Intelegentny_Pszczelarz/.venv/Lib/site-packages/werkzeug/_internal.py

from __future__ import annotations

import logging
import operator
import re
import sys
import typing as t
from datetime import datetime
from datetime import timezone

if t.TYPE_CHECKING:
    from _typeshed.wsgi import WSGIEnvironment
    from .wrappers.request import Request

_logger: logging.Logger | None = None


class _Missing:
    def __repr__(self) -> str:
        return "no value"

    def __reduce__(self) -> str:
        return "_missing"


_missing = _Missing()


@t.overload
def _make_encode_wrapper(reference: str) -> t.Callable[[str], str]:
    ...


@t.overload
def _make_encode_wrapper(reference: bytes) -> t.Callable[[str], bytes]:
    ...


def _make_encode_wrapper(reference: t.AnyStr) -> t.Callable[[str], t.AnyStr]:
    """Create a function that will be called with a string argument. If
    the reference is bytes, values will be encoded to bytes.
    """
    if isinstance(reference, str):
        return lambda x: x

    return operator.methodcaller("encode", "latin1")


def _check_str_tuple(value: tuple[t.AnyStr, ...]) -> None:
    """Ensure tuple items are all strings or all bytes."""
    if not value:
        return

    item_type = str if isinstance(value[0], str) else bytes

    if any(not isinstance(item, item_type) for item in value):
        raise TypeError(f"Cannot mix str and bytes arguments (got {value!r})")


_default_encoding = sys.getdefaultencoding()


def _to_bytes(
    x: str | bytes, charset: str = _default_encoding, errors: str = "strict"
) -> bytes:
    if x is None or isinstance(x, bytes):
        return x

    if isinstance(x, (bytearray, memoryview)):
        return bytes(x)

    if isinstance(x, str):
        return x.encode(charset, errors)

    raise TypeError("Expected bytes")


@t.overload
def _to_str(  # type: ignore
    x: None,
    charset: str | None = ...,
    errors: str = ...,
    allow_none_charset: bool = ...,
) -> None:
    ...


@t.overload
def _to_str(
    x: t.Any,
    charset: str | None = ...,
    errors: str = ...,
    allow_none_charset: bool = ...,
) -> str:
    ...


def _to_str(
    x: t.Any | None,
    charset: str | None = _default_encoding,
    errors: str = "strict",
    allow_none_charset: bool = False,
) -> str | bytes | None:
    if x is None or isinstance(x, str):
        return x

    if not isinstance(x, (bytes, bytearray)):
        return str(x)

    if charset is None:
        if allow_none_charset:
            return x

    return x.decode(charset, errors)  # type: ignore


def _wsgi_decoding_dance(
    s: str, charset: str = "utf-8", errors: str = "replace"
) -> str:
    return s.encode("latin1").decode(charset, errors)


def _wsgi_encoding_dance(s: str, charset: str = "utf-8", errors: str = "strict") -> str:
    return s.encode(charset).decode("latin1", errors)


def _get_environ(obj: WSGIEnvironment | Request) -> WSGIEnvironment:
    env = getattr(obj, "environ", obj)
    assert isinstance(
        env, dict
    ), f"{type(obj).__name__!r} is not a WSGI environment (has to be a dict)"
    return env


def _has_level_handler(logger: logging.Logger) -> bool:
    """Check if there is a handler in the logging chain that will handle
    the given logger's effective level.
    """
    level = logger.getEffectiveLevel()
    current = logger

    while current:
        if any(handler.level <= level for handler in current.handlers):
            return True

        if not current.propagate:
            break

        current = current.parent  # type: ignore

    return False


class _ColorStreamHandler(logging.StreamHandler):
    """On Windows, wrap stream with Colorama for ANSI style support."""

    def __init__(self) -> None:
        try:
            import colorama
        except ImportError:
            stream = None
        else:
            stream = colorama.AnsiToWin32(sys.stderr)

        super().__init__(stream)


def _log(type: str, message: str, *args: t.Any, **kwargs: t.Any) -> None:
    """Log a message to the 'werkzeug' logger.

    The logger is created the first time it is needed. If there is no
    level set, it is set to :data:`logging.INFO`. If there is no handler
    for the logger's effective level, a :class:`logging.StreamHandler`
    is added.
    """
    global _logger

    if _logger is None:
        _logger = logging.getLogger("werkzeug")

        if _logger.level == logging.NOTSET:
            _logger.setLevel(logging.INFO)

        if not _has_level_handler(_logger):
            _logger.addHandler(_ColorStreamHandler())

    getattr(_logger, type)(message.rstrip(), *args, **kwargs)


@t.overload
def _dt_as_utc(dt: None) -> None:
    ...


