示例#1
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 def test_exception(self):
     with self.assertRaises(Exception):
         find_inner_edges((0, 0), None, ((0, 0), ), 0, 1, 0)
     with self.assertRaises(Exception):
         find_inner_edges((0, 0), None, ((0, 0), (0, 0)), 0, 1, 0)
     with self.assertRaises(Exception):
         find_inner_edges((0, 0), None, ((0, 0), (1, 1), (2, 2)), 0, 1, 0)
示例#2
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 def test_point_6(self):
     edges = find_inner_edges(point6, None, polygon, 0, 1, 0)
     self.assertEqual({point[0]
                       for point in edges}, {(1, 1), (7, 1), (4, 2), (6, 2),
                                             (6, 4), (4, 3)})
示例#3
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 def test_point_4(self):
     edges = find_inner_edges(point4, 3, polygon, 0, 1, 0)
     self.assertEqual({point[0]
                       for point in edges}, {(4, 2), (6, 4), (4, 4),
                                             (4, 3)})
示例#4
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 def test_point_3(self):
     edges = find_inner_edges(point3, 5, polygon, 0, 1, 0)
     self.assertEqual({point[0]
                       for point in edges}, {(2, 5), (6, 4), (4, 4), (1, 3),
                                             (4, 3)})
示例#5
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 def test_point_2(self):
     edges = find_inner_edges(point2, 1, polygon, 0, 1, 0)
     self.assertEqual({point[0] for point in edges}, {(4, 2), (1, 1)})
    def incident_vertices(self, point_data, inside_percent=1):
        """
        Find all incident vertices in visibility graph for given point.

        :param PointData point_data: point on the map to find incident vertices from
        :param float inside_percent: (from 0 to 1) - controls the number of inner polygon edges
        :return: All visible points from given point on the map.
        :rtype: List[PointData]
        """
        if inside_percent < 0 or inside_percent > 1:
            raise ValueError("inside_percent should be from 1 to 0")

        point, obj_number, point_number, is_polygon = point_data[0:4]
        visible_vertices = SegmentVisibility()
        edges_inside = list()

        for i, polygon in enumerate(self.polygons):

            # if a point is not a part of an object
            if obj_number is None or point_number is None or is_polygon is None:
                if Polygon(polygon["geometry"][0]).contains(Point(point)):
                    return find_inner_edges(point, None, polygon["geometry"],
                                            i, inside_percent,
                                            polygon["tag"][0])
                else:
                    continue

            # if a point is a part of a current polygon
            if is_polygon and i == obj_number:

                edges_inside = find_inner_edges(point, point_number,
                                                polygon["geometry"], i,
                                                inside_percent,
                                                polygon["tag"][0])

                convex_hull_point_count = len(polygon["convex_hull"]) - 1
                if convex_hull_point_count <= 2:
                    continue

                # if a point is a part of convex hull
                if point_number in polygon["convex_hull_points"]:
                    position = polygon["convex_hull_points"].index(
                        point_number)
                    left = polygon["convex_hull_points"][
                        (position - 1) % convex_hull_point_count]
                    right = polygon["convex_hull_points"][
                        (position + 1) % convex_hull_point_count]
                    restriction_pair = (polygon["geometry"][0][left],
                                        polygon["geometry"][0][right])
                    visible_vertices.set_restriction_angle(
                        restriction_pair, point, True)

                # if a point is strictly inside a convex hull and a part of polygon
                else:
                    restriction_pair = find_restriction_pair(
                        point, polygon["geometry"][0], point_number)
                    if restriction_pair is None:
                        return edges_inside
                    visible_vertices.set_restriction_angle(
                        restriction_pair, point, False)

            # if a point not inside convex hull
            elif not localize_convex(point, polygon["convex_hull"],
                                     polygon["angles"])[0]:
                pair = find_supporting_pair(point, polygon["convex_hull"], i,
                                            polygon["angles"])
                visible_vertices.add_pair(pair)

            # if a point is inside convex hull but not a part of polygon
            else:
                line = find_supporting_line(point, polygon["geometry"][0], i)
                if line is None:
                    return list()
                visible_vertices.add_line(line)

        # loop over all linestrings
        for i, linestring in enumerate(self.multilinestrings["geometry"]):
            weight = self.multilinestrings["tag"][i][0]
            linestring_point_count = len(linestring)

            # if a point is a part of a current linestring
            if not is_polygon and i == obj_number:
                if point_number > 0:
                    previous = point_number - 1
                    edges_inside.append(
                        (linestring[previous], i, previous, False, weight))
                elif point_number + 1 < linestring_point_count:
                    following = point_number + 1
                    edges_inside.append(
                        (linestring[following], i, following, False, weight))

            else:
                # add whole linestring
                line = list()
                for j in range(linestring_point_count):
                    line.append((linestring[j], i, j, False, 0))
                visible_vertices.add_line(line)

        # building visibility graph of segments
        visible_edges = visible_vertices.get_edges_sweepline(point)
        visible_edges.extend(edges_inside)
        return visible_edges