' != 1." - ) - else: - message = "'default' must be a list when 'nargs' != 1." - - raise ValueError(message) from None - - if nargs > 1 and len(check_default) != nargs: - subject = "item length" if multiple else "length" - raise ValueError( - f"'default' {subject} must match nargs={nargs}." - ) - - def to_info_dict(self) -> t.Dict[str, t.Any]: - """Gather information that could be useful for a tool generating - user-facing documentation. - - Use :meth:`click.Context.to_info_dict` to traverse the entire - CLI structure. - - .. versionadded:: 8.0 - """ - return { - "name": self.name, - "param_type_name": self.param_type_name, - "opts": self.opts, - "secondary_opts": self.secondary_opts, - "type": self.type.to_info_dict(), - "required": self.required, - "nargs": self.nargs, - "multiple": self.multiple, - "default": self.default, - "envvar": self.envvar, - } - - def __repr__(self) -> str: - return f"<{self.__class__.__name__} {self.name}>" - - def _parse_decls( - self, decls: t.Sequence[str], expose_value: bool - ) -> t.Tuple[t.Optional[str], t.List[str], t.List[str]]: - raise NotImplementedError() - - @property - def human_readable_name(self) -> str: - """Returns the human readable name of this parameter. This is the - same as the name for options, but the metavar for arguments. - """ - return self.name # type: ignore - - def make_metavar(self) -> str: - if self.metavar is not None: - return self.metavar - - metavar = self.type.get_metavar(self) - - if metavar is None: - metavar = self.type.name.upper() - - if self.nargs != 1: - metavar += "..." - - return metavar - - @t.overload - def get_default( - self, ctx: Context, call: "te.Literal[True]" = True - ) -> t.Optional[t.Any]: - ... - - @t.overload - def get_default( - self, ctx: Context, call: bool = ... - ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: - ... - - def get_default( - self, ctx: Context, call: bool = True - ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: - """Get the default for the parameter. Tries - :meth:`Context.lookup_default` first, then the local default. - - :param ctx: Current context. - :param call: If the default is a callable, call it. Disable to - return the callable instead. - - .. versionchanged:: 8.0.2 - Type casting is no longer performed when getting a default. - - .. versionchanged:: 8.0.1 - Type casting can fail in resilient parsing mode. Invalid - defaults will not prevent showing help text. - - .. versionchanged:: 8.0 - Looks at ``ctx.default_map`` first. - - .. versionchanged:: 8.0 - Added the ``call`` parameter. - """ - value = ctx.lookup_default(self.name, call=False) # type: ignore - - if value is None: - value = self.default - - if call and callable(value): - value = value() - - return value - - def add_to_parser(self, parser: OptionParser, ctx: Context) -> None: - raise NotImplementedError() - - def consume_value( - self, ctx: Context, opts: t.Mapping[str, t.Any] - ) -> t.Tuple[t.Any, ParameterSource]: - value = opts.get(self.name) # type: ignore - source = ParameterSource.COMMANDLINE - - if value is None: - value = self.value_from_envvar(ctx) - source = ParameterSource.ENVIRONMENT - - if value is None: - value = ctx.lookup_default(self.name) # type: ignore - source = ParameterSource.DEFAULT_MAP - - if value is None: - value = self.get_default(ctx) - source = ParameterSource.DEFAULT - - return value, source - - def type_cast_value(self, ctx: Context, value: t.Any) -> t.Any: - """Convert and validate a value against the option's - :attr:`type`, :attr:`multiple`, and :attr:`nargs`. - """ - if value is None: - return () if self.multiple or self.nargs == -1 else None - - def check_iter(value: t.Any) -> t.Iterator[t.Any]: - try: - return _check_iter(value) - except TypeError: - # This should only happen when passing in args manually, - # the parser should construct an iterable when parsing - # the command line. - raise BadParameter( - _("Value must be an iterable."), ctx=ctx, param=self - ) from None - - if self.nargs == 1 or self.type.is_composite: - - def convert(value: t.Any) -> t.Any: - return self.type(value, param=self, ctx=ctx) - - elif self.nargs == -1: - - def convert(value: t.Any) -> t.Any: # t.Tuple[t.Any, ...] - return tuple(self.type(x, self, ctx) for x in check_iter(value)) - - else: # nargs > 1 - - def convert(value: t.Any) -> t.Any: # t.Tuple[t.Any, ...] - value = tuple(check_iter(value)) - - if len(value) != self.nargs: - raise BadParameter( - ngettext( - "Takes {nargs} values but 1 was given.", - "Takes {nargs} values but {len} were given.", - len(value), - ).format(nargs=self.nargs, len=len(value)), - ctx=ctx, - param=self, - ) - - return tuple(self.type(x, self, ctx) for x in value) - - if self.multiple: - return tuple(convert(x) for x in check_iter(value)) - - return convert(value) - - def value_is_missing(self, value: t.Any) -> bool: - if value is None: - return True - - if (self.nargs != 1 or self.multiple) and value == (): - return True - - return False - - def process_value(self, ctx: Context, value: t.Any) -> t.Any: - value = self.type_cast_value(ctx, value) - - if self.required and self.value_is_missing(value): - raise MissingParameter(ctx=ctx, param=self) - - if self.callback is not None: - value = self.callback(ctx, self, value) - - return value - - def resolve_envvar_value(self, ctx: Context) -> t.Optional[str]: - if self.envvar is None: - return None - - if isinstance(self.envvar, str): - rv = os.environ.get(self.envvar) - - if rv: - return rv - else: - for envvar in self.envvar: - rv = os.environ.get(envvar) - - if rv: - return rv - - return None - - def value_from_envvar(self, ctx: Context) -> t.Optional[t.Any]: - rv: t.Optional[t.Any] = self.resolve_envvar_value(ctx) - - if rv is not None and self.nargs != 1: - rv = self.type.split_envvar_value(rv) - - return rv - - def handle_parse_result( - self, ctx: Context, opts: t.Mapping[str, t.Any], args: t.List[str] - ) -> t.Tuple[t.Any, t.List[str]]: - with augment_usage_errors(ctx, param=self): - value, source = self.consume_value(ctx, opts) - ctx.set_parameter_source(self.name, source) # type: ignore - - try: - value = self.process_value(ctx, value) - except Exception: - if not ctx.resilient_parsing: - raise - - value = None - - if self.expose_value: - ctx.params[self.name] = value # type: ignore - - return value, args - - def get_help_record(self, ctx: Context) -> t.Optional[t.Tuple[str, str]]: - pass - - def get_usage_pieces(self, ctx: Context) -> t.List[str]: - return [] - - def get_error_hint(self, ctx: Context) -> str: - """Get a stringified version of the param for use in error messages to - indicate which param caused the error. - """ - hint_list = self.opts or [self.human_readable_name] - return " / ".join(f"'{x}'" for x in hint_list) - - def shell_complete(self, ctx: Context, incomplete: str) -> t.List["CompletionItem"]: - """Return a list of completions for the incomplete value. If a - ``shell_complete`` function was given during init, it is used. - Otherwise, the :attr:`type` - :meth:`~click.types.ParamType.shell_complete` function is used. - - :param ctx: Invocation context for this command. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - if self._custom_shell_complete is not None: - results = self._custom_shell_complete(ctx, self, incomplete) - - if results and isinstance(results[0], str): - from click.shell_completion import CompletionItem - - results = [CompletionItem(c) for c in results] - - return t.cast(t.List["CompletionItem"], results) - - return self.type.shell_complete(ctx, self, incomplete) - - -class Option(Parameter): - """Options are usually optional values on the command line and - have some extra features that arguments don't have. - - All other parameters are passed onwards to the parameter constructor. - - :param show_default: Show the default value for this option in its - help text. Values are not shown by default, unless - :attr:`Context.show_default` is ``True``. If this value is a - string, it shows that string in parentheses instead of the - actual value. This is particularly useful for dynamic options. - For single option boolean flags, the default remains hidden if - its value is ``False``. - :param show_envvar: Controls if an environment variable should be - shown on the help page. Normally, environment variables are not - shown. - :param prompt: If set to ``True`` or a non empty string then the - user will be prompted for input. If set to ``True`` the prompt - will be the option name capitalized. - :param confirmation_prompt: Prompt a second time to confirm the - value if it was prompted for. Can be set to a string instead of - ``True`` to customize the message. - :param prompt_required: If set to ``False``, the user will be - prompted for input only when the option was specified as a flag - without a value. - :param hide_input: If this is ``True`` then the input on the prompt - will be hidden from the user. This is useful for password input. - :param is_flag: forces this option to act as a flag. The default is - auto detection. - :param flag_value: which value should be used for this flag if it's - enabled. This is set to a boolean automatically if - the option string contains a slash to mark two options. - :param multiple: if this is set to `True` then the argument is accepted - multiple times and recorded. This is similar to ``nargs`` - in how it works but supports arbitrary number of - arguments. - :param count: this flag makes an option increment an integer. - :param allow_from_autoenv: if this is enabled then the value of this - parameter will be pulled from an environment - variable in case a prefix is defined on the - context. - :param help: the help string. - :param hidden: hide this option from help outputs. - :param attrs: Other command arguments described in :class:`Parameter`. - - .. versionchanged:: 8.1.0 - Help text indentation is cleaned here instead of only in the - ``@option`` decorator. - - .. versionchanged:: 8.1.0 - The ``show_default`` parameter overrides - ``Context.show_default``. - - .. versionchanged:: 8.1.0 - The default of a single option boolean flag is not shown if the - default value is ``False``. - - .. versionchanged:: 8.0.1 - ``type`` is detected from ``flag_value`` if given. - """ - - param_type_name = "option" - - def __init__( - self, - param_decls: t.Optional[t.Sequence[str]] = None, - show_default: t.Union[bool, str, None] = None, - prompt: t.Union[bool, str] = False, - confirmation_prompt: t.Union[bool, str] = False, - prompt_required: bool = True, - hide_input: bool = False, - is_flag: t.Optional[bool] = None, - flag_value: t.Optional[t.Any] = None, - multiple: bool = False, - count: bool = False, - allow_from_autoenv: bool = True, - type: t.Optional[t.Union[types.ParamType, t.Any]] = None, - help: t.Optional[str] = None, - hidden: bool = False, - show_choices: bool = True, - show_envvar: bool = False, - **attrs: t.Any, - ) -> None: - if help: - help = inspect.cleandoc(help) - - default_is_missing = "default" not in attrs - super().__init__(param_decls, type=type, multiple=multiple, **attrs) - - if prompt is True: - if self.name is None: - raise TypeError("'name' is required with 'prompt=True'.") - - prompt_text: t.Optional[str] = self.name.replace("_", " ").capitalize() - elif prompt is False: - prompt_text = None - else: - prompt_text = prompt - - self.prompt = prompt_text - self.confirmation_prompt = confirmation_prompt - self.prompt_required = prompt_required - self.hide_input = hide_input - self.hidden = hidden - - # If prompt is enabled but not required, then the option can be - # used as a flag to indicate using prompt or flag_value. - self._flag_needs_value = self.prompt is not None and not self.prompt_required - - if is_flag is None: - if flag_value is not None: - # Implicitly a flag because flag_value was set. - is_flag = True - elif self._flag_needs_value: - # Not a flag, but when used as a flag it shows a prompt. - is_flag = False - else: - # Implicitly a flag because flag options were given. - is_flag = bool(self.secondary_opts) - elif is_flag is False and not self._flag_needs_value: - # Not a flag, and prompt is not enabled, can be used as a - # flag if flag_value is set. - self._flag_needs_value = flag_value is not None - - self.default: t.Union[t.Any, t.Callable[[], t.Any]] - - if is_flag and default_is_missing and not self.required: - if multiple: - self.default = () - else: - self.default = False - - if flag_value is None: - flag_value = not self.default - - self.type: types.ParamType - if is_flag and type is None: - # Re-guess the type from the flag value instead of the - # default. - self.type = types.convert_type(None, flag_value) - - self.is_flag: bool = is_flag - self.is_bool_flag: bool = is_flag and isinstance(self.type, types.BoolParamType) - self.flag_value: t.Any = flag_value - - # Counting - self.count = count - if count: - if type is None: - self.type = types.IntRange(min=0) - if default_is_missing: - self.default = 0 - - self.allow_from_autoenv = allow_from_autoenv - self.help = help - self.show_default = show_default - self.show_choices = show_choices - self.show_envvar = show_envvar - - if __debug__: - if self.nargs == -1: - raise TypeError("nargs=-1 is not supported for options.") - - if self.prompt and self.is_flag and not self.is_bool_flag: - raise TypeError("'prompt' is not valid for non-boolean flag.") - - if not self.is_bool_flag and self.secondary_opts: - raise TypeError("Secondary flag is not valid for non-boolean flag.") - - if self.is_bool_flag and self.hide_input and self.prompt is not None: - raise TypeError( - "'prompt' with 'hide_input' is not valid for boolean flag." - ) - - if self.count: - if self.multiple: - raise TypeError("'count' is not valid with 'multiple'.") - - if self.is_flag: - raise TypeError("'count' is not valid with 'is_flag'.") - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict.update( - help=self.help, - prompt=self.prompt, - is_flag=self.is_flag, - flag_value=self.flag_value, - count=self.count, - hidden=self.hidden, - ) - return info_dict - - def _parse_decls( - self, decls: t.Sequence[str], expose_value: bool - ) -> t.Tuple[t.Optional[str], t.List[str], t.List[str]]: - opts = [] - secondary_opts = [] - name = None - possible_names = [] - - for decl in decls: - if decl.isidentifier(): - if name is not None: - raise TypeError(f"Name '{name}' defined twice") - name = decl - else: - split_char = ";" if decl[:1] == "/" else "/" - if split_char in decl: - first, second = decl.split(split_char, 1) - first = first.rstrip() - if first: - possible_names.append(split_opt(first)) - opts.append(first) - second = second.lstrip() - if second: - secondary_opts.append(second.lstrip()) - if first == second: - raise ValueError( - f"Boolean option {decl!r} cannot use the" - " same flag for true/false." - ) - else: - possible_names.append(split_opt(decl)) - opts.append(decl) - - if name is None and possible_names: - possible_names.sort(key=lambda x: -len(x[0])) # group long options first - name = possible_names[0][1].replace("-", "_").lower() - if not name.isidentifier(): - name = None - - if name is None: - if not expose_value: - return None, opts, secondary_opts - raise TypeError("Could not determine name for option") - - if not opts and not secondary_opts: - raise TypeError( - f"No options defined but a name was passed ({name})." - " Did you mean to declare an argument instead? Did" - f" you mean to pass '--{name}'?" - ) - - return name, opts, secondary_opts - - def add_to_parser(self, parser: OptionParser, ctx: Context) -> None: - if self.multiple: - action = "append" - elif self.count: - action = "count" - else: - action = "store" - - if self.is_flag: - action = f"{action}_const" - - if self.is_bool_flag and self.secondary_opts: - parser.add_option( - obj=self, opts=self.opts, dest=self.name, action=action, const=True - ) - parser.add_option( - obj=self, - opts=self.secondary_opts, - dest=self.name, - action=action, - const=False, - ) - else: - parser.add_option( - obj=self, - opts=self.opts, - dest=self.name, - action=action, - const=self.flag_value, - ) - else: - parser.add_option( - obj=self, - opts=self.opts, - dest=self.name, - action=action, - nargs=self.nargs, - ) - - def get_help_record(self, ctx: Context) -> t.Optional[t.Tuple[str, str]]: - if self.hidden: - return None - - any_prefix_is_slash = False - - def _write_opts(opts: t.Sequence[str]) -> str: - nonlocal any_prefix_is_slash - - rv, any_slashes = join_options(opts) - - if any_slashes: - any_prefix_is_slash = True - - if not self.is_flag and not self.count: - rv += f" {self.make_metavar()}" - - return rv - - rv = [_write_opts(self.opts)] - - if self.secondary_opts: - rv.append(_write_opts(self.secondary_opts)) - - help = self.help or "" - extra = [] - - if self.show_envvar: - envvar = self.envvar - - if envvar is None: - if ( - self.allow_from_autoenv - and ctx.auto_envvar_prefix is not None - and self.name is not None - ): - envvar = f"{ctx.auto_envvar_prefix}_{self.name.upper()}" - - if envvar is not None: - var_str = ( - envvar - if isinstance(envvar, str) - else ", ".join(str(d) for d in envvar) - ) - extra.append(_("env var: {var}").format(var=var_str)) - - # Temporarily enable resilient parsing to avoid type casting - # failing for the default. Might be possible to extend this to - # help formatting in general. - resilient = ctx.resilient_parsing - ctx.resilient_parsing = True - - try: - default_value = self.get_default(ctx, call=False) - finally: - ctx.resilient_parsing = resilient - - show_default = False - show_default_is_str = False - - if self.show_default is not None: - if isinstance(self.show_default, str): - show_default_is_str = show_default = True - else: - show_default = self.show_default - elif ctx.show_default is not None: - show_default = ctx.show_default - - if show_default_is_str or (show_default and (default_value is not None)): - if show_default_is_str: - default_string = f"({self.show_default})" - elif isinstance(default_value, (list, tuple)): - default_string = ", ".join(str(d) for d in default_value) - elif inspect.isfunction(default_value): - default_string = _("(dynamic)") - elif self.is_bool_flag and self.secondary_opts: - # For boolean flags that have distinct True/False opts, - # use the opt without prefix instead of the value. - default_string = split_opt( - (self.opts if self.default else self.secondary_opts)[0] - )[1] - elif self.is_bool_flag and not self.secondary_opts and not default_value: - default_string = "" - else: - default_string = str(default_value) - - if default_string: - extra.append(_("default: {default}").format(default=default_string)) - - if ( - isinstance(self.type, types._NumberRangeBase) - # skip count with default range type - and not (self.count and self.type.min == 0 and self.type.max is None) - ): - range_str = self.type._describe_range() - - if range_str: - extra.append(range_str) - - if self.required: - extra.append(_("required")) - - if extra: - extra_str = "; ".join(extra) - help = f"{help} [{extra_str}]" if help else f"[{extra_str}]" - - return ("; " if any_prefix_is_slash else " / ").join(rv), help - - @t.overload - def get_default( - self, ctx: Context, call: "te.Literal[True]" = True - ) -> t.Optional[t.Any]: - ... - - @t.overload - def get_default( - self, ctx: Context, call: bool = ... - ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: - ... - - def get_default( - self, ctx: Context, call: bool = True - ) -> t.Optional[t.Union[t.Any, t.Callable[[], t.Any]]]: - # If we're a non boolean flag our default is more complex because - # we need to look at all flags in the same group to figure out - # if we're the default one in which case we return the flag - # value as default. - if self.is_flag and not self.is_bool_flag: - for param in ctx.command.params: - if param.name == self.name and param.default: - return t.cast(Option, param).flag_value - - return None - - return super().get_default(ctx, call=call) - - def prompt_for_value(self, ctx: Context) -> t.Any: - """This is an alternative flow that can be activated in the full - value processing if a value does not exist. It will prompt the - user until a valid value exists and then returns the processed - value as result. - """ - assert self.prompt is not None - - # Calculate the default before prompting anything to be stable. - default = self.get_default(ctx) - - # If this is a prompt for a flag we need to handle this - # differently. - if self.is_bool_flag: - return confirm(self.prompt, default) - - return prompt( - self.prompt, - default=default, - type=self.type, - hide_input=self.hide_input, - show_choices=self.show_choices, - confirmation_prompt=self.confirmation_prompt, - value_proc=lambda x: self.process_value(ctx, x), - ) - - def resolve_envvar_value(self, ctx: Context) -> t.Optional[str]: - rv = super().resolve_envvar_value(ctx) - - if rv is not None: - return rv - - if ( - self.allow_from_autoenv - and ctx.auto_envvar_prefix is not None - and self.name is not None - ): - envvar = f"{ctx.auto_envvar_prefix}_{self.name.upper()}" - rv = os.environ.get(envvar) - - if rv: - return rv - - return None - - def value_from_envvar(self, ctx: Context) -> t.Optional[t.Any]: - rv: t.Optional[t.Any] = self.resolve_envvar_value(ctx) - - if rv is None: - return None - - value_depth = (self.nargs != 1) + bool(self.multiple) - - if value_depth > 0: - rv = self.type.split_envvar_value(rv) - - if self.multiple and self.nargs != 1: - rv = batch(rv, self.nargs) - - return rv - - def consume_value( - self, ctx: Context, opts: t.Mapping[str, "Parameter"] - ) -> t.Tuple[t.Any, ParameterSource]: - value, source = super().consume_value(ctx, opts) - - # The parser will emit a sentinel value if the option can be - # given as a flag without a value. This is different from None - # to distinguish from the flag not being given at all. - if value is _flag_needs_value: - if self.prompt is not None and not ctx.resilient_parsing: - value = self.prompt_for_value(ctx) - source = ParameterSource.PROMPT - else: - value = self.flag_value - source = ParameterSource.COMMANDLINE - - elif ( - self.multiple - and value is not None - and any(v is _flag_needs_value for v in value) - ): - value = [self.flag_value if v is _flag_needs_value else v for v in value] - source = ParameterSource.COMMANDLINE - - # The value wasn't set, or used the param's default, prompt if - # prompting is enabled. - elif ( - source in {None, ParameterSource.DEFAULT} - and self.prompt is not None - and (self.required or self.prompt_required) - and not ctx.resilient_parsing - ): - value = self.prompt_for_value(ctx) - source = ParameterSource.PROMPT - - return value, source - - -class Argument(Parameter): - """Arguments are positional parameters to a command. They generally - provide fewer features than options but can have infinite ``nargs`` - and are required by default. - - All parameters are passed onwards to the constructor of :class:`Parameter`. - """ - - param_type_name = "argument" - - def __init__( - self, - param_decls: t.Sequence[str], - required: t.Optional[bool] = None, - **attrs: t.Any, - ) -> None: - if required is None: - if attrs.get("default") is not None: - required = False - else: - required = attrs.get("nargs", 1) > 0 - - if "multiple" in attrs: - raise TypeError("__init__() got an unexpected keyword argument 'multiple'.") - - super().