// Token: 0x0600429B RID: 17051 RVA: 0x00152BC8 File Offset: 0x00150FC8 private static void CollapsePolygons(List <Polygon> polygon) { if (polygon.Count > 0) { bool flag = true; while (flag) { flag = false; for (int i = 0; i < polygon.Count; i++) { if (flag) { break; } for (int j = 0; j < polygon.Count; j++) { if (flag) { break; } if (i != j) { Polygon polygon2 = polygon[i]; Polygon polygon3 = polygon[j]; if (polygon2.IsPolygonInside(polygon3)) { polygon2.AddHole(polygon3); polygon.Remove(polygon3); flag = true; } if (polygon3.IsPolygonInside(polygon2)) { polygon3.AddHole(polygon2); polygon.Remove(polygon2); flag = true; } } } } } } }
private void Triangulate(List <Dictionary <int, int> > contours, Utils.Plane plane, List <Vector3>[] vertices, List <Vector3>[] normals, List <Vector2>[] uvs, List <int>[] triangles, bool uvCutMesh) { if (contours.Count == 0 || contours[0].Count < 3) { return; } // prepare plane matrix var m = plane.GetPlaneMatrix(); var mInv = m.inverse; var zShit = 0.0f; var polygons = new List <Polygon>(contours.Count); // construct polygons from contours Polygon highAreaPoly = null; foreach (var ctr in contours) { var polygonPoints = new Vector2[ctr.Count]; var j = 0; foreach (var i in ctr.Values) { var p = mInv * vertices[0][i]; polygonPoints[j++] = p; // save z-coordinate zShit = p.z; } var polygon = new Polygon(polygonPoints); polygons.Add(polygon); if (highAreaPoly == null || highAreaPoly.Area < polygon.Area) { highAreaPoly = polygon; } } MeshUtils.Assert(polygons.Count > 0, "Zero polygons!"); // test for holes if (polygons.Count > 0) { var polyToRemove = new List <Polygon>(); foreach (var polygon in polygons) { if (polygon != highAreaPoly) { if (highAreaPoly.IsPointInside(polygon.Points[0])) { highAreaPoly.AddHole(polygon); polyToRemove.Add(polygon); } } } foreach (var polygon in polyToRemove) { polygons.Remove(polygon); } } var vertCounter0 = vertices[0].Count; var vertCounter1 = vertices[1].Count; foreach (var polygon in polygons) { var indices = polygon.Triangulate(); // get polygon bounding square size var min = Mathf.Min(polygon.Min.x, polygon.Min.y); var max = Mathf.Max(polygon.Max.x, polygon.Max.y); var polygonSize = min - max; // MeshUtils.Log("PolygonSize: " + polygonSize + " " + polygon.Min + " " + polygon.Max); foreach (var polyPoint in polygon.Points) { var p = m * new Vector3(polyPoint.x, polyPoint.y, zShit); vertices[0].Add(p); vertices[1].Add(p); normals[0].Add(-plane.Normal); normals[1].Add(plane.Normal); if (uvCutMesh) { var uv0 = new Vector2((polyPoint.x - min) / polygonSize, (polyPoint.y - min) / polygonSize); var uv1 = new Vector2((polyPoint.x - min) / polygonSize, (polyPoint.y - min) / polygonSize); // normalize uv to fit cross-section uv area var areaSizeX = crossSectionUV.z - crossSectionUV.x; var areaSizeY = crossSectionUV.w - crossSectionUV.y; uv0.x = crossSectionUV.x + uv0.x * areaSizeX; uv0.y = crossSectionUV.y + uv0.y * areaSizeY; uv1.x = crossSectionUV.x + uv1.x * areaSizeX; uv1.y = crossSectionUV.y + uv1.y * areaSizeY; uvs[0].Add(uv0); uvs[1].Add(uv1); } else { uvs[0].Add(Vector2.zero); uvs[1].Add(Vector2.zero); } } var indicesCount = indices.Count; var j = indicesCount - 1; for (var i = 0; i < indicesCount; i++) { triangles[0].Add(vertCounter0 + indices[i]); triangles[1].Add(vertCounter1 + indices[j]); j--; } vertCounter0 += polygon.Points.Length; vertCounter1 += polygon.Points.Length; } }
// Token: 0x060042AE RID: 17070 RVA: 0x00154E98 File Offset: 0x00153298 private void Triangulate(List <Dictionary <int, int> > contours, PrimitivesPro.Utils.Plane plane, List <Vector3>[] vertices, List <Vector3>[] normals, List <Vector2>[] uvs, List <int>[] triangles, bool uvCutMesh) { if (contours.Count == 0 || contours[0].Count < 3) { return; } Matrix4x4 planeMatrix = plane.GetPlaneMatrix(); Matrix4x4 inverse = planeMatrix.inverse; float z = 0f; List <Polygon> list = new List <Polygon>(contours.Count); Polygon polygon = null; foreach (Dictionary <int, int> dictionary in contours) { Vector2[] array = new Vector2[dictionary.Count]; int num = 0; foreach (int index in dictionary.Values) { Vector4 v = inverse * vertices[0][index]; array[num++] = v; z = v.z; } Polygon polygon2 = new Polygon(array); list.Add(polygon2); if (polygon == null || polygon.Area < polygon2.Area) { polygon = polygon2; } } if (list.Count > 0) { List <Polygon> list2 = new List <Polygon>(); foreach (Polygon polygon3 in list) { if (polygon3 != polygon && polygon.IsPointInside(polygon3.Points[0])) { polygon.AddHole(polygon3); list2.Add(polygon3); } } foreach (Polygon item in list2) { list.Remove(item); } } int num2 = vertices[0].Count; int num3 = vertices[1].Count; foreach (Polygon polygon4 in list) { List <int> list3 = polygon4.Triangulate(); float num4 = Mathf.Min(polygon4.Min.x, polygon4.Min.y); float num5 = Mathf.Max(polygon4.Max.x, polygon4.Max.y); float num6 = num4 - num5; foreach (Vector2 vector in polygon4.Points) { Vector4 v2 = planeMatrix * new Vector3(vector.x, vector.y, z); vertices[0].Add(v2); vertices[1].Add(v2); normals[0].Add(-plane.Normal); normals[1].Add(plane.Normal); if (uvCutMesh) { Vector2 item2 = new Vector2((vector.x - num4) / num6, (vector.y - num4) / num6); Vector2 item3 = new Vector2((vector.x - num4) / num6, (vector.y - num4) / num6); float num7 = this.crossSectionUV.z - this.crossSectionUV.x; float num8 = this.crossSectionUV.w - this.crossSectionUV.y; item2.x = this.crossSectionUV.x + item2.x * num7; item2.y = this.crossSectionUV.y + item2.y * num8; item3.x = this.crossSectionUV.x + item3.x * num7; item3.y = this.crossSectionUV.y + item3.y * num8; uvs[0].Add(item2); uvs[1].Add(item3); } else { uvs[0].Add(Vector2.zero); uvs[1].Add(Vector2.zero); } } int count = list3.Count; int num9 = count - 1; for (int j = 0; j < count; j++) { triangles[0].Add(num2 + list3[j]); triangles[1].Add(num3 + list3[num9]); num9--; } num2 += polygon4.Points.Length; num3 += polygon4.Points.Length; } }