@t.overload
def _dt_as_utc(dt: datetime) -> datetime:
    ...


def _dt_as_utc(dt: datetime | None) -> datetime | None:
    if dt is None:
        return dt

    if dt.tzinfo is None:
        return dt.replace(tzinfo=timezone.utc)
    elif dt.tzinfo != timezone.utc:
        return dt.astimezone(timezone.utc)

    return dt


_TAccessorValue = t.TypeVar("_TAccessorValue")


class _DictAccessorProperty(t.Generic[_TAccessorValue]):
    """Baseclass for `environ_property` and `header_property`."""

    read_only = False

    def __init__(
        self,
        name: str,
        default: _TAccessorValue | None = None,
        load_func: t.Callable[[str], _TAccessorValue] | None = None,
        dump_func: t.Callable[[_TAccessorValue], str] | None = None,
        read_only: bool | None = None,
        doc: str | None = None,
    ) -> None:
        self.name = name
        self.default = default
        self.load_func = load_func
        self.dump_func = dump_func
        if read_only is not None:
            self.read_only = read_only
        self.__doc__ = doc

    def lookup(self, instance: t.Any) -> t.MutableMapping[str, t.Any]:
        raise NotImplementedError

    @t.overload
    def __get__(
        self, instance: None, owner: type
    ) -> _DictAccessorProperty[_TAccessorValue]:
        ...

    @t.overload
    def __get__(self, instance: t.Any, owner: type) -> _TAccessorValue:
        ...

    def __get__(
        self, instance: t.Any | None, owner: type
    ) -> _TAccessorValue | _DictAccessorProperty[_TAccessorValue]:
        if instance is None:
            return self

        storage = self.lookup(instance)

        if self.name not in storage:
            return self.default  # type: ignore

        value = storage[self.name]

        if self.load_func is not None:
            try:
                return self.load_func(value)
            except (ValueError, TypeError):
                return self.default  # type: ignore

        return value  # type: ignore

    def __set__(self, instance: t.Any, value: _TAccessorValue) -> None:
        if self.read_only:
            raise AttributeError("read only property")

        if self.dump_func is not None:
            self.lookup(instance)[self.name] = self.dump_func(value)
        else:
            self.lookup(instance)[self.name] = value

    def __delete__(self, instance: t.Any) -> None:
        if self.read_only:
            raise AttributeError("read only property")

        self.lookup(instance).pop(self.name, None)

    def __repr__(self) -> str:
        return f"<{type(self).__name__} {self.name}>"


def _decode_idna(domain: str) -> str:
    try:
        data = domain.encode("ascii")
    except UnicodeEncodeError:
        # If the domain is not ASCII, it's decoded already.
        return domain

    try:
        # Try decoding in one shot.
        return data.decode("idna")
    except UnicodeDecodeError:
        pass

    # Decode each part separately, leaving invalid parts as punycode.
    parts = []

    for part in data.split(b"."):
        try:
            parts.append(part.decode("idna"))
        except UnicodeDecodeError:
            parts.append(part.decode("ascii"))

    return ".".join(parts)


_plain_int_re = re.compile(r"-?\d+", re.ASCII)
_plain_float_re = re.compile(r"-?\d+\.\d+", re.ASCII)


def _plain_int(value: str) -> int:
    """Parse an int only if it is only ASCII digits and ``-``.

    This disallows ``+``, ``_``, and non-ASCII digits, which are accepted by ``int`` but
    are not allowed in HTTP header values.
    """
    if _plain_int_re.fullmatch(value) is None:
        raise ValueError

    return int(value)


def _plain_float(value: str) -> float:
    """Parse a float only if it is only ASCII digits and ``-``, and contains digits
    before and after the ``.``.

    This disallows ``+``, ``_``, non-ASCII digits, and ``.123``, which are accepted by
    ``float`` but are not allowed in HTTP header values.
    """
    if _plain_float_re.fullmatch(value) is None:
        raise ValueError

    return float(value)
feature: "ANN commit 2" 2023-06-19 00:49:18 +02:00			`from __future__ import annotations`

			`import logging`
			`import operator`
			`import re`
			`import sys`
			`import typing as t`
			`from datetime import datetime`
			`from datetime import timezone`

			`if t.TYPE_CHECKING:`
			`from _typeshed.wsgi import WSGIEnvironment`
			`from .wrappers.request import Request`

			`_logger: logging.Logger \| None = None`


			`class _Missing:`
			`def __repr__(self) -> str:`
			`return "no value"`

			`def __reduce__(self) -> str:`
			`return "_missing"`


			`_missing = _Missing()`


			`@t.overload`
			`def _make_encode_wrapper(reference: str) -> t.Callable[[str], str]:`
			`...`


