public void Execute()
{
int nVoxels = Voxels.Length(0) * Voxels.Length(1) * Voxels.Length(2);
int nCells = (Voxels.Length(0) - 1) * (Voxels.Length(1) - 1) * (Voxels.Length(2) - 1);
var MemoryCache = new NativeMemoryCache(Allocator.Temp);
var DedupeCache = new VoxelMeshTessellation.NativeDeduplicationCache(Allocator.Temp);
var Components = new NativeList <VoxelMeshComponent>(Allocator.Temp);
var Indices = new NativeList <PackedIndex>(Allocator.Temp);
var Vertices = new NativeList <VoxelMeshComponentVertex>(Allocator.Temp);
var Materials = new NativeArray <int>(8, Allocator.Temp, NativeArrayOptions.UninitializedMemory);
var Intersections = new NativeArray <float>(12, Allocator.Temp, NativeArrayOptions.UninitializedMemory);
var Normals = new NativeArray <float3>(12, Allocator.Temp, NativeArrayOptions.UninitializedMemory);
var solver = new SvdQefSolver <RawArrayVoxelCell>
{
Clamp = false
};
var polygonizer = new CMSVoxelPolygonizer <RawArrayVoxelCell, CMSProperties.DataStruct, SvdQefSolver <RawArrayVoxelCell>, IntersectionSharpFeatureSolver <RawArrayVoxelCell> >(PolygonizationProperties, solver, new IntersectionSharpFeatureSolver <RawArrayVoxelCell>(), MemoryCache);
int xSize = Voxels.Length(0);
int ySize = Voxels.Length(1);
int zSize = Voxels.Length(2);
TIndexer indexer = Voxels.Indexer;
for (int index = 0; index < nVoxels; ++index)
{
int x = 0, y = 0, z = 0;
indexer.FromIndex(index, ref x, ref y, ref z);
if (x < xSize - 1 && y < ySize - 1 && z < zSize - 1 && FillCell(Voxels, x, y, z, 0, Materials, Intersections, Normals))
{
//TODO Directly operate on voxel array
RawArrayVoxelCell cell = new RawArrayVoxelCell(0, new float3(x, y, z), Materials, Intersections, Normals);
polygonizer.Polygonize(cell, Components, Indices, Vertices);
}
}
VoxelMeshTessellation.Tessellate(Components, Indices, Vertices, Matrix4x4.identity, MeshVertices, MeshTriangles, MeshNormals, MeshMaterials, new MaterialColors(), MeshColors, DedupeCache);
MemoryCache.Dispose();
DedupeCache.Dispose();
Materials.Dispose();
Intersections.Dispose();
Normals.Dispose();
Components.Dispose();
Indices.Dispose();
Vertices.Dispose();
//Cells.Dispose();
}
private void GenerateMesh()
{
int size = (int)Mathf.Ceil(fieldSize * scale);
/*field = new TestVoxelField(size, size, size);
* GenerateScene(field);*/
var dedupedTable = new Dictionary <int, List <VoxelMeshTessellation.DedupedVertex> >();
var components = new NativeList <VoxelMeshComponent>(Allocator.Persistent);
var componentIndices = new NativeList <PackedIndex>(Allocator.Persistent);
var componentVertices = new NativeList <VoxelMeshComponentVertex>(Allocator.Persistent);
int voxels = /*1;//*/ (size - 1) * (size - 1) * (size - 1);
var cellMaterials = new NativeArray <int>(voxels * 8, Allocator.Persistent);
var cellIntersections = new NativeArray <float>(voxels * 12, Allocator.Persistent);
var cellNormals = new NativeArray <float3>(voxels * 12, Allocator.Persistent);
var cells = new NativeArray <float3>(voxels, Allocator.Persistent);
int voxelIndex = 0;
for (int z = 0; z < size - 1; z++)
{
for (int y = 0; y < size - 1; y++)
{
for (int x = 0; x < size - 1; x++)
{
if (renderLockedSelectionOnly && !(x == lockedSelection.x && y == lockedSelection.y && z == lockedSelection.z))
{
continue;
}
//field.FillCell(x, y, z, voxelIndex, cellMaterials, cellIntersections, cellNormals);
cells[voxelIndex] = new float3(x, y, z);
voxelIndex++;
}
}
}
NativeMemoryCache memoryCache = new NativeMemoryCache(Allocator.Persistent);
VoxelMeshTessellation.NativeDeduplicationCache dedupeCache = new VoxelMeshTessellation.NativeDeduplicationCache(Allocator.Persistent);
var meshVertices = new NativeList <float3>(Allocator.Persistent);
var meshNormals = new NativeList <float3>(Allocator.Persistent);
var meshTriangles = new NativeList <int>(Allocator.Persistent);
var meshColors = new NativeList <Color32>(Allocator.Persistent);
var meshMaterials = new NativeList <int>(Allocator.Persistent);
var polygonizerJob = new PolygonizeJob
{
Cells = cells,
MemoryCache = memoryCache,
Materials = cellMaterials,
Intersections = cellIntersections,
Normals = cellNormals,
Components = components,
Indices = componentIndices,
Vertices = componentVertices,
MeshVertices = meshVertices,
MeshNormals = meshNormals,
MeshTriangles = meshTriangles,
MeshColors = meshColors,
MeshMaterials = meshMaterials,
DedupeCache = dedupeCache
};
var watch = System.Diagnostics.Stopwatch.StartNew();
polygonizerJob.Schedule().Complete();
watch.Stop();
string text = "Polygonized voxel field in " + watch.ElapsedMilliseconds + "ms. Vertices: " + meshVertices.Length + ". Run: " + run;
Debug.Log(text);
var cam = FindObjectOfType <Camera>();
if (cam != null)
{
var display = cam.GetComponent <FPSDisplay>();
if (display != null)
{
display.SetInfo(text);
}
}
var vertices = new List <Vector3>(meshVertices.Length);
var indices = new List <int>(meshTriangles.Length);
var materials = new List <int>(meshMaterials.Length);
var colors = new List <Color32>(meshColors.Length);
var normals = new List <Vector3>(meshNormals.Length);
for (int i = 0; i < meshVertices.Length; i++)
{
vertices.Add(meshVertices[i]);
}
for (int i = 0; i < meshTriangles.Length; i++)
{
indices.Add(meshTriangles[i]);
}
for (int i = 0; i < meshMaterials.Length; i++)
{
materials.Add(meshMaterials[i]);
}
for (int i = 0; i < meshColors.Length; i++)
{
colors.Add(meshColors[i]);
}
for (int i = 0; i < meshNormals.Length; i++)
{
normals.Add(meshNormals[i]);
}
dedupeCache.Dispose();
meshVertices.Dispose();
meshNormals.Dispose();
meshTriangles.Dispose();
meshColors.Dispose();
meshMaterials.Dispose();
memoryCache.Dispose();
cells.Dispose();
cellMaterials.Dispose();
cellIntersections.Dispose();
cellNormals.Dispose();
components.Dispose();
componentIndices.Dispose();
componentVertices.Dispose();
run++;
voxelMesh.Clear(false);
voxelMesh.SetVertices(vertices);
voxelMesh.SetNormals(normals);
voxelMesh.SetTriangles(indices, 0);
if (colors.Count > 0)
{
voxelMesh.SetColors(colors);
}
if (meshCollider != null)
{
meshCollider.sharedMesh = voxelMesh;
}
}
