/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrVkGpuCommandBuffer.h" #include "GrFixedClip.h" #include "GrMesh.h" #include "GrOpFlushState.h" #include "GrPipeline.h" #include "GrRenderTargetPriv.h" #include "GrTexturePriv.h" #include "GrVkCommandBuffer.h" #include "GrVkGpu.h" #include "GrVkPipeline.h" #include "GrVkRenderPass.h" #include "GrVkRenderTarget.h" #include "GrVkResourceProvider.h" #include "GrVkTexture.h" #include "SkRect.h" void GrVkGpuTextureCommandBuffer::copy(GrSurface* src, GrSurfaceOrigin srcOrigin, const SkIRect& srcRect, const SkIPoint& dstPoint) { fCopies.emplace_back(src, srcOrigin, srcRect, dstPoint); } void GrVkGpuTextureCommandBuffer::insertEventMarker(const char* msg) { // TODO: does Vulkan have a correlate? } void GrVkGpuTextureCommandBuffer::submit() { for (int i = 0; i < fCopies.count(); ++i) { CopyInfo& copyInfo = fCopies[i]; fGpu->copySurface(fTexture, fOrigin, copyInfo.fSrc, copyInfo.fSrcOrigin, copyInfo.fSrcRect, copyInfo.fDstPoint); } } GrVkGpuTextureCommandBuffer::~GrVkGpuTextureCommandBuffer() {} //////////////////////////////////////////////////////////////////////////////// void get_vk_load_store_ops(GrLoadOp loadOpIn, GrStoreOp storeOpIn, VkAttachmentLoadOp* loadOp, VkAttachmentStoreOp* storeOp) { switch (loadOpIn) { case GrLoadOp::kLoad: *loadOp = VK_ATTACHMENT_LOAD_OP_LOAD; break; case GrLoadOp::kClear: *loadOp = VK_ATTACHMENT_LOAD_OP_CLEAR; break; case GrLoadOp::kDiscard: *loadOp = VK_ATTACHMENT_LOAD_OP_DONT_CARE; break; default: SK_ABORT("Invalid LoadOp"); *loadOp = VK_ATTACHMENT_LOAD_OP_LOAD; } switch (storeOpIn) { case GrStoreOp::kStore: *storeOp = VK_ATTACHMENT_STORE_OP_STORE; break; case GrStoreOp::kDiscard: *storeOp = VK_ATTACHMENT_STORE_OP_DONT_CARE; break; default: SK_ABORT("Invalid StoreOp"); *storeOp = VK_ATTACHMENT_STORE_OP_STORE; } } GrVkGpuRTCommandBuffer::GrVkGpuRTCommandBuffer(GrVkGpu* gpu, GrRenderTarget* rt, GrSurfaceOrigin origin, const LoadAndStoreInfo& