def test_non_valid_holes_sizes(coordinates: Strategy[Scalar], non_valid_sizes_pair: SizesPair) -> None: min_size, max_size = non_valid_sizes_pair with pytest.warns(HypothesisWarning) as warnings: polygons(coordinates, min_hole_size=min_size, max_hole_size=max_size) assert len(warnings) == 1
def test_invalid_holes_sizes(coordinates: Strategy[Scalar], invalid_sizes_pair: SizesPair) -> None: min_hole_size, max_hole_size = invalid_sizes_pair with pytest.raises(ValueError): polygons(coordinates, min_hole_size=min_hole_size, max_hole_size=max_hole_size)
def coordinates_to_polygons( coordinates: st.SearchStrategy[Real]) -> st.SearchStrategy[Polygon]: return st.builds( Polygon.from_raw, planar.polygons(coordinates, min_size=MIN_CONTOUR_SIZE, max_size=MAX_CONTOUR_SIZE, min_holes_size=MIN_HOLES_SIZE, max_holes_size=MAX_HOLES_SIZE))
def test_basic(coordinates: Strategy[Scalar], sizes_pair: SizesPair, holes_sizes_pair: SizesPair, hole_sizes_pair: SizesPair) -> None: min_size, max_size = sizes_pair min_holes_size, max_holes_size = holes_sizes_pair min_hole_size, max_hole_size = hole_sizes_pair result = polygons(coordinates, min_size=min_size, max_size=max_size, min_holes_size=min_holes_size, max_holes_size=max_holes_size, min_hole_size=min_hole_size, max_hole_size=max_hole_size) assert isinstance(result, Strategy)
def test_properties(data: DataObject, coordinates_limits_type_pair: Tuple[ScalarsLimitsType, ScalarsLimitsType], sizes_pair: SizesPair, holes_sizes_pair: SizesPair, hole_sizes_pair: SizesPair) -> None: (x_coordinates_limits_type, y_coordinates_limits_type) = coordinates_limits_type_pair ((x_coordinates, (min_x_value, max_x_value)), x_type) = x_coordinates_limits_type ((y_coordinates, (min_y_value, max_y_value)), y_type) = y_coordinates_limits_type min_size, max_size = sizes_pair min_holes_size, max_holes_size = holes_sizes_pair min_hole_size, max_hole_size = hole_sizes_pair strategy = polygons(x_coordinates, y_coordinates, min_size=min_size, max_size=max_size, min_holes_size=min_holes_size, max_holes_size=max_holes_size, min_hole_size=min_hole_size, max_hole_size=max_hole_size) result = data.draw(strategy) assert is_polygon(result) assert polygon_has_valid_sizes(result, min_size=min_size, max_size=max_size, min_holes_size=min_holes_size, max_holes_size=max_holes_size, min_hole_size=min_hole_size, max_hole_size=max_hole_size) assert polygon_has_coordinates_types(result, x_type=x_type, y_type=y_type) assert polygon_has_coordinates_in_range(result, min_x_value=min_x_value, max_x_value=max_x_value, min_y_value=min_y_value, max_y_value=max_y_value) assert is_polygon_strict(result) assert is_contour_non_self_intersecting(result.border) assert all(is_contour_non_self_intersecting(hole) for hole in result.holes) assert contours_do_not_cross_or_overlap(result.holes) assert is_contour_counterclockwise(result.border) assert all(not is_contour_counterclockwise(hole) for hole in result.holes)
from hypothesis import strategies from hypothesis_geometry import planar from tests.binding_tests.utils import (bound_fill_kinds, bound_polygon_kinds) from tests.integration_tests.utils import ( to_bound_with_ported_linear_rings_pair, to_bound_with_ported_multipolygons_pair, to_bound_with_ported_points_lists_pair, to_bound_with_ported_polygons_pair, to_bound_with_ported_wagyus_pair) from tests.port_tests.utils import (ported_fill_kinds, ported_polygon_kinds) from tests.strategies import coordinates booleans = strategies.booleans() wagyus_pairs = strategies.builds(to_bound_with_ported_wagyus_pair, booleans) linear_rings_points_pairs = ( planar.contours(coordinates).map(to_bound_with_ported_points_lists_pair)) linear_rings_pairs = ( linear_rings_points_pairs.map(to_bound_with_ported_linear_rings_pair)) polygons_pairs = ( planar.polygons(coordinates).map(to_bound_with_ported_polygons_pair)) polygon_kinds_pairs = strategies.sampled_from( list(zip(bound_polygon_kinds, ported_polygon_kinds))) multipolygons_pairs = (planar.multipolygons(coordinates).map( to_bound_with_ported_multipolygons_pair)) fill_kinds_pairs = strategies.sampled_from( list(zip(bound_fill_kinds, ported_fill_kinds)))
from tests.port_tests.utils import (ported_polygon_kinds, to_ported_linear_rings_points, to_ported_polygon_linear_rings) from tests.strategies import coordinates from tests.utils import Strategy from wagyu.enums import PolygonKind from wagyu.linear_ring import LinearRing from wagyu.local_minimum import LocalMinimumList linear_rings_points = ( planar.contours(coordinates).map(to_ported_linear_rings_points)) linear_rings = strategies.builds(LinearRing, linear_rings_points) polygon_kinds = strategies.sampled_from(ported_polygon_kinds) linear_rings_lists = ( planar.polygons(coordinates).map(to_ported_polygon_linear_rings)) empty_local_minimum_lists = strategies.builds(LocalMinimumList) def to_local_minimum_list( linear_rings_with_polygon_kinds: List[Tuple[LinearRing, PolygonKind]] ) -> LocalMinimumList: result = LocalMinimumList() for linear_ring, polygon_kind in linear_rings_with_polygon_kinds: result.add_linear_ring(linear_ring, polygon_kind) return result def to_linear_rings_with_polygon_kinds( linear_rings: List[LinearRing] ) -> Strategy[List[Tuple[LinearRing, PolygonKind]]]:
def coordinates_to_polygons_with_multisegments( coordinates: Strategy[Scalar]) -> Strategy[PolygonWithMultisegment]: return strategies.tuples(planar.polygons(coordinates), planar.multisegments(coordinates))
MIN_COORDINATE, MIN_HOLES_SIZE) from pode.utils import joined_constrained_delaunay_triangles T = TypeVar('T') TRIANGULAR_CONTOUR_SIZE = 3 RECTANGLE_CONTOUR_SIZE = 4 MIN_PARTITION_SIZE = 1 nonnegative_integers = st.integers(min_value=0) fractions = st.fractions(MIN_COORDINATE, MAX_COORDINATE) raw_fraction_contours = planar.contours(fractions) fractions_contours = st.builds(Contour.from_raw, raw_fraction_contours) fraction_triangles = st.builds( Polygon.from_raw, planar.polygons(fractions, max_size=TRIANGULAR_CONTOUR_SIZE)) convex_divisors = st.sampled_from( [constrained_delaunay_triangles, joined_constrained_delaunay_triangles]) coordinates_strategies_factories = { int: st.integers, Fraction: st.fractions, float: st.floats } coordinates_strategies = st.sampled_from([ factory(MIN_COORDINATE, MAX_COORDINATE) for factory in coordinates_strategies_factories.values() ]) def coordinates_to_polygons(
def to_polygons_with_points( coordinates: Strategy[Scalar]) -> Strategy[Tuple[Polygon, Point]]: return strategies.tuples(planar.polygons(coordinates), planar.points(coordinates))
def to_polygons_with_points( coordinates: Strategy[Coordinate]) -> Strategy[Tuple[Contour, Point]]: return strategies.tuples(planar.polygons(coordinates), planar.points(coordinates))