			`@t.overload`
			`def _make_encode_wrapper(reference: bytes) -> t.Callable[[str], bytes]:`
			`...`


			`def _make_encode_wrapper(reference: t.AnyStr) -> t.Callable[[str], t.AnyStr]:`
			`"""Create a function that will be called with a string argument. If`
			`the reference is bytes, values will be encoded to bytes.`
			`"""`
			`if isinstance(reference, str):`
			`return lambda x: x`

			`return operator.methodcaller("encode", "latin1")`


			`def _check_str_tuple(value: tuple[t.AnyStr, ...]) -> None:`
			`"""Ensure tuple items are all strings or all bytes."""`
			`if not value:`
			`return`

			`item_type = str if isinstance(value[0], str) else bytes`

			`if any(not isinstance(item, item_type) for item in value):`
			`raise TypeError(f"Cannot mix str and bytes arguments (got {value!r})")`


			`_default_encoding = sys.getdefaultencoding()`


			`def _to_bytes(`
			`x: str \| bytes, charset: str = _default_encoding, errors: str = "strict"`
			`) -> bytes:`
			`if x is None or isinstance(x, bytes):`
			`return x`

			`if isinstance(x, (bytearray, memoryview)):`
			`return bytes(x)`

			`if isinstance(x, str):`
			`return x.encode(charset, errors)`

			`raise TypeError("Expected bytes")`


			`@t.overload`
			`def _to_str( # type: ignore`
			`x: None,`
			`charset: str \| None = ...,`
			`errors: str = ...,`
			`allow_none_charset: bool = ...,`
			`) -> None:`
			`...`


			`@t.overload`
			`def _to_str(`
			`x: t.Any,`
			`charset: str \| None = ...,`
			`errors: str = ...,`
			`allow_none_charset: bool = ...,`
			`) -> str:`
			`...`


			`def _to_str(`
			`x: t.Any \| None,`
			`charset: str \| None = _default_encoding,`
			`errors: str = "strict",`
			`allow_none_charset: bool = False,`
			`) -> str \| bytes \| None:`
			`if x is None or isinstance(x, str):`
			`return x`

			`if not isinstance(x, (bytes, bytearray)):`
			`return str(x)`

			`if charset is None:`
			`if allow_none_charset:`
			`return x`

			`return x.decode(charset, errors) # type: ignore`


			`def _wsgi_decoding_dance(`
			`s: str, charset: str = "utf-8", errors: str = "replace"`
			`) -> str:`
			`return s.encode("latin1").decode(charset, errors)`


			`def _wsgi_encoding_dance(s: str, charset: str = "utf-8", errors: str = "strict") -> str:`
			`return s.encode(charset).decode("latin1", errors)`


			`def _get_environ(obj: WSGIEnvironment \| Request) -> WSGIEnvironment:`
			`env = getattr(obj, "environ", obj)`
			`assert isinstance(`
			`env, dict`
			`), f"{type(obj).__name__!r} is not a WSGI environment (has to be a dict)"`
			`return env`


			`def _has_level_handler(logger: logging.Logger) -> bool:`
			`"""Check if there is a handler in the logging chain that will handle`
			`the given logger's effective level.`
			`"""`
			`level = logger.getEffectiveLevel()`
			`current = logger`

			`while current:`
			`if any(handler.level <= level for handler in current.handlers):`
			`return True`

			`if not current.propagate:`
			`break`

			`current = current.parent # type: ignore`

			`return False`


			`class _ColorStreamHandler(logging.StreamHandler):`
			`"""On Windows, wrap stream with Colorama for ANSI style support."""`

			`def __init__(self) -> None:`
			`try:`
			`import colorama`
			`except ImportError:`
			`stream = None`
			`else:`
			`stream = colorama.AnsiToWin32(sys.stderr)`

			`super().__init__(stream)`


			`def _log(type: str, message: str, args: t.Any, *kwargs: t.Any) -> None:`
			`"""Log a message to the 'werkzeug' logger.`

			`The logger is created the first time it is needed. If there is no`
			level set, it is set to :data:`logging.INFO`. If there is no handler
			for the logger's effective level, a :class:`logging.StreamHandler`
			`is added.`
			`"""`
			`global _logger`

			`if _logger is None:`
			`_logger = logging.getLogger("werkzeug")`

			`if _logger.level == logging.NOTSET:`
			`_logger.setLevel(logging.INFO)`

			`if not _has_level_handler(_logger):`
			`_logger.addHandler(_ColorStreamHandler())`

