[osx canvas] Early out when eltCount or pathCount == 0, which avoid encoding empty passes and firing metal asserts when running in debug mode from xcode.

This commit is contained in:
Reuben Dunnington 2023-08-25 07:45:51 -07:00 committed by Martin Fouilleul
parent 4b1ab4db97
commit ceb4a3a95d
1 changed files with 75 additions and 82 deletions

View File

@ -952,6 +952,11 @@ void oc_mtl_render_batch(oc_mtl_canvas_backend* backend,
int pathCount = backend->pathCount - backend->pathBatchStart; int pathCount = backend->pathCount - backend->pathBatchStart;
int eltCount = backend->eltCount - backend->eltBatchStart; int eltCount = backend->eltCount - backend->eltBatchStart;
if(!pathCount || !eltCount)
{
return;
}
//NOTE: update intermediate buffers sizes if needed //NOTE: update intermediate buffers sizes if needed
oc_mtl_grow_buffer_if_needed(backend, &backend->pathQueueBuffer, pathCount * sizeof(oc_mtl_path_queue)); oc_mtl_grow_buffer_if_needed(backend, &backend->pathQueueBuffer, pathCount * sizeof(oc_mtl_path_queue));
@ -984,108 +989,96 @@ void oc_mtl_render_batch(oc_mtl_canvas_backend* backend,
[blitEncoder endEncoding]; [blitEncoder endEncoding];
//NOTE: path setup pass //NOTE: path setup pass
if(pathCount > 0) id<MTLComputeCommandEncoder> pathEncoder = [surface->commandBuffer computeCommandEncoder];
{ pathEncoder.label = @"path pass";
id<MTLComputeCommandEncoder> pathEncoder = [surface->commandBuffer computeCommandEncoder]; [pathEncoder setComputePipelineState:backend->pathPipeline];
pathEncoder.label = @"path pass";
[pathEncoder setComputePipelineState:backend->pathPipeline];
int tileQueueMax = [backend->tileQueueBuffer length] / sizeof(oc_mtl_tile_queue); int tileQueueMax = [backend->tileQueueBuffer length] / sizeof(oc_mtl_tile_queue);
[pathEncoder setBytes:&pathCount length:sizeof(int) atIndex:0]; [pathEncoder setBytes:&pathCount length:sizeof(int) atIndex:0];
[pathEncoder setBuffer:backend->pathBuffer[backend->bufferIndex] offset:pathBufferOffset atIndex:1]; [pathEncoder setBuffer:backend->pathBuffer[backend->bufferIndex] offset:pathBufferOffset atIndex:1];
[pathEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:2]; [pathEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:2];
[pathEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:3]; [pathEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:3];
[pathEncoder setBuffer:backend->tileQueueCountBuffer offset:0 atIndex:4]; [pathEncoder setBuffer:backend->tileQueueCountBuffer offset:0 atIndex:4];
[pathEncoder setBytes:&tileQueueMax length:sizeof(int) atIndex:5]; [pathEncoder setBytes:&tileQueueMax length:sizeof(int) atIndex:5];
[pathEncoder setBytes:&tileSize length:sizeof(int) atIndex:6]; [pathEncoder setBytes:&tileSize length:sizeof(int) atIndex:6];
[pathEncoder setBytes:&scale length:sizeof(int) atIndex:7]; [pathEncoder setBytes:&scale length:sizeof(int) atIndex:7];
MTLSize pathGridSize = MTLSizeMake(pathCount, 1, 1); MTLSize pathGridSize = MTLSizeMake(pathCount, 1, 1);
MTLSize pathGroupSize = MTLSizeMake([backend->pathPipeline maxTotalThreadsPerThreadgroup], 1, 1); MTLSize pathGroupSize = MTLSizeMake([backend->pathPipeline maxTotalThreadsPerThreadgroup], 1, 1);
[pathEncoder dispatchThreads:pathGridSize threadsPerThreadgroup:pathGroupSize]; [pathEncoder dispatchThreads:pathGridSize threadsPerThreadgroup:pathGroupSize];
[pathEncoder endEncoding]; [pathEncoder endEncoding];
}
//NOTE: segment setup pass
id<MTLComputeCommandEncoder> segmentEncoder = [surface->commandBuffer computeCommandEncoder];
segmentEncoder.label = @"segment pass";
[segmentEncoder setComputePipelineState:backend->segmentPipeline];
int tileOpMax = [backend->tileOpBuffer length] / sizeof(oc_mtl_tile_op); int tileOpMax = [backend->tileOpBuffer length] / sizeof(oc_mtl_tile_op);
