Ejemplo n.º 1
0
 protected void AddUniqueEdge(Point point0, Point point1, out Edge uniqueEdge)
 {
     // Is there already an edge between these points?
     foreach (Edge edge in edges)
     {
         if ((edge.point0 == point0 && edge.point1 == point1) ||
             (edge.point0 == point1 && edge.point1 == point0))
         {
             uniqueEdge = edge;
             
             return;
         }
     }
     
     // No existing edge was found, create a new one
     uniqueEdge = new Edge(point0, point1);
     
     edges.Add(uniqueEdge);
 }
Ejemplo n.º 2
0
 protected void FillCutEdges(LegacyHull a, LegacyHull b, IList<Edge> edgesA, IList<Edge> edgesB, Vector3 planeNormal, UvMapper uvMapper)
 {
     // Create outline data
     int outlineEdgeCount = edgesA.Count;
     
     Vector3[] outlinePoints = new Vector3[outlineEdgeCount];
     int[] outlineEdges = new int[outlineEdgeCount * 2];
     
     int startIndex = 0;
     
     for (int i = 0; i < outlineEdgeCount; i++)
     {
         int currentIndex = i;
         int nextIndex = (i + 1) % outlineEdgeCount;
         
         Edge current = edgesA[currentIndex];
         Edge next = edgesA[nextIndex];
         
         // Set point
         outlinePoints[i] = current.point0.position;
         
         // Set edge
         outlineEdges[i * 2 + 0] = currentIndex;
         
         if (current.point1 == next.point0)
         {
             outlineEdges[i * 2 + 1] = nextIndex;
         }
         else
         {
             outlineEdges[i * 2 + 1] = startIndex;
             
             startIndex = nextIndex;
         }
     }
     
     // Triangulate
     int[] newEdges, newTriangles, newTriangleEdges;
     
     ITriangulator triangulator = new Triangulator(outlinePoints, outlineEdges, planeNormal);
     
     triangulator.Fill(out newEdges, out newTriangles, out newTriangleEdges);
     
     // Calculate vertex properties
     Vector3 normalA = -planeNormal;
     Vector3 normalB = planeNormal;
     Vector4[] tangentsA, tangentsB;
     Vector2[] uvsA, uvsB;
     
     uvMapper.Map(outlinePoints, planeNormal, out tangentsA, out tangentsB, out uvsA, out uvsB);
     
     // Create new vertices
     int[] verticesA = new int[outlineEdgeCount];
     int[] verticesB = new int[outlineEdgeCount];
     
     for (int i = 0; i < outlineEdgeCount; i++)
     {
         a.AddVertex(outlinePoints[i], normalA, tangentsA[i], uvsA[i], edgesA[i].point0, out verticesA[i]);
         
         b.AddVertex(outlinePoints[i], normalB, tangentsB[i], uvsB[i], edgesB[i].point0, out verticesB[i]);
     }
     
     // Create new edges
     for (int i = 0; i < newEdges.Length / 2; i++)
     {
         int point0 = newEdges[i * 2 + 0];
         int point1 = newEdges[i * 2 + 1];
         
         Edge edgeA = new Edge(edgesA[point0].point0, edgesA[point1].point0);
         Edge edgeB = new Edge(edgesB[point0].point0, edgesB[point1].point0);
         
         edgesA.Add(edgeA);
         edgesB.Add(edgeB);
         
         a.edges.Add(edgeA);
         b.edges.Add(edgeB);
     }
     
     // Create new triangles
     for (int i = 0; i < newTriangles.Length / 3; i++)
     {
         int point0 = newTriangles[i * 3 + 0];
         int point1 = newTriangles[i * 3 + 1];
         int point2 = newTriangles[i * 3 + 2];
         
         int edge0 = newTriangleEdges[i * 3 + 0];
         int edge1 = newTriangleEdges[i * 3 + 1];
         int edge2 = newTriangleEdges[i * 3 + 2];
         
