res_levis_API/.venv/lib/python3.10/site-packages/attr/validators.py

# SPDX-License-Identifier: MIT

"""
Commonly useful validators.
"""

import operator
import re

from contextlib import contextmanager
from re import Pattern

from ._config import get_run_validators, set_run_validators
from ._make import _AndValidator, and_, attrib, attrs
from .converters import default_if_none
from .exceptions import NotCallableError


__all__ = [
    "and_",
    "deep_iterable",
    "deep_mapping",
    "disabled",
    "ge",
    "get_disabled",
    "gt",
    "in_",
    "instance_of",
    "is_callable",
    "le",
    "lt",
    "matches_re",
    "max_len",
    "min_len",
    "not_",
    "optional",
    "or_",
    "set_disabled",
]


def set_disabled(disabled):
    """
    Globally disable or enable running validators.

    By default, they are run.

    Args:
        disabled (bool): If `True`, disable running all validators.

    .. warning::

        This function is not thread-safe!

    .. versionadded:: 21.3.0
    """
    set_run_validators(not disabled)


def get_disabled():
    """
    Return a bool indicating whether validators are currently disabled or not.

    Returns:
        bool:`True` if validators are currently disabled.

    .. versionadded:: 21.3.0
    """
    return not get_run_validators()


@contextmanager
def disabled():
    """
    Context manager that disables running validators within its context.

    .. warning::

        This context manager is not thread-safe!

    .. versionadded:: 21.3.0
    """
    set_run_validators(False)
    try:
        yield
    finally:
        set_run_validators(True)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _InstanceOfValidator:
    type = attrib()

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if not isinstance(value, self.type):
            msg = f"'{attr.name}' must be {self.type!r} (got {value!r} that is a {value.__class__!r})."
            raise TypeError(
                msg,
                attr,
                self.type,
                value,
            )

    def __repr__(self):
        return f"<instance_of validator for type {self.type!r}>"


def instance_of(type):
    """
    A validator that raises a `TypeError` if the initializer is called with a
    wrong type for this particular attribute (checks are performed using
    `isinstance` therefore it's also valid to pass a tuple of types).

    Args:
        type (type | tuple[type]): The type to check for.

    Raises:
        TypeError:
            With a human readable error message, the attribute (of type
            `attrs.Attribute`), the expected type, and the value it got.
    """
    return _InstanceOfValidator(type)


@attrs(repr=False, frozen=True, slots=True)
class _MatchesReValidator:
    pattern = attrib()
    match_func = attrib()

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if not self.match_func(value):
            msg = f"'{attr.name}' must match regex {self.pattern.pattern!r} ({value!r} doesn't)"
            raise ValueError(
                msg,
                attr,
                self.pattern,
                value,
            )

    def __repr__(self):
        return f"<matches_re validator for pattern {self.pattern!r}>"


def matches_re(regex, flags=0, func=None):
    r"""
    A validator that raises `ValueError` if the initializer is called with a
    string that doesn't match *regex*.

    Args:
        regex (str, re.Pattern):
            A regex string or precompiled pattern to match against

        flags (int):
            Flags that will be passed to the underlying re function (default 0)

        func (typing.Callable):
            Which underlying `re` function to call. Valid options are
            `re.fullmatch`, `re.search`, and `re.match`; the default `None`
            means `re.fullmatch`. For performance reasons, the pattern is
            always precompiled using `re.compile`.

    .. versionadded:: 19.2.0
    .. versionchanged:: 21.3.0 *regex* can be a pre-compiled pattern.
    """
    valid_funcs = (re.fullmatch, None, re.search, re.match)
    if func not in valid_funcs:
        msg = "'func' must be one of {}.".format(
            ", ".join(
                sorted((e and e.__name__) or "None" for e in set(valid_funcs))
            )
        )
        raise ValueError(msg)

    if isinstance(regex, Pattern):
        if flags:
            msg = "'flags' can only be used with a string pattern; pass flags to re.compile() instead"
            raise TypeError(msg)
        pattern = regex
    else:
        pattern = re.compile(regex, flags)

    if func is re.match:
        match_func = pattern.match
    elif func is re.search:
        match_func = pattern.search
    else:
        match_func = pattern.fullmatch

    return _MatchesReValidator(pattern, match_func)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _OptionalValidator:
    validator = attrib()

    def __call__(self, inst, attr, value):
        if value is None:
            return

        self.validator(inst, attr, value)

    def __repr__(self):
        return f"<optional validator for {self.validator!r} or None>"


def optional(validator):
    """
    A validator that makes an attribute optional.  An optional attribute is one
    which can be set to `None` in addition to satisfying the requirements of
    the sub-validator.