			`getattr(_logger, type)(message.rstrip(), args, *kwargs)`


			`@t.overload`
			`def _dt_as_utc(dt: None) -> None:`
			`...`


			`@t.overload`
			`def _dt_as_utc(dt: datetime) -> datetime:`
			`...`


			`def _dt_as_utc(dt: datetime \| None) -> datetime \| None:`
			`if dt is None:`
			`return dt`

			`if dt.tzinfo is None:`
			`return dt.replace(tzinfo=timezone.utc)`
			`elif dt.tzinfo != timezone.utc:`
			`return dt.astimezone(timezone.utc)`

			`return dt`


			`_TAccessorValue = t.TypeVar("_TAccessorValue")`


			`class _DictAccessorProperty(t.Generic[_TAccessorValue]):`
			"""Baseclass for `environ_property` and `header_property`."""

			`read_only = False`

			`def __init__(`
			`self,`
			`name: str,`
			`default: _TAccessorValue \| None = None,`
			`load_func: t.Callable[[str], _TAccessorValue] \| None = None,`
			`dump_func: t.Callable[[_TAccessorValue], str] \| None = None,`
			`read_only: bool \| None = None,`
			`doc: str \| None = None,`
			`) -> None:`
			`self.name = name`
			`self.default = default`
			`self.load_func = load_func`
			`self.dump_func = dump_func`
			`if read_only is not None:`
			`self.read_only = read_only`
			`self.__doc__ = doc`

			`def lookup(self, instance: t.Any) -> t.MutableMapping[str, t.Any]:`
			`raise NotImplementedError`

			`@t.overload`
			`def __get__(`
			`self, instance: None, owner: type`
			`) -> _DictAccessorProperty[_TAccessorValue]:`
			`...`

			`@t.overload`
			`def __get__(self, instance: t.Any, owner: type) -> _TAccessorValue:`
			`...`

			`def __get__(`
			`self, instance: t.Any \| None, owner: type`
			`) -> _TAccessorValue \| _DictAccessorProperty[_TAccessorValue]:`
			`if instance is None:`
			`return self`

			`storage = self.lookup(instance)`

			`if self.name not in storage:`
			`return self.default # type: ignore`

			`value = storage[self.name]`

			`if self.load_func is not None:`
			`try:`
			`return self.load_func(value)`
			`except (ValueError, TypeError):`
			`return self.default # type: ignore`

			`return value # type: ignore`

			`def __set__(self, instance: t.Any, value: _TAccessorValue) -> None:`
			`if self.read_only:`
			`raise AttributeError("read only property")`

			`if self.dump_func is not None:`
			`self.lookup(instance)[self.name] = self.dump_func(value)`
			`else:`
			`self.lookup(instance)[self.name] = value`

			`def __delete__(self, instance: t.Any) -> None:`
			`if self.read_only:`
			`raise AttributeError("read only property")`

			`self.lookup(instance).pop(self.name, None)`

			`def __repr__(self) -> str:`
			`return f"<{type(self).__name__} {self.name}>"`


			`def _decode_idna(domain: str) -> str:`
			`try:`
			`data = domain.encode("ascii")`
			`except UnicodeEncodeError:`
			`# If the domain is not ASCII, it's decoded already.`
			`return domain`

			`try:`
			`# Try decoding in one shot.`
			`return data.decode("idna")`
			`except UnicodeDecodeError:`
			`pass`

			`# Decode each part separately, leaving invalid parts as punycode.`
			`parts = []`

			`for part in data.split(b"."):`
			`try:`
			`parts.append(part.decode("idna"))`
			`except UnicodeDecodeError:`
			`parts.append(part.decode("ascii"))`

			`return ".".join(parts)`


			`_plain_int_re = re.compile(r"-?\d+", re.ASCII)`
			`_plain_float_re = re.compile(r"-?\d+\.\d+", re.ASCII)`


			`def _plain_int(value: str) -> int:`
			"""Parse an int only if it is only ASCII digits and ``-``.

			This disallows ``+``, ``_``, and non-ASCII digits, which are accepted by ``int`` but
			`are not allowed in HTTP header values.`
			`"""`
			`if _plain_int_re.fullmatch(value) is None:`
			`raise ValueError`

			`return int(value)`


			`def _plain_float(value: str) -> float:`
			"""Parse a float only if it is only ASCII digits and ``-``, and contains digits
			before and after the ``.``.

			This disallows ``+``, ``_``, non-ASCII digits, and ``.123``, which are accepted by
			``float`` but are not allowed in HTTP header values.
			`"""`
			`if _plain_float_re.fullmatch(value) is None:`
			`raise ValueError`

			`return float(value)`