private List <Vector3> CreateRoad(Bounds bounds, int pointCount, Vector2[] clipPolygon)
        {
            // get offset, eg when biome mask is used for clipping
            float xmin = bounds.center.x - bounds.extents.x;
            float zmin = bounds.center.z - bounds.extents.z;

            // get 0/0-based bounds for graph processing
            Bounds graphBounds = new Bounds(bounds.size / 2, bounds.size);

            DelaunayVoronoiGraph graph = new DelaunayVoronoiGraph();

            // algorithm is 0-based
            graph.GeneratePoints(0, bounds.size.x, bounds.size.z); // initialize with the dimensions which are used in the algorithm

            // add random points
            for (int i = 0; i < pointCount; i++)
            {
                // get random point starting at [0/0]
                Vector2 vector = PolygonUtils.GetRandomPointXZ(graphBounds);

                graph.AddPoint(vector.x, vector.y);
            }

            // create the graph using the points
            graph.CreateGraph();

            int cellIndex = Random.Range(0, pointCount - 1);

            // normalize clip polygon, shift to [0/0]
            Vector2[] offsetClipPolygon = clipPolygon.Select(item => new Vector2(item.x - xmin, item.y - zmin)).ToArray();

            // get cell, clip it at the clip polygon
            Cell cell = graph.GetVoronoiCell(cellIndex, offsetClipPolygon);

            if (cell == null)
            {
                return(null);
            }

            // consider biome mask shift: shift points away from 0/0 if necessary
            Vector3 position = new Vector3(cell.Centroid.x + xmin, 0, cell.Centroid.y + zmin); // TODO: recalculate, might have changed because of clipping

            // consider biome mask shift: shift points away from 0/0 if necessary
            List <Vector3> nodes = cell.Vertices.Select(item => new Vector3(item.x + xmin, 0, item.y + zmin)).ToList();

            // apply random shape if requested
            if (editor.extension.shapeSettings.randomShape)
            {
                nodes = ShapeCreator.CreateRandomShape(nodes,                                             //
                                                       editor.extension.shapeSettings.RandomConvexity,    //
                                                       editor.extension.shapeSettings.keepOriginalPoints, //
                                                       editor.extension.shapeSettings.RandomPointsCount,  //
                                                       editor.extension.shapeSettings.randomAngle,        //
                                                       editor.extension.shapeSettings.douglasPeuckerReductionTolerance);
            }

            return(nodes);
        }
Пример #2
0
        public void CreateGraph(int amount, double maxX, double maxY)
        {
            graph.GeneratePoints(amount, maxX, maxY);

            CreateGraph();
        }