         Triangle triangleA = new Triangle(verticesA[point0], verticesA[point2], verticesA[point1], edgesA[point0].point0, edgesA[point2].point0, edgesA[point1].point0, edgesA[edge2], edgesA[edge1], edgesA[edge0]);
         Triangle triangleB = new Triangle(verticesB[point0], verticesB[point1], verticesB[point2], edgesB[point0].point0, edgesB[point1].point0, edgesB[point2].point0, edgesB[edge0], edgesB[edge1], edgesB[edge2]);
         
         a.triangles.Add(triangleA);
         b.triangles.Add(triangleB);
     }
 }
Ejemplo n.º 3
0
 protected void AssignTriangles(LegacyHull a, LegacyHull b, bool[] pointAbovePlane, bool[] edgeIntersectsPlane, EdgeHit[] edgeHits, int[] oldToNewVertex, out IList<Edge> cutEdgesA, out IList<Edge> cutEdgesB)
 {
     cutEdgesA = new List<Edge>();
     cutEdgesB = new List<Edge>();
     
     foreach (Triangle triangle in triangles)
     {
         bool abovePlane0 = pointAbovePlane[triangle.point0.index];
         bool abovePlane1 = pointAbovePlane[triangle.point1.index];
         bool abovePlane2 = pointAbovePlane[triangle.point2.index];
         
         if (abovePlane0 && abovePlane1 && abovePlane2)
         {
             // Assign this triangle to hull A
             triangle.vertex0 = oldToNewVertex[triangle.vertex0];
             triangle.vertex1 = oldToNewVertex[triangle.vertex1];
             triangle.vertex2 = oldToNewVertex[triangle.vertex2];
             
             a.triangles.Add(triangle);
         }
         else if (!abovePlane0 && !abovePlane1 && !abovePlane2)
         {
             // Assign this triangle to hull B
             triangle.vertex0 = oldToNewVertex[triangle.vertex0];
             triangle.vertex1 = oldToNewVertex[triangle.vertex1];
             triangle.vertex2 = oldToNewVertex[triangle.vertex2];
             
             b.triangles.Add(triangle);
         }
         else
         {
             // Split triangle
             Point topPoint;
             Edge edge0, edge1, edge2;
             int vertex0, vertex1, vertex2;
             
             if (edgeIntersectsPlane[triangle.edge0.index] && edgeIntersectsPlane[triangle.edge1.index])
             {
                 topPoint = triangle.point1;
                 edge0 = triangle.edge0;
                 edge1 = triangle.edge1;
                 edge2 = triangle.edge2;
                 vertex0 = triangle.vertex0;
                 vertex1 = triangle.vertex1;
                 vertex2 = triangle.vertex2;
             }
             else if (edgeIntersectsPlane[triangle.edge1.index] && edgeIntersectsPlane[triangle.edge2.index])
             {
                 topPoint = triangle.point2;
                 edge0 = triangle.edge1;
                 edge1 = triangle.edge2;
                 edge2 = triangle.edge0;
                 vertex0 = triangle.vertex1;
                 vertex1 = triangle.vertex2;
                 vertex2 = triangle.vertex0;
             }
             else
             {
                 topPoint = triangle.point0;
                 edge0 = triangle.edge2;
                 edge1 = triangle.edge0;
                 edge2 = triangle.edge1;
                 vertex0 = triangle.vertex2;
                 vertex1 = triangle.vertex0;
                 vertex2 = triangle.vertex1;
             }
             
             EdgeHit edgeHit0 = edgeHits[edge0.index];
             EdgeHit edgeHit1 = edgeHits[edge1.index];
             
             // Convert edge hit scalars to the triangle winding order
             float scalar0 = topPoint == edge0.point1 ? edgeHit0.scalar : 1.0f - edgeHit0.scalar;
             float scalar1 = topPoint == edge1.point0 ? edgeHit1.scalar : 1.0f - edgeHit1.scalar;
             
             Edge cutEdgeA, cutEdgeB;
             
             if (pointAbovePlane[topPoint.index])
             {
                 // Assign top triangle to hull A, bottom triangle to hull B
                 cutEdgeA = new Edge(edgeHit1.splitA.point0, edgeHit0.splitA.point0);
                 cutEdgeB = new Edge(edgeHit1.splitB.point0, edgeHit0.splitB.point0);
                 
                 a.edges.Add(cutEdgeA);
                 b.edges.Add(cutEdgeB);
                 