__init__(param_decls, required=required, **attrs) - - if __debug__: - if self.default is not None and self.nargs == -1: - raise TypeError("'default' is not supported for nargs=-1.") - - @property - def human_readable_name(self) -> str: - if self.metavar is not None: - return self.metavar - return self.name.upper() # type: ignore - - def make_metavar(self) -> str: - if self.metavar is not None: - return self.metavar - var = self.type.get_metavar(self) - if not var: - var = self.name.upper() # type: ignore - if not self.required: - var = f"[{var}]" - if self.nargs != 1: - var += "..." - return var - - def _parse_decls( - self, decls: t.Sequence[str], expose_value: bool - ) -> t.Tuple[t.Optional[str], t.List[str], t.List[str]]: - if not decls: - if not expose_value: - return None, [], [] - raise TypeError("Could not determine name for argument") - if len(decls) == 1: - name = arg = decls[0] - name = name.replace("-", "_").lower() - else: - raise TypeError( - "Arguments take exactly one parameter declaration, got" - f" {len(decls)}." - ) - return name, [arg], [] - - def get_usage_pieces(self, ctx: Context) -> t.List[str]: - return [self.make_metavar()] - - def get_error_hint(self, ctx: Context) -> str: - return f"'{self.make_metavar()}'" - - def add_to_parser(self, parser: OptionParser, ctx: Context) -> None: - parser.add_argument(dest=self.name, nargs=self.nargs, obj=self) diff --git a/venv/lib/python3.11/site-packages/click/decorators.py b/venv/lib/python3.11/site-packages/click/decorators.py deleted file mode 100644 index d9bba95..0000000 --- a/venv/lib/python3.11/site-packages/click/decorators.py +++ /dev/null @@ -1,561 +0,0 @@ -import inspect -import types -import typing as t -from functools import update_wrapper -from gettext import gettext as _ - -from .core import Argument -from .core import Command -from .core import Context -from .core import Group -from .core import Option -from .core import Parameter -from .globals import get_current_context -from .utils import echo - -if t.TYPE_CHECKING: - import typing_extensions as te - - P = te.ParamSpec("P") - -R = t.TypeVar("R") -T = t.TypeVar("T") -_AnyCallable = t.Callable[..., t.Any] -FC = t.TypeVar("FC", bound=t.Union[_AnyCallable, Command]) - - -def pass_context(f: "t.Callable[te.Concatenate[Context, P], R]") -> "t.Callable[P, R]": - """Marks a callback as wanting to receive the current context - object as first argument. - """ - - def new_func(*args: "P.args", **kwargs: "P.kwargs") -> "R": - return f(get_current_context(), *args, **kwargs) - - return update_wrapper(new_func, f) - - -def pass_obj(f: "t.Callable[te.Concatenate[t.Any, P], R]") -> "t.Callable[P, R]": - """Similar to :func:`pass_context`, but only pass the object on the - context onwards (:attr:`Context.obj`). This is useful if that object - represents the state of a nested system. - """ - - def new_func(*args: "P.args", **kwargs: "P.kwargs") -> "R": - return f(get_current_context().obj, *args, **kwargs) - - return update_wrapper(new_func, f) - - -def make_pass_decorator( - object_type: t.Type[T], ensure: bool = False -) -> t.Callable[["t.Callable[te.Concatenate[T, P], R]"], "t.Callable[P, R]"]: - """Given an object type this creates a decorator that will work - similar to :func:`pass_obj` but instead of passing the object of the - current context, it will find the innermost context of type - :func:`object_type`. - - This generates a decorator that works roughly like this:: - - from functools import update_wrapper - - def decorator(f): - @pass_context - def new_func(ctx, *args, **kwargs): - obj = ctx.find_object(object_type) - return ctx.invoke(f, obj, *args, **kwargs) - return update_wrapper(new_func, f) - return decorator - - :param object_type: the type of the object to pass. - :param ensure: if set to `True`, a new object will be created and - remembered on the context if it's not there yet. - """ - - def decorator(f: "t.Callable[te.Concatenate[T, P], R]") -> "t.Callable[P, R]": - def new_func(*args: "P.args", **kwargs: "P.kwargs") -> "R": - ctx = get_current_context() - - obj: t.Optional[T] - if ensure: - obj = ctx.ensure_object(object_type) - else: - obj = ctx.find_object(object_type) - - if obj is None: - raise RuntimeError( - "Managed to invoke callback without a context" - f" object of type {object_type.__name__!r}" - " existing." - ) - - return ctx.invoke(f, obj, *args, **kwargs) - - return update_wrapper(new_func, f) - - return decorator # type: ignore[return-value] - - -def pass_meta_key( - key: str, *, doc_description: t.Optional[str] = None -) -> "t.Callable[[t.Callable[te.Concatenate[t.Any, P], R]], t.Callable[P, R]]": - """Create a decorator that passes a key from - :attr:`click.Context.meta` as the first argument to the decorated - function. - - :param key: Key in ``Context.meta`` to pass. - :param doc_description: Description of the object being passed, - inserted into the decorator's docstring. Defaults to "the 'key' - key from Context.meta". - - .. versionadded:: 8.0 - """ - - def decorator(f: "t.Callable[te.Concatenate[t.Any, P], R]") -> "t.Callable[P, R]": - def new_func(*args: "P.args", **kwargs: "P.kwargs") -> R: - ctx = get_current_context() - obj = ctx.meta[key] - return ctx.invoke(f, obj, *args, **kwargs) - - return update_wrapper(new_func, f) - - if doc_description is None: - doc_description = f"the {key!r} key from :attr:`click.Context.meta`" - - decorator.__doc__ = ( - f"Decorator that passes {doc_description} as the first argument" - " to the decorated function." - ) - return decorator # type: ignore[return-value] - - -CmdType = t.TypeVar("CmdType", bound=Command) - - -# variant: no call, directly as decorator for a function. -@t.overload -def command(name: _AnyCallable) -> Command: - ... - - -# variant: with positional name and with positional or keyword cls argument: -# @command(namearg, CommandCls, ...) or @command(namearg, cls=CommandCls, ...) -@t.overload -def command( - name: t.Optional[str], - cls: t.Type[CmdType], - **attrs: t.Any, -) -> t.Callable[[_AnyCallable], CmdType]: - ... - - -# variant: name omitted, cls _must_ be a keyword argument, @command(cls=CommandCls, ...) -@t.overload -def command( - name: None = None, - *, - cls: t.Type[CmdType], - **attrs: t.Any, -) -> t.Callable[[_AnyCallable], CmdType]: - ... - - -# variant: with optional string name, no cls argument provided. -@t.overload -def command( - name: t.Optional[str] = ..., cls: None = None, **attrs: t.Any -) -> t.Callable[[_AnyCallable], Command]: - ... - - -def command( - name: t.Union[t.Optional[str], _AnyCallable] = None, - cls: t.Optional[t.Type[CmdType]] = None, - **attrs: t.Any, -) -> t.Union[Command, t.Callable[[_AnyCallable], t.Union[Command, CmdType]]]: - r"""Creates a new :class:`Command` and uses the decorated function as - callback. This will also automatically attach all decorated - :func:`option`\s and :func:`argument`\s as parameters to the command. - - The name of the command defaults to the name of the function with - underscores replaced by dashes. If you want to change that, you can - pass the intended name as the first argument. - - All keyword arguments are forwarded to the underlying command class. - For the ``params`` argument, any decorated params are appended to - the end of the list. - - Once decorated the function turns into a :class:`Command` instance - that can be invoked as a command line utility or be attached to a - command :class:`Group`. - - :param name: the name of the command. This defaults to the function - name with underscores replaced by dashes. - :param cls: the command class to instantiate. This defaults to - :class:`Command`. - - .. versionchanged:: 8.1 - This decorator can be applied without parentheses. - - .. versionchanged:: 8.1 - The ``params`` argument can be used. Decorated params are - appended to the end of the list. - """ - - func: t.Optional[t.Callable[[_AnyCallable], t.Any]] = None - - if callable(name): - func = name - name = None - assert cls is None, "Use 'command(cls=cls)(callable)' to specify a class." - assert not attrs, "Use 'command(**kwargs)(callable)' to provide arguments." - - if cls is None: - cls = t.cast(t.Type[CmdType], Command) - - def decorator(f: _AnyCallable) -> CmdType: - if isinstance(f, Command): - raise TypeError("Attempted to convert a callback into a command twice.") - - attr_params = attrs.pop("params", None) - params = attr_params if attr_params is not None else [] - - try: - decorator_params = f.__click_params__ # type: ignore - except AttributeError: - pass - else: - del f.__click_params__ # type: ignore - params.extend(reversed(decorator_params)) - - if attrs.get("help") is None: - attrs["help"] = f.__doc__ - - if t.TYPE_CHECKING: - assert cls is not None - assert not callable(name) - - cmd = cls( - name=name or f.__name__.lower().replace("_", "-"), - callback=f, - params=params, - **attrs, - ) - cmd.__doc__ = f.__doc__ - return cmd - - if func is not None: - return decorator(func) - - return decorator - - -GrpType = t.TypeVar("GrpType", bound=Group) - - -# variant: no call, directly as decorator for a function. -@t.overload -def group(name: _AnyCallable) -> Group: - ... - - -# variant: with positional name and with positional or keyword cls argument: -# @group(namearg, GroupCls, ...) or @group(namearg, cls=GroupCls, ...) -@t.overload -def group( - name: t.Optional[str], - cls: t.Type[GrpType], - **attrs: t.Any, -) -> t.Callable[[_AnyCallable], GrpType]: - ... - - -# variant: name omitted, cls _must_ be a keyword argument, @group(cmd=GroupCls, ...) -@t.overload -def group( - name: None = None, - *, - cls: t.Type[GrpType], - **attrs: t.Any, -) -> t.Callable[[_AnyCallable], GrpType]: - ... - - -# variant: with optional string name, no cls argument provided. -@t.overload -def group( - name: t.Optional[str] = ..., cls: None = None, **attrs: t.Any -) -> t.Callable[[_AnyCallable], Group]: - ... - - -def group( - name: t.Union[str, _AnyCallable, None] = None, - cls: t.Optional[t.Type[GrpType]] = None, - **attrs: t.Any, -) -> t.Union[Group, t.Callable[[_AnyCallable], t.Union[Group, GrpType]]]: - """Creates a new :class:`Group` with a function as callback. This - works otherwise the same as :func:`command` just that the `cls` - parameter is set to :class:`Group`. - - .. versionchanged:: 8.1 - This decorator can be applied without parentheses. - """ - if cls is None: - cls = t.cast(t.Type[GrpType], Group) - - if callable(name): - return command(cls=cls, **attrs)(name) - - return command(name, cls, **attrs) - - -def _param_memo(f: t.Callable[..., t.Any], param: Parameter) -> None: - if isinstance(f, Command): - f.params.append(param) - else: - if not hasattr(f, "__click_params__"): - f.__click_params__ = [] # type: ignore - - f.__click_params__.append(param) # type: ignore - - -def argument( - *param_decls: str, cls: t.Optional[t.Type[Argument]] = None, **attrs: t.Any -) -> t.Callable[[FC], FC]: - """Attaches an argument to the command. All positional arguments are - passed as parameter declarations to :class:`Argument`; all keyword - arguments are forwarded unchanged (except ``cls``). - This is equivalent to creating an :class:`Argument` instance manually - and attaching it to the :attr:`Command.params` list. - - For the default argument class, refer to :class:`Argument` and - :class:`Parameter` for descriptions of parameters. - - :param cls: the argument class to instantiate. This defaults to - :class:`Argument`. - :param param_decls: Passed as positional arguments to the constructor of - ``cls``. - :param attrs: Passed as keyword arguments to the constructor of ``cls``. - """ - if cls is None: - cls = Argument - - def decorator(f: FC) -> FC: - _param_memo(f, cls(param_decls, **attrs)) - return f - - return decorator - - -def option( - *param_decls: str, cls: t.Optional[t.Type[Option]] = None, **attrs: t.Any -) -> t.Callable[[FC], FC]: - """Attaches an option to the command. All positional arguments are - passed as parameter declarations to :class:`Option`; all keyword - arguments are forwarded unchanged (except ``cls``). - This is equivalent to creating an :class:`Option` instance manually - and attaching it to the :attr:`Command.params` list. - - For the default option class, refer to :class:`Option` and - :class:`Parameter` for descriptions of parameters. - - :param cls: the option class to instantiate. This defaults to - :class:`Option`. - :param param_decls: Passed as positional arguments to the constructor of - ``cls``. - :param attrs: Passed as keyword arguments to the constructor of ``cls``. - """ - if cls is None: - cls = Option - - def decorator(f: FC) -> FC: - _param_memo(f, cls(param_decls, **attrs)) - return f - - return decorator - - -def confirmation_option(*param_decls: str, **kwargs: t.Any) -> t.Callable[[FC], FC]: - """Add a ``--yes`` option which shows a prompt before continuing if - not passed. If the prompt is declined, the program will exit. - - :param param_decls: One or more option names. Defaults to the single - value ``"--yes"``. - :param kwargs: Extra arguments are passed to :func:`option`. - """ - - def callback(ctx: Context, param: Parameter, value: bool) -> None: - if not value: - ctx.abort() - - if not param_decls: - param_decls = ("--yes",) - - kwargs.setdefault("is_flag", True) - kwargs.setdefault("callback", callback) - kwargs.setdefault("expose_value", False) - kwargs.setdefault("prompt", "Do you want to continue?") - kwargs.setdefault("help", "Confirm the action without prompting.") - return option(*param_decls, **kwargs) - - -def password_option(*param_decls: str, **kwargs: t.Any) -> t.Callable[[FC], FC]: - """Add a ``--password`` option which prompts for a password, hiding - input and asking to enter the value again for confirmation. - - :param param_decls: One or more option names. Defaults to the single - value ``"--password"``. - :param kwargs: Extra arguments are passed to :func:`option`. - """ - if not param_decls: - param_decls = ("--password",) - - kwargs.setdefault("prompt", True) - kwargs.setdefault("confirmation_prompt", True) - kwargs.setdefault("hide_input", True) - return option(*param_decls, **kwargs) - - -def version_option( - version: t.Optional[str] = None, - *param_decls: str, - package_name: t.Optional[str] = None, - prog_name: t.Optional[str] = None, - message: t.Optional[str] = None, - **kwargs: t.Any, -) -> t.Callable[[FC], FC]: - """Add a ``--version`` option which immediately prints the version - number and exits the program. - - If ``version`` is not provided, Click will try to detect it using - :func:`importlib.metadata.version` to get the version for the - ``package_name``. On Python < 3.8, the ``importlib_metadata`` - backport must be installed. - - If ``package_name`` is not provided, Click will try to detect it by - inspecting the stack frames. This will be used to detect the - version, so it must match the name of the installed package. - - :param version: The version number to show. If not provided, Click - will try to detect it. - :param param_decls: One or more option names. Defaults to the single - value ``"--version"``. - :param package_name: The package name to detect the version from. If - not provided, Click will try to detect it. - :param prog_name: The name of the CLI to show in the message. If not - provided, it will be detected from the command. - :param message: The message to show. The values ``%(prog)s``, - ``%(package)s``, and ``%(version)s`` are available. Defaults to - ``"%(prog)s, version %(version)s"``. - :param kwargs: Extra arguments are passed to :func:`option`. - :raise RuntimeError: ``version`` could not be detected. - - .. versionchanged:: 8.0 - Add the ``package_name`` parameter, and the ``%(package)s`` - value for messages. - - .. versionchanged:: 8.0 - Use :mod:`importlib.metadata` instead of ``pkg_resources``. The - version is detected based on the package name, not the entry - point name. The Python package name must match the installed - package name, or be passed with ``package_name=``. - """ - if message is None: - message = _("%(prog)s, version %(version)s") - - if version is None and package_name is None: - frame = inspect.currentframe() - f_back = frame.f_back if frame is not None else None - f_globals = f_back.f_globals if f_back is not None else None - # break reference cycle - # https://docs.python.org/3/library/inspect.html#the-interpreter-stack - del frame - - if f_globals is not None: - package_name = f_globals.get("__name__") - - if package_name == "__main__": - package_name = f_globals.get("__package__") - - if package_name: - package_name = package_name.partition(".")[0] - - def callback(ctx: Context, param: Parameter, value: bool) -> None: - if not value or ctx.resilient_parsing: - return - - nonlocal prog_name - nonlocal version - - if prog_name is None: - prog_name = ctx.find_root().info_name - - if version is None and package_name is not None: - metadata: t.Optional[types.ModuleType] - - try: - from importlib import metadata # type: ignore - except ImportError: - # Python < 3.8 - import importlib_metadata as metadata # type: ignore - - try: - version = metadata.version(package_name) # type: ignore - except metadata.PackageNotFoundError: # type: ignore - raise RuntimeError( - f"{package_name!r} is not installed. Try passing" - " 'package_name' instead." - ) from None - - if version is None: - raise RuntimeError( - f"Could not determine the version for {package_name!r} automatically." - ) - - echo( - message % {"prog": prog_name, "package": package_name, "version": version}, - color=ctx.color, - ) - ctx.exit() - - if not param_decls: - param_decls = ("--version",) - - kwargs.setdefault("is_flag", True) - kwargs.setdefault("expose_value", False) - kwargs.setdefault("is_eager", True) - kwargs.setdefault("help", _("Show the version and exit.")) - kwargs["callback"] = callback - return option(*param_decls, **kwargs) - - -def help_option(*param_decls: str, **kwargs: t.Any) -> t.Callable[[FC], FC]: - """Add a ``--help`` option which immediately prints the help page - and exits the program. - - This is usually unnecessary, as the ``--help`` option is added to - each command automatically unless ``add_help_option=False`` is - passed. - - :param param_decls: One or more option names. Defaults to the single - value ``"--help"``. - :param kwargs: Extra arguments are passed to :func:`option`. - """ - - def callback(ctx: Context, param: Parameter, value: bool) -> None: - if not value or ctx.resilient_parsing: - return - - echo(ctx.get_help(), color=ctx.color) - ctx.exit() - - if not param_decls: - param_decls = ("--help",) - - kwargs.setdefault("is_flag", True) - kwargs.setdefault("expose_value", False) - kwargs.setdefault("is_eager", True) - kwargs.setdefault("help", _("Show this message and exit.")) - kwargs["callback"] = callback - return option(*param_decls, **kwargs) diff --git a/venv/lib/python3.11/site-packages/click/exceptions.py b/venv/lib/python3.11/site-packages/click/exceptions.py deleted file mode 100644 index fe68a36..0000000 --- a/venv/lib/python3.11/site-packages/click/exceptions.py +++ /dev/null @@ -1,288 +0,0 @@ -import typing as t -from gettext import gettext as _ -from gettext import ngettext - -from ._compat import get_text_stderr -from .utils import echo -from .utils import format_filename - -if t.TYPE_CHECKING: - from .core import Command - from .core import Context - from .core import Parameter - - -def _join_param_hints( - param_hint: t.Optional[t.Union[t.Sequence[str], str]] -) -> t.Optional[str]: - if param_hint is not None and not isinstance(param_hint, str): - return " / ".join(repr(x) for x in param_hint) - - return param_hint - - -class ClickException(Exception): - """An exception that Click can handle and show to the user.""" - - #: The exit code for this exception. - exit_code = 1 - - def __init__(self, message: str) -> None: - super().__init__(message) - self.message = message - - def format_message(self) -> str: - return self.message - - def __str__(self) -> str: - return self.message - - def show(self, file: t.Optional[t.IO[t.Any]] = None) -> None: - if file is None: - file = get_text_stderr() - - echo(_("Error: {message}").format(message=self.format_message()), file=file) - - -class UsageError(ClickException): - """An internal exception that signals a usage error. This typically - aborts any further handling. - - :param message: the error message to display. - :param ctx: optionally the context that caused this error. Click will - fill in the context automatically in some situations. - """ - - exit_code = 2 - - def __init__(self, message: str, ctx: t.Optional["Context"] = None) -> None: - super().__init__(message) - self.ctx = ctx - self.cmd: t.Optional["Command"] = self.ctx.command if self.ctx else None - - def show(self, file: t.Optional[t.IO[t.Any]] = None) -> None: - if file is None: - file = get_text_stderr() - color = None - hint = "" - if ( - self.ctx is not None - and self.ctx.command.get_help_option(self.ctx) is not None - ): - hint = _("Try '{command} {option}' for help.").format( - command=self.ctx.command_path, option=self.ctx.help_option_names[0] - ) - hint = f"{hint}\n" - if self.ctx is not None: - color = self.ctx.color - echo(f"{self.ctx.get_usage()}\n{hint}", file=file, color=color) - echo( - _("Error: {message}").format(message=self.format_message()), - file=file, - color=color, - ) - - -class BadParameter(UsageError): - """An exception that formats out a standardized error message for a - bad parameter. This is useful when thrown from a callback or type as - Click will attach contextual information to it (for instance, which - parameter it is). - - .. versionadded:: 2.0 - - :param param: the parameter object that caused this error. This can - be left out, and Click will attach this info itself - if possible. - :param param_hint: a string that shows up as parameter name. This - can be used as alternative to `param` in cases - where custom validation should happen. If it is - a string it's used as such, if it's a list then - each item is quoted and separated. - """ - - def __init__( - self, - message: str, - ctx: t.Optional["Context"] = None, - param: t.Optional["Parameter"] = None, - param_hint: t.Optional[str] = None, - ) -> None: - super().