int segmentMax = [backend->segmentBuffer length] / sizeof(oc_mtl_segment); int segmentMax = [backend->segmentBuffer length] / sizeof(oc_mtl_segment);
//NOTE: segment setup pass [segmentEncoder setBytes:&eltCount length:sizeof(int) atIndex:0];
if(eltCount > 0) [segmentEncoder setBuffer:backend->elementBuffer[backend->bufferIndex] offset:elementBufferOffset atIndex:1];
{ [segmentEncoder setBuffer:backend->segmentCountBuffer offset:0 atIndex:2];
id<MTLComputeCommandEncoder> segmentEncoder = [surface->commandBuffer computeCommandEncoder]; [segmentEncoder setBuffer:backend->segmentBuffer offset:0 atIndex:3];
segmentEncoder.label = @"segment pass"; [segmentEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:4];
[segmentEncoder setComputePipelineState:backend->segmentPipeline]; [segmentEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:5];
[segmentEncoder setBuffer:backend->tileOpBuffer offset:0 atIndex:6];
[segmentEncoder setBuffer:backend->tileOpCountBuffer offset:0 atIndex:7];
[segmentEncoder setBytes:&tileOpMax length:sizeof(int) atIndex:8];
[segmentEncoder setBytes:&segmentMax length:sizeof(int) atIndex:9];
[segmentEncoder setBytes:&tileSize length:sizeof(int) atIndex:10];
[segmentEncoder setBytes:&scale length:sizeof(int) atIndex:11];
[segmentEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:12];
[segmentEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:13];
[segmentEncoder setBytes:&eltCount length:sizeof(int) atIndex:0]; MTLSize segmentGridSize = MTLSizeMake(eltCount, 1, 1);
[segmentEncoder setBuffer:backend->elementBuffer[backend->bufferIndex] offset:elementBufferOffset atIndex:1]; MTLSize segmentGroupSize = MTLSizeMake([backend->segmentPipeline maxTotalThreadsPerThreadgroup], 1, 1);
[segmentEncoder setBuffer:backend->segmentCountBuffer offset:0 atIndex:2];
[segmentEncoder setBuffer:backend->segmentBuffer offset:0 atIndex:3];
[segmentEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:4];
[segmentEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:5];
[segmentEncoder setBuffer:backend->tileOpBuffer offset:0 atIndex:6];
[segmentEncoder setBuffer:backend->tileOpCountBuffer offset:0 atIndex:7];
[segmentEncoder setBytes:&tileOpMax length:sizeof(int) atIndex:8];
[segmentEncoder setBytes:&segmentMax length:sizeof(int) atIndex:9];
[segmentEncoder setBytes:&tileSize length:sizeof(int) atIndex:10];
[segmentEncoder setBytes:&scale length:sizeof(int) atIndex:11];
[segmentEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:12];
[segmentEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:13];
MTLSize segmentGridSize = MTLSizeMake(eltCount, 1, 1); [segmentEncoder dispatchThreads:segmentGridSize threadsPerThreadgroup:segmentGroupSize];
MTLSize segmentGroupSize = MTLSizeMake([backend->segmentPipeline maxTotalThreadsPerThreadgroup], 1, 1); [segmentEncoder endEncoding];
[segmentEncoder dispatchThreads:segmentGridSize threadsPerThreadgroup:segmentGroupSize];
[segmentEncoder endEncoding];
}
//NOTE: backprop pass //NOTE: backprop pass
if(pathCount > 0) id<MTLComputeCommandEncoder> backpropEncoder = [surface->commandBuffer computeCommandEncoder];
{ backpropEncoder.label = @"backprop pass";
id<MTLComputeCommandEncoder> backpropEncoder = [surface->commandBuffer computeCommandEncoder]; [backpropEncoder setComputePipelineState:backend->backpropPipeline];
backpropEncoder.label = @"backprop pass";
[backpropEncoder setComputePipelineState:backend->backpropPipeline];
[backpropEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:0]; [backpropEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:0];
[backpropEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:1]; [backpropEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:1];
[backpropEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:2]; [backpropEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:2];
[backpropEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:3]; [backpropEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:3];
MTLSize backpropGroupSize = MTLSizeMake([backend->backpropPipeline maxTotalThreadsPerThreadgroup], 1, 1); MTLSize backpropGroupSize = MTLSizeMake([backend->backpropPipeline maxTotalThreadsPerThreadgroup], 1, 1);
MTLSize backpropGridSize = MTLSizeMake(pathCount * backpropGroupSize.width, 1, 1); MTLSize backpropGridSize = MTLSizeMake(pathCount * backpropGroupSize.width, 1, 1);
[backpropEncoder dispatchThreads:backpropGridSize threadsPerThreadgroup:backpropGroupSize]; [backpropEncoder dispatchThreads:backpropGridSize threadsPerThreadgroup:backpropGroupSize];
[backpropEncoder endEncoding]; [backpropEncoder endEncoding];
}
//NOTE: merge pass //NOTE: merge pass
if(pathCount > 0) id<MTLComputeCommandEncoder> mergeEncoder = [surface->commandBuffer computeCommandEncoder];
{ mergeEncoder.label = @"merge pass";
id<MTLComputeCommandEncoder> mergeEncoder = [surface->commandBuffer computeCommandEncoder]; [mergeEncoder setComputePipelineState:backend->mergePipeline];
mergeEncoder.label = @"merge pass";
[mergeEncoder setComputePipelineState:backend->mergePipeline];
[mergeEncoder setBytes:&pathCount length:sizeof(int) atIndex:0]; [mergeEncoder setBytes:&pathCount length:sizeof(int) atIndex:0];
[mergeEncoder setBuffer:backend->pathBuffer[backend->bufferIndex] offset:pathBufferOffset atIndex:1]; [mergeEncoder setBuffer:backend->pathBuffer[backend->bufferIndex] offset:pathBufferOffset atIndex:1];
[mergeEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:2]; [mergeEncoder setBuffer:backend->pathQueueBuffer offset:0 atIndex:2];
[mergeEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:3]; [mergeEncoder setBuffer:backend->tileQueueBuffer offset:0 atIndex:3];
[mergeEncoder setBuffer:backend->tileOpBuffer offset:0 atIndex:4]; [mergeEncoder setBuffer:backend->tileOpBuffer offset:0 atIndex:4];
[mergeEncoder setBuffer:backend->tileOpCountBuffer offset:0 atIndex:5]; [mergeEncoder setBuffer:backend->tileOpCountBuffer offset:0 atIndex:5];
[mergeEncoder setBuffer:backend->rasterDispatchBuffer offset:0 atIndex:6]; [mergeEncoder setBuffer:backend->rasterDispatchBuffer offset:0 atIndex:6];
[mergeEncoder setBuffer:backend->screenTilesBuffer offset:0 atIndex:7]; [mergeEncoder setBuffer:backend->screenTilesBuffer offset:0 atIndex:7];
[mergeEncoder setBytes:&tileOpMax length:sizeof(int) atIndex:8]; [mergeEncoder setBytes:&tileOpMax length:sizeof(int) atIndex:8];
[mergeEncoder setBytes:&tileSize length:sizeof(int) atIndex:9]; [mergeEncoder setBytes:&tileSize length:sizeof(int) atIndex:9];
[mergeEncoder setBytes:&scale length:sizeof(float) atIndex:10]; [mergeEncoder setBytes:&scale length:sizeof(float) atIndex:10];
[mergeEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:11]; [mergeEncoder setBuffer:backend->logBuffer[backend->bufferIndex] offset:0 atIndex:11];
[mergeEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:12]; [mergeEncoder setBuffer:backend->logOffsetBuffer[backend->bufferIndex] offset:0 atIndex:12];
MTLSize mergeGridSize = MTLSizeMake(nTilesX, nTilesY, 1); MTLSize mergeGridSize = MTLSizeMake(nTilesX, nTilesY, 1);
MTLSize mergeGroupSize = MTLSizeMake(OC_MTL_TILE_SIZE, OC_MTL_TILE_SIZE, 1); MTLSize mergeGroupSize = MTLSizeMake(OC_MTL_TILE_SIZE, OC_MTL_TILE_SIZE, 1);
[mergeEncoder dispatchThreads:mergeGridSize threadsPerThreadgroup:mergeGroupSize]; [mergeEncoder dispatchThreads:mergeGridSize threadsPerThreadgroup:mergeGroupSize];
[mergeEncoder endEncoding]; [mergeEncoder endEncoding];
}
//NOTE: raster pass //NOTE: raster pass
id<MTLComputeCommandEncoder> rasterEncoder = [surface->commandBuffer computeCommandEncoder]; id<MTLComputeCommandEncoder> rasterEncoder = [surface->commandBuffer computeCommandEncoder];