                 SplitTriangle(a, b, edgeHit0.splitA, edgeHit1.splitA, cutEdgeA, edgeHit0.splitB, edgeHit1.splitB, cutEdgeB, edge2, vertex0, vertex1, vertex2, scalar0, scalar1, oldToNewVertex);
             }
             else
             {
                 // Assign top triangle to hull B, bottom triangle to hull A
                 cutEdgeA = new Edge(edgeHit0.splitA.point0, edgeHit1.splitA.point0);
                 cutEdgeB = new Edge(edgeHit0.splitB.point0, edgeHit1.splitB.point0);
                 
                 a.edges.Add(cutEdgeA);
                 b.edges.Add(cutEdgeB);
                 
                 SplitTriangle(b, a, edgeHit0.splitB, edgeHit1.splitB, cutEdgeB, edgeHit0.splitA, edgeHit1.splitA, cutEdgeA, edge2, vertex0, vertex1, vertex2, scalar0, scalar1, oldToNewVertex);
             }
             
             cutEdgesA.Add(cutEdgeA);
             cutEdgesB.Add(cutEdgeB);
         }
     }
 }
Ejemplo n.º 4
0
 protected void SplitTriangle(LegacyHull topHull, LegacyHull bottomHull, Edge topEdge0, Edge topEdge1, Edge topCutEdge, Edge bottomEdge0, Edge bottomEdge1, Edge bottomCutEdge, Edge bottomEdge2, int vertex0, int vertex1, int vertex2, float scalar0, float scalar1, int[] oldToNewVertex)
 {
     Vector3 n0 = normals[vertex0];
     Vector3 n1 = normals[vertex1];
     Vector3 n2 = normals[vertex2];
     
     Vector4 t0 = tangents[vertex0];
     Vector4 t1 = tangents[vertex1];
     Vector4 t2 = tangents[vertex2];
     
     Vector2 uv0 = uvs[vertex0];
     Vector2 uv1 = uvs[vertex1];
     Vector2 uv2 = uvs[vertex2];
     
     // Calculate the cut vertex data by interpolating original triangle values
     Vector3 cutNormal0 = new Vector3();
     
     cutNormal0.x = n0.x + (n1.x - n0.x) * scalar0;
     cutNormal0.y = n0.y + (n1.y - n0.y) * scalar0;
     cutNormal0.z = n0.z + (n1.z - n0.z) * scalar0;
     
     cutNormal0.Normalize();
     
     Vector3 cutNormal1 = new Vector3();
     
     cutNormal1.x = n1.x + (n2.x - n1.x) * scalar1;
     cutNormal1.y = n1.y + (n2.y - n1.y) * scalar1;
     cutNormal1.z = n1.z + (n2.z - n1.z) * scalar1;
     
     cutNormal1.Normalize();
     
     Vector4 cutTangent0 = new Vector4();
     
     cutTangent0.x = t0.x + (t1.x - t0.x) * scalar0;
     cutTangent0.y = t0.y + (t1.y - t0.y) * scalar0;
     cutTangent0.z = t0.z + (t1.z - t0.z) * scalar0;
     
     cutTangent0.Normalize();
     cutTangent0.w = t0.w;
     
     Vector4 cutTangent1 = new Vector4();
     
     cutTangent1.x = t1.x + (t2.x - t1.x) * scalar1;
     cutTangent1.y = t1.y + (t2.y - t1.y) * scalar1;
     cutTangent1.z = t1.z + (t2.z - t1.z) * scalar1;
     
     cutTangent1.Normalize();
     cutTangent1.w = t1.w;
     
     Vector2 cutUv0 = new Vector2();
     
     cutUv0.x = uv0.x + (uv1.x - uv0.x) * scalar0;
     cutUv0.y = uv0.y + (uv1.y - uv0.y) * scalar0;
     
     Vector2 cutUv1 = new Vector2();
     
     cutUv1.x = uv1.x + (uv2.x - uv1.x) * scalar1;
     cutUv1.y = uv1.y + (uv2.y - uv1.y) * scalar1;
     
     // Add the cut vertices to the hulls
     int topCutVertex0, topCutVertex1;
     
     topHull.AddVertex(topEdge0.point0.position, cutNormal0, cutTangent0, cutUv0, topEdge0.point0, out topCutVertex0);
     
     topHull.AddVertex(topEdge1.point0.position, cutNormal1, cutTangent1, cutUv1, topEdge1.point0, out topCutVertex1);
     
     int bottomCutVertex0, bottomCutVertex1;
     
     bottomHull.AddVertex(bottomEdge0.point0.position, cutNormal0, cutTangent0, cutUv0, bottomEdge0.point0, out bottomCutVertex0);
     
     bottomHull.AddVertex(bottomEdge1.point0.position, cutNormal1, cutTangent1, cutUv1, bottomEdge1.point0, out bottomCutVertex1);
     
     // Create the top of the original triangle
     Triangle topTriangle = new Triangle(topCutVertex0, oldToNewVertex[vertex1], topCutVertex1, topEdge0.point0, topEdge0.point1, topEdge1.point0, topEdge0, topEdge1, topCutEdge);
     
     topHull.triangles.Add(topTriangle);
     
     // Create the bottom of the original triangle
     Edge bottomCrossEdge = new Edge(bottomEdge0.point1, bottomEdge1.point0);
     
     Triangle bottomTriangle0 = new Triangle(oldToNewVertex[vertex0], bottomCutVertex0, bottomCutVertex1, bottomEdge0.point1, bottomEdge0.point0, bottomEdge1.point0, bottomEdge0, bottomCutEdge, bottomCrossEdge);
     Triangle bottomTriangle1 = new Triangle(oldToNewVertex[vertex0], bottomCutVertex1, oldToNewVertex[vertex2], bottomEdge0.point1, bottomEdge1.point0, bottomEdge1.point1, bottomCrossEdge, bottomEdge1, bottomEdge2);
     
     bottomHull.edges.Add(bottomCrossEdge);
     bottomHull.triangles.Add(bottomTriangle0);
     bottomHull.triangles.Add(bottomTriangle1);
 }
Ejemplo n.º 5
0
 protected void AssignEdges(LegacyHull a, LegacyHull b, bool[] pointAbovePlane, Vector3 pointOnPlane, Vector3 planeNormal, out bool[] edgeIntersectsPlane, out EdgeHit[] edgeHits)
 {
     edgeIntersectsPlane = new bool[edges.Count];
     edgeHits = new EdgeHit[edges.Count];
     
     foreach (Edge edge in edges)
     {
         bool abovePlane0 = pointAbovePlane[edge.point0.index];
         bool abovePlane1 = pointAbovePlane[edge.point1.index];
         
         if (abovePlane0 && abovePlane1)
         {
             // Assign this edge to hull A
             a.edges.Add(edge);
         }
         else if (!abovePlane0 && !abovePlane1)
         {
             // Assign this edge to hull B
             b.edges.Add(edge);
         }
         else
         {
             // Split edge
             float denominator = Vector3.Dot(edge.line, planeNormal);
             float scalar = Mathf.Clamp01(Vector3.Dot(pointOnPlane - edge.point0.position, planeNormal) / denominator);
             
             Vector3 intersection = edge.point0.position + edge.line * scalar;
             
             // Create new points
             Point pointA = new Point(intersection);
             Point pointB = new Point(intersection);
             
             a.points.Add(pointA);
             b.points.Add(pointB);
             
             // Create new edges
             Edge splitA, splitB;
             
             if (pointAbovePlane[edge.point0.index])
             {
                 splitA = new Edge(pointA, edge.point0);
                 splitB = new Edge(pointB, edge.point1);
             }
             else
             {
                 splitA = new Edge(pointA, edge.point1);
                 splitB = new Edge(pointB, edge.point0);
             }
             
             a.edges.Add(splitA);
             b.edges.Add(splitB);
             
             // Set flags
             edgeIntersectsPlane[edge.index] = true;
             
             edgeHits[edge.index] = new EdgeHit();
             edgeHits[edge.index].scalar = scalar;
             edgeHits[edge.index].splitA = splitA;
             edgeHits[edge.index].splitB = splitB;
         }
     }
 }