__init__(message, ctx) - self.param = param - self.param_hint = param_hint - - def format_message(self) -> str: - if self.param_hint is not None: - param_hint = self.param_hint - elif self.param is not None: - param_hint = self.param.get_error_hint(self.ctx) # type: ignore - else: - return _("Invalid value: {message}").format(message=self.message) - - return _("Invalid value for {param_hint}: {message}").format( - param_hint=_join_param_hints(param_hint), message=self.message - ) - - -class MissingParameter(BadParameter): - """Raised if click required an option or argument but it was not - provided when invoking the script. - - .. versionadded:: 4.0 - - :param param_type: a string that indicates the type of the parameter. - The default is to inherit the parameter type from - the given `param`. Valid values are ``'parameter'``, - ``'option'`` or ``'argument'``. - """ - - def __init__( - self, - message: t.Optional[str] = None, - ctx: t.Optional["Context"] = None, - param: t.Optional["Parameter"] = None, - param_hint: t.Optional[str] = None, - param_type: t.Optional[str] = None, - ) -> None: - super().__init__(message or "", ctx, param, param_hint) - self.param_type = param_type - - def format_message(self) -> str: - if self.param_hint is not None: - param_hint: t.Optional[str] = self.param_hint - elif self.param is not None: - param_hint = self.param.get_error_hint(self.ctx) # type: ignore - else: - param_hint = None - - param_hint = _join_param_hints(param_hint) - param_hint = f" {param_hint}" if param_hint else "" - - param_type = self.param_type - if param_type is None and self.param is not None: - param_type = self.param.param_type_name - - msg = self.message - if self.param is not None: - msg_extra = self.param.type.get_missing_message(self.param) - if msg_extra: - if msg: - msg += f". {msg_extra}" - else: - msg = msg_extra - - msg = f" {msg}" if msg else "" - - # Translate param_type for known types. - if param_type == "argument": - missing = _("Missing argument") - elif param_type == "option": - missing = _("Missing option") - elif param_type == "parameter": - missing = _("Missing parameter") - else: - missing = _("Missing {param_type}").format(param_type=param_type) - - return f"{missing}{param_hint}.{msg}" - - def __str__(self) -> str: - if not self.message: - param_name = self.param.name if self.param else None - return _("Missing parameter: {param_name}").format(param_name=param_name) - else: - return self.message - - -class NoSuchOption(UsageError): - """Raised if click attempted to handle an option that does not - exist. - - .. versionadded:: 4.0 - """ - - def __init__( - self, - option_name: str, - message: t.Optional[str] = None, - possibilities: t.Optional[t.Sequence[str]] = None, - ctx: t.Optional["Context"] = None, - ) -> None: - if message is None: - message = _("No such option: {name}").format(name=option_name) - - super().__init__(message, ctx) - self.option_name = option_name - self.possibilities = possibilities - - def format_message(self) -> str: - if not self.possibilities: - return self.message - - possibility_str = ", ".join(sorted(self.possibilities)) - suggest = ngettext( - "Did you mean {possibility}?", - "(Possible options: {possibilities})", - len(self.possibilities), - ).format(possibility=possibility_str, possibilities=possibility_str) - return f"{self.message} {suggest}" - - -class BadOptionUsage(UsageError): - """Raised if an option is generally supplied but the use of the option - was incorrect. This is for instance raised if the number of arguments - for an option is not correct. - - .. versionadded:: 4.0 - - :param option_name: the name of the option being used incorrectly. - """ - - def __init__( - self, option_name: str, message: str, ctx: t.Optional["Context"] = None - ) -> None: - super().__init__(message, ctx) - self.option_name = option_name - - -class BadArgumentUsage(UsageError): - """Raised if an argument is generally supplied but the use of the argument - was incorrect. This is for instance raised if the number of values - for an argument is not correct. - - .. versionadded:: 6.0 - """ - - -class FileError(ClickException): - """Raised if a file cannot be opened.""" - - def __init__(self, filename: str, hint: t.Optional[str] = None) -> None: - if hint is None: - hint = _("unknown error") - - super().__init__(hint) - self.ui_filename: str = format_filename(filename) - self.filename = filename - - def format_message(self) -> str: - return _("Could not open file {filename!r}: {message}").format( - filename=self.ui_filename, message=self.message - ) - - -class Abort(RuntimeError): - """An internal signalling exception that signals Click to abort.""" - - -class Exit(RuntimeError): - """An exception that indicates that the application should exit with some - status code. - - :param code: the status code to exit with. - """ - - __slots__ = ("exit_code",) - - def __init__(self, code: int = 0) -> None: - self.exit_code: int = code diff --git a/venv/lib/python3.11/site-packages/click/formatting.py b/venv/lib/python3.11/site-packages/click/formatting.py deleted file mode 100644 index ddd2a2f..0000000 --- a/venv/lib/python3.11/site-packages/click/formatting.py +++ /dev/null @@ -1,301 +0,0 @@ -import typing as t -from contextlib import contextmanager -from gettext import gettext as _ - -from ._compat import term_len -from .parser import split_opt - -# Can force a width. This is used by the test system -FORCED_WIDTH: t.Optional[int] = None - - -def measure_table(rows: t.Iterable[t.Tuple[str, str]]) -> t.Tuple[int, ...]: - widths: t.Dict[int, int] = {} - - for row in rows: - for idx, col in enumerate(row): - widths[idx] = max(widths.get(idx, 0), term_len(col)) - - return tuple(y for x, y in sorted(widths.items())) - - -def iter_rows( - rows: t.Iterable[t.Tuple[str, str]], col_count: int -) -> t.Iterator[t.Tuple[str, ...]]: - for row in rows: - yield row + ("",) * (col_count - len(row)) - - -def wrap_text( - text: str, - width: int = 78, - initial_indent: str = "", - subsequent_indent: str = "", - preserve_paragraphs: bool = False, -) -> str: - """A helper function that intelligently wraps text. By default, it - assumes that it operates on a single paragraph of text but if the - `preserve_paragraphs` parameter is provided it will intelligently - handle paragraphs (defined by two empty lines). - - If paragraphs are handled, a paragraph can be prefixed with an empty - line containing the ``\\b`` character (``\\x08``) to indicate that - no rewrapping should happen in that block. - - :param text: the text that should be rewrapped. - :param width: the maximum width for the text. - :param initial_indent: the initial indent that should be placed on the - first line as a string. - :param subsequent_indent: the indent string that should be placed on - each consecutive line. - :param preserve_paragraphs: if this flag is set then the wrapping will - intelligently handle paragraphs. - """ - from ._textwrap import TextWrapper - - text = text.expandtabs() - wrapper = TextWrapper( - width, - initial_indent=initial_indent, - subsequent_indent=subsequent_indent, - replace_whitespace=False, - ) - if not preserve_paragraphs: - return wrapper.fill(text) - - p: t.List[t.Tuple[int, bool, str]] = [] - buf: t.List[str] = [] - indent = None - - def _flush_par() -> None: - if not buf: - return - if buf[0].strip() == "\b": - p.append((indent or 0, True, "\n".join(buf[1:]))) - else: - p.append((indent or 0, False, " ".join(buf))) - del buf[:] - - for line in text.splitlines(): - if not line: - _flush_par() - indent = None - else: - if indent is None: - orig_len = term_len(line) - line = line.lstrip() - indent = orig_len - term_len(line) - buf.append(line) - _flush_par() - - rv = [] - for indent, raw, text in p: - with wrapper.extra_indent(" " * indent): - if raw: - rv.append(wrapper.indent_only(text)) - else: - rv.append(wrapper.fill(text)) - - return "\n\n".join(rv) - - -class HelpFormatter: - """This class helps with formatting text-based help pages. It's - usually just needed for very special internal cases, but it's also - exposed so that developers can write their own fancy outputs. - - At present, it always writes into memory. - - :param indent_increment: the additional increment for each level. - :param width: the width for the text. This defaults to the terminal - width clamped to a maximum of 78. - """ - - def __init__( - self, - indent_increment: int = 2, - width: t.Optional[int] = None, - max_width: t.Optional[int] = None, - ) -> None: - import shutil - - self.indent_increment = indent_increment - if max_width is None: - max_width = 80 - if width is None: - width = FORCED_WIDTH - if width is None: - width = max(min(shutil.get_terminal_size().columns, max_width) - 2, 50) - self.width = width - self.current_indent = 0 - self.buffer: t.List[str] = [] - - def write(self, string: str) -> None: - """Writes a unicode string into the internal buffer.""" - self.buffer.append(string) - - def indent(self) -> None: - """Increases the indentation.""" - self.current_indent += self.indent_increment - - def dedent(self) -> None: - """Decreases the indentation.""" - self.current_indent -= self.indent_increment - - def write_usage( - self, prog: str, args: str = "", prefix: t.Optional[str] = None - ) -> None: - """Writes a usage line into the buffer. - - :param prog: the program name. - :param args: whitespace separated list of arguments. - :param prefix: The prefix for the first line. Defaults to - ``"Usage: "``. - """ - if prefix is None: - prefix = f"{_('Usage:')} " - - usage_prefix = f"{prefix:>{self.current_indent}}{prog} " - text_width = self.width - self.current_indent - - if text_width >= (term_len(usage_prefix) + 20): - # The arguments will fit to the right of the prefix. - indent = " " * term_len(usage_prefix) - self.write( - wrap_text( - args, - text_width, - initial_indent=usage_prefix, - subsequent_indent=indent, - ) - ) - else: - # The prefix is too long, put the arguments on the next line. - self.write(usage_prefix) - self.write("\n") - indent = " " * (max(self.current_indent, term_len(prefix)) + 4) - self.write( - wrap_text( - args, text_width, initial_indent=indent, subsequent_indent=indent - ) - ) - - self.write("\n") - - def write_heading(self, heading: str) -> None: - """Writes a heading into the buffer.""" - self.write(f"{'':>{self.current_indent}}{heading}:\n") - - def write_paragraph(self) -> None: - """Writes a paragraph into the buffer.""" - if self.buffer: - self.write("\n") - - def write_text(self, text: str) -> None: - """Writes re-indented text into the buffer. This rewraps and - preserves paragraphs. - """ - indent = " " * self.current_indent - self.write( - wrap_text( - text, - self.width, - initial_indent=indent, - subsequent_indent=indent, - preserve_paragraphs=True, - ) - ) - self.write("\n") - - def write_dl( - self, - rows: t.Sequence[t.Tuple[str, str]], - col_max: int = 30, - col_spacing: int = 2, - ) -> None: - """Writes a definition list into the buffer. This is how options - and commands are usually formatted. - - :param rows: a list of two item tuples for the terms and values. - :param col_max: the maximum width of the first column. - :param col_spacing: the number of spaces between the first and - second column. - """ - rows = list(rows) - widths = measure_table(rows) - if len(widths) != 2: - raise TypeError("Expected two columns for definition list") - - first_col = min(widths[0], col_max) + col_spacing - - for first, second in iter_rows(rows, len(widths)): - self.write(f"{'':>{self.current_indent}}{first}") - if not second: - self.write("\n") - continue - if term_len(first) <= first_col - col_spacing: - self.write(" " * (first_col - term_len(first))) - else: - self.write("\n") - self.write(" " * (first_col + self.current_indent)) - - text_width = max(self.width - first_col - 2, 10) - wrapped_text = wrap_text(second, text_width, preserve_paragraphs=True) - lines = wrapped_text.splitlines() - - if lines: - self.write(f"{lines[0]}\n") - - for line in lines[1:]: - self.write(f"{'':>{first_col + self.current_indent}}{line}\n") - else: - self.write("\n") - - @contextmanager - def section(self, name: str) -> t.Iterator[None]: - """Helpful context manager that writes a paragraph, a heading, - and the indents. - - :param name: the section name that is written as heading. - """ - self.write_paragraph() - self.write_heading(name) - self.indent() - try: - yield - finally: - self.dedent() - - @contextmanager - def indentation(self) -> t.Iterator[None]: - """A context manager that increases the indentation.""" - self.indent() - try: - yield - finally: - self.dedent() - - def getvalue(self) -> str: - """Returns the buffer contents.""" - return "".join(self.buffer) - - -def join_options(options: t.Sequence[str]) -> t.Tuple[str, bool]: - """Given a list of option strings this joins them in the most appropriate - way and returns them in the form ``(formatted_string, - any_prefix_is_slash)`` where the second item in the tuple is a flag that - indicates if any of the option prefixes was a slash. - """ - rv = [] - any_prefix_is_slash = False - - for opt in options: - prefix = split_opt(opt)[0] - - if prefix == "/": - any_prefix_is_slash = True - - rv.append((len(prefix), opt)) - - rv.sort(key=lambda x: x[0]) - return ", ".join(x[1] for x in rv), any_prefix_is_slash diff --git a/venv/lib/python3.11/site-packages/click/globals.py b/venv/lib/python3.11/site-packages/click/globals.py deleted file mode 100644 index 480058f..0000000 --- a/venv/lib/python3.11/site-packages/click/globals.py +++ /dev/null @@ -1,68 +0,0 @@ -import typing as t -from threading import local - -if t.TYPE_CHECKING: - import typing_extensions as te - from .core import Context - -_local = local() - - -@t.overload -def get_current_context(silent: "te.Literal[False]" = False) -> "Context": - ... - - -@t.overload -def get_current_context(silent: bool = ...) -> t.Optional["Context"]: - ... - - -def get_current_context(silent: bool = False) -> t.Optional["Context"]: - """Returns the current click context. This can be used as a way to - access the current context object from anywhere. This is a more implicit - alternative to the :func:`pass_context` decorator. This function is - primarily useful for helpers such as :func:`echo` which might be - interested in changing its behavior based on the current context. - - To push the current context, :meth:`Context.scope` can be used. - - .. versionadded:: 5.0 - - :param silent: if set to `True` the return value is `None` if no context - is available. The default behavior is to raise a - :exc:`RuntimeError`. - """ - try: - return t.cast("Context", _local.stack[-1]) - except (AttributeError, IndexError) as e: - if not silent: - raise RuntimeError("There is no active click context.") from e - - return None - - -def push_context(ctx: "Context") -> None: - """Pushes a new context to the current stack.""" - _local.__dict__.setdefault("stack", []).append(ctx) - - -def pop_context() -> None: - """Removes the top level from the stack.""" - _local.stack.pop() - - -def resolve_color_default(color: t.Optional[bool] = None) -> t.Optional[bool]: - """Internal helper to get the default value of the color flag. If a - value is passed it's returned unchanged, otherwise it's looked up from - the current context. - """ - if color is not None: - return color - - ctx = get_current_context(silent=True) - - if ctx is not None: - return ctx.color - - return None diff --git a/venv/lib/python3.11/site-packages/click/parser.py b/venv/lib/python3.11/site-packages/click/parser.py deleted file mode 100644 index 5fa7adf..0000000 --- a/venv/lib/python3.11/site-packages/click/parser.py +++ /dev/null @@ -1,529 +0,0 @@ -""" -This module started out as largely a copy paste from the stdlib's -optparse module with the features removed that we do not need from -optparse because we implement them in Click on a higher level (for -instance type handling, help formatting and a lot more). - -The plan is to remove more and more from here over time. - -The reason this is a different module and not optparse from the stdlib -is that there are differences in 2.x and 3.x about the error messages -generated and optparse in the stdlib uses gettext for no good reason -and might cause us issues. - -Click uses parts of optparse written by Gregory P. Ward and maintained -by the Python Software Foundation. This is limited to code in parser.py. - -Copyright 2001-2006 Gregory P. Ward. All rights reserved. -Copyright 2002-2006 Python Software Foundation. All rights reserved. -""" -# This code uses parts of optparse written by Gregory P. Ward and -# maintained by the Python Software Foundation. -# Copyright 2001-2006 Gregory P. Ward -# Copyright 2002-2006 Python Software Foundation -import typing as t -from collections import deque -from gettext import gettext as _ -from gettext import ngettext - -from .exceptions import BadArgumentUsage -from .exceptions import BadOptionUsage -from .exceptions import NoSuchOption -from .exceptions import UsageError - -if t.TYPE_CHECKING: - import typing_extensions as te - from .core import Argument as CoreArgument - from .core import Context - from .core import Option as CoreOption - from .core import Parameter as CoreParameter - -V = t.TypeVar("V") - -# Sentinel value that indicates an option was passed as a flag without a -# value but is not a flag option. Option.consume_value uses this to -# prompt or use the flag_value. -_flag_needs_value = object() - - -def _unpack_args( - args: t.Sequence[str], nargs_spec: t.Sequence[int] -) -> t.Tuple[t.Sequence[t.Union[str, t.Sequence[t.Optional[str]], None]], t.List[str]]: - """Given an iterable of arguments and an iterable of nargs specifications, - it returns a tuple with all the unpacked arguments at the first index - and all remaining arguments as the second. - - The nargs specification is the number of arguments that should be consumed - or `-1` to indicate that this position should eat up all the remainders. - - Missing items are filled with `None`. - """ - args = deque(args) - nargs_spec = deque(nargs_spec) - rv: t.List[t.Union[str, t.Tuple[t.Optional[str], ...], None]] = [] - spos: t.Optional[int] = None - - def _fetch(c: "te.Deque[V]") -> t.Optional[V]: - try: - if spos is None: - return c.popleft() - else: - return c.pop() - except IndexError: - return None - - while nargs_spec: - nargs = _fetch(nargs_spec) - - if nargs is None: - continue - - if nargs == 1: - rv.append(_fetch(args)) - elif nargs > 1: - x = [_fetch(args) for _ in range(nargs)] - - # If we're reversed, we're pulling in the arguments in reverse, - # so we need to turn them around. - if spos is not None: - x.reverse() - - rv.append(tuple(x)) - elif nargs < 0: - if spos is not None: - raise TypeError("Cannot have two nargs < 0") - - spos = len(rv) - rv.append(None) - - # spos is the position of the wildcard (star). If it's not `None`, - # we fill it with the remainder. - if spos is not None: - rv[spos] = tuple(args) - args = [] - rv[spos + 1 :] = reversed(rv[spos + 1 :]) - - return tuple(rv), list(args) - - -def split_opt(opt: str) -> t.Tuple[str, str]: - first = opt[:1] - if first.isalnum(): - return "", opt - if opt[1:2] == first: - return opt[:2], opt[2:] - return first, opt[1:] - - -def normalize_opt(opt: str, ctx: t.Optional["Context"]) -> str: - if ctx is None or ctx.token_normalize_func is None: - return opt - prefix, opt = split_opt(opt) - return f"{prefix}{ctx.token_normalize_func(opt)}" - - -def split_arg_string(string: str) -> t.List[str]: - """Split an argument string as with :func:`shlex.split`, but don't - fail if the string is incomplete. Ignores a missing closing quote or - incomplete escape sequence and uses the partial token as-is. - - .. code-block:: python - - split_arg_string("example 'my file") - ["example", "my file"] - - split_arg_string("example my\\") - ["example", "my"] - - :param string: String to split. - """ - import shlex - - lex = shlex.shlex(string, posix=True) - lex.whitespace_split = True - lex.commenters = "" - out = [] - - try: - for token in lex: - out.append(token) - except ValueError: - # Raised when end-of-string is reached in an invalid state. Use - # the partial token as-is. The quote or escape character is in - # lex.state, not lex.token. - out.append(lex.token) - - return out - - -class Option: - def __init__( - self, - obj: "CoreOption", - opts: t.Sequence[str], - dest: t.Optional[str], - action: t.Optional[str] = None, - nargs: int = 1, - const: t.Optional[t.Any] = None, - ): - self._short_opts = [] - self._long_opts = [] - self.prefixes: t.Set[str] = set() - - for opt in opts: - prefix, value = split_opt(opt) - if not prefix: - raise ValueError(f"Invalid start character for option ({opt})") - self.prefixes.add(prefix[0]) - if len(prefix) == 1 and len(value) == 1: - self._short_opts.append(opt) - else: - self._long_opts.append(opt) - self.prefixes.add(prefix) - - if action is None: - action = "store" - - self.dest = dest - self.action = action - self.nargs = nargs - self.const = const - self.obj = obj - - @property - def takes_value(self) -> bool: - return self.action in ("store", "append") - - def process(self, value: t.Any, state: "ParsingState") -> None: - if self.action == "store": - state.opts[self.dest] = value # type: ignore - elif self.action == "store_const": - state.opts[self.dest] = self.const # type: ignore - elif self.action == "append": - state.opts.setdefault(self.dest, []).append(value) # type: ignore - elif self.action == "append_const": - state.opts.setdefault(self.dest, []).append(self.const) # type: ignore - elif self.action == "count": - state.opts[self.dest] = state.opts.get(self.dest, 0) + 1 # type: ignore - else: - raise ValueError(f"unknown action '{self.action}'") - state.order.append(self.obj) - - -class Argument: - def __init__(self, obj: "CoreArgument", dest: t.Optional[str], nargs: int = 1): - self.dest = dest - self.nargs = nargs - self.obj = obj - - def process( - self, - value: t.Union[t.Optional[str], t.Sequence[t.Optional[str]]], - state: "ParsingState", - ) -> None: - if self.nargs > 1: - assert value is not None - holes = sum(1 for x in value if x is None) - if holes == len(value): - value = None - elif holes != 0: - raise BadArgumentUsage( - _("Argument {name!r} takes {nargs} values.").format( - name=self.dest, nargs=self.nargs - ) - ) - - if self.nargs == -1 and self.obj.envvar is not None and value == (): - # Replace empty tuple with None so that a value from the - # environment may be tried. - value = None - - state.opts[self.dest] = value # type: ignore - state.order.append(self.obj) - - -class ParsingState: - def __init__(self, rargs: t.List[str]) -> None: - self.opts: t.Dict[str, t.Any] = {} - self.largs: t.List[str] = [] - self.rargs = rargs - self.order: t.List["CoreParameter"] = [] - - -class OptionParser: - """The option parser is an internal class that is ultimately used to - parse options and arguments. It's modelled after optparse and brings - a similar but vastly simplified API. It should generally not be used - directly as the high level Click classes wrap it for you. - - It's not nearly as extensible as optparse or argparse as it does not - implement features that are implemented on a higher level (such as - types or defaults). - - :param ctx: optionally the :class:`~click.Context` where this parser - should go with. - """ - - def __init__(self, ctx: t.Optional["Context"] = None) -> None: - #: The :class:`~click.Context` for this parser. This might be - #: `None` for some advanced use cases. - self.ctx = ctx - #: This controls how the parser deals with interspersed arguments. - #: If this is set to `False`, the parser will stop on the first - #: non-option. Click uses this to implement nested subcommands - #: safely. - self.allow_interspersed_args: bool = True - #: This tells the parser how to deal with unknown options. By - #: default it will error out (which is sensible), but there is a - #: second mode where it will ignore it and continue processing - #: after shifting all the unknown options into the resulting args. - self.ignore_unknown_options: bool = False - - if ctx is not None: - self.allow_interspersed_args = ctx.allow_interspersed_args - self.ignore_unknown_options = ctx.ignore_unknown_options - - self._short_opt: t.Dict[str, Option] = {} - self._long_opt: t.Dict[str, Option] = {} - self._opt_prefixes = {"-", "--"} - self._args: t.List[Argument] = [] - - def add_option( - self, - obj: "CoreOption", - opts: t.Sequence[str], - dest: t.Optional[str], - action: t.Optional[str] = None, - nargs: int = 1, - const: t.Optional[t.Any] = None, - ) -> None: - """Adds a new option named `dest` to the parser. The destination - is not inferred (unlike with optparse) and needs to be explicitly - provided. Action can be any of ``store``, ``store_const``, - ``append``, ``append_const`` or ``count``. - - The `obj` can be used to identify the option in the order list - that is returned from the parser. - """ - opts = [normalize_opt(opt, self.ctx) for opt in opts] - option = Option(obj, opts, dest, action=action, nargs=nargs, const=const) - self._opt_prefixes.update(option.prefixes) - for opt in option._short_opts: - self._short_opt[opt] = option - for opt in option._long_opts: - self._long_opt[opt] = option - - def add_argument( - self, obj: "CoreArgument", dest: t.Optional[str], nargs: int = 1 - ) -> None: - """Adds a positional argument named `dest` to the parser. - - The `obj` can be used to identify the option in the order list - that is returned from the parser. - """ - self._args.append(Argument(obj, dest=dest, nargs=nargs)) - - def parse_args( - self, args: t.List[str] - ) -> t.Tuple[t.Dict[str, t.Any], t.List[str], t.List["CoreParameter"]]: - """Parses positional arguments and returns ``(values, args, order)`` - for the parsed options and arguments as well as the leftover - arguments if there are any. The order is a list of objects as they - appear on the command line. If arguments appear multiple times they - will be memorized multiple times as well. - """ - state = ParsingState(args) - try: - self._process_args_for_options(state) - self._process_args_for_args(state) - except UsageError: - if self.ctx is None or not self.ctx.resilient_parsing: - raise - return state.opts, state.largs, state.order - - def _process_args_for_args(self, state: ParsingState) -> None: - pargs, args = _unpack_args( - state.largs + state.rargs, [x.nargs for x in self._args] - ) - - for idx, arg in enumerate(self._args): - arg.process(pargs[idx], state) - - state.largs = args - state.rargs = [] - - def _process_args_for_options(self, state: ParsingState) -> None: - while state.rargs: - arg = state.rargs.pop(0) - arglen = len(arg) - # Double dashes always handled explicitly regardless of what - # prefixes are valid. - if arg == "--": - return - elif arg[:1] in self._opt_prefixes and arglen > 1: - self._process_opts(arg, state) - elif self.allow_interspersed_args: - state.largs.append(arg) - else: - state.rargs.insert(0, arg) - return - - # Say this is the original argument list: - # [arg0, arg1, ..., arg(i-1), arg(i), arg(i+1), ..., arg(N-1)] - # ^ - # (we are about to process arg(i)). - # - # Then rargs is [arg(i), ..., arg(N-1)] and largs is a *subset* of - # [arg0, ..., arg(i-1)] (any options and their arguments will have - # been removed from largs). - # - # The while loop will usually consume 1 or more arguments per pass. - # If it consumes 1 (eg. arg is an option that takes no arguments), - # then after _process_arg() is done the situation is: - # - # largs = subset of [arg0, ..., arg(i)] - # rargs = [arg(i+1), ..., arg(N-1)] - # - # If allow_interspersed_args is false, largs will always be - # *empty* -- still a subset of [arg0, ..., arg(i-1)], but - # not a very interesting subset! - - def _match_long_opt( - self, opt: str, explicit_value: t.Optional[str], state: ParsingState - ) -> None: - if opt not in self._long_opt: - from difflib import get_close_matches - - possibilities = get_close_matches(opt, self._long_opt) - raise NoSuchOption(opt, possibilities=possibilities, ctx=self.ctx) - - option = self._long_opt[opt] - if option.takes_value: - # At this point it's safe to modify rargs by injecting the - # explicit value, because no exception is raised in this - # branch. This means that the inserted value will be fully - # consumed. - if explicit_value is not None: - state.rargs.insert(0, explicit_value) - - value = self._get_value_from_state(opt, option, state) - - elif explicit_value is not None: - raise BadOptionUsage( - opt, _("Option {name!r} does not take a value.").format(name=opt) - ) - - else: - value = None - - option.process(value, state) - - def _match_short_opt(self, arg: str, state: ParsingState) -> None: - stop = False - i = 1 - prefix = arg[0] - unknown_options = [] - - for ch in arg[1:]: - opt = normalize_opt(f"{prefix}{ch}", self.ctx) - option = self._short_opt.get(opt) - i += 1 - - if not option: - if self.ignore_unknown_options: - unknown_options.append(ch) - continue - raise NoSuchOption(opt, ctx=self.ctx) - if option.takes_value: - # Any characters left in arg? Pretend they're the - # next arg, and stop consuming characters of arg. - if i < len(arg): - state.rargs.insert(0, arg[i:]) - stop = True - - value = self._get_value_from_state(opt, option, state) - - else: - value = None - - option.process(value, state) - - if stop: - break - - # If we got any unknown options we recombine the string of the - # remaining options and re-attach the prefix, then report that - # to the state as new larg. This way there is basic combinatorics - # that can be achieved while still ignoring unknown arguments. - if self.ignore_unknown_options and unknown_options: - state.largs.append(f"{prefix}{''.join(unknown_options)}") - - def _get_value_from_state( - self, option_name: str, option: Option, state: ParsingState - ) -> t.Any: - nargs = option.nargs - - if len(state.rargs) < nargs: - if option.obj._flag_needs_value: - # Option allows omitting the value. - value = _flag_needs_value - else: - raise BadOptionUsage( - option_name, - ngettext( - "Option {name!r} requires an argument.", - "Option {name!r} requires {nargs} arguments.", - nargs, - ).format(name=option_name, nargs=nargs), - ) - elif nargs == 1: - next_rarg = state.rargs[0] - - if ( - option.obj._flag_needs_value - and isinstance(next_rarg, str) - and next_rarg[:1] in self._opt_prefixes - and len(next_rarg) > 1 - ): - # The next arg looks like the start of an option, don't - # use it as the value if omitting the value is allowed. - value = _flag_needs_value - else: - value = state.rargs.pop(0) - else: - value = tuple(state.rargs[:nargs]) - del state.rargs[:nargs] - - return value - - def _process_opts(self, arg: str, state: ParsingState) -> None: - explicit_value = None - # Long option handling happens in two parts. The first part is - # supporting explicitly attached values. In any case, we will try - # to long match the option first. - if "=" in arg: - long_opt, explicit_value = arg.split("=", 1) - else: - long_opt = arg - norm_long_opt = normalize_opt(long_opt, self.ctx) - - # At this point we will match the (assumed) long option through - # the long option matching code. Note that this allows options - # like "-foo" to be matched as long options. - try: - self._match_long_opt(norm_long_opt, explicit_value, state) - except NoSuchOption: - # At this point the long option matching failed, and we need - # to try with short options. However there is a special rule - # which says, that if we have a two character options prefix - # (applies to "--foo" for instance), we do not dispatch to the - # short option code and will instead raise the no option - # error. - if arg[:2] not in self._opt_prefixes: - self._match_short_opt(arg, state) - return - - if not self.ignore_unknown_options: - raise - - state.largs.append(arg) diff --git a/venv/lib/python3.11/site-packages/click/py.typed b/venv/lib/python3.11/site-packages/click/py.typed deleted file mode 100644 index e69de29..0000000 diff --git a/venv/lib/python3.11/site-packages/click/shell_completion.py b/venv/lib/python3.11/site-packages/click/shell_completion.py deleted file mode 100644 index dc9e00b..0000000 --- a/venv/lib/python3.11/site-packages/click/shell_completion.py +++ /dev/null @@ -1,596 +0,0 @@ -import os -import re -import typing as t -from gettext import gettext as _ - -from .core import Argument -from .core import BaseCommand -from .core import Context -from .core import MultiCommand -from .core import Option -from .core import Parameter -from .core import ParameterSource -from .parser import split_arg_string -from .utils import echo - - -def shell_complete( - cli: BaseCommand, - ctx_args: t.MutableMapping[str, t.Any], - prog_name: str, - complete_var: str, - instruction: str, -) -> int: - """Perform shell completion for the given CLI program. - - :param cli: Command being called. - :param ctx_args: Extra arguments to pass to - ``cli.make_context``. - :param prog_name: Name of the executable in the shell. - :param complete_var: Name of the environment variable that holds - the completion instruction. - :param instruction: Value of ``complete_var`` with the completion - instruction and shell, in the form ``instruction_shell``. - :return: Status code to exit with. - """ - shell, _, instruction = instruction.partition("_") - comp_cls = get_completion_class(shell) - - if comp_cls is None: - return 1 - - comp = comp_cls(cli, ctx_args, prog_name, complete_var) - - if instruction == "source": - echo(comp.source()) - return 0 - - if instruction == "complete": - echo(comp.complete()) - return 0 - - return 1 - - -class CompletionItem: - """Represents a completion value and metadata about the value. The - default metadata is ``type`` to indicate special shell handling, - and ``help`` if a shell supports showing a help string next to the - value. - - Arbitrary parameters can be passed when creating the object, and - accessed using ``item.attr``. If an attribute wasn't passed, - accessing it returns ``None``. - - :param value: The completion suggestion. - :param type: Tells the shell script to provide special completion - support for the type. Click uses ``"dir"`` and ``"file"``. - :param help: String shown next to the value if supported. - :param kwargs: Arbitrary metadata. The built-in implementations - don't use this, but custom type completions paired with custom - shell support could use it. - """ - - __slots__ = ("value", "type", "help", "_info") - - def __init__( - self, - value: t.Any, - type: str = "plain", - help: t.Optional[str] = None, - **kwargs: t.Any, - ) -> None: - self.value: t.Any = value - self.type: str = type - self.help: t.Optional[str] = help - self._info = kwargs - - def __getattr__(self, name: str) -> t.Any: - return self._info.get(name) - - -# Only Bash >= 4.4 has the nosort option. -_SOURCE_BASH = """\ -%(complete_func)s() { - local IFS=$'\\n' - local response - - response=$(env COMP_WORDS="${COMP_WORDS[*]}" COMP_CWORD=$COMP_CWORD \ -%(complete_var)s=bash_complete $1) - - for completion in $response; do - IFS=',' read type value <<< "$completion" - - if [[ $type == 'dir' ]]; then - COMPREPLY=() - compopt -o dirnames - elif [[ $type == 'file' ]]; then - COMPREPLY=() - compopt -o default - elif [[ $type == 'plain' ]]; then - COMPREPLY+=($value) - fi - done - - return 0 -} - -%(complete_func)s_setup() { - complete -o nosort -F %(complete_func)s %(prog_name)s -} - -%(complete_func)s_setup; -""" - -_SOURCE_ZSH = """\ -#compdef %(prog_name)s - -%(complete_func)s() { - local -a completions - local -a completions_with_descriptions - local -a response - (( ! $+commands[%(prog_name)s] )) && return 1 - - response=("${(@f)$(env COMP_WORDS="${words[*]}" COMP_CWORD=$((CURRENT-1)) \ -%(complete_var)s=zsh_complete %(prog_name)s)}") - - for type key descr in ${response}; do - if [[ "$type" == "plain" ]]; then - if [[ "$descr" == "_" ]]; then - completions+=("$key") - else - completions_with_descriptions+=("$key":"$descr") - fi - elif [[ "$type" == "dir" ]]; then - _path_files -/ - elif [[ "$type" == "file" ]]; then - _path_files -f - fi - done - - if [ -n "$completions_with_descriptions" ]; then - _describe -V unsorted completions_with_descriptions -U - fi - - if [ -n "$completions" ]; then - compadd -U -V unsorted -a completions - fi -} - -if [[ $zsh_eval_context[-1] == loadautofunc ]]; then - # autoload from fpath, call function directly - %(complete_func)s "$@" -else - # eval/source/. command, register function for later - compdef %(complete_func)s %(prog_name)s -fi -""" - -_SOURCE_FISH = """\ -function %(complete_func)s; - set -l response (env %(complete_var)s=fish_complete COMP_WORDS=(commandline -cp) \ -COMP_CWORD=(commandline -t) %(prog_name)s); - - for completion in $response; - set -l metadata (string split "," $completion); - - if test $metadata[1] = "dir"; - __fish_complete_directories $metadata[2]; - else if test $metadata[1] = "file"; - __fish_complete_path $metadata[2]; - else if test $metadata[1] = "plain"; - echo $metadata[2]; - end; - end; -end; - -complete --no-files --command %(prog_name)s --arguments \ -"(%(complete_func)s)"; -""" - - -class ShellComplete: - """Base class for providing shell completion support. A subclass for - a given shell will override attributes and methods to implement the - completion instructions (``source`` and ``complete``). - - :param cli: Command being called. - :param prog_name: Name of the executable in the shell. - :param complete_var: Name of the environment variable that holds - the completion instruction. - - .. versionadded:: 8.0 - """ - - name: t.ClassVar[str] - """Name to register the shell as with :func:`add_completion_class`. - This is used in completion instructions (``{name}_source`` and - ``{name}_complete``). - """ - - source_template: t.ClassVar[str] - """Completion script template formatted by :meth:`source`. This must - be provided by subclasses. - """ - - def __init__( - self, - cli: BaseCommand, - ctx_args: t.MutableMapping[str, t.Any], - prog_name: str, - complete_var: str, - ) -> None: - self.cli = cli - self.ctx_args = ctx_args - self.prog_name = prog_name - self.complete_var = complete_var - - @property - def func_name(self) -> str: - """The name of the shell function defined by the completion - script. - """ - safe_name = re.sub(r"\W*", "", self.prog_name.replace("-", "_"), flags=re.ASCII) - return f"_{safe_name}_completion" - - def source_vars(self) -> t.Dict[str, t.Any]: - """Vars for formatting :attr:`source_template`. - - By default this provides ``complete_func``, ``complete_var``, - and ``prog_name``. - """ - return { - "complete_func": self.func_name, - "complete_var": self.complete_var, - "prog_name": self.prog_name, - } - - def source(self) -> str: - """Produce the shell script that defines the completion - function. By default this ``%``-style formats - :attr:`source_template` with the dict returned by - :meth:`source_vars`. - """ - return self.source_template % self.source_vars() - - def get_completion_args(self) -> t.Tuple[t.List[str], str]: - """Use the env vars defined by the shell script to return a - tuple of ``args, incomplete``. This must be implemented by - subclasses. - """ - raise NotImplementedError - - def get_completions( - self, args: t.List[str], incomplete: str - ) -> t.List[CompletionItem]: - """Determine the context and last complete command or parameter - from the complete args. Call that object's ``shell_complete`` - method to get the completions for the incomplete value. - - :param args: List of complete args before the incomplete value. - :param incomplete: Value being completed. May be empty. - """ - ctx = _resolve_context(self.cli, self.ctx_args, self.prog_name, args) - obj, incomplete = _resolve_incomplete(ctx, args, incomplete) - return obj.shell_complete(ctx, incomplete) - - def format_completion(self, item: CompletionItem) -> str: - """Format a completion item into the form recognized by the - shell script. This must be implemented by subclasses. - - :param item: Completion item to format. - """ - raise NotImplementedError - - def complete(self) -> str: - """Produce the completion data to send back to the shell. - - By default this calls :meth:`get_completion_args`, gets the - completions, then calls :meth:`format_completion` for each - completion. - """ - args, incomplete = self.get_completion_args() - completions = self.get_completions(args, incomplete) - out = [self.format_completion(item) for item in completions] - return "\n".join(out) - - -class BashComplete(ShellComplete): - """Shell completion for Bash.""" - - name = "bash" - source_template = _SOURCE_BASH - - @staticmethod - def _check_version() -> None: - import subprocess - - output = subprocess.run( - ["bash", "-c", 'echo "${BASH_VERSION}"'], stdout=subprocess.PIPE - ) - match = re.search(r"^(\d+)\.(\d+)\.\d+", output.stdout.decode()) - - if match is not None: - major, minor = match.groups() - - if major < "4" or major == "4" and minor < "4": - echo( - _( - "Shell completion is not supported for Bash" - " versions older than 4.4." - ), - err=True, - ) - else: - echo( - _("Couldn't detect Bash version, shell completion is not supported."), - err=True, - ) - - def source(self) -> str: - self._check_version() - return super().source() - - def get_completion_args(self) -> t.Tuple[t.List[str], str]: - cwords = split_arg_string(os.environ["COMP_WORDS"]) - cword = int(os.environ["COMP_CWORD"]) - args = cwords[1:cword] - - try: - incomplete = cwords[cword] - except IndexError: - incomplete = "" - - return args, incomplete - - def format_completion(self, item: CompletionItem) -> str: - return f"{item.type},{item.value}" - - -class ZshComplete(ShellComplete): - """Shell completion for Zsh.""" - - name = "zsh" - source_template = _SOURCE_ZSH - - def get_completion_args(self) -> t.Tuple[t.List[str], str]: - cwords = split_arg_string(os.environ["COMP_WORDS"]) - cword = int(os.environ["COMP_CWORD"]) - args = cwords[1:cword] - - try: - incomplete = cwords[cword] - except IndexError: - incomplete = "" - - return args, incomplete - - def format_completion(self, item: CompletionItem) -> str: - return f"{item.type}\n{item.value}\n{item.help if item.help else '_'}" - - -class FishComplete(ShellComplete): - """Shell completion for Fish.""" - - name = "fish" - source_template = _SOURCE_FISH - - def get_completion_args(self) -> t.Tuple[t.List[str], str]: - cwords = split_arg_string(os.environ["COMP_WORDS"]) - incomplete = os.environ["COMP_CWORD"] - args = cwords[1:] - - # Fish stores the partial word in both COMP_WORDS and - # COMP_CWORD, remove it from complete args. - if incomplete and args and args[-1] == incomplete: - args.pop() - - return args, incomplete - - def format_completion(self, item: CompletionItem) -> str: - if item.help: - return f"{item.type},{item.value}\t{item.help}" - - return f"{item.type},{item.value}" - - -ShellCompleteType = t.TypeVar("ShellCompleteType", bound=t.Type[ShellComplete]) - - -_available_shells: t.Dict[str, t.Type[ShellComplete]] = { - "bash": BashComplete, - "fish": FishComplete, - "zsh": ZshComplete, -} - - -def add_completion_class( - cls: ShellCompleteType, name: t.Optional[str] = None -) -> ShellCompleteType: - """Register a :class:`ShellComplete` subclass under the given name. - The name will be provided by the completion instruction environment - variable during completion. - - :param cls: The completion class that will handle completion for the - shell. - :param name: Name to register the class under. Defaults to the - class's ``name`` attribute. - """ - if name is None: - name = cls.name - - _available_shells[name] = cls - - return cls - - -def get_completion_class(shell: str) -> t.Optional[t.Type[ShellComplete]]: - """Look up a registered :class:`ShellComplete` subclass by the name - provided by the completion instruction environment variable. If the - name isn't registered, returns ``None``. - - :param shell: Name the class is registered under. - """ - return _available_shells.get(shell) - - -def _is_incomplete_argument(ctx: Context, param: Parameter) -> bool: - """Determine if the given parameter is an argument that can still - accept values. - - :param ctx: Invocation context for the command represented by the - parsed complete args. - :param param: Argument object being checked. - """ - if not isinstance(param, Argument): - return False - - assert param.name is not None - # Will be None if expose_value is False. - value = ctx.params.get(param.name) - return ( - param.nargs == -1 - or ctx.get_parameter_source(param.name) is not ParameterSource.COMMANDLINE - or ( - param.nargs > 1 - and isinstance(value, (tuple, list)) - and len(value) < param.nargs - ) - ) - - -def _start_of_option(ctx: Context, value: str) -> bool: - """Check if the value looks like the start of an option.""" - if not value: - return False - - c = value[0] - return c in ctx._opt_prefixes - - -def _is_incomplete_option(ctx: Context, args: t.List[str], param: Parameter) -> bool: - """Determine if the given parameter is an option that needs a value. - - :param args: List of complete args before the incomplete value. - :param param: Option object being checked. - """ - if not isinstance(param, Option): - return False - - if param.is_flag or param.count: - return False - - last_option = None - - for index, arg in enumerate(reversed(args)): - if index + 1 > param.nargs: - break - - if _start_of_option(ctx, arg): - last_option = arg - - return last_option is not None and last_option in param.opts - - -def _resolve_context( - cli: BaseCommand, - ctx_args: t.MutableMapping[str, t.Any], - prog_name: str, - args: t.List[str], -) -> Context: - """Produce the context hierarchy starting with the command and - traversing the complete arguments. This only follows the commands, - it doesn't trigger input prompts or callbacks. - - :param cli: Command being called. - :param prog_name: Name of the executable in the shell. - :param args: List of complete args before the incomplete value. - """ - ctx_args["resilient_parsing"] = True - ctx = cli.make_context(prog_name, args.copy(), **ctx_args) - args = ctx.protected_args + ctx.args - - while args: - command = ctx.command - - if isinstance(command, MultiCommand): - if not command.chain: - name, cmd, args = command.resolve_command(ctx, args) - - if cmd is None: - return ctx - - ctx = cmd.make_context(name, args, parent=ctx, resilient_parsing=True) - args = ctx.protected_args + ctx.args - else: - sub_ctx = ctx - - while args: - name, cmd, args = command.resolve_command(ctx, args) - - if cmd is None: - return ctx - - sub_ctx = cmd.make_context( - name, - args, - parent=ctx, - allow_extra_args=True, - allow_interspersed_args=False, - resilient_parsing=True, - ) - args = sub_ctx.args - - ctx = sub_ctx - args = [*sub_ctx.protected_args, *sub_ctx.args] - else: - break - - return ctx - - -def _resolve_incomplete( - ctx: Context, args: t.List[str], incomplete: str -) -> t.Tuple[t.Union[BaseCommand, Parameter], str]: - """Find the Click object that will handle the completion of the - incomplete value. Return the object and the incomplete value. - - :param ctx: Invocation context for the command represented by - the parsed complete args. - :param args: List of complete args before the incomplete value. - :param incomplete: Value being completed. May be empty. - """ - # Different shells treat an "=" between a long option name and - # value differently. Might keep the value joined, return the "=" - # as a separate item, or return the split name and value. Always - # split and discard the "=" to make completion easier. - if incomplete == "=": - incomplete = "" - elif "=" in incomplete and _start_of_option(ctx, incomplete): - name, _, incomplete = incomplete.partition("=") - args.append(name) - - # The "--" marker tells Click to stop treating values as options - # even if they start with the option character. If it hasn't been - # given and the incomplete arg looks like an option, the current - # command will provide option name completions. - if "--" not in args and _start_of_option(ctx, incomplete): - return ctx.command, incomplete - - params = ctx.command.get_params(ctx) - - # If the last complete arg is an option name with an incomplete - # value, the option will provide value completions. - for param in params: - if _is_incomplete_option(ctx, args, param): - return param, incomplete - - # It's not an option name or value. The first argument without a - # parsed value will provide value completions. - for param in params: - if _is_incomplete_argument(ctx, param): - return param, incomplete - - # There were no unparsed arguments, the command may be a group that - # will provide command name completions. - return ctx.command, incomplete diff --git a/venv/lib/python3.11/site-packages/click/termui.py b/venv/lib/python3.11/site-packages/click/termui.py deleted file mode 100644 index db7a4b2..0000000 --- a/venv/lib/python3.11/site-packages/click/termui.py +++ /dev/null @@ -1,784 +0,0 @@ -import inspect -import io -import itertools -import sys -import typing as t -from gettext import gettext as _ - -from ._compat import isatty -from ._compat import strip_ansi -from .exceptions import Abort -from .exceptions import UsageError -from .globals import resolve_color_default -from .types import Choice -from .types import convert_type -from .types import ParamType -from .utils import echo -from .utils import LazyFile - -if t.TYPE_CHECKING: - from ._termui_impl import ProgressBar - -V = t.TypeVar("V") - -# The prompt functions to use. The doc tools currently override these -# functions to customize how they work. -visible_prompt_func: t.Callable[[str], str] = input - -_ansi_colors = { - "black": 30, - "red": 31, - "green": 32, - "yellow": 33, - "blue": 34, - "magenta": 35, - "cyan": 36, - "white": 37, - "reset": 39, - "bright_black": 90, - "bright_red": 91, - "bright_green": 92, - "bright_yellow": 93, - "bright_blue": 94, - "bright_magenta": 95, - "bright_cyan": 96, - "bright_white": 97, -} -_ansi_reset_all = "\033[0m" - - -def hidden_prompt_func(prompt: str) -> str: - import getpass - - return getpass.getpass(prompt) - - -def _build_prompt( - text: str, - suffix: str, - show_default: bool = False, - default: t.Optional[t.Any] = None, - show_choices: bool = True, - type: t.Optional[ParamType] = None, -) -> str: - prompt = text - if type is not None and show_choices and isinstance(type, Choice): - prompt += f" ({', '.join(map(str, type.choices))})" - if default is not None and show_default: - prompt = f"{prompt} [{_format_default(default)}]" - return f"{prompt}{suffix}" - - -def _format_default(default: t.Any) -> t.Any: - if isinstance(default, (io.IOBase, LazyFile)) and hasattr(default, "name"): - return default.name - - return default - - -def prompt( - text: str, - default: t.Optional[t.Any] = None, - hide_input: bool = False, - confirmation_prompt: t.Union[bool, str] = False, - type: t.Optional[t.Union[ParamType, t.Any]] = None, - value_proc: t.Optional[t.Callable[[str], t.Any]] = None, - prompt_suffix: str = ": ", - show_default: bool = True, - err: bool = False, - show_choices: bool = True, -) -> t.Any: - """Prompts a user for input. This is a convenience function that can - be used to prompt a user for input later. - - If the user aborts the input by sending an interrupt signal, this - function will catch it and raise a :exc:`Abort` exception. - - :param text: the text to show for the prompt. - :param default: the default value to use if no input happens. If this - is not given it will prompt until it's aborted. - :param hide_input: if this is set to true then the input value will - be hidden. - :param confirmation_prompt: Prompt a second time to confirm the - value. Can be set to a string instead of ``True`` to customize - the message. - :param type: the type to use to check the value against. - :param value_proc: if this parameter is provided it's a function that - is invoked instead of the type conversion to - convert a value. - :param prompt_suffix: a suffix that should be added to the prompt. - :param show_default: shows or hides the default value in the prompt. - :param err: if set to true the file defaults to ``stderr`` instead of - ``stdout``, the same as with echo. - :param show_choices: Show or hide choices if the passed type is a Choice. - For example if type is a Choice of either day or week, - show_choices is true and text is "Group by" then the - prompt will be "Group by (day, week): ". - - .. versionadded:: 8.0 - ``confirmation_prompt`` can be a custom string. - - .. versionadded:: 7.0 - Added the ``show_choices`` parameter. - - .. versionadded:: 6.0 - Added unicode support for cmd.exe on Windows. - - .. versionadded:: 4.0 - Added the `err` parameter. - - """ - - def prompt_func(text: str) -> str: - f = hidden_prompt_func if hide_input else visible_prompt_func - try: - # Write the prompt separately so that we get nice - # coloring through colorama on Windows - echo(text.rstrip(" "), nl=False, err=err) - # Echo a space to stdout to work around an issue where - # readline causes backspace to clear the whole line. - return f(" ") - except (KeyboardInterrupt, EOFError): - # getpass doesn't print a newline if the user aborts input with ^C. - # Allegedly this behavior is inherited from getpass(3). - # A doc bug has been filed at https://bugs.python.org/issue24711 - if hide_input: - echo(None, err=err) - raise Abort() from None - - if value_proc is None: - value_proc = convert_type(type, default) - - prompt = _build_prompt( - text, prompt_suffix, show_default, default, show_choices, type - ) - - if confirmation_prompt: - if confirmation_prompt is True: - confirmation_prompt = _("Repeat for confirmation") - - confirmation_prompt = _build_prompt(confirmation_prompt, prompt_suffix) - - while True: - while True: - value = prompt_func(prompt) - if value: - break - elif default is not None: - value = default - break - try: - result = value_proc(value) - except UsageError as e: - if hide_input: - echo(_("Error: The value you entered was invalid."), err=err) - else: - echo(_("Error: {e.message}").format(e=e), err=err) # noqa: B306 - continue - if not confirmation_prompt: - return result - while True: - value2 = prompt_func(confirmation_prompt) - is_empty = not value and not value2 - if value2 or is_empty: - break - if value == value2: - return result - echo(_("Error: The two entered values do not match."), err=err) - - -def confirm( - text: str, - default: t.Optional[bool] = False, - abort: bool = False, - prompt_suffix: str = ": ", - show_default: bool = True, - err: bool = False, -) -> bool: - """Prompts for confirmation (yes/no question). - - If the user aborts the input by sending a interrupt signal this - function will catch it and raise a :exc:`Abort` exception. - - :param text: the question to ask. - :param default: The default value to use when no input is given. If - ``None``, repeat until input is given. - :param abort: if this is set to `True` a negative answer aborts the - exception by raising :exc:`Abort`. - :param prompt_suffix: a suffix that should be added to the prompt. - :param show_default: shows or hides the default value in the prompt. - :param err: if set to true the file defaults to ``stderr`` instead of - ``stdout``, the same as with echo. - - .. versionchanged:: 8.0 - Repeat until input is given if ``default`` is ``None``. - - .. versionadded:: 4.0 - Added the ``err`` parameter. - """ - prompt = _build_prompt( - text, - prompt_suffix, - show_default, - "y/n" if default is None else ("Y/n" if default else "y/N"), - ) - - while True: - try: - # Write the prompt separately so that we get nice - # coloring through colorama on Windows - echo(prompt.rstrip(" "), nl=False, err=err) - # Echo a space to stdout to work around an issue where - # readline causes backspace to clear the whole line. - value = visible_prompt_func(" ").lower().strip() - except (KeyboardInterrupt, EOFError): - raise Abort() from None - if value in ("y", "yes"): - rv = True - elif value in ("n", "no"): - rv = False - elif default is not None and value == "": - rv = default - else: - echo(_("Error: invalid input"), err=err) - continue - break - if abort and not rv: - raise Abort() - return rv - - -def echo_via_pager( - text_or_generator: t.Union[t.Iterable[str], t.Callable[[], t.Iterable[str]], str], - color: t.Optional[bool] = None, -) -> None: - """This function takes a text and shows it via an environment specific - pager on stdout. - - .. versionchanged:: 3.0 - Added the `color` flag. - - :param text_or_generator: the text to page, or alternatively, a - generator emitting the text to page. - :param color: controls if the pager supports ANSI colors or not. The - default is autodetection. - """ - color = resolve_color_default(color) - - if inspect.isgeneratorfunction(text_or_generator): - i = t.cast(t.Callable[[], t.Iterable[str]], text_or_generator)() - elif isinstance(text_or_generator, str): - i = [text_or_generator] - else: - i = iter(t.cast(t.Iterable[str], text_or_generator)) - - # convert every element of i to a text type if necessary - text_generator = (el if isinstance(el, str) else str(el) for el in i) - - from ._termui_impl import pager - - return pager(itertools.chain(text_generator, "\n"), color) - - -def progressbar( - iterable: t.Optional[t.Iterable[V]] = None, - length: t.Optional[int] = None, - label: t.Optional[str] = None, - show_eta: bool = True, - show_percent: t.Optional[bool] = None, - show_pos: bool = False, - item_show_func: t.Optional[t.Callable[[t.Optional[V]], t.Optional[str]]] = None, - fill_char: str = "#", - empty_char: str = "-", - bar_template: str = "%(label)s [%(bar)s] %(info)s", - info_sep: str = " ", - width: int = 36, - file: t.Optional[t.TextIO] = None, - color: t.Optional[bool] = None, - update_min_steps: int = 1, -) -> "ProgressBar[V]": - """This function creates an iterable context manager that can be used - to iterate over something while showing a progress bar. It will - either iterate over the `iterable` or `length` items (that are counted - up). While iteration happens, this function will print a rendered - progress bar to the given `file` (defaults to stdout) and will attempt - to calculate remaining time and more. By default, this progress bar - will not be rendered if the file is not a terminal. - - The context manager creates the progress bar. When the context - manager is entered the progress bar is already created. With every - iteration over the progress bar, the iterable passed to the bar is - advanced and the bar is updated. When the context manager exits, - a newline is printed and the progress bar is finalized on screen. - - Note: The progress bar is currently designed for use cases where the - total progress can be expected to take at least several seconds. - Because of this, the ProgressBar class object won't display - progress that is considered too fast, and progress where the time - between steps is less than a second. - - No printing must happen or the progress bar will be unintentionally - destroyed. - - Example usage:: - - with progressbar(items) as bar: - for item in bar: - do_something_with(item) - - Alternatively, if no iterable is specified, one can manually update the - progress bar through the `update()` method instead of directly - iterating over the progress bar. The update method accepts the number - of steps to increment the bar with:: - - with progressbar(length=chunks.total_bytes) as bar: - for chunk in chunks: - process_chunk(chunk) - bar.update(chunks.bytes) - - The ``update()`` method also takes an optional value specifying the - ``current_item`` at the new position. This is useful when used - together with ``item_show_func`` to customize the output for each - manual step:: - - with click.progressbar( - length=total_size, - label='Unzipping archive', - item_show_func=lambda a: a.filename - ) as bar: - for archive in zip_file: - archive.extract() - bar.update(archive.size, archive) - - :param iterable: an iterable to iterate over. If not provided the length - is required. - :param length: the number of items to iterate over. By default the - progressbar will attempt to ask the iterator about its - length, which might or might not work. If an iterable is - also provided this parameter can be used to override the - length. If an iterable is not provided the progress bar - will iterate over a range of that length. - :param label: the label to show next to the progress bar. - :param show_eta: enables or disables the estimated time display. This is - automatically disabled if the length cannot be - determined. - :param show_percent: enables or disables the percentage display. The - default is `True` if the iterable has a length or - `False` if not. - :param show_pos: enables or disables the absolute position display. The - default is `False`. - :param item_show_func: A function called with the current item which - can return a string to show next to the progress bar. If the - function returns ``None`` nothing is shown. The current item can - be ``None``, such as when entering and exiting the bar. - :param fill_char: the character to use to show the filled part of the - progress bar. - :param empty_char: the character to use to show the non-filled part of - the progress bar. - :param bar_template: the format string to use as template for the bar. - The parameters in it are ``label`` for the label, - ``bar`` for the progress bar and ``info`` for the - info section. - :param info_sep: the separator between multiple info items (eta etc.) - :param width: the width of the progress bar in characters, 0 means full - terminal width - :param file: The file to write to. If this is not a terminal then - only the label is printed. - :param color: controls if the terminal supports ANSI colors or not. The - default is autodetection. This is only needed if ANSI - codes are included anywhere in the progress bar output - which is not the case by default. - :param update_min_steps: Render only when this many updates have - completed. This allows tuning for very fast iterators. - - .. versionchanged:: 8.0 - Output is shown even if execution time is less than 0.5 seconds. - - .. versionchanged:: 8.0 - ``item_show_func`` shows the current item, not the previous one. - - .. versionchanged:: 8.0 - Labels are echoed if the output is not a TTY. Reverts a change - in 7.0 that removed all output. - - .. versionadded:: 8.0 - Added the ``update_min_steps`` parameter. - - .. versionchanged:: 4.0 - Added the ``color`` parameter. Added the ``update`` method to - the object. - - .. versionadded:: 2.0 - """ - from ._termui_impl import ProgressBar - - color = resolve_color_default(color) - return ProgressBar( - iterable=iterable, - length=length, - show_eta=show_eta, - show_percent=show_percent, - show_pos=show_pos, - item_show_func=item_show_func, - fill_char=fill_char, - empty_char=empty_char, - bar_template=bar_template, - info_sep=info_sep, - file=file, - label=label, - width=width, - color=color, - update_min_steps=update_min_steps, - ) - - -def clear() -> None: - """Clears the terminal screen. This will have the effect of clearing - the whole visible space of the terminal and moving the cursor to the - top left. This does not do anything if not connected to a terminal. - - .. versionadded:: 2.0 - """ - if not isatty(sys.stdout): - return - - # ANSI escape \033[2J clears the screen, \033[1;1H moves the cursor - echo("\033[2J\033[1;1H", nl=False) - - -def _interpret_color( - color: t.Union[int, t.Tuple[int, int, int], str], offset: int = 0 -) -> str: - if isinstance(color, int): - return f"{38 + offset};5;{color:d}" - - if isinstance(color, (tuple, list)): - r, g, b = color - return f"{38 + offset};2;{r:d};{g:d};{b:d}" - - return str(_ansi_colors[color] + offset) - - -def style( - text: t.Any, - fg: t.Optional[t.Union[int, t.Tuple[int, int, int], str]] = None, - bg: t.Optional[t.Union[int, t.Tuple[int, int, int], str]] = None, - bold: t.Optional[bool] = None, - dim: t.Optional[bool] = None, - underline: t.Optional[bool] = None, - overline: t.Optional[bool] = None, - italic: t.Optional[bool] = None, - blink: t.Optional[bool] = None, - reverse: t.Optional[bool] = None, - strikethrough: t.Optional[bool] = None, - reset: bool = True, -) -> str: - """Styles a text with ANSI styles and returns the new string. By - default the styling is self contained which means that at the end - of the string a reset code is issued. This can be prevented by - passing ``reset=False``. - - Examples:: - - click.echo(click.style('Hello World!', fg='green')) - click.echo(click.style('ATTENTION!', blink=True)) - click.echo(click.style('Some things', reverse=True, fg='cyan')) - click.echo(click.style('More colors', fg=(255, 12, 128), bg=117)) - - Supported color names: - - * ``black`` (might be a gray) - * ``red`` - * ``green`` - * ``yellow`` (might be an orange) - * ``blue`` - * ``magenta`` - * ``cyan`` - * ``white`` (might be light gray) - * ``bright_black`` - * ``bright_red`` - * ``bright_green`` - * ``bright_yellow`` - * ``bright_blue`` - * ``bright_magenta`` - * ``bright_cyan`` - * ``bright_white`` - * ``reset`` (reset the color code only) - - If the terminal supports it, color may also be specified as: - - - An integer in the interval [0, 255]. The terminal must support - 8-bit/256-color mode. - - An RGB tuple of three integers in [0, 255]. The terminal must - support 24-bit/true-color mode. - - See https://en.wikipedia.org/wiki/ANSI_color and - https://gist.github.com/XVilka/8346728 for more information. - - :param text: the string to style with ansi codes. - :param fg: if provided this will become the foreground color. - :param bg: if provided this will become the background color. - :param bold: if provided this will enable or disable bold mode. - :param dim: if provided this will enable or disable dim mode. This is - badly supported. - :param underline: if provided this will enable or disable underline. - :param overline: if provided this will enable or disable overline. - :param italic: if provided this will enable or disable italic. - :param blink: if provided this will enable or disable blinking. - :param reverse: if provided this will enable or disable inverse - rendering (foreground becomes background and the - other way round). - :param strikethrough: if provided this will enable or disable - striking through text. - :param reset: by default a reset-all code is added at the end of the - string which means that styles do not carry over. This - can be disabled to compose styles. - - .. versionchanged:: 8.0 - A non-string ``message`` is converted to a string. - - .. versionchanged:: 8.0 - Added support for 256 and RGB color codes. - - .. versionchanged:: 8.0 - Added the ``strikethrough``, ``italic``, and ``overline`` - parameters. - - .. versionchanged:: 7.0 - Added support for bright colors. - - .. versionadded:: 2.0 - """ - if not isinstance(text, str): - text = str(text) - - bits = [] - - if fg: - try: - bits.append(f"\033[{_interpret_color(fg)}m") - except KeyError: - raise TypeError(f"Unknown color {fg!r}") from None - - if bg: - try: - bits.append(f"\033[{_interpret_color(bg, 10)}m") - except KeyError: - raise TypeError(f"Unknown color {bg!r}") from None - - if bold is not None: - bits.append(f"\033[{1 if bold else 22}m") - if dim is not None: - bits.append(f"\033[{2 if dim else 22}m") - if underline is not None: - bits.append(f"\033[{4 if underline else 24}m") - if overline is not None: - bits.append(f"\033[{53 if overline else 55}m") - if italic is not None: - bits.append(f"\033[{3 if italic else 23}m") - if blink is not None: - bits.append(f"\033[{5 if blink else 25}m") - if reverse is not None: - bits.append(f"\033[{7 if reverse else 27}m") - if strikethrough is not None: - bits.append(f"\033[{9 if strikethrough else 29}m") - bits.append(text) - if reset: - bits.append(_ansi_reset_all) - return "".join(bits) - - -def unstyle(text: str) -> str: - """Removes ANSI styling information from a string. Usually it's not - necessary to use this function as Click's echo function will - automatically remove styling if necessary. - - .. versionadded:: 2.0 - - :param text: the text to remove style information from. - """ - return strip_ansi(text) - - -def secho( - message: t.Optional[t.Any] = None, - file: t.Optional[t.IO[t.AnyStr]] = None, - nl: bool = True, - err: bool = False, - color: t.Optional[bool] = None, - **styles: t.Any, -) -> None: - """This function combines :func:`echo` and :func:`style` into one - call. As such the following two calls are the same:: - - click.secho('Hello World!', fg='green') - click.echo(click.style('Hello World!', fg='green')) - - All keyword arguments are forwarded to the underlying functions - depending on which one they go with. - - Non-string types will be converted to :class:`str`. However, - :class:`bytes` are passed directly to :meth:`echo` without applying - style. If you want to style bytes that represent text, call - :meth:`bytes.decode` first. - - .. versionchanged:: 8.0 - A non-string ``message`` is converted to a string. Bytes are - passed through without style applied. - - .. versionadded:: 2.0 - """ - if message is not None and not isinstance(message, (bytes, bytearray)): - message = style(message, **styles) - - return echo(message, file=file, nl=nl, err=err, color=color) - - -def edit( - text: t.Optional[t.AnyStr] = None, - editor: t.Optional[str] = None, - env: t.Optional[t.Mapping[str, str]] = None, - require_save: bool = True, - extension: str = ".txt", - filename: t.Optional[str] = None, -) -> t.Optional[t.AnyStr]: - r"""Edits the given text in the defined editor. If an editor is given - (should be the full path to the executable but the regular operating - system search path is used for finding the executable) it overrides - the detected editor. Optionally, some environment variables can be - used. If the editor is closed without changes, `None` is returned. In - case a file is edited directly the return value is always `None` and - `require_save` and `extension` are ignored. - - If the editor cannot be opened a :exc:`UsageError` is raised. - - Note for Windows: to simplify cross-platform usage, the newlines are - automatically converted from POSIX to Windows and vice versa. As such, - the message here will have ``\n`` as newline markers. - - :param text: the text to edit. - :param editor: optionally the editor to use. Defaults to automatic - detection. - :param env: environment variables to forward to the editor. - :param require_save: if this is true, then not saving in the editor - will make the return value become `None`. - :param extension: the extension to tell the editor about. This defaults - to `.txt` but changing this might change syntax - highlighting. - :param filename: if provided it will edit this file instead of the - provided text contents. It will not use a temporary - file as an indirection in that case. - """ - from ._termui_impl import Editor - - ed = Editor(editor=editor, env=env, require_save=require_save, extension=extension) - - if filename is None: - return ed.edit(text) - - ed.edit_file(filename) - return None - - -def launch(url: str, wait: bool = False, locate: bool = False) -> int: - """This function launches the given URL (or filename) in the default - viewer application for this file type. If this is an executable, it - might launch the executable in a new session. The return value is - the exit code of the launched application. Usually, ``0`` indicates - success. - - Examples:: - - click.launch('https://click.palletsprojects.com/') - click.launch('/my/downloaded/file', locate=True) - - .. versionadded:: 2.0 - - :param url: URL or filename of the thing to launch. - :param wait: Wait for the program to exit before returning. This - only works if the launched program blocks. In particular, - ``xdg-open`` on Linux does not block. - :param locate: if this is set to `True` then instead of launching the - application associated with the URL it will attempt to - launch a file manager with the file located. This - might have weird effects if the URL does not point to - the filesystem. - """ - from ._termui_impl import open_url - - return open_url(url, wait=wait, locate=locate) - - -# If this is provided, getchar() calls into this instead. This is used -# for unittesting purposes. -_getchar: t.Optional[t.Callable[[bool], str]] = None - - -def getchar(echo: bool = False) -> str: - """Fetches a single character from the terminal and returns it. This - will always return a unicode character and under certain rare - circumstances this might return more than one character. The - situations which more than one character is returned is when for - whatever reason multiple characters end up in the terminal buffer or - standard input was not actually a terminal. - - Note that this will always read from the terminal, even if something - is piped into the standard input. - - Note for Windows: in rare cases when typing non-ASCII characters, this - function might wait for a second character and then return both at once. - This is because certain Unicode characters look like special-key markers. - - .. versionadded:: 2.0 - - :param echo: if set to `True`, the character read will also show up on - the terminal. The default is to not show it. - """ - global _getchar - - if _getchar is None: - from ._termui_impl import getchar as f - - _getchar = f - - return _getchar(echo) - - -def raw_terminal() -> t.ContextManager[int]: - from ._termui_impl import raw_terminal as f - - return f() - - -def pause(info: t.Optional[str] = None, err: bool = False) -> None: - """This command stops execution and waits for the user to press any - key to continue. This is similar to the Windows batch "pause" - command. If the program is not run through a terminal, this command - will instead do nothing. - - .. versionadded:: 2.0 - - .. versionadded:: 4.0 - Added the `err` parameter. - - :param info: The message to print before pausing. Defaults to - ``"Press any key to continue..."``. - :param err: if set to message goes to ``stderr`` instead of - ``stdout``, the same as with echo. - """ - if not isatty(sys.stdin) or not isatty(sys.stdout): - return - - if info is None: - info = _("Press any key to continue...") - - try: - if info: - echo(info, nl=False, err=err) - try: - getchar() - except (KeyboardInterrupt, EOFError): - pass - finally: - if info: - echo(err=err) diff --git a/venv/lib/python3.11/site-packages/click/testing.py b/venv/lib/python3.11/site-packages/click/testing.py deleted file mode 100644 index e0df0d2..0000000 --- a/venv/lib/python3.11/site-packages/click/testing.py +++ /dev/null @@ -1,479 +0,0 @@ -import contextlib -import io -import os -import shlex -import shutil -import sys -import tempfile -import typing as t -from types import TracebackType - -from . import formatting -from . import termui -from . import utils -from ._compat import _find_binary_reader - -if t.TYPE_CHECKING: - from .core import BaseCommand - - -class EchoingStdin: - def __init__(self, input: t.BinaryIO, output: t.BinaryIO) -> None: - self._input = input - self._output = output - self._paused = False - - def __getattr__(self, x: str) -> t.Any: - return getattr(self._input, x) - - def _echo(self, rv: bytes) -> bytes: - if not self._paused: - self._output.write(rv) - - return rv - - def read(self, n: int = -1) -> bytes: - return self._echo(self._input.read(n)) - - def read1(self, n: int = -1) -> bytes: - return self._echo(self._input.read1(n)) # type: ignore - - def readline(self, n: int = -1) -> bytes: - return self._echo(self._input.readline(n)) - - def readlines(self) -> t.List[bytes]: - return [self._echo(x) for x in self._input.readlines()] - - def __iter__(self) -> t.Iterator[bytes]: - return iter(self._echo(x) for x in self._input) - - def __repr__(self) -> str: - return repr(self._input) - - -@contextlib.contextmanager -def _pause_echo(stream: t.Optional[EchoingStdin]) -> t.Iterator[None]: - if stream is None: - yield - else: - stream._paused = True - yield - stream._paused = False - - -class _NamedTextIOWrapper(io.TextIOWrapper): - def __init__( - self, buffer: t.BinaryIO, name: str, mode: str, **kwargs: t.Any - ) -> None: - super().__init__(buffer, **kwargs) - self._name = name - self._mode = mode - - @property - def name(self) -> str: - return self._name - - @property - def mode(self) -> str: - return self._mode - - -def make_input_stream( - input: t.Optional[t.Union[str, bytes, t.IO[t.Any]]], charset: str -) -> t.BinaryIO: - # Is already an input stream. - if hasattr(input, "read"): - rv = _find_binary_reader(t.cast(t.IO[t.Any], input)) - - if rv is not None: - return rv - - raise TypeError("Could not find binary reader for input stream.") - - if input is None: - input = b"" - elif isinstance(input, str): - input = input.encode(charset) - - return io.BytesIO(input) - - -class Result: - """Holds the captured result of an invoked CLI script.""" - - def __init__( - self, - runner: "CliRunner", - stdout_bytes: bytes, - stderr_bytes: t.Optional[bytes], - return_value: t.Any, - exit_code: int, - exception: t.Optional[BaseException], - exc_info: t.Optional[ - t.Tuple[t.Type[BaseException], BaseException, TracebackType] - ] = None, - ): - #: The runner that created the result - self.runner = runner - #: The standard output as bytes. - self.stdout_bytes = stdout_bytes - #: The standard error as bytes, or None if not available - self.stderr_bytes = stderr_bytes - #: The value returned from the invoked command. - #: - #: .. versionadded:: 8.0 - self.return_value = return_value - #: The exit code as integer. - self.exit_code = exit_code - #: The exception that happened if one did. - self.exception = exception - #: The traceback - self.exc_info = exc_info - - @property - def output(self) -> str: - """The (standard) output as unicode string.""" - return self.stdout - - @property - def stdout(self) -> str: - """The standard output as unicode string.""" - return self.stdout_bytes.decode(self.runner.charset, "replace").replace( - "\r\n", "\n" - ) - - @property - def stderr(self) -> str: - """The standard error as unicode string.""" - if self.stderr_bytes is None: - raise ValueError("stderr not separately captured") - return self.stderr_bytes.decode(self.runner.charset, "replace").replace( - "\r\n", "\n" - ) - - def __repr__(self) -> str: - exc_str = repr(self.exception) if self.exception else "okay" - return f"<{type(self).__name__} {exc_str}>" - - -class CliRunner: - """The CLI runner provides functionality to invoke a Click command line - script for unittesting purposes in a isolated environment. This only - works in single-threaded systems without any concurrency as it changes the - global interpreter state. - - :param charset: the character set for the input and output data. - :param env: a dictionary with environment variables for overriding. - :param echo_stdin: if this is set to `True`, then reading from stdin writes - to stdout. This is useful for showing examples in - some circumstances. Note that regular prompts - will automatically echo the input. - :param mix_stderr: if this is set to `False`, then stdout and stderr are - preserved as independent streams. This is useful for - Unix-philosophy apps that have predictable stdout and - noisy stderr, such that each may be measured - independently - """ - - def __init__( - self, - charset: str = "utf-8", - env: t.Optional[t.Mapping[str, t.Optional[str]]] = None, - echo_stdin: bool = False, - mix_stderr: bool = True, - ) -> None: - self.charset = charset - self.env: t.Mapping[str, t.Optional[str]] = env or {} - self.echo_stdin = echo_stdin - self.mix_stderr = mix_stderr - - def get_default_prog_name(self, cli: "BaseCommand") -> str: - """Given a command object it will return the default program name - for it. The default is the `name` attribute or ``"root"`` if not - set. - """ - return cli.name or "root" - - def make_env( - self, overrides: t.Optional[t.Mapping[str, t.Optional[str]]] = None - ) -> t.Mapping[str, t.Optional[str]]: - """Returns the environment overrides for invoking a script.""" - rv = dict(self.env) - if overrides: - rv.update(overrides) - return rv - - @contextlib.contextmanager - def isolation( - self, - input: t.Optional[t.Union[str, bytes, t.IO[t.Any]]] = None, - env: t.Optional[t.Mapping[str, t.Optional[str]]] = None, - color: bool = False, - ) -> t.Iterator[t.Tuple[io.BytesIO, t.Optional[io.BytesIO]]]: - """A context manager that sets up the isolation for invoking of a - command line tool. This sets up stdin with the given input data - and `os.environ` with the overrides from the given dictionary. - This also rebinds some internals in Click to be mocked (like the - prompt functionality). - - This is automatically done in the :meth:`invoke` method. - - :param input: the input stream to put into sys.stdin. - :param env: the environment overrides as dictionary. - :param color: whether the output should contain color codes. The - application can still override this explicitly. - - .. versionchanged:: 8.0 - ``stderr`` is opened with ``errors="backslashreplace"`` - instead of the default ``"strict"``. - - .. versionchanged:: 4.0 - Added the ``color`` parameter. - """ - bytes_input = make_input_stream(input, self.charset) - echo_input = None - - old_stdin = sys.stdin - old_stdout = sys.stdout - old_stderr = sys.stderr - old_forced_width = formatting.FORCED_WIDTH - formatting.FORCED_WIDTH = 80 - - env = self.make_env(env) - - bytes_output = io.BytesIO() - - if self.echo_stdin: - bytes_input = echo_input = t.cast( - t.BinaryIO, EchoingStdin(bytes_input, bytes_output) - ) - - sys.stdin = text_input = _NamedTextIOWrapper( - bytes_input, encoding=self.charset, name="", mode="r" - ) - - if self.echo_stdin: - # Force unbuffered reads, otherwise TextIOWrapper reads a - # large chunk which is echoed early. - text_input._CHUNK_SIZE = 1 # type: ignore - - sys.stdout = _NamedTextIOWrapper( - bytes_output, encoding=self.charset, name="", mode="w" - ) - - bytes_error = None - if self.mix_stderr: - sys.stderr = sys.stdout - else: - bytes_error = io.BytesIO() - sys.stderr = _NamedTextIOWrapper( - bytes_error, - encoding=self.charset, - name="", - mode="w", - errors="backslashreplace", - ) - - @_pause_echo(echo_input) # type: ignore - def visible_input(prompt: t.Optional[str] = None) -> str: - sys.stdout.write(prompt or "") - val = text_input.readline().rstrip("\r\n") - sys.stdout.write(f"{val}\n") - sys.stdout.flush() - return val - - @_pause_echo(echo_input) # type: ignore - def hidden_input(prompt: t.Optional[str] = None) -> str: - sys.stdout.write(f"{prompt or ''}\n") - sys.stdout.flush() - return text_input.readline().rstrip("\r\n") - - @_pause_echo(echo_input) # type: ignore - def _getchar(echo: bool) -> str: - char = sys.stdin.read(1) - - if echo: - sys.stdout.write(char) - - sys.stdout.flush() - return char - - default_color = color - - def should_strip_ansi( - stream: t.Optional[t.IO[t.Any]] = None, color: t.Optional[bool] = None - ) -> bool: - if color is None: - return not default_color - return not color - - old_visible_prompt_func = termui.visible_prompt_func - old_hidden_prompt_func = termui.hidden_prompt_func - old__getchar_func = termui._getchar - old_should_strip_ansi = utils.should_strip_ansi # type: ignore - termui.visible_prompt_func = visible_input - termui.hidden_prompt_func = hidden_input - termui._getchar = _getchar - utils.should_strip_ansi = should_strip_ansi # type: ignore - - old_env = {} - try: - for key, value in env.items(): - old_env[key] = os.environ.get(key) - if value is None: - try: - del os.environ[key] - except Exception: - pass - else: - os.environ[key] = value - yield (bytes_output, bytes_error) - finally: - for key, value in old_env.items(): - if value is None: - try: - del os.environ[key] - except Exception: - pass - else: - os.environ[key] = value - sys.stdout = old_stdout - sys.stderr = old_stderr - sys.stdin = old_stdin - termui.visible_prompt_func = old_visible_prompt_func - termui.hidden_prompt_func = old_hidden_prompt_func - termui._getchar = old__getchar_func - utils.should_strip_ansi = old_should_strip_ansi # type: ignore - formatting.FORCED_WIDTH = old_forced_width - - def invoke( - self, - cli: "BaseCommand", - args: t.Optional[t.Union[str, t.Sequence[str]]] = None, - input: t.Optional[t.Union[str, bytes, t.IO[t.Any]]] = None, - env: t.Optional[t.Mapping[str, t.Optional[str]]] = None, - catch_exceptions: bool = True, - color: bool = False, - **extra: t.Any, - ) -> Result: - """Invokes a command in an isolated environment. The arguments are - forwarded directly to the command line script, the `extra` keyword - arguments are passed to the :meth:`~clickpkg.Command.main` function of - the command. - - This returns a :class:`Result` object. - - :param cli: the command to invoke - :param args: the arguments to invoke. It may be given as an iterable - or a string. When given as string it will be interpreted - as a Unix shell command. More details at - :func:`shlex.split`. - :param input: the input data for `sys.stdin`. - :param env: the environment overrides. - :param catch_exceptions: Whether to catch any other exceptions than - ``SystemExit``. - :param extra: the keyword arguments to pass to :meth:`main`. - :param color: whether the output should contain color codes. The - application can still override this explicitly. - - .. versionchanged:: 8.0 - The result object has the ``return_value`` attribute with - the value returned from the invoked command. - - .. versionchanged:: 4.0 - Added the ``color`` parameter. - - .. versionchanged:: 3.0 - Added the ``catch_exceptions`` parameter. - - .. versionchanged:: 3.0 - The result object has the ``exc_info`` attribute with the - traceback if available. - """ - exc_info = None - with self.isolation(input=input, env=env, color=color) as outstreams: - return_value = None - exception: t.Optional[BaseException] = None - exit_code = 0 - - if isinstance(args, str): - args = shlex.split(args) - - try: - prog_name = extra.pop("prog_name") - except KeyError: - prog_name = self.get_default_prog_name(cli) - - try: - return_value = cli.main(args=args or (), prog_name=prog_name, **extra) - except SystemExit as e: - exc_info = sys.exc_info() - e_code = t.cast(t.Optional[t.Union[int, t.Any]], e.code) - - if e_code is None: - e_code = 0 - - if e_code != 0: - exception = e - - if not isinstance(e_code, int): - sys.stdout.write(str(e_code)) - sys.stdout.write("\n") - e_code = 1 - - exit_code = e_code - - except Exception as e: - if not catch_exceptions: - raise - exception = e - exit_code = 1 - exc_info = sys.exc_info() - finally: - sys.stdout.flush() - stdout = outstreams[0].getvalue() - if self.mix_stderr: - stderr = None - else: - stderr = outstreams[1].getvalue() # type: ignore - - return Result( - runner=self, - stdout_bytes=stdout, - stderr_bytes=stderr, - return_value=return_value, - exit_code=exit_code, - exception=exception, - exc_info=exc_info, # type: ignore - ) - - @contextlib.contextmanager - def isolated_filesystem( - self, temp_dir: t.Optional[t.Union[str, "os.PathLike[str]"]] = None - ) -> t.Iterator[str]: - """A context manager that creates a temporary directory and - changes the current working directory to it. This isolates tests - that affect the contents of the CWD to prevent them from - interfering with each other. - - :param temp_dir: Create the temporary directory under this - directory. If given, the created directory is not removed - when exiting. - - .. versionchanged:: 8.0 - Added the ``temp_dir`` parameter. - """ - cwd = os.getcwd() - dt = tempfile.mkdtemp(dir=temp_dir) - os.chdir(dt) - - try: - yield dt - finally: - os.chdir(cwd) - - if temp_dir is None: - try: - shutil.rmtree(dt) - except OSError: # noqa: B014 - pass diff --git a/venv/lib/python3.11/site-packages/click/types.py b/venv/lib/python3.11/site-packages/click/types.py deleted file mode 100644 index 2b1d179..0000000 --- a/venv/lib/python3.11/site-packages/click/types.py +++ /dev/null @@ -1,1089 +0,0 @@ -import os -import stat -import sys -import typing as t -from datetime import datetime -from gettext import gettext as _ -from gettext import ngettext - -from ._compat import _get_argv_encoding -from ._compat import open_stream -from .exceptions import BadParameter -from .utils import format_filename -from .utils import LazyFile -from .utils import safecall - -if t.TYPE_CHECKING: - import typing_extensions as te - from .core import Context - from .core import Parameter - from .shell_completion import CompletionItem - - -class ParamType: - """Represents the type of a parameter. Validates and converts values - from the command line or Python into the correct type. - - To implement a custom type, subclass and implement at least the - following: - - - The :attr:`name` class attribute must be set. - - Calling an instance of the type with ``None`` must return - ``None``. This is already implemented by default. - - :meth:`convert` must convert string values to the correct type. - - :meth:`convert` must accept values that are already the correct - type. - - It must be able to convert a value if the ``ctx`` and ``param`` - arguments are ``None``. This can occur when converting prompt - input. - """ - - is_composite: t.ClassVar[bool] = False - arity: t.ClassVar[int] = 1 - - #: the descriptive name of this type - name: str - - #: if a list of this type is expected and the value is pulled from a - #: string environment variable, this is what splits it up. `None` - #: means any whitespace. For all parameters the general rule is that - #: whitespace splits them up. The exception are paths and files which - #: are split by ``os.path.pathsep`` by default (":" on Unix and ";" on - #: Windows). - envvar_list_splitter: t.ClassVar[t.Optional[str]] = None - - def to_info_dict(self) -> t.Dict[str, t.Any]: - """Gather information that could be useful for a tool generating - user-facing documentation. - - Use :meth:`click.Context.to_info_dict` to traverse the entire - CLI structure. - - .. versionadded:: 8.0 - """ - # The class name without the "ParamType" suffix. - param_type = type(self).