public void AddVertices(Vertex position, params VertexKeyPair[] vertexPairs) { int pi = mesh.AddPosition(position); foreach (VertexKeyPair p in vertexPairs) { Vertex v = p.vertex; v.posIndex = pi; int vi = mesh.AddVertex(v); vertexIndices[p.key] = vi; } }
public static MeshX Subdivide(MeshX mesh) { if (!mesh.helpersInited) { mesh.InitHelpers(); } MeshX newMesh = new MeshX { name = mesh.name + "/s", content = mesh.content, }; newMesh.StartBuilding(); MeshVertices newVertices = new MeshVertices { mesh = newMesh }; Dictionary <System.UInt32, Vertex> edgeMidPositions = new Dictionary <System.UInt32, Vertex>(); for (int pi = 0; pi < mesh.positions.Count; ++pi) { newMesh.AddPosition(default(Vertex)); } for (int vi = 0; vi < mesh.vertexCount; ++vi) { Vertex v = mesh.GetVertex(vi); newMesh.AddVertex(v); } //face points foreach (Face f in mesh.IterAllFaces()) { Vertex[] vs = mesh.GetVertices(mesh.GetFaceVertexIndices(f)); Vertex v = mesh.Average(vs); System.UInt32 keyF = GetFacePointKey(f); newVertices.AddVertices(v, Pair(v, keyF)); } //edge points foreach (Edge e in mesh.IterAllEdges()) { Edge n = mesh.GetNeighbor(e); Vertex midE = mesh.Average( mesh.GetVertices(mesh.GetEdgeVertexIndices(e)) ); System.UInt32 keyE = GetEdgePointKey(e); edgeMidPositions[keyE] = midE; Vertex v = mesh.Average( new[] { midE, newVertices.GetVertex(GetFacePointKey(e.face)), newVertices.GetVertex(GetFacePointKey(n.face)), }, weights: new[] { 2f, 1f, 1f } ); newVertices.AddVertices(v, Pair(v, keyE)); } // move control-points for (int pi = 0; pi < mesh.positions.Count; ++pi) { var edges = new List <Edge>(); var front = new List <Edge>(); foreach (int vi in mesh.positionVertices[pi]) { foreach (Edge e in mesh.vertexEdges[vi]) { edges.Add(e); foreach (Edge edge in new[] { e, mesh.GetNextInFace(e, -1) }) { EdgeType type = mesh.GetEdgeType(edge); if (type != EdgeType.back) { front.Add(edge); } } } } Vertex controlPoint; Vertex[] ms = new Vertex[front.Count]; for (int e = 0; e < front.Count; ++e) { ms[e] = edgeMidPositions[GetEdgePointKey(front[e])]; } Vertex edgeMidAverage = mesh.Average(ms, maskPosition); Vertex[] fs = new Vertex[edges.Count]; for (int e = 0; e < edges.Count; ++e) { fs[e] = newVertices.GetVertex(GetFacePointKey(edges[e].face), maskPosition); } Vertex faceAverage = mesh.Average(fs, maskPosition); controlPoint = mesh.Average( new[] { faceAverage, edgeMidAverage, mesh.GetPosition(pi) }, maskPosition, new[] { 1f, 2f, edges.Count - 3f } ); newMesh.SetPosition(pi, controlPoint); } //face creation newMesh.submeshes = new Submesh[mesh.submeshes.Length]; for (int si = 0; si < mesh.submeshes.Length; ++si) { int[][] faces = mesh.submeshes[si].faces; int faceCount = 0; foreach (int[] face in faces) { faceCount += face.Length; } newMesh.submeshes[si].faces = new int[faceCount][]; int faceIndex = 0; for (int fi = 0; fi < faces.Length; ++fi) { int[] fis = faces[fi]; int edgeCount = fis.Length; Face f = new Face { submesh = si, index = fi }; int ci = newVertices.vertexIndices[GetFacePointKey(f)]; int[] eis = new int[edgeCount]; for (int i = 0; i < edgeCount; ++i) { Edge e = new Edge { face = f, index = i }; eis[i] = newVertices.vertexIndices[GetEdgePointKey(e)]; } for (int i = 0; i < edgeCount; ++i) { int[] q = new int[4]; int s = edgeCount == 4 ? i : 0; q[(0 + s) % 4] = fis[i]; q[(1 + s) % 4] = eis[i]; q[(2 + s) % 4] = ci; q[(3 + s) % 4] = eis[(i - 1 + edgeCount) % edgeCount]; newMesh.submeshes[si].faces[faceIndex++] = q; } } } return(newMesh); }