def test_reversals(multipolygons_pair: MultipolygonsPair) -> None:
left_multipolygon, right_multipolygon = multipolygons_pair
result = intersect_multipolygons(left_multipolygon, right_multipolygon)
assert result == intersect_multipolygons(
reverse_multipolygon(left_multipolygon), right_multipolygon)
assert result == intersect_multipolygons(
left_multipolygon, reverse_multipolygon(right_multipolygon))
assert result == intersect_multipolygons(
reverse_multipolygon_borders(left_multipolygon),
right_multipolygon)
assert result == intersect_multipolygons(
left_multipolygon,
reverse_multipolygon_borders(right_multipolygon))
assert result == intersect_multipolygons(
reverse_multipolygon_holes(left_multipolygon), right_multipolygon)
assert result == intersect_multipolygons(
left_multipolygon, reverse_multipolygon_holes(right_multipolygon))
assert result == intersect_multipolygons(
reverse_multipolygon_holes_contours(left_multipolygon),
right_multipolygon)
assert result == intersect_multipolygons(
left_multipolygon,
reverse_multipolygon_holes_contours(right_multipolygon))
def test_reversals(multipolygons_pair: MultipolygonsPair) -> None:
left_multipolygon, right_multipolygon = multipolygons_pair
result = symmetric_subtract_multipolygons(left_multipolygon,
right_multipolygon)
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
reverse_multipolygon(left_multipolygon), right_multipolygon))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
left_multipolygon, reverse_multipolygon(right_multipolygon)))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
reverse_multipolygon_borders(left_multipolygon),
right_multipolygon))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
left_multipolygon,
reverse_multipolygon_borders(right_multipolygon)))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
reverse_multipolygon_holes(left_multipolygon), right_multipolygon))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
left_multipolygon, reverse_multipolygon_holes(right_multipolygon)))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
reverse_multipolygon_holes_contours(left_multipolygon),
right_multipolygon))
assert are_multipolygons_similar(
result,
symmetric_subtract_multipolygons(
left_multipolygon,
reverse_multipolygon_holes_contours(right_multipolygon)))
def test_reversals(multipolygon_with_multiregion
: Tuple[Multipolygon, Multiregion]) -> None:
multipolygon, multiregion = multipolygon_with_multiregion
result = multiregion_in_multipolygon(multiregion, multipolygon)
assert result is multiregion_in_multipolygon(
reverse_multiregion(multiregion), multipolygon)
assert result is multiregion_in_multipolygon(
multiregion, reverse_multipolygon_borders(multipolygon))
assert result is multiregion_in_multipolygon(
multiregion, reverse_multipolygon_holes(multipolygon))
assert result is multiregion_in_multipolygon(
multiregion, reverse_multipolygon_holes_contours(multipolygon))
assert result is multiregion_in_multipolygon(
reverse_multiregion_coordinates(multiregion),
reverse_multipolygon_coordinates(multipolygon))
def test_reversals(
multipolygon_with_point: Tuple[Multipolygon, Point]) -> None:
multipolygon, point = multipolygon_with_point
result = point_in_multipolygon(point, multipolygon)
assert result is point_in_multipolygon(point,
reverse_multipolygon(multipolygon))
assert result is point_in_multipolygon(
point, reverse_multipolygon_borders(multipolygon))
assert result is point_in_multipolygon(
point, reverse_multipolygon_holes(multipolygon))
assert result is point_in_multipolygon(
point, reverse_multipolygon_holes_contours(multipolygon))
assert result is point_in_multipolygon(
reverse_point_coordinates(point),
reverse_multipolygon_coordinates(multipolygon))
def test_reversals(
multipolygon_with_multisegment: MultipolygonWithMultisegment) -> None:
multipolygon, multisegment = multipolygon_with_multisegment
result = complete_intersect_multisegment_with_multipolygon(
multisegment, multipolygon)
assert result == complete_intersect_multisegment_with_multipolygon(
multisegment, reverse_multipolygon(multipolygon))
assert result == complete_intersect_multisegment_with_multipolygon(
multisegment, reverse_multipolygon_borders(multipolygon))
assert result == complete_intersect_multisegment_with_multipolygon(
multisegment, reverse_multipolygon_holes(multipolygon))
assert result == complete_intersect_multisegment_with_multipolygon(
multisegment, reverse_multipolygon_holes_contours(multipolygon))
assert result == complete_intersect_multisegment_with_multipolygon(
reverse_multisegment(multisegment), multipolygon)
assert result == complete_intersect_multisegment_with_multipolygon(
reverse_multisegment_endpoints(multisegment), multipolygon)
def test_reversals(
multipolygon_with_segment: Tuple[Multipolygon, Segment]) -> None:
multipolygon, segment = multipolygon_with_segment
result = segment_in_multipolygon(segment, multipolygon)
assert result is segment_in_multipolygon(reverse_segment(segment),
multipolygon)
assert result is segment_in_multipolygon(
segment, reverse_multipolygon(multipolygon))
assert result is segment_in_multipolygon(
segment, reverse_multipolygon_borders(multipolygon))
assert result is segment_in_multipolygon(
segment, reverse_multipolygon_holes(multipolygon))
assert result is segment_in_multipolygon(
segment, reverse_multipolygon_holes_contours(multipolygon))
assert result is segment_in_multipolygon(
reverse_segment_coordinates(segment),
reverse_multipolygon_coordinates(multipolygon))
def test_reversals(
multipolygon_with_multisegment: MultipolygonWithMultisegment) -> None:
multipolygon, multisegment = multipolygon_with_multisegment
result = subtract_multipolygon_from_multisegment(multisegment,
multipolygon)
assert result == subtract_multipolygon_from_multisegment(
multisegment, reverse_multipolygon(multipolygon))
assert result == subtract_multipolygon_from_multisegment(
multisegment, reverse_multipolygon_borders(multipolygon))
assert result == subtract_multipolygon_from_multisegment(
multisegment, reverse_multipolygon_holes(multipolygon))
assert result == subtract_multipolygon_from_multisegment(
multisegment, reverse_multipolygon_holes_contours(multipolygon))
assert are_multisegments_similar(
result,
subtract_multipolygon_from_multisegment(
reverse_multisegment(multisegment), multipolygon))
assert are_multisegments_similar(
result,
subtract_multipolygon_from_multisegment(
reverse_multisegment_endpoints(multisegment), multipolygon))
