def test_distribution_over_union(multipolygons_triplet: MultipolygonsTriplet ) -> None: (left_multipolygon, mid_multipolygon, right_multipolygon) = multipolygons_triplet result = intersect_multipolygons(left_multipolygon, unite_multipolygons(mid_multipolygon, right_multipolygon)) assert result == unite_multipolygons( intersect_multipolygons(left_multipolygon, mid_multipolygon), intersect_multipolygons(left_multipolygon, right_multipolygon))
def test_equivalents(multipolygons_pair: MultipolygonsPair) -> None: left_multipolygon, right_multipolygon = multipolygons_pair result = symmetric_subtract_multipolygons(left_multipolygon, right_multipolygon) assert result == unite_multipolygons( subtract_multipolygons(left_multipolygon, right_multipolygon), subtract_multipolygons(right_multipolygon, left_multipolygon)) assert result == subtract_multipolygons( unite_multipolygons(left_multipolygon, right_multipolygon), intersect_multipolygons(right_multipolygon, left_multipolygon))
def test_associativity(multipolygons_triplet: MultipolygonsTriplet) -> None: (left_multipolygon, mid_multipolygon, right_multipolygon) = multipolygons_triplet result = unite_multipolygons(unite_multipolygons(left_multipolygon, mid_multipolygon), right_multipolygon) assert are_multipolygons_similar( result, unite_multipolygons(left_multipolygon, unite_multipolygons(mid_multipolygon, right_multipolygon)))
def test_difference_operand(multipolygons_triplet: MultipolygonsTriplet ) -> None: (left_multipolygon, mid_multipolygon, right_multipolygon) = multipolygons_triplet result = unite_multipolygons(subtract_multipolygons(left_multipolygon, mid_multipolygon), right_multipolygon) assert are_multipolygons_similar( result, subtract_multipolygons(unite_multipolygons(left_multipolygon, right_multipolygon), subtract_multipolygons(mid_multipolygon, right_multipolygon)))
def test_distribution_over_intersection(multipolygons_triplet : MultipolygonsTriplet) -> None: (left_multipolygon, mid_multipolygon, right_multipolygon) = multipolygons_triplet result = unite_multipolygons(left_multipolygon, intersect_multipolygons(mid_multipolygon, right_multipolygon)) assert are_multipolygons_similar( result, intersect_multipolygons(unite_multipolygons(left_multipolygon, mid_multipolygon), unite_multipolygons(left_multipolygon, right_multipolygon)))
def test_right_neutral_element(empty_multipolygon_with_multipolygon : MultipolygonsPair) -> None: empty_multipolygon, multipolygon = empty_multipolygon_with_multipolygon result = unite_multipolygons(multipolygon, empty_multipolygon) assert are_multipolygons_similar(result, multipolygon)
def test_absorption_identity(multipolygons_pair: MultipolygonsPair) -> None: left_multipolygon, right_multipolygon = multipolygons_pair result = intersect_multipolygons(left_multipolygon, unite_multipolygons(left_multipolygon, right_multipolygon)) assert are_multipolygons_similar(result, left_multipolygon)
def test_absorption_identity(multipolygons_pair: MultipolygonsPair) -> None: left_multipolygon, right_multipolygon = multipolygons_pair result = complete_intersect_multipolygons( left_multipolygon, unite_multipolygons(left_multipolygon, right_multipolygon)) assert mix_similar_to_multipolygon(result, left_multipolygon)
def test_reversals(multipolygons_pair: MultipolygonsPair) -> None: left_multipolygon, right_multipolygon = multipolygons_pair result = unite_multipolygons(left_multipolygon, right_multipolygon) assert are_multipolygons_similar( result, unite_multipolygons(reverse_multipolygon(left_multipolygon), right_multipolygon)) assert are_multipolygons_similar( result, unite_multipolygons(left_multipolygon, reverse_multipolygon(right_multipolygon))) assert are_multipolygons_similar( result, unite_multipolygons( reverse_multipolygon_borders(left_multipolygon), right_multipolygon)) assert are_multipolygons_similar( result, unite_multipolygons( left_multipolygon, reverse_multipolygon_borders(right_multipolygon))) assert are_multipolygons_similar( result, unite_multipolygons(reverse_multipolygon_holes(left_multipolygon), right_multipolygon)) assert are_multipolygons_similar( result, unite_multipolygons(left_multipolygon, reverse_multipolygon_holes( right_multipolygon))) assert are_multipolygons_similar( result, unite_multipolygons( reverse_multipolygon_holes_contours(left_multipolygon), right_multipolygon)) assert are_multipolygons_similar( result, unite_multipolygons( left_multipolygon, reverse_multipolygon_holes_contours(right_multipolygon)))
def __or__(self, other: Compound[Coordinate]) -> Compound[Coordinate]: """ Returns union of the multipolygon with the other geometry. Time complexity: ``O(vertices_count * log vertices_count)`` Memory complexity: ``O(vertices_count)`` where .. code-block:: python vertices_count = sum(len(polygon.border.vertices) + sum(len(hole.vertices) for hole in polygon.holes) for polygon in self.polygons) >>> from gon.base import Contour, Multipolygon, Point, Polygon >>> multipolygon = Multipolygon( ... [Polygon(Contour([Point(0, 0), Point(14, 0), Point(14, 14), ... Point(0, 14)]), ... [Contour([Point(2, 2), Point(2, 12), ... Point(12, 12), Point(12, 2)])]), ... Polygon(Contour([Point(4, 4), Point(10, 4), Point(10, 10), ... Point(4, 10)]), ... [Contour([Point(6, 6), Point(6, 8), Point(8, 8), ... Point(8, 6)])])]) >>> multipolygon | multipolygon == multipolygon True """ return (self._unite_with_multipoint(other) if isinstance( other, Multipoint) else (unite_segment_with_multipolygon( other, self, context=self._context) if isinstance( other, Segment) else (unite_multisegment_with_multipolygon( other, self, context=self._context) if isinstance( other, Linear) else (unite_polygon_with_multipolygon( other, self, context=self._context ) if isinstance(other, Polygon) else (unite_multipolygons(self, other, context=self._context) if isinstance(other, Multipolygon) else NotImplemented)))))
def test_commutativity(multipolygons_pair: MultipolygonsPair) -> None: left_multipolygon, right_multipolygon = multipolygons_pair result = unite_multipolygons(left_multipolygon, right_multipolygon) assert result == unite_multipolygons(right_multipolygon, left_multipolygon)
def test_idempotence(multipolygon: Multipolygon) -> None: result = unite_multipolygons(multipolygon, multipolygon) assert are_multipolygons_similar(result, multipolygon)
def test_basic(multipolygons_pair: MultipolygonsPair) -> None: left_multipolygon, right_multipolygon = multipolygons_pair result = unite_multipolygons(left_multipolygon, right_multipolygon) assert is_multipolygon(result)