public static ConwayPoly Rotunda() { var wythoffPoly = new WythoffPoly(Uniform.Uniforms[29].Wythoff); wythoffPoly.BuildFaces(); var conwayPoly = new ConwayPoly(wythoffPoly); conwayPoly = conwayPoly.FaceRemove(new OpParams { facesel = FaceSelections.FacingDown }); conwayPoly = conwayPoly.FillHoles(); return(conwayPoly); }
public void Generate() { switch (ShapeType) { case ShapeTypes.Wythoff: var wythoff = new WythoffPoly(PolyType, P, Q); wythoff.BuildFaces(); polyBeforeOp = new ConwayPoly(wythoff); break; case ShapeTypes.Johnson: polyBeforeOp = JohnsonPoly.Build(JohnsonPolyType, P); break; case ShapeTypes.Grid: polyBeforeOp = Grids.Grids.MakeGrid(GridType, GridShape, P, Q); break; } var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; polyBeforeOp = polyBeforeOp.ApplyOp(op1, o1); // Collision Mesh var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(polyBeforeOp, false, null, ColorMethod); GetComponent <MeshCollider>().sharedMesh = mesh; miscUVs2 = new List <Vector4>(); mesh.GetUVs(4, miscUVs2); if (PolyHydraEnums.OpConfigs[op2].usesFaces) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, filterFunc = x => SelectedFaces.Contains(x.index) }; polyAfterOp = polyBeforeOp.ApplyOp(op2, o2); } else { var(excluded, included) = polyBeforeOp.Split(new OpParams { filterFunc = x => SelectedFaces.Contains(x.index) }); var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2 }; polyAfterOp = included.ApplyOp(op2, o2); polyAfterOp.Append(excluded); if (AttemptToFillHoles) { polyAfterOp = polyAfterOp.Weld(0.1f); polyAfterOp = polyAfterOp.FillHoles(); } } // Final Mesh mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(polyAfterOp, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }