import numpy as np import pytest import shapely from shapely import Geometry, GeometryCollection, Polygon from shapely.testing import assert_geometries_equal from shapely.tests.common import all_types, empty, ignore_invalid, point, polygon pytestmark = pytest.mark.filterwarnings( "ignore:The symmetric_difference_all function:DeprecationWarning" ) # fixed-precision operations raise GEOS exceptions on mixed dimension geometry # collections all_single_types = np.array(all_types)[ ~shapely.is_empty(all_types) & (shapely.get_type_id(all_types) != shapely.GeometryType.GEOMETRYCOLLECTION) ] SET_OPERATIONS = ( shapely.difference, shapely.intersection, shapely.symmetric_difference, shapely.union, # shapely.coverage_union is tested separately ) REDUCE_SET_OPERATIONS = ( (shapely.intersection_all, shapely.intersection), (shapely.symmetric_difference_all, shapely.symmetric_difference), (shapely.union_all, shapely.union), # shapely.coverage_union_all, shapely.coverage_union) is tested separately ) # operations that support fixed precision REDUCE_SET_OPERATIONS_PREC = ((shapely.union_all, shapely.union),) if shapely.geos_version >= (3, 12, 0): SET_OPERATIONS += (shapely.disjoint_subset_union,) REDUCE_SET_OPERATIONS += ( (shapely.disjoint_subset_union_all, shapely.disjoint_subset_union), ) reduce_test_data = [ shapely.box(0, 0, 5, 5), shapely.box(2, 2, 7, 7), shapely.box(4, 4, 9, 9), shapely.box(5, 5, 10, 10), ] non_polygon_types = np.array(all_types)[ ~shapely.is_empty(all_types) & (shapely.get_dimensions(all_types) != 2) ] @pytest.mark.parametrize("a", all_types) @pytest.mark.parametrize("func", SET_OPERATIONS) def test_set_operation_array(a, func): if ( func is shapely.difference and a.geom_type == "GeometryCollection" and shapely.get_num_geometries(a) == 2 and shapely.geos_version == (3, 9, 5) ): pytest.xfail("GEOS 3.9.5 crashes with mixed collection") actual = func(a, point) assert isinstance(actual, Geometry) actual = func([a, a], point) assert actual.shape == (2,) assert isinstance(actual[0], Geometry) @pytest.mark.parametrize("func", SET_OPERATIONS) def test_set_operation_prec_nonscalar_grid_size(func): if func is shapely.disjoint_subset_union: pytest.skip("disjoint_subset_union does not support grid_size") with pytest.raises( ValueError, match="grid_size parameter only accepts scalar values" ): func(point, point, grid_size=[1]) @pytest.mark.parametrize("a", all_single_types) @pytest.mark.parametrize("func", SET_OPERATIONS) @pytest.mark.parametrize("grid_size", [0, 1, 2]) def test_set_operation_prec_array(a, func, grid_size): if func is shapely.disjoint_subset_union: pytest.skip("disjoint_subset_union does not support grid_size") actual = func([a, a], point, grid_size=grid_size) assert actual.shape == (2,) assert isinstance(actual[0], Geometry) # results should match the operation when the precision is previously set # to same grid_size b = shapely.set_precision(a, grid_size=grid_size) point2 = shapely.set_precision(point, grid_size=grid_size) expected = func([b, b], point2) assert shapely.equals(shapely.normalize(actual), shapely.normalize(expected)).all() @pytest.mark.parametrize("n", range(1, 5)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_1dim(n, func, related_func): actual = func(reduce_test_data[:n]) # perform the reduction in a python loop and compare expected = reduce_test_data[0] for i in range(1, n): expected = related_func(expected, reduce_test_data[i]) assert shapely.equals(actual, expected) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_single_geom(func, related_func): geom = shapely.Point(1, 1) actual = func([geom, None, None]) assert shapely.equals(actual, geom) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_axis(func, related_func): data = [[point] * 2] * 3 # shape = (3, 2) actual = func(data, axis=None) # default assert isinstance(actual, Geometry) # scalar output actual = func(data, axis=0) assert actual.shape == (2,) actual = func(data, axis=1) assert actual.shape == (3,) actual = func(data, axis=-1) assert actual.shape == (3,) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_empty(func, related_func): assert func(np.empty((0,), dtype=object)) == empty arr_empty_2D = np.empty((0, 2), dtype=object) assert func(arr_empty_2D) == empty assert func(arr_empty_2D, axis=0).tolist() == [empty] * 2 assert func(arr_empty_2D, axis=1).tolist() == [] @pytest.mark.parametrize("none_position", range(3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_one_none(func, related_func, none_position): # API change: before, intersection_all and symmetric_difference_all returned # None if any input geometry was None. # The new behaviour is to ignore None values. test_data = reduce_test_data[:2] test_data.insert(none_position, None) actual = func(test_data) expected = related_func(reduce_test_data[0], reduce_test_data[1]) assert_geometries_equal(actual, expected) @pytest.mark.parametrize("none_position", range(3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_two_none(func, related_func, none_position): test_data = reduce_test_data[:2] test_data.insert(none_position, None) test_data.insert(none_position, None) actual = func(test_data) expected = related_func(reduce_test_data[0], reduce_test_data[1]) assert_geometries_equal(actual, expected) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_some_none_len2(func, related_func): # in a previous implementation, this would take a different code path # and return wrong result assert func([empty, None]) == empty @pytest.mark.parametrize("n", range(1, 3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_all_none(n, func, related_func): assert_geometries_equal(func([None] * n), GeometryCollection([])) @pytest.mark.parametrize("n", range(1, 3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS) def test_set_operation_reduce_all_none_arr(n, func, related_func): assert func([[None] * n] * 2, axis=1).tolist() == [empty, empty] assert func([[None] * 2] * n, axis=0).tolist() == [empty, empty] @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) def test_set_operation_prec_reduce_nonscalar_grid_size(func, related_func): with pytest.raises( ValueError, match="grid_size parameter only accepts scalar values" ): func([point, point], grid_size=[1]) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) def test_set_operation_prec_reduce_grid_size_nan(func, related_func): actual = func([point, point], grid_size=np.nan) assert actual is None @pytest.mark.parametrize("n", range(1, 5)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) @pytest.mark.parametrize("grid_size", [0, 1]) def test_set_operation_prec_reduce_1dim(n, func, related_func, grid_size): actual = func(reduce_test_data[:n], grid_size=grid_size) # perform the reduction in a python loop and compare expected = reduce_test_data[0] for i in range(1, n): expected = related_func(expected, reduce_test_data[i], grid_size=grid_size) assert shapely.equals(actual, expected) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) def test_set_operation_prec_reduce_axis(func, related_func): data = [[point] * 2] * 3 # shape = (3, 2) actual = func(data, grid_size=1, axis=None) # default assert isinstance(actual, Geometry) # scalar output actual = func(data, grid_size=1, axis=0) assert actual.shape == (2,) actual = func(data, grid_size=1, axis=1) assert actual.shape == (3,) actual = func(data, grid_size=1, axis=-1) assert actual.shape == (3,) @pytest.mark.parametrize("none_position", range(3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) def test_set_operation_prec_reduce_one_none(func, related_func, none_position): test_data = reduce_test_data[:2] test_data.insert(none_position, None) actual = func(test_data, grid_size=1) expected = related_func(reduce_test_data[0], reduce_test_data[1], grid_size=1) assert_geometries_equal(actual, expected) @pytest.mark.parametrize("none_position", range(3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) def test_set_operation_prec_reduce_two_none(func, related_func, none_position): test_data = reduce_test_data[:2] test_data.insert(none_position, None) test_data.insert(none_position, None) actual = func(test_data, grid_size=1) expected = related_func(reduce_test_data[0], reduce_test_data[1], grid_size=1) assert_geometries_equal(actual, expected) @pytest.mark.parametrize("n", range(1, 3)) @pytest.mark.parametrize("func, related_func", REDUCE_SET_OPERATIONS_PREC) def test_set_operation_prec_reduce_all_none(n, func, related_func): assert_geometries_equal(func([None] * n, grid_size=1), GeometryCollection([])) @pytest.mark.parametrize("n", range(1, 4)) def test_coverage_union_reduce_1dim(n): """ This is tested separately from other set operations as it expects only non-overlapping polygons """ test_data = [ shapely.box(0, 0, 1, 1), shapely.box(1, 0, 2, 1), shapely.box(2, 0, 3, 1), ] actual = shapely.coverage_union_all(test_data[:n]) # perform the reduction in a python loop and compare expected = test_data[0] for i in range(1, n): expected = shapely.coverage_union(expected, test_data[i]) assert_geometries_equal(actual, expected, normalize=True) def test_coverage_union_reduce_axis(): # shape = (3, 2), all polygons - none of them overlapping data = [[shapely.box(i, j, i + 1, j + 1) for i in range(2)] for j in range(3)] actual = shapely.coverage_union_all(data, axis=None) # default assert isinstance(actual, Geometry) actual = shapely.coverage_union_all(data, axis=0) assert actual.shape == (2,) actual = shapely.coverage_union_all(data, axis=1) assert actual.shape == (3,) actual = shapely.coverage_union_all(data, axis=-1) assert actual.shape == (3,) def test_coverage_union_overlapping_inputs(): polygon = Polygon([(1, 1), (1, 0), (0, 0), (0, 1), (1, 1)]) other = Polygon([(1, 0), (0.9, 1), (2, 1), (2, 0), (1, 0)]) if shapely.geos_version >= (3, 12, 0): # Return mostly unchanged output result = shapely.coverage_union(polygon, other) expected = shapely.multipolygons([polygon, other]) assert_geometries_equal(result, expected, normalize=True) else: # Overlapping polygons raise an error with pytest.raises( shapely.GEOSException, match="CoverageUnion cannot process incorrectly noded inputs.", ): shapely.coverage_union(polygon, other) @pytest.mark.parametrize( "geom_1, geom_2", # All possible polygon, non_polygon combinations [[polygon, non_polygon] for non_polygon in non_polygon_types] # All possible non_polygon, non_polygon combinations + [ [non_polygon_1, non_polygon_2] for non_polygon_1 in non_polygon_types for non_polygon_2 in non_polygon_types ], ) def test_coverage_union_non_polygon_inputs(geom_1, geom_2): if shapely.geos_version >= (3, 12, 0): def effective_geom_types(geom): if hasattr(geom, "geoms") and not geom.is_empty: gts = set() for part in geom.geoms: gts |= effective_geom_types(part) return gts return {geom.geom_type.lstrip("Multi").replace("LinearRing", "LineString")} geom_types_1 = effective_geom_types(geom_1) geom_types_2 = effective_geom_types(geom_2) if len(geom_types_1) == 1 and geom_types_1 == geom_types_2: with ignore_invalid(): # these show "invalid value encountered in coverage_union" result = shapely.coverage_union(geom_1, geom_2) assert geom_types_1 == effective_geom_types(result) else: with pytest.raises( shapely.GEOSException, match="Overlay input is mixed-dimension" ): shapely.coverage_union(geom_1, geom_2) else: # Non polygon geometries raise an error with pytest.raises( shapely.GEOSException, match="Unhandled geometry type in CoverageUnion." ): shapely.coverage_union(geom_1, geom_2) @pytest.mark.parametrize( "geom,grid_size,expected", [ # floating point precision, expect no change ( [shapely.box(0.1, 0.1, 5, 5), shapely.box(0, 0.2, 5.1, 10)], 0, Polygon( ( (0, 0.2), (0, 10), (5.1, 10), (5.1, 0.2), (5, 0.2), (5, 0.1), (0.1, 0.1), (0.1, 0.2), (0, 0.2), ) ), ), # grid_size is at effective precision, expect no change ( [shapely.box(0.1, 0.1, 5, 5), shapely.box(0, 0.2, 5.1, 10)], 0.1, Polygon( ( (0, 0.2), (0, 10), (5.1, 10), (5.1, 0.2), (5, 0.2), (5, 0.1), (0.1, 0.1), (0.1, 0.2), (0, 0.2), ) ), ), # grid_size forces rounding to nearest integer ( [shapely.box(0.1, 0.1, 5, 5), shapely.box(0, 0.2, 5.1, 10)], 1, Polygon([(0, 5), (0, 10), (5, 10), (5, 5), (5, 0), (0, 0), (0, 5)]), ), # grid_size much larger than effective precision causes rounding to nearest # multiple of 10 ( [shapely.box(0.1, 0.1, 5, 5), shapely.box(0, 0.2, 5.1, 10)], 10, Polygon([(0, 10), (10, 10), (10, 0), (0, 0), (0, 10)]), ), # grid_size is so large that polygons collapse to empty ( [shapely.box(0.1, 0.1, 5, 5), shapely.box(0, 0.2, 5.1, 10)], 100, Polygon(), ), ], ) def test_union_all_prec(geom, grid_size, expected): actual = shapely.union_all(geom, grid_size=grid_size) assert shapely.equals(actual, expected) def test_uary_union_alias(): geoms = [shapely.box(0.1, 0.1, 5, 5), shapely.box(0, 0.2, 5.1, 10)] actual = shapely.unary_union(geoms, grid_size=1) expected = shapely.union_all(geoms, grid_size=1) assert shapely.equals(actual, expected) def test_difference_deprecate_positional(): with pytest.deprecated_call( match="positional argument `grid_size` for `difference` is deprecated" ): shapely.difference(point, point, None) def test_intersection_deprecate_positional(): with pytest.deprecated_call( match="positional argument `grid_size` for `intersection` is deprecated" ): shapely.intersection(point, point, None) def test_intersection_all_deprecate_positional(): with pytest.deprecated_call( match="positional argument `axis` for `intersection_all` is deprecated" ): shapely.intersection_all([point, point], None) def test_symmetric_difference_deprecate_positional(): with pytest.deprecated_call( match="positional argument `grid_size` for `symmetric_difference` is deprecated" ): shapely.symmetric_difference(point, point, None) def test_symmetric_difference_all_deprecate_positional(): with pytest.deprecated_call( match="positional argument `axis` for `symmetric_difference_all` is deprecated" ): shapely.symmetric_difference_all([point, point], None) def test_union_deprecate_positional(): with pytest.deprecated_call( match="positional argument `grid_size` for `union` is deprecated" ): shapely.union(point, point, None) def test_union_all_deprecate_positional(): with pytest.deprecated_call( match="positional argument `grid_size` for `union_all` is deprecated" ): shapely.union_all([point, point], None) with pytest.deprecated_call( match="positional arguments `grid_size` and `axis` for `union_all` " "are deprecated" ): shapely.union_all([point, point], None, None) def test_coverage_union_all_deprecate_positional(): data = [shapely.box(0, 0, 1, 1), shapely.box(1, 0, 2, 1)] with pytest.deprecated_call( match="positional argument `axis` for `coverage_union_all` is deprecated" ): shapely.coverage_union_all(data, None)