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import functools
import string
import sys
import typing as t

if t.TYPE_CHECKING:
    import typing_extensions as te

    class HasHTML(te.Protocol):
        def __html__(self) -> str:
            pass

    _P = te.ParamSpec("_P")


__version__ = "2.1.5"


def _simple_escaping_wrapper(func: "t.Callable[_P, str]") -> "t.Callable[_P, Markup]":
    @functools.wraps(func)
    def wrapped(self: "Markup", *args: "_P.args", **kwargs: "_P.kwargs") -> "Markup":
        arg_list = _escape_argspec(list(args), enumerate(args), self.escape)
        _escape_argspec(kwargs, kwargs.items(), self.escape)
        return self.__class__(func(self, *arg_list, **kwargs))  # type: ignore[arg-type]

    return wrapped  # type: ignore[return-value]


class Markup(str):
    """A string that is ready to be safely inserted into an HTML or XML

    document, either because it was escaped or because it was marked

    safe.



    Passing an object to the constructor converts it to text and wraps

    it to mark it safe without escaping. To escape the text, use the

    :meth:`escape` class method instead.



    >>> Markup("Hello, <em>World</em>!")

    Markup('Hello, <em>World</em>!')

    >>> Markup(42)

    Markup('42')

    >>> Markup.escape("Hello, <em>World</em>!")

    Markup('Hello &lt;em&gt;World&lt;/em&gt;!')



    This implements the ``__html__()`` interface that some frameworks

    use. Passing an object that implements ``__html__()`` will wrap the

    output of that method, marking it safe.



    >>> class Foo:

    ...     def __html__(self):

    ...         return '<a href="/foo">foo</a>'

    ...

    >>> Markup(Foo())

    Markup('<a href="/foo">foo</a>')



    This is a subclass of :class:`str`. It has the same methods, but

    escapes their arguments and returns a ``Markup`` instance.



    >>> Markup("<em>%s</em>") % ("foo & bar",)

    Markup('<em>foo &amp; bar</em>')

    >>> Markup("<em>Hello</em> ") + "<foo>"

    Markup('<em>Hello</em> &lt;foo&gt;')

    """

    __slots__ = ()

    def __new__(

        cls, base: t.Any = "", encoding: t.Optional[str] = None, errors: str = "strict"

    ) -> "te.Self":
        if hasattr(base, "__html__"):
            base = base.__html__()

        if encoding is None:
            return super().__new__(cls, base)

        return super().__new__(cls, base, encoding, errors)

    def __html__(self) -> "te.Self":
        return self

    def __add__(self, other: t.Union[str, "HasHTML"]) -> "te.Self":
        if isinstance(other, str) or hasattr(other, "__html__"):
            return self.__class__(super().__add__(self.escape(other)))

        return NotImplemented

    def __radd__(self, other: t.Union[str, "HasHTML"]) -> "te.Self":
        if isinstance(other, str) or hasattr(other, "__html__"):
            return self.escape(other).__add__(self)

        return NotImplemented

    def __mul__(self, num: "te.SupportsIndex") -> "te.Self":
        if isinstance(num, int):
            return self.__class__(super().__mul__(num))

        return NotImplemented

    __rmul__ = __mul__

    def __mod__(self, arg: t.Any) -> "te.Self":
        if isinstance(arg, tuple):
            # a tuple of arguments, each wrapped
            arg = tuple(_MarkupEscapeHelper(x, self.escape) for x in arg)
        elif hasattr(type(arg), "__getitem__") and not isinstance(arg, str):
            # a mapping of arguments, wrapped
            arg = _MarkupEscapeHelper(arg, self.escape)
        else:
            # a single argument, wrapped with the helper and a tuple
            arg = (_MarkupEscapeHelper(arg, self.escape),)

        return self.__class__(super().__mod__(arg))

    def __repr__(self) -> str:
        return f"{self.__class__.__name__}({super().__repr__()})"

    def join(self, seq: t.Iterable[t.Union[str, "HasHTML"]]) -> "te.Self":
        return self.__class__(super().join(map(self.escape, seq)))

    join.__doc__ = str.join.__doc__

    def split(  # type: ignore[override]

        self, sep: t.Optional[str] = None, maxsplit: int = -1

    ) -> t.List["te.Self"]:
        return [self.__class__(v) for v in super().split(sep, maxsplit)]

    split.__doc__ = str.split.__doc__

    def rsplit(  # type: ignore[override]

        self, sep: t.Optional[str] = None, maxsplit: int = -1

    ) -> t.List["te.Self"]:
        return [self.__class__(v) for v in super().rsplit(sep, maxsplit)]

    rsplit.__doc__ = str.rsplit.__doc__

    def splitlines(  # type: ignore[override]

        self, keepends: bool = False

    ) -> t.List["te.Self"]:
        return [self.__class__(v) for v in super().splitlines(keepends)]

    splitlines.__doc__ = str.splitlines.__doc__

    def unescape(self) -> str:
        """Convert escaped markup back into a text string. This replaces

        HTML entities with the characters they represent.



        >>> Markup("Main &raquo; <em>About</em>").unescape()

        'Main » <em>About</em>'

        """
        from html import unescape

        return unescape(str(self))

    def striptags(self) -> str:
        """:meth:`unescape` the markup, remove tags, and normalize

        whitespace to single spaces.