    Args:
        validator
            (typing.Callable | tuple[typing.Callable] | list[typing.Callable]):
            A validator (or validators) that is used for non-`None` values.

    .. versionadded:: 15.1.0
    .. versionchanged:: 17.1.0 *validator* can be a list of validators.
    .. versionchanged:: 23.1.0 *validator* can also be a tuple of validators.
    """
    if isinstance(validator, (list, tuple)):
        return _OptionalValidator(_AndValidator(validator))

    return _OptionalValidator(validator)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _InValidator:
    options = attrib()
    _original_options = attrib(hash=False)

    def __call__(self, inst, attr, value):
        try:
            in_options = value in self.options
        except TypeError:  # e.g. `1 in "abc"`
            in_options = False

        if not in_options:
            msg = f"'{attr.name}' must be in {self._original_options!r} (got {value!r})"
            raise ValueError(
                msg,
                attr,
                self._original_options,
                value,
            )

    def __repr__(self):
        return f"<in_ validator with options {self._original_options!r}>"


def in_(options):
    """
    A validator that raises a `ValueError` if the initializer is called with a
    value that does not belong in the *options* provided.

    The check is performed using ``value in options``, so *options* has to
    support that operation.

    To keep the validator hashable, dicts, lists, and sets are transparently
    transformed into a `tuple`.

    Args:
        options: Allowed options.

    Raises:
        ValueError:
            With a human readable error message, the attribute (of type
            `attrs.Attribute`), the expected options, and the value it got.

    .. versionadded:: 17.1.0
    .. versionchanged:: 22.1.0
       The ValueError was incomplete until now and only contained the human
       readable error message. Now it contains all the information that has
       been promised since 17.1.0.
    .. versionchanged:: 24.1.0
       *options* that are a list, dict, or a set are now transformed into a
       tuple to keep the validator hashable.
    """
    repr_options = options
    if isinstance(options, (list, dict, set)):
        options = tuple(options)

    return _InValidator(options, repr_options)


@attrs(repr=False, slots=False, unsafe_hash=True)
class _IsCallableValidator:
    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if not callable(value):
            message = (
                "'{name}' must be callable "
                "(got {value!r} that is a {actual!r})."
            )
            raise NotCallableError(
                msg=message.format(
                    name=attr.name, value=value, actual=value.__class__
                ),
                value=value,
            )

    def __repr__(self):
        return "<is_callable validator>"


def is_callable():
    """
    A validator that raises a `attrs.exceptions.NotCallableError` if the
    initializer is called with a value for this particular attribute that is
    not callable.

    .. versionadded:: 19.1.0

    Raises:
        attrs.exceptions.NotCallableError:
            With a human readable error message containing the attribute
            (`attrs.Attribute`) name, and the value it got.
    """
    return _IsCallableValidator()


@attrs(repr=False, slots=True, unsafe_hash=True)
class _DeepIterable:
    member_validator = attrib(validator=is_callable())
    iterable_validator = attrib(
        default=None, validator=optional(is_callable())
    )

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if self.iterable_validator is not None:
            self.iterable_validator(inst, attr, value)

        for member in value:
            self.member_validator(inst, attr, member)

    def __repr__(self):
        iterable_identifier = (
            ""
            if self.iterable_validator is None
            else f" {self.iterable_validator!r}"
        )
        return (
            f"<deep_iterable validator for{iterable_identifier}"
            f" iterables of {self.member_validator!r}>"
        )


def deep_iterable(member_validator, iterable_validator=None):
    """
    A validator that performs deep validation of an iterable.

