public float[] RequestNoiseForChunk(CompressedMarchingCubeChunk chunk)
{
ChunkGenerationGPUData gpuData = pipelinePool.GetItemFromPool();
NoisePipeline noise = new NoisePipeline(gpuData, storedNoiseEdits);
float[] result = noise.RequestNoiseForChunk(chunk);
pipelinePool.ReturnItemToPool(gpuData);
return(result);
}
public MeshData DispatchAndGetChunkMeshData(CompressedMarchingCubeChunk chunk, Action <CompressedMarchingCubeChunk> SetChunkComponents, Action <ComputeBuffer> WorkOnNoise = null)
{
ChunkGenerationGPUData gpuData = pipelinePool.GetItemFromPool();
NoisePipeline noise = new NoisePipeline(gpuData, storedNoiseEdits);
ChunkPipeline chunkPipeline = new ChunkPipeline(gpuData, minDegreeBufferPool);
ComputeBuffer vertsBuffer;
ComputeBuffer colorBuffer;
ValidateChunkProperties(chunk);
noise.TryLoadOrGenerateNoise(chunk);
bool storeNoise = noise.WorkOnNoiseMap(chunk, WorkOnNoise);
int numTris = chunkPipeline.ComputeMeshDataFromNoise(chunk, out vertsBuffer, out colorBuffer);
Vector3[] verts;
Color32[] colors;
///read data from gpu
if (numTris == 0)
{
verts = Array.Empty <Vector3>();
colors = Array.Empty <Color32>();
}
else
{
SetChunkComponents?.Invoke(chunk);
verts = new Vector3[numTris * 3];
colors = new Color32[numTris * 3];
vertsBuffer.GetData(verts);
colorBuffer.GetData(colors);
vertsBuffer.Dispose();
colorBuffer.Dispose();
}
if (storeNoise)
{
noise.StoreNoise(chunk);
}
pipelinePool.ReturnItemToPool(gpuData);
return(new MeshData(verts, colors, chunk.UseCollider));
}
public void DispatchAndGetChunkMeshDataAsync(CompressedMarchingCubeChunk chunk, Action <CompressedMarchingCubeChunk> SetChunkComponents, Action <MeshData> onMeshDataDone)
{
ChunkGenerationGPUData gpuData = pipelinePool.GetItemFromPool();
NoisePipeline noise = new NoisePipeline(gpuData, storedNoiseEdits);
ChunkPipeline chunkPipeline = new ChunkPipeline(gpuData, minDegreeBufferPool);
ValidateChunkProperties(chunk);
noise.TryLoadOrGenerateNoise(chunk);
chunkPipeline.DispatchPrepareCubesFromNoise(chunk);
ComputeBufferExtension.GetLengthOfAppendBufferAsync(gpuData.preparedTrisBuffer, gpuData.triCountBuffer, (numTris) =>
{
if (numTris <= 0)
{
pipelinePool.ReturnItemToPool(gpuData);
onMeshDataDone(new MeshData(null, null, false));
}
else
{
//totalTriBuild += numTris;
SetChunkComponents(chunk);
ComputeBuffer verts;
ComputeBuffer colors;
chunkPipeline.BuildMeshFromPreparedCubes(chunk, numTris, out verts, out colors);
///read data from gpu
ComputeBufferExtension.ReadBuffersAsync <Vector3, Color32>(verts, colors, (vs, cs) =>
{
verts.Dispose();
colors.Dispose();
pipelinePool.ReturnItemToPool(gpuData);
onMeshDataDone(new MeshData(vs, cs, chunk.UseCollider));
//OnDataDone(new GpuAsyncRequestResult(tris));
});
}
});
}
public Vector3Int[] ScanForNonEmptyChunksAround(Vector3 position, int sizePower, int lodPower)
{
CompressedMarchingCubeChunk emptyChunk = new CompressedMarchingCubeChunk()
{
PointSpacing = 1,
LODPower = lodPower,
ChunkSizePower = sizePower,
};
float offset = emptyChunk.ChunkSize;
emptyChunk.AnchorPos = VectorExtension.ToVector3Int(position - new Vector3(offset / 2, offset / 2, offset / 2));
ChunkGenerationGPUData gpuData = pipelinePool.GetItemFromPool();
NoisePipeline noise = new NoisePipeline(gpuData, storedNoiseEdits);
ChunkPipeline chunkPipeline = new ChunkPipeline(gpuData, minDegreeBufferPool);
noise.DispatchNoiseForChunk(emptyChunk, false);
chunkPipeline.DispatchFindNonEmptyChunks(emptyChunk);
Vector3Int[] nonEmptyPositions = ComputeBufferExtension.ReadAppendBuffer <Vector3Int>(ChunkGenerationGPUData.chunkPositionBuffer, gpuData.triCountBuffer);
pipelinePool.ReturnItemToPool(gpuData);
return(nonEmptyPositions);
}
