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Current File : //usr/lib/python3/dist-packages/hamcrest/library/collection/issequence_containing.py

from typing import Sequence, TypeVar, Union, cast

from hamcrest.core.base_matcher import BaseMatcher
from hamcrest.core.core.allof import all_of
from hamcrest.core.description import Description
from hamcrest.core.helpers.wrap_matcher import wrap_matcher
from hamcrest.core.matcher import Matcher

__author__ = "Jon Reid"
__copyright__ = "Copyright 2011 hamcrest.org"
__license__ = "BSD, see License.txt"

T = TypeVar("T")


class IsSequenceContaining(BaseMatcher[Sequence[T]]):
    def __init__(self, element_matcher: Matcher[T]) -> None:
        self.element_matcher = element_matcher

    def _matches(self, item: Sequence[T]) -> bool:
        try:
            for element in item:
                if self.element_matcher.matches(element):
                    return True
        except TypeError:  # not a sequence
            pass
        return False

    def describe_to(self, description: Description) -> None:
        description.append_text("a sequence containing ").append_description_of(
            self.element_matcher
        )


# It'd be great to make use of all_of, but we can't be sure we won't
# be seeing a one-time sequence here (like a generator); see issue #20
# Instead, we wrap it inside a class that will convert the sequence into
# a concrete list and then hand it off to the all_of matcher.
class IsSequenceContainingEvery(BaseMatcher[Sequence[T]]):
    def __init__(self, *element_matchers: Matcher[T]) -> None:
        delegates = [cast(Matcher[Sequence[T]], has_item(e)) for e in element_matchers]
        self.matcher: Matcher[Sequence[T]] = all_of(*delegates)

    def _matches(self, item: Sequence[T]) -> bool:
        try:
            return self.matcher.matches(list(item))
        except TypeError:
            return False

    def describe_mismatch(self, item: Sequence[T], mismatch_description: Description) -> None:
        self.matcher.describe_mismatch(item, mismatch_description)

    def describe_to(self, description: Description) -> None:
        self.matcher.describe_to(description)


def has_item(match: Union[Matcher[T], T]) -> Matcher[Sequence[T]]:
    """Matches if any element of sequence satisfies a given matcher.

    :param match: The matcher to satisfy, or an expected value for
        :py:func:`~hamcrest.core.core.isequal.equal_to` matching.

    This matcher iterates the evaluated sequence, searching for any element
    that satisfies a given matcher. If a matching element is found,
    ``has_item`` is satisfied.

    If the ``match`` argument is not a matcher, it is implicitly wrapped in an
    :py:func:`~hamcrest.core.core.isequal.equal_to` matcher to check for
    equality.

    """
    return IsSequenceContaining(wrap_matcher(match))


def has_items(*items: Union[Matcher[T], T]) -> Matcher[Sequence[T]]:
    """Matches if all of the given matchers are satisfied by any elements of
    the sequence.

    :param match1,...: A comma-separated list of matchers.

    This matcher iterates the given matchers, searching for any elements in the
    evaluated sequence that satisfy them. If each matcher is satisfied, then
    ``has_items`` is satisfied.

    Any argument that is not a matcher is implicitly wrapped in an
    :py:func:`~hamcrest.core.core.isequal.equal_to` matcher to check for
    equality.

    """
    matchers = []
    for item in items:
        matchers.append(wrap_matcher(item))
    return IsSequenceContainingEvery(*matchers)

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