__name__.partition("ParamType")[0] - param_type = param_type.partition("ParameterType")[0] - - # Custom subclasses might not remember to set a name. - if hasattr(self, "name"): - name = self.name - else: - name = param_type - - return {"param_type": param_type, "name": name} - - def __call__( - self, - value: t.Any, - param: t.Optional["Parameter"] = None, - ctx: t.Optional["Context"] = None, - ) -> t.Any: - if value is not None: - return self.convert(value, param, ctx) - - def get_metavar(self, param: "Parameter") -> t.Optional[str]: - """Returns the metavar default for this param if it provides one.""" - - def get_missing_message(self, param: "Parameter") -> t.Optional[str]: - """Optionally might return extra information about a missing - parameter. - - .. versionadded:: 2.0 - """ - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - """Convert the value to the correct type. This is not called if - the value is ``None`` (the missing value). - - This must accept string values from the command line, as well as - values that are already the correct type. It may also convert - other compatible types. - - The ``param`` and ``ctx`` arguments may be ``None`` in certain - situations, such as when converting prompt input. - - If the value cannot be converted, call :meth:`fail` with a - descriptive message. - - :param value: The value to convert. - :param param: The parameter that is using this type to convert - its value. May be ``None``. - :param ctx: The current context that arrived at this value. May - be ``None``. - """ - return value - - def split_envvar_value(self, rv: str) -> t.Sequence[str]: - """Given a value from an environment variable this splits it up - into small chunks depending on the defined envvar list splitter. - - If the splitter is set to `None`, which means that whitespace splits, - then leading and trailing whitespace is ignored. Otherwise, leading - and trailing splitters usually lead to empty items being included. - """ - return (rv or "").split(self.envvar_list_splitter) - - def fail( - self, - message: str, - param: t.Optional["Parameter"] = None, - ctx: t.Optional["Context"] = None, - ) -> "t.NoReturn": - """Helper method to fail with an invalid value message.""" - raise BadParameter(message, ctx=ctx, param=param) - - def shell_complete( - self, ctx: "Context", param: "Parameter", incomplete: str - ) -> t.List["CompletionItem"]: - """Return a list of - :class:`~click.shell_completion.CompletionItem` objects for the - incomplete value. Most types do not provide completions, but - some do, and this allows custom types to provide custom - completions as well. - - :param ctx: Invocation context for this command. - :param param: The parameter that is requesting completion. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - return [] - - -class CompositeParamType(ParamType): - is_composite = True - - @property - def arity(self) -> int: # type: ignore - raise NotImplementedError() - - -class FuncParamType(ParamType): - def __init__(self, func: t.Callable[[t.Any], t.Any]) -> None: - self.name: str = func.__name__ - self.func = func - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict["func"] = self.func - return info_dict - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - try: - return self.func(value) - except ValueError: - try: - value = str(value) - except UnicodeError: - value = value.decode("utf-8", "replace") - - self.fail(value, param, ctx) - - -class UnprocessedParamType(ParamType): - name = "text" - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - return value - - def __repr__(self) -> str: - return "UNPROCESSED" - - -class StringParamType(ParamType): - name = "text" - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - if isinstance(value, bytes): - enc = _get_argv_encoding() - try: - value = value.decode(enc) - except UnicodeError: - fs_enc = sys.getfilesystemencoding() - if fs_enc != enc: - try: - value = value.decode(fs_enc) - except UnicodeError: - value = value.decode("utf-8", "replace") - else: - value = value.decode("utf-8", "replace") - return value - return str(value) - - def __repr__(self) -> str: - return "STRING" - - -class Choice(ParamType): - """The choice type allows a value to be checked against a fixed set - of supported values. All of these values have to be strings. - - You should only pass a list or tuple of choices. Other iterables - (like generators) may lead to surprising results. - - The resulting value will always be one of the originally passed choices - regardless of ``case_sensitive`` or any ``ctx.token_normalize_func`` - being specified. - - See :ref:`choice-opts` for an example. - - :param case_sensitive: Set to false to make choices case - insensitive. Defaults to true. - """ - - name = "choice" - - def __init__(self, choices: t.Sequence[str], case_sensitive: bool = True) -> None: - self.choices = choices - self.case_sensitive = case_sensitive - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict["choices"] = self.choices - info_dict["case_sensitive"] = self.case_sensitive - return info_dict - - def get_metavar(self, param: "Parameter") -> str: - choices_str = "|".join(self.choices) - - # Use curly braces to indicate a required argument. - if param.required and param.param_type_name == "argument": - return f"{{{choices_str}}}" - - # Use square braces to indicate an option or optional argument. - return f"[{choices_str}]" - - def get_missing_message(self, param: "Parameter") -> str: - return _("Choose from:\n\t{choices}").format(choices=",\n\t".join(self.choices)) - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - # Match through normalization and case sensitivity - # first do token_normalize_func, then lowercase - # preserve original `value` to produce an accurate message in - # `self.fail` - normed_value = value - normed_choices = {choice: choice for choice in self.choices} - - if ctx is not None and ctx.token_normalize_func is not None: - normed_value = ctx.token_normalize_func(value) - normed_choices = { - ctx.token_normalize_func(normed_choice): original - for normed_choice, original in normed_choices.items() - } - - if not self.case_sensitive: - normed_value = normed_value.casefold() - normed_choices = { - normed_choice.casefold(): original - for normed_choice, original in normed_choices.items() - } - - if normed_value in normed_choices: - return normed_choices[normed_value] - - choices_str = ", ".join(map(repr, self.choices)) - self.fail( - ngettext( - "{value!r} is not {choice}.", - "{value!r} is not one of {choices}.", - len(self.choices), - ).format(value=value, choice=choices_str, choices=choices_str), - param, - ctx, - ) - - def __repr__(self) -> str: - return f"Choice({list(self.choices)})" - - def shell_complete( - self, ctx: "Context", param: "Parameter", incomplete: str - ) -> t.List["CompletionItem"]: - """Complete choices that start with the incomplete value. - - :param ctx: Invocation context for this command. - :param param: The parameter that is requesting completion. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - from click.shell_completion import CompletionItem - - str_choices = map(str, self.choices) - - if self.case_sensitive: - matched = (c for c in str_choices if c.startswith(incomplete)) - else: - incomplete = incomplete.lower() - matched = (c for c in str_choices if c.lower().startswith(incomplete)) - - return [CompletionItem(c) for c in matched] - - -class DateTime(ParamType): - """The DateTime type converts date strings into `datetime` objects. - - The format strings which are checked are configurable, but default to some - common (non-timezone aware) ISO 8601 formats. - - When specifying *DateTime* formats, you should only pass a list or a tuple. - Other iterables, like generators, may lead to surprising results. - - The format strings are processed using ``datetime.strptime``, and this - consequently defines the format strings which are allowed. - - Parsing is tried using each format, in order, and the first format which - parses successfully is used. - - :param formats: A list or tuple of date format strings, in the order in - which they should be tried. Defaults to - ``'%Y-%m-%d'``, ``'%Y-%m-%dT%H:%M:%S'``, - ``'%Y-%m-%d %H:%M:%S'``. - """ - - name = "datetime" - - def __init__(self, formats: t.Optional[t.Sequence[str]] = None): - self.formats: t.Sequence[str] = formats or [ - "%Y-%m-%d", - "%Y-%m-%dT%H:%M:%S", - "%Y-%m-%d %H:%M:%S", - ] - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict["formats"] = self.formats - return info_dict - - def get_metavar(self, param: "Parameter") -> str: - return f"[{'|'.join(self.formats)}]" - - def _try_to_convert_date(self, value: t.Any, format: str) -> t.Optional[datetime]: - try: - return datetime.strptime(value, format) - except ValueError: - return None - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - if isinstance(value, datetime): - return value - - for format in self.formats: - converted = self._try_to_convert_date(value, format) - - if converted is not None: - return converted - - formats_str = ", ".join(map(repr, self.formats)) - self.fail( - ngettext( - "{value!r} does not match the format {format}.", - "{value!r} does not match the formats {formats}.", - len(self.formats), - ).format(value=value, format=formats_str, formats=formats_str), - param, - ctx, - ) - - def __repr__(self) -> str: - return "DateTime" - - -class _NumberParamTypeBase(ParamType): - _number_class: t.ClassVar[t.Type[t.Any]] - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - try: - return self._number_class(value) - except ValueError: - self.fail( - _("{value!r} is not a valid {number_type}.").format( - value=value, number_type=self.name - ), - param, - ctx, - ) - - -class _NumberRangeBase(_NumberParamTypeBase): - def __init__( - self, - min: t.Optional[float] = None, - max: t.Optional[float] = None, - min_open: bool = False, - max_open: bool = False, - clamp: bool = False, - ) -> None: - self.min = min - self.max = max - self.min_open = min_open - self.max_open = max_open - self.clamp = clamp - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict.update( - min=self.min, - max=self.max, - min_open=self.min_open, - max_open=self.max_open, - clamp=self.clamp, - ) - return info_dict - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - import operator - - rv = super().convert(value, param, ctx) - lt_min: bool = self.min is not None and ( - operator.le if self.min_open else operator.lt - )(rv, self.min) - gt_max: bool = self.max is not None and ( - operator.ge if self.max_open else operator.gt - )(rv, self.max) - - if self.clamp: - if lt_min: - return self._clamp(self.min, 1, self.min_open) # type: ignore - - if gt_max: - return self._clamp(self.max, -1, self.max_open) # type: ignore - - if lt_min or gt_max: - self.fail( - _("{value} is not in the range {range}.").format( - value=rv, range=self._describe_range() - ), - param, - ctx, - ) - - return rv - - def _clamp(self, bound: float, dir: "te.Literal[1, -1]", open: bool) -> float: - """Find the valid value to clamp to bound in the given - direction. - - :param bound: The boundary value. - :param dir: 1 or -1 indicating the direction to move. - :param open: If true, the range does not include the bound. - """ - raise NotImplementedError - - def _describe_range(self) -> str: - """Describe the range for use in help text.""" - if self.min is None: - op = "<" if self.max_open else "<=" - return f"x{op}{self.max}" - - if self.max is None: - op = ">" if self.min_open else ">=" - return f"x{op}{self.min}" - - lop = "<" if self.min_open else "<=" - rop = "<" if self.max_open else "<=" - return f"{self.min}{lop}x{rop}{self.max}" - - def __repr__(self) -> str: - clamp = " clamped" if self.clamp else "" - return f"<{type(self).__name__} {self._describe_range()}{clamp}>" - - -class IntParamType(_NumberParamTypeBase): - name = "integer" - _number_class = int - - def __repr__(self) -> str: - return "INT" - - -class IntRange(_NumberRangeBase, IntParamType): - """Restrict an :data:`click.INT` value to a range of accepted - values. See :ref:`ranges`. - - If ``min`` or ``max`` are not passed, any value is accepted in that - direction. If ``min_open`` or ``max_open`` are enabled, the - corresponding boundary is not included in the range. - - If ``clamp`` is enabled, a value outside the range is clamped to the - boundary instead of failing. - - .. versionchanged:: 8.0 - Added the ``min_open`` and ``max_open`` parameters. - """ - - name = "integer range" - - def _clamp( # type: ignore - self, bound: int, dir: "te.Literal[1, -1]", open: bool - ) -> int: - if not open: - return bound - - return bound + dir - - -class FloatParamType(_NumberParamTypeBase): - name = "float" - _number_class = float - - def __repr__(self) -> str: - return "FLOAT" - - -class FloatRange(_NumberRangeBase, FloatParamType): - """Restrict a :data:`click.FLOAT` value to a range of accepted - values. See :ref:`ranges`. - - If ``min`` or ``max`` are not passed, any value is accepted in that - direction. If ``min_open`` or ``max_open`` are enabled, the - corresponding boundary is not included in the range. - - If ``clamp`` is enabled, a value outside the range is clamped to the - boundary instead of failing. This is not supported if either - boundary is marked ``open``. - - .. versionchanged:: 8.0 - Added the ``min_open`` and ``max_open`` parameters. - """ - - name = "float range" - - def __init__( - self, - min: t.Optional[float] = None, - max: t.Optional[float] = None, - min_open: bool = False, - max_open: bool = False, - clamp: bool = False, - ) -> None: - super().__init__( - min=min, max=max, min_open=min_open, max_open=max_open, clamp=clamp - ) - - if (min_open or max_open) and clamp: - raise TypeError("Clamping is not supported for open bounds.") - - def _clamp(self, bound: float, dir: "te.Literal[1, -1]", open: bool) -> float: - if not open: - return bound - - # Could use Python 3.9's math.nextafter here, but clamping an - # open float range doesn't seem to be particularly useful. It's - # left up to the user to write a callback to do it if needed. - raise RuntimeError("Clamping is not supported for open bounds.") - - -class BoolParamType(ParamType): - name = "boolean" - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - if value in {False, True}: - return bool(value) - - norm = value.strip().lower() - - if norm in {"1", "true", "t", "yes", "y", "on"}: - return True - - if norm in {"0", "false", "f", "no", "n", "off"}: - return False - - self.fail( - _("{value!r} is not a valid boolean.").format(value=value), param, ctx - ) - - def __repr__(self) -> str: - return "BOOL" - - -class UUIDParameterType(ParamType): - name = "uuid" - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - import uuid - - if isinstance(value, uuid.UUID): - return value - - value = value.strip() - - try: - return uuid.UUID(value) - except ValueError: - self.fail( - _("{value!r} is not a valid UUID.").format(value=value), param, ctx - ) - - def __repr__(self) -> str: - return "UUID" - - -class File(ParamType): - """Declares a parameter to be a file for reading or writing. The file - is automatically closed once the context tears down (after the command - finished working). - - Files can be opened for reading or writing. The special value ``-`` - indicates stdin or stdout depending on the mode. - - By default, the file is opened for reading text data, but it can also be - opened in binary mode or for writing. The encoding parameter can be used - to force a specific encoding. - - The `lazy` flag controls if the file should be opened immediately or upon - first IO. The default is to be non-lazy for standard input and output - streams as well as files opened for reading, `lazy` otherwise. When opening a - file lazily for reading, it is still opened temporarily for validation, but - will not be held open until first IO. lazy is mainly useful when opening - for writing to avoid creating the file until it is needed. - - Starting with Click 2.0, files can also be opened atomically in which - case all writes go into a separate file in the same folder and upon - completion the file will be moved over to the original location. This - is useful if a file regularly read by other users is modified. - - See :ref:`file-args` for more information. - """ - - name = "filename" - envvar_list_splitter: t.ClassVar[str] = os.path.pathsep - - def __init__( - self, - mode: str = "r", - encoding: t.Optional[str] = None, - errors: t.Optional[str] = "strict", - lazy: t.Optional[bool] = None, - atomic: bool = False, - ) -> None: - self.mode = mode - self.encoding = encoding - self.errors = errors - self.lazy = lazy - self.atomic = atomic - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict.update(mode=self.mode, encoding=self.encoding) - return info_dict - - def resolve_lazy_flag(self, value: "t.Union[str, os.PathLike[str]]") -> bool: - if self.lazy is not None: - return self.lazy - if os.fspath(value) == "-": - return False - elif "w" in self.mode: - return True - return False - - def convert( - self, - value: t.Union[str, "os.PathLike[str]", t.IO[t.Any]], - param: t.Optional["Parameter"], - ctx: t.Optional["Context"], - ) -> t.IO[t.Any]: - if _is_file_like(value): - return value - - value = t.cast("t.Union[str, os.PathLike[str]]", value) - - try: - lazy = self.resolve_lazy_flag(value) - - if lazy: - lf = LazyFile( - value, self.mode, self.encoding, self.errors, atomic=self.atomic - ) - - if ctx is not None: - ctx.call_on_close(lf.close_intelligently) - - return t.cast(t.IO[t.Any], lf) - - f, should_close = open_stream( - value, self.mode, self.encoding, self.errors, atomic=self.atomic - ) - - # If a context is provided, we automatically close the file - # at the end of the context execution (or flush out). If a - # context does not exist, it's the caller's responsibility to - # properly close the file. This for instance happens when the - # type is used with prompts. - if ctx is not None: - if should_close: - ctx.call_on_close(safecall(f.close)) - else: - ctx.call_on_close(safecall(f.flush)) - - return f - except OSError as e: # noqa: B014 - self.fail(f"'{format_filename(value)}': {e.strerror}", param, ctx) - - def shell_complete( - self, ctx: "Context", param: "Parameter", incomplete: str - ) -> t.List["CompletionItem"]: - """Return a special completion marker that tells the completion - system to use the shell to provide file path completions. - - :param ctx: Invocation context for this command. - :param param: The parameter that is requesting completion. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - from click.shell_completion import CompletionItem - - return [CompletionItem(incomplete, type="file")] - - -def _is_file_like(value: t.Any) -> "te.TypeGuard[t.IO[t.Any]]": - return hasattr(value, "read") or hasattr(value, "write") - - -class Path(ParamType): - """The ``Path`` type is similar to the :class:`File` type, but - returns the filename instead of an open file. Various checks can be - enabled to validate the type of file and permissions. - - :param exists: The file or directory needs to exist for the value to - be valid. If this is not set to ``True``, and the file does not - exist, then all further checks are silently skipped. - :param file_okay: Allow a file as a value. - :param dir_okay: Allow a directory as a value. - :param readable: if true, a readable check is performed. - :param writable: if true, a writable check is performed. - :param executable: if true, an executable check is performed. - :param resolve_path: Make the value absolute and resolve any - symlinks. A ``~`` is not expanded, as this is supposed to be - done by the shell only. - :param allow_dash: Allow a single dash as a value, which indicates - a standard stream (but does not open it). Use - :func:`~click.open_file` to handle opening this value. - :param path_type: Convert the incoming path value to this type. If - ``None``, keep Python's default, which is ``str``. Useful to - convert to :class:`pathlib.Path`. - - .. versionchanged:: 8.1 - Added the ``executable`` parameter. - - .. versionchanged:: 8.0 - Allow passing ``path_type=pathlib.Path``. - - .. versionchanged:: 6.0 - Added the ``allow_dash`` parameter. - """ - - envvar_list_splitter: t.ClassVar[str] = os.path.pathsep - - def __init__( - self, - exists: bool = False, - file_okay: bool = True, - dir_okay: bool = True, - writable: bool = False, - readable: bool = True, - resolve_path: bool = False, - allow_dash: bool = False, - path_type: t.Optional[t.Type[t.Any]] = None, - executable: bool = False, - ): - self.exists = exists - self.file_okay = file_okay - self.dir_okay = dir_okay - self.readable = readable - self.writable = writable - self.executable = executable - self.resolve_path = resolve_path - self.allow_dash = allow_dash - self.type = path_type - - if self.file_okay and not self.dir_okay: - self.name: str = _("file") - elif self.dir_okay and not self.file_okay: - self.name = _("directory") - else: - self.name = _("path") - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict.update( - exists=self.exists, - file_okay=self.file_okay, - dir_okay=self.dir_okay, - writable=self.writable, - readable=self.readable, - allow_dash=self.allow_dash, - ) - return info_dict - - def coerce_path_result( - self, value: "t.Union[str, os.PathLike[str]]" - ) -> "t.Union[str, bytes, os.PathLike[str]]": - if self.type is not None and not isinstance(value, self.type): - if self.type is str: - return os.fsdecode(value) - elif self.type is bytes: - return os.fsencode(value) - else: - return t.cast("os.PathLike[str]", self.type(value)) - - return value - - def convert( - self, - value: "t.Union[str, os.PathLike[str]]", - param: t.Optional["Parameter"], - ctx: t.Optional["Context"], - ) -> "t.Union[str, bytes, os.PathLike[str]]": - rv = value - - is_dash = self.file_okay and self.allow_dash and rv in (b"-", "-") - - if not is_dash: - if self.resolve_path: - # os.path.realpath doesn't resolve symlinks on Windows - # until Python 3.8. Use pathlib for now. - import pathlib - - rv = os.fsdecode(pathlib.Path(rv).resolve()) - - try: - st = os.stat(rv) - except OSError: - if not self.exists: - return self.coerce_path_result(rv) - self.fail( - _("{name} {filename!r} does not exist.").format( - name=self.name.title(), filename=format_filename(value) - ), - param, - ctx, - ) - - if not self.file_okay and stat.S_ISREG(st.st_mode): - self.fail( - _("{name} {filename!r} is a file.").format( - name=self.name.title(), filename=format_filename(value) - ), - param, - ctx, - ) - if not self.dir_okay and stat.S_ISDIR(st.st_mode): - self.fail( - _("{name} '{filename}' is a directory.").format( - name=self.name.title(), filename=format_filename(value) - ), - param, - ctx, - ) - - if self.readable and not os.access(rv, os.R_OK): - self.fail( - _("{name} {filename!r} is not readable.").format( - name=self.name.title(), filename=format_filename(value) - ), - param, - ctx, - ) - - if self.writable and not os.access(rv, os.W_OK): - self.fail( - _("{name} {filename!r} is not writable.").format( - name=self.name.title(), filename=format_filename(value) - ), - param, - ctx, - ) - - if self.executable and not os.access(value, os.X_OK): - self.fail( - _("{name} {filename!r} is not executable.").format( - name=self.name.title(), filename=format_filename(value) - ), - param, - ctx, - ) - - return self.coerce_path_result(rv) - - def shell_complete( - self, ctx: "Context", param: "Parameter", incomplete: str - ) -> t.List["CompletionItem"]: - """Return a special completion marker that tells the completion - system to use the shell to provide path completions for only - directories or any paths. - - :param ctx: Invocation context for this command. - :param param: The parameter that is requesting completion. - :param