    Args:
        member_validator: Validator to apply to iterable members.

        iterable_validator:
            Validator to apply to iterable itself (optional).

    Raises
        TypeError: if any sub-validators fail

    .. versionadded:: 19.1.0
    """
    if isinstance(member_validator, (list, tuple)):
        member_validator = and_(*member_validator)
    return _DeepIterable(member_validator, iterable_validator)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _DeepMapping:
    key_validator = attrib(validator=is_callable())
    value_validator = attrib(validator=is_callable())
    mapping_validator = attrib(default=None, validator=optional(is_callable()))

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if self.mapping_validator is not None:
            self.mapping_validator(inst, attr, value)

        for key in value:
            self.key_validator(inst, attr, key)
            self.value_validator(inst, attr, value[key])

    def __repr__(self):
        return f"<deep_mapping validator for objects mapping {self.key_validator!r} to {self.value_validator!r}>"


def deep_mapping(key_validator, value_validator, mapping_validator=None):
    """
    A validator that performs deep validation of a dictionary.

    Args:
        key_validator: Validator to apply to dictionary keys.

        value_validator: Validator to apply to dictionary values.

        mapping_validator:
            Validator to apply to top-level mapping attribute (optional).

    .. versionadded:: 19.1.0

    Raises:
        TypeError: if any sub-validators fail
    """
    return _DeepMapping(key_validator, value_validator, mapping_validator)


@attrs(repr=False, frozen=True, slots=True)
class _NumberValidator:
    bound = attrib()
    compare_op = attrib()
    compare_func = attrib()

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if not self.compare_func(value, self.bound):
            msg = f"'{attr.name}' must be {self.compare_op} {self.bound}: {value}"
            raise ValueError(msg)

    def __repr__(self):
        return f"<Validator for x {self.compare_op} {self.bound}>"


def lt(val):
    """
    A validator that raises `ValueError` if the initializer is called with a
    number larger or equal to *val*.

    The validator uses `operator.lt` to compare the values.

    Args:
        val: Exclusive upper bound for values.

    .. versionadded:: 21.3.0
    """
    return _NumberValidator(val, "<", operator.lt)


def le(val):
    """
    A validator that raises `ValueError` if the initializer is called with a
    number greater than *val*.

    The validator uses `operator.le` to compare the values.

    Args:
        val: Inclusive upper bound for values.

    .. versionadded:: 21.3.0
    """
    return _NumberValidator(val, "<=", operator.le)


def ge(val):
    """
    A validator that raises `ValueError` if the initializer is called with a
    number smaller than *val*.

    The validator uses `operator.ge` to compare the values.

    Args:
        val: Inclusive lower bound for values

    .. versionadded:: 21.3.0
    """
    return _NumberValidator(val, ">=", operator.ge)


def gt(val):
    """
    A validator that raises `ValueError` if the initializer is called with a
    number smaller or equal to *val*.

    The validator uses `operator.ge` to compare the values.

    Args:
       val: Exclusive lower bound for values

    .. versionadded:: 21.3.0
    """
    return _NumberValidator(val, ">", operator.gt)


@attrs(repr=False, frozen=True, slots=True)
class _MaxLengthValidator:
    max_length = attrib()

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if len(value) > self.max_length:
            msg = f"Length of '{attr.name}' must be <= {self.max_length}: {len(value)}"
            raise ValueError(msg)

    def __repr__(self):
        return f"<max_len validator for {self.max_length}>"


def max_len(length):
    """
    A validator that raises `ValueError` if the initializer is called
    with a string or iterable that is longer than *length*.

    Args:
        length (int): Maximum length of the string or iterable

    .. versionadded:: 21.3.0
    """
    return _MaxLengthValidator(length)


@attrs(repr=False, frozen=True, slots=True)
class _MinLengthValidator:
    min_length = attrib()

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if len(value) < self.min_length:
            msg = f"Length of '{attr.name}' must be >= {self.min_length}: {len(value)}"
            raise ValueError(msg)

    def __repr__(self):
        return f"<min_len validator for {self.min_length}>"


def min_len(length):
    """
    A validator that raises `ValueError` if the initializer is called
    with a string or iterable that is shorter than *length*.

    Args:
        length (int): Minimum length of the string or iterable

    .. versionadded:: 22.1.0
    """
    return _MinLengthValidator(length)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _SubclassOfValidator:
    type = attrib()

    def __call__(self, inst, attr, value):
        """
        We use a callable class to be able to change the ``__repr__``.
        """
        if not issubclass(value, self.type):
            msg = f"'{attr.name}' must be a subclass of {self.type!r} (got {value!r})."
            raise TypeError(
                msg,
                attr,
                self.type,
                value,
            )

    def __repr__(self):
        return f"<subclass_of validator for type {self.type!r}>"


def _subclass_of(type):
    """
    A validator that raises a `TypeError` if the initializer is called with a
    wrong type for this particular attribute (checks are performed using
    `issubclass` therefore it's also valid to pass a tuple of types).

    Args:
        type (type | tuple[type, ...]): The type(s) to check for.

    Raises:
        TypeError:
            With a human readable error message, the attribute (of type
            `attrs.Attribute`), the expected type, and the value it got.
    """
    return _SubclassOfValidator(type)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _NotValidator:
    validator = attrib()
    msg = attrib(
        converter=default_if_none(
            "not_ validator child '{validator!r}' "
            "did not raise a captured error"
        )
    )
    exc_types = attrib(
        validator=deep_iterable(
            member_validator=_subclass_of(Exception),
            iterable_validator=instance_of(tuple),
        ),
    )

    def __call__(self, inst, attr, value):
        try:
            self.validator(inst, attr, value)
        except self.exc_types:
            pass  # suppress error to invert validity
        else:
            raise ValueError(
                self.msg.format(
                    validator=self.validator,
                    exc_types=self.exc_types,
                ),
                attr,
                self.validator,
                value,
                self.exc_types,
            )

    def __repr__(self):
        return f"<not_ validator wrapping {self.validator!r}, capturing {self.exc_types!r}>"


def not_(validator, *, msg=None, exc_types=(ValueError, TypeError)):
    """
    A validator that wraps and logically 'inverts' the validator passed to it.
    It will raise a `ValueError` if the provided validator *doesn't* raise a
    `ValueError` or `TypeError` (by default), and will suppress the exception
    if the provided validator *does*.

    Intended to be used with existing validators to compose logic without
    needing to create inverted variants, for example, ``not_(in_(...))``.

    Args:
        validator: A validator to be logically inverted.

        msg (str):
            Message to raise if validator fails. Formatted with keys
            ``exc_types`` and ``validator``.

        exc_types (tuple[type, ...]):
            Exception type(s) to capture. Other types raised by child
            validators will not be intercepted and pass through.

    Raises:
        ValueError:
            With a human readable error message, the attribute (of type
            `attrs.Attribute`), the validator that failed to raise an
            exception, the value it got, and the expected exception types.

    .. versionadded:: 22.2.0
    """
    try:
        exc_types = tuple(exc_types)
    except TypeError:
        exc_types = (exc_types,)
    return _NotValidator(validator, msg, exc_types)


@attrs(repr=False, slots=True, unsafe_hash=True)
class _OrValidator:
    validators = attrib()

    def __call__(self, inst, attr, value):
        for v in self.validators:
            try:
                v(inst, attr, value)
            except Exception:  # noqa: BLE001, PERF203, S112
                continue
            else:
                return

        msg = f"None of {self.validators!r} satisfied for value {value!r}"
        raise ValueError(msg)

    def __repr__(self):
        return f"<or validator wrapping {self.validators!r}>"


def or_(*validators):
    """
    A validator that composes multiple validators into one.

    When called on a value, it runs all wrapped validators until one of them is
    satisfied.

    Args:
        validators (~collections.abc.Iterable[typing.Callable]):
            Arbitrary number of validators.

    Raises:
        ValueError:
            If no validator is satisfied. Raised with a human-readable error
            message listing all the wrapped validators and the value that
            failed all of them.

    .. versionadded:: 24.1.0
    """
    vals = []
    for v in validators:
        vals.extend(v.validators if isinstance(v, _OrValidator) else [v])

    return _OrValidator(tuple(vals))