        >>> Markup("Main &raquo;\t<em>About</em>").striptags()

        'Main » About'

        """
        value = str(self)

        # Look for comments then tags separately. Otherwise, a comment that
        # contains a tag would end early, leaving some of the comment behind.

        while True:
            # keep finding comment start marks
            start = value.find("<!--")

            if start == -1:
                break

            # find a comment end mark beyond the start, otherwise stop
            end = value.find("-->", start)

            if end == -1:
                break

            value = f"{value[:start]}{value[end + 3:]}"

        # remove tags using the same method
        while True:
            start = value.find("<")

            if start == -1:
                break

            end = value.find(">", start)

            if end == -1:
                break

            value = f"{value[:start]}{value[end + 1:]}"

        # collapse spaces
        value = " ".join(value.split())
        return self.__class__(value).unescape()

    @classmethod
    def escape(cls, s: t.Any) -> "te.Self":
        """Escape a string. Calls :func:`escape` and ensures that for

        subclasses the correct type is returned.

        """
        rv = escape(s)

        if rv.__class__ is not cls:
            return cls(rv)

        return rv  # type: ignore[return-value]

    __getitem__ = _simple_escaping_wrapper(str.__getitem__)
    capitalize = _simple_escaping_wrapper(str.capitalize)
    title = _simple_escaping_wrapper(str.title)
    lower = _simple_escaping_wrapper(str.lower)
    upper = _simple_escaping_wrapper(str.upper)
    replace = _simple_escaping_wrapper(str.replace)
    ljust = _simple_escaping_wrapper(str.ljust)
    rjust = _simple_escaping_wrapper(str.rjust)
    lstrip = _simple_escaping_wrapper(str.lstrip)
    rstrip = _simple_escaping_wrapper(str.rstrip)
    center = _simple_escaping_wrapper(str.center)
    strip = _simple_escaping_wrapper(str.strip)
    translate = _simple_escaping_wrapper(str.translate)
    expandtabs = _simple_escaping_wrapper(str.expandtabs)
    swapcase = _simple_escaping_wrapper(str.swapcase)
    zfill = _simple_escaping_wrapper(str.zfill)
    casefold = _simple_escaping_wrapper(str.casefold)

    if sys.version_info >= (3, 9):
        removeprefix = _simple_escaping_wrapper(str.removeprefix)
        removesuffix = _simple_escaping_wrapper(str.removesuffix)

    def partition(self, sep: str) -> t.Tuple["te.Self", "te.Self", "te.Self"]:
        l, s, r = super().partition(self.escape(sep))
        cls = self.__class__
        return cls(l), cls(s), cls(r)

    def rpartition(self, sep: str) -> t.Tuple["te.Self", "te.Self", "te.Self"]:
        l, s, r = super().rpartition(self.escape(sep))
        cls = self.__class__
        return cls(l), cls(s), cls(r)

    def format(self, *args: t.Any, **kwargs: t.Any) -> "te.Self":
        formatter = EscapeFormatter(self.escape)
        return self.__class__(formatter.vformat(self, args, kwargs))

    def format_map(  # type: ignore[override]

        self, map: t.Mapping[str, t.Any]

    ) -> "te.Self":
        formatter = EscapeFormatter(self.escape)
        return self.__class__(formatter.vformat(self, (), map))

    def __html_format__(self, format_spec: str) -> "te.Self":
        if format_spec:
            raise ValueError("Unsupported format specification for Markup.")

        return self


class EscapeFormatter(string.Formatter):
    __slots__ = ("escape",)

    def __init__(self, escape: t.Callable[[t.Any], Markup]) -> None:
        self.escape = escape
        super().__init__()

    def format_field(self, value: t.Any, format_spec: str) -> str:
        if hasattr(value, "__html_format__"):
            rv = value.__html_format__(format_spec)
        elif hasattr(value, "__html__"):
            if format_spec:
                raise ValueError(
                    f"Format specifier {format_spec} given, but {type(value)} does not"
                    " define __html_format__. A class that defines __html__ must define"
                    " __html_format__ to work with format specifiers."
                )
            rv = value.__html__()
        else:
            # We need to make sure the format spec is str here as
            # otherwise the wrong callback methods are invoked.
            rv = string.Formatter.format_field(self, value, str(format_spec))
        return str(self.escape(rv))


_ListOrDict = t.TypeVar("_ListOrDict", list, dict)


def _escape_argspec(

    obj: _ListOrDict, iterable: t.Iterable[t.Any], escape: t.Callable[[t.Any], Markup]

) -> _ListOrDict:
    """Helper for various string-wrapped functions."""
    for key, value in iterable:
        if isinstance(value, str) or hasattr(value, "__html__"):
            obj[key] = escape(value)

    return obj


class _MarkupEscapeHelper:
    """Helper for :meth:`Markup.__mod__`."""

    __slots__ = ("obj", "escape")

    def __init__(self, obj: t.Any, escape: t.Callable[[t.Any], Markup]) -> None:
        self.obj = obj
        self.escape = escape

    def __getitem__(self, item: t.Any) -> "te.Self":
        return self.__class__(self.obj[item], self.escape)

    def __str__(self) -> str:
        return str(self.escape(self.obj))

    def __repr__(self) -> str:
        return str(self.escape(repr(self.obj)))

    def __int__(self) -> int:
        return int(self.obj)

    def __float__(self) -> float:
        return float(self.obj)


# circular import
try:
    from ._speedups import escape as escape
    from ._speedups import escape_silent as escape_silent
    from ._speedups import soft_str as soft_str
except ImportError:
    from ._native import escape as escape
    from ._native import escape_silent as escape_silent  # noqa: F401
    from ._native import soft_str as soft_str  # noqa: F401