incomplete: Value being completed. May be empty. - - .. versionadded:: 8.0 - """ - from click.shell_completion import CompletionItem - - type = "dir" if self.dir_okay and not self.file_okay else "file" - return [CompletionItem(incomplete, type=type)] - - -class Tuple(CompositeParamType): - """The default behavior of Click is to apply a type on a value directly. - This works well in most cases, except for when `nargs` is set to a fixed - count and different types should be used for different items. In this - case the :class:`Tuple` type can be used. This type can only be used - if `nargs` is set to a fixed number. - - For more information see :ref:`tuple-type`. - - This can be selected by using a Python tuple literal as a type. - - :param types: a list of types that should be used for the tuple items. - """ - - def __init__(self, types: t.Sequence[t.Union[t.Type[t.Any], ParamType]]) -> None: - self.types: t.Sequence[ParamType] = [convert_type(ty) for ty in types] - - def to_info_dict(self) -> t.Dict[str, t.Any]: - info_dict = super().to_info_dict() - info_dict["types"] = [t.to_info_dict() for t in self.types] - return info_dict - - @property - def name(self) -> str: # type: ignore - return f"<{' '.join(ty.name for ty in self.types)}>" - - @property - def arity(self) -> int: # type: ignore - return len(self.types) - - def convert( - self, value: t.Any, param: t.Optional["Parameter"], ctx: t.Optional["Context"] - ) -> t.Any: - len_type = len(self.types) - len_value = len(value) - - if len_value != len_type: - self.fail( - ngettext( - "{len_type} values are required, but {len_value} was given.", - "{len_type} values are required, but {len_value} were given.", - len_value, - ).format(len_type=len_type, len_value=len_value), - param=param, - ctx=ctx, - ) - - return tuple(ty(x, param, ctx) for ty, x in zip(self.types, value)) - - -def convert_type(ty: t.Optional[t.Any], default: t.Optional[t.Any] = None) -> ParamType: - """Find the most appropriate :class:`ParamType` for the given Python - type. If the type isn't provided, it can be inferred from a default - value. - """ - guessed_type = False - - if ty is None and default is not None: - if isinstance(default, (tuple, list)): - # If the default is empty, ty will remain None and will - # return STRING. - if default: - item = default[0] - - # A tuple of tuples needs to detect the inner types. - # Can't call convert recursively because that would - # incorrectly unwind the tuple to a single type. - if isinstance(item, (tuple, list)): - ty = tuple(map(type, item)) - else: - ty = type(item) - else: - ty = type(default) - - guessed_type = True - - if isinstance(ty, tuple): - return Tuple(ty) - - if isinstance(ty, ParamType): - return ty - - if ty is str or ty is None: - return STRING - - if ty is int: - return INT - - if ty is float: - return FLOAT - - if ty is bool: - return BOOL - - if guessed_type: - return STRING - - if __debug__: - try: - if issubclass(ty, ParamType): - raise AssertionError( - f"Attempted to use an uninstantiated parameter type ({ty})." - ) - except TypeError: - # ty is an instance (correct), so issubclass fails. - pass - - return FuncParamType(ty) - - -#: A dummy parameter type that just does nothing. From a user's -#: perspective this appears to just be the same as `STRING` but -#: internally no string conversion takes place if the input was bytes. -#: This is usually useful when working with file paths as they can -#: appear in bytes and unicode. -#: -#: For path related uses the :class:`Path` type is a better choice but -#: there are situations where an unprocessed type is useful which is why -#: it is is provided. -#: -#: .. versionadded:: 4.0 -UNPROCESSED = UnprocessedParamType() - -#: A unicode string parameter type which is the implicit default. This -#: can also be selected by using ``str`` as type. -STRING = StringParamType() - -#: An integer parameter. This can also be selected by using ``int`` as -#: type. -INT = IntParamType() - -#: A floating point value parameter. This can also be selected by using -#: ``float`` as type. -FLOAT = FloatParamType() - -#: A boolean parameter. This is the default for boolean flags. This can -#: also be selected by using ``bool`` as a type. -BOOL = BoolParamType() - -#: A UUID parameter. -UUID = UUIDParameterType() diff --git a/venv/lib/python3.11/site-packages/click/utils.py b/venv/lib/python3.11/site-packages/click/utils.py deleted file mode 100644 index d536434..0000000 --- a/venv/lib/python3.11/site-packages/click/utils.py +++ /dev/null @@ -1,624 +0,0 @@ -import os -import re -import sys -import typing as t -from functools import update_wrapper -from types import ModuleType -from types import TracebackType - -from ._compat import _default_text_stderr -from ._compat import _default_text_stdout -from ._compat import _find_binary_writer -from ._compat import auto_wrap_for_ansi -from ._compat import binary_streams -from ._compat import open_stream -from ._compat import should_strip_ansi -from ._compat import strip_ansi -from ._compat import text_streams -from ._compat import WIN -from .globals import resolve_color_default - -if t.TYPE_CHECKING: - import typing_extensions as te - - P = te.ParamSpec("P") - -R = t.TypeVar("R") - - -def _posixify(name: str) -> str: - return "-".join(name.split()).lower() - - -def safecall(func: "t.Callable[P, R]") -> "t.Callable[P, t.Optional[R]]": - """Wraps a function so that it swallows exceptions.""" - - def wrapper(*args: "P.args", **kwargs: "P.kwargs") -> t.Optional[R]: - try: - return func(*args, **kwargs) - except Exception: - pass - return None - - return update_wrapper(wrapper, func) - - -def make_str(value: t.Any) -> str: - """Converts a value into a valid string.""" - if isinstance(value, bytes): - try: - return value.decode(sys.getfilesystemencoding()) - except UnicodeError: - return value.decode("utf-8", "replace") - return str(value) - - -def make_default_short_help(help: str, max_length: int = 45) -> str: - """Returns a condensed version of help string.""" - # Consider only the first paragraph. - paragraph_end = help.find("\n\n") - - if paragraph_end != -1: - help = help[:paragraph_end] - - # Collapse newlines, tabs, and spaces. - words = help.split() - - if not words: - return "" - - # The first paragraph started with a "no rewrap" marker, ignore it. - if words[0] == "\b": - words = words[1:] - - total_length = 0 - last_index = len(words) - 1 - - for i, word in enumerate(words): - total_length += len(word) + (i > 0) - - if total_length > max_length: # too long, truncate - break - - if word[-1] == ".": # sentence end, truncate without "..." - return " ".join(words[: i + 1]) - - if total_length == max_length and i != last_index: - break # not at sentence end, truncate with "..." - else: - return " ".join(words) # no truncation needed - - # Account for the length of the suffix. - total_length += len("...") - - # remove words until the length is short enough - while i > 0: - total_length -= len(words[i]) + (i > 0) - - if total_length <= max_length: - break - - i -= 1 - - return " ".join(words[:i]) + "..." - - -class LazyFile: - """A lazy file works like a regular file but it does not fully open - the file but it does perform some basic checks early to see if the - filename parameter does make sense. This is useful for safely opening - files for writing. - """ - - def __init__( - self, - filename: t.Union[str, "os.PathLike[str]"], - mode: str = "r", - encoding: t.Optional[str] = None, - errors: t.Optional[str] = "strict", - atomic: bool = False, - ): - self.name: str = os.fspath(filename) - self.mode = mode - self.encoding = encoding - self.errors = errors - self.atomic = atomic - self._f: t.Optional[t.IO[t.Any]] - self.should_close: bool - - if self.name == "-": - self._f, self.should_close = open_stream(filename, mode, encoding, errors) - else: - if "r" in mode: - # Open and close the file in case we're opening it for - # reading so that we can catch at least some errors in - # some cases early. - open(filename, mode).close() - self._f = None - self.should_close = True - - def __getattr__(self, name: str) -> t.Any: - return getattr(self.open(), name) - - def __repr__(self) -> str: - if self._f is not None: - return repr(self._f) - return f"" - - def open(self) -> t.IO[t.Any]: - """Opens the file if it's not yet open. This call might fail with - a :exc:`FileError`. Not handling this error will produce an error - that Click shows. - """ - if self._f is not None: - return self._f - try: - rv, self.should_close = open_stream( - self.name, self.mode, self.encoding, self.errors, atomic=self.atomic - ) - except OSError as e: # noqa: E402 - from .exceptions import FileError - - raise FileError(self.name, hint=e.strerror) from e - self._f = rv - return rv - - def close(self) -> None: - """Closes the underlying file, no matter what.""" - if self._f is not None: - self._f.close() - - def close_intelligently(self) -> None: - """This function only closes the file if it was opened by the lazy - file wrapper. For instance this will never close stdin. - """ - if self.should_close: - self.close() - - def __enter__(self) -> "LazyFile": - return self - - def __exit__( - self, - exc_type: t.Optional[t.Type[BaseException]], - exc_value: t.Optional[BaseException], - tb: t.Optional[TracebackType], - ) -> None: - self.close_intelligently() - - def __iter__(self) -> t.Iterator[t.AnyStr]: - self.open() - return iter(self._f) # type: ignore - - -class KeepOpenFile: - def __init__(self, file: t.IO[t.Any]) -> None: - self._file: t.IO[t.Any] = file - - def __getattr__(self, name: str) -> t.Any: - return getattr(self._file, name) - - def __enter__(self) -> "KeepOpenFile": - return self - - def __exit__( - self, - exc_type: t.Optional[t.Type[BaseException]], - exc_value: t.Optional[BaseException], - tb: t.Optional[TracebackType], - ) -> None: - pass - - def __repr__(self) -> str: - return repr(self._file) - - def __iter__(self) -> t.Iterator[t.AnyStr]: - return iter(self._file) - - -def echo( - message: t.Optional[t.Any] = None, - file: t.Optional[t.IO[t.Any]] = None, - nl: bool = True, - err: bool = False, - color: t.Optional[bool] = None, -) -> None: - """Print a message and newline to stdout or a file. This should be - used instead of :func:`print` because it provides better support - for different data, files, and environments. - - Compared to :func:`print`, this does the following: - - - Ensures that the output encoding is not misconfigured on Linux. - - Supports Unicode in the Windows console. - - Supports writing to binary outputs, and supports writing bytes - to text outputs. - - Supports colors and styles on Windows. - - Removes ANSI color and style codes if the output does not look - like an interactive terminal. - - Always flushes the output. - - :param message: The string or bytes to output. Other objects are - converted to strings. - :param file: The file to write to. Defaults to ``stdout``. - :param err: Write to ``stderr`` instead of ``stdout``. - :param nl: Print a newline after the message. Enabled by default. - :param color: Force showing or hiding colors and other styles. By - default Click will remove color if the output does not look like - an interactive terminal. - - .. versionchanged:: 6.0 - Support Unicode output on the Windows console. Click does not - modify ``sys.stdout``, so ``sys.stdout.write()`` and ``print()`` - will still not support Unicode. - - .. versionchanged:: 4.0 - Added the ``color`` parameter. - - .. versionadded:: 3.0 - Added the ``err`` parameter. - - .. versionchanged:: 2.0 - Support colors on Windows if colorama is installed. - """ - if file is None: - if err: - file = _default_text_stderr() - else: - file = _default_text_stdout() - - # There are no standard streams attached to write to. For example, - # pythonw on Windows. - if file is None: - return - - # Convert non bytes/text into the native string type. - if message is not None and not isinstance(message, (str, bytes, bytearray)): - out: t.Optional[t.Union[str, bytes]] = str(message) - else: - out = message - - if nl: - out = out or "" - if isinstance(out, str): - out += "\n" - else: - out += b"\n" - - if not out: - file.flush() - return - - # If there is a message and the value looks like bytes, we manually - # need to find the binary stream and write the message in there. - # This is done separately so that most stream types will work as you - # would expect. Eg: you can write to StringIO for other cases. - if isinstance(out, (bytes, bytearray)): - binary_file = _find_binary_writer(file) - - if binary_file is not None: - file.flush() - binary_file.write(out) - binary_file.flush() - return - - # ANSI style code support. For no message or bytes, nothing happens. - # When outputting to a file instead of a terminal, strip codes. - else: - color = resolve_color_default(color) - - if should_strip_ansi(file, color): - out = strip_ansi(out) - elif WIN: - if auto_wrap_for_ansi is not None: - file = auto_wrap_for_ansi(file) # type: ignore - elif not color: - out = strip_ansi(out) - - file.write(out) # type: ignore - file.flush() - - -def get_binary_stream(name: "te.Literal['stdin', 'stdout', 'stderr']") -> t.BinaryIO: - """Returns a system stream for byte processing. - - :param name: the name of the stream to open. Valid names are ``'stdin'``, - ``'stdout'`` and ``'stderr'`` - """ - opener = binary_streams.get(name) - if opener is None: - raise TypeError(f"Unknown standard stream '{name}'") - return opener() - - -def get_text_stream( - name: "te.Literal['stdin', 'stdout', 'stderr']", - encoding: t.Optional[str] = None, - errors: t.Optional[str] = "strict", -) -> t.TextIO: - """Returns a system stream for text processing. This usually returns - a wrapped stream around a binary stream returned from - :func:`get_binary_stream` but it also can take shortcuts for already - correctly configured streams. - - :param name: the name of the stream to open. Valid names are ``'stdin'``, - ``'stdout'`` and ``'stderr'`` - :param encoding: overrides the detected default encoding. - :param errors: overrides the default error mode. - """ - opener = text_streams.get(name) - if opener is None: - raise TypeError(f"Unknown standard stream '{name}'") - return opener(encoding, errors) - - -def open_file( - filename: str, - mode: str = "r", - encoding: t.Optional[str] = None, - errors: t.Optional[str] = "strict", - lazy: bool = False, - atomic: bool = False, -) -> t.IO[t.Any]: - """Open a file, with extra behavior to handle ``'-'`` to indicate - a standard stream, lazy open on write, and atomic write. Similar to - the behavior of the :class:`~click.File` param type. - - If ``'-'`` is given to open ``stdout`` or ``stdin``, the stream is - wrapped so that using it in a context manager will not close it. - This makes it possible to use the function without accidentally - closing a standard stream: - - .. code-block:: python - - with open_file(filename) as f: - ... - - :param filename: The name of the file to open, or ``'-'`` for - ``stdin``/``stdout``. - :param mode: The mode in which to open the file. - :param encoding: The encoding to decode or encode a file opened in - text mode. - :param errors: The error handling mode. - :param lazy: Wait to open the file until it is accessed. For read - mode, the file is temporarily opened to raise access errors - early, then closed until it is read again. - :param atomic: Write to a temporary file and replace the given file - on close. - - .. versionadded:: 3.0 - """ - if lazy: - return t.cast( - t.IO[t.Any], LazyFile(filename, mode, encoding, errors, atomic=atomic) - ) - - f, should_close = open_stream(filename, mode, encoding, errors, atomic=atomic) - - if not should_close: - f = t.cast(t.IO[t.Any], KeepOpenFile(f)) - - return f - - -def format_filename( - filename: "t.Union[str, bytes, os.PathLike[str], os.PathLike[bytes]]", - shorten: bool = False, -) -> str: - """Format a filename as a string for display. Ensures the filename can be - displayed by replacing any invalid bytes or surrogate escapes in the name - with the replacement character ``�``. - - Invalid bytes or surrogate escapes will raise an error when written to a - stream with ``errors="strict". This will typically happen with ``stdout`` - when the locale is something like ``en_GB.UTF-8``. - - Many scenarios *are* safe to write surrogates though, due to PEP 538 and - PEP 540, including: - - - Writing to ``stderr``, which uses ``errors="backslashreplace"``. - - The system has ``LANG=C.UTF-8``, ``C``, or ``POSIX``. Python opens - stdout and stderr with ``errors="surrogateescape"``. - - None of ``LANG/LC_*`` are set. Python assumes ``LANG=C.UTF-8``. - - Python is started in UTF-8 mode with ``PYTHONUTF8=1`` or ``-X utf8``. - Python opens stdout and stderr with ``errors="surrogateescape"``. - - :param filename: formats a filename for UI display. This will also convert - the filename into unicode without failing. - :param shorten: this optionally shortens the filename to strip of the - path that leads up to it. - """ - if shorten: - filename = os.path.basename(filename) - else: - filename = os.fspath(filename) - - if isinstance(filename, bytes): - filename = filename.decode(sys.getfilesystemencoding(), "replace") - else: - filename = filename.encode("utf-8", "surrogateescape").decode( - "utf-8", "replace" - ) - - return filename - - -def get_app_dir(app_name: str, roaming: bool = True, force_posix: bool = False) -> str: - r"""Returns the config folder for the application. The default behavior - is to return whatever is most appropriate for the operating system. - - To give you an idea, for an app called ``"Foo Bar"``, something like - the following folders could be returned: - - Mac OS X: - ``~/Library/Application Support/Foo Bar`` - Mac OS X (POSIX): - ``~/.foo-bar`` - Unix: - ``~/.config/foo-bar`` - Unix (POSIX): - ``~/.foo-bar`` - Windows (roaming): - ``C:\Users\\AppData\Roaming\Foo Bar`` - Windows (not roaming): - ``C:\Users\\AppData\Local\Foo Bar`` - - .. versionadded:: 2.0 - - :param app_name: the application name. This should be properly capitalized - and can contain whitespace. - :param roaming: controls if the folder should be roaming or not on Windows. - Has no effect otherwise. - :param force_posix: if this is set to `True` then on any POSIX system the - folder will be stored in the home folder with a leading - dot instead of the XDG config home or darwin's - application support folder. - """ - if WIN: - key = "APPDATA" if roaming else "LOCALAPPDATA" - folder = os.environ.get(key) - if folder is None: - folder = os.path.expanduser("~") - return os.path.join(folder, app_name) - if force_posix: - return os.path.join(os.path.expanduser(f"~/.{_posixify(app_name)}")) - if sys.platform == "darwin": - return os.path.join( - os.path.expanduser("~/Library/Application Support"), app_name - ) - return os.path.join( - os.environ.get("XDG_CONFIG_HOME", os.path.expanduser("~/.config")), - _posixify(app_name), - ) - - -class PacifyFlushWrapper: - """This wrapper is used to catch and suppress BrokenPipeErrors resulting - from ``.flush()`` being called on broken pipe during the shutdown/final-GC - of the Python interpreter. Notably ``.flush()`` is always called on - ``sys.stdout`` and ``sys.stderr``. So as to have minimal impact on any - other cleanup code, and the case where the underlying file is not a broken - pipe, all calls and attributes are proxied. - """ - - def __init__(self, wrapped: t.IO[t.Any]) -> None: - self.wrapped = wrapped - - def flush(self) -> None: - try: - self.wrapped.flush() - except OSError as e: - import errno - - if e.errno != errno.EPIPE: - raise - - def __getattr__(self, attr: str) -> t.Any: - return getattr(self.wrapped, attr) - - -def _detect_program_name( - path: t.Optional[str] = None, _main: t.Optional[ModuleType] = None -) -> str: - """Determine the command used to run the program, for use in help - text. If a file or entry point was executed, the file name is - returned. If ``python -m`` was used to execute a module or package, - ``python -m name`` is returned. - - This doesn't try to be too precise, the goal is to give a concise - name for help text. Files are only shown as their name without the - path. ``python`` is only shown for modules, and the full path to - ``sys.executable`` is not shown. - - :param path: The Python file being executed. Python puts this in - ``sys.argv[0]``, which is used by default. - :param _main: The ``__main__`` module. This should only be passed - during internal testing. - - .. versionadded:: 8.0 - Based on command args detection in the Werkzeug reloader. - - :meta private: - """ - if _main is None: - _main = sys.modules["__main__"] - - if not path: - path = sys.argv[0] - - # The value of __package__ indicates how Python was called. It may - # not exist if a setuptools script is installed as an egg. It may be - # set incorrectly for entry points created with pip on Windows. - # It is set to "" inside a Shiv or PEX zipapp. - if getattr(_main, "__package__", None) in {None, ""} or ( - os.name == "nt" - and _main.__package__ == "" - and not os.path.exists(path) - and os.path.exists(f"{path}.exe") - ): - # Executed a file, like "python app.py". - return os.path.basename(path) - - # Executed a module, like "python -m example". - # Rewritten by Python from "-m script" to "/path/to/script.py". - # Need to look at main module to determine how it was executed. - py_module = t.cast(str, _main.__package__) - name = os.path.splitext(os.path.basename(path))[0] - - # A submodule like "example.cli". - if name != "__main__": - py_module = f"{py_module}.{name}" - - return f"python -m {py_module.lstrip('.')}" - - -def _expand_args( - args: t.Iterable[str], - *, - user: bool = True, - env: bool = True, - glob_recursive: bool = True, -) -> t.List[str]: - """Simulate Unix shell expansion with Python functions. - - See :func:`glob.glob`, :func:`os.path.expanduser`, and - :func:`os.path.expandvars`. - - This is intended for use on Windows, where the shell does not do any - expansion. It may not exactly match what a Unix shell would do. - - :param args: List of command line arguments to expand. - :param user: Expand user home directory. - :param env: Expand environment variables. - :param glob_recursive: ``**`` matches directories recursively. - - .. versionchanged:: 8.1 - Invalid glob patterns are treated as empty expansions rather - than raising an error. - - .. versionadded:: 8.0 - - :meta private: - """ - from glob import glob - - out = [] - - for arg in args: - if user: - arg = os.path.expanduser(arg) - - if env: - arg = os.path.expandvars(arg) - - try: - matches = glob(arg, recursive=glob_recursive) - except re.error: - matches = [] - - if not matches: - out.append(arg) - else: - out.extend(matches) - - return out -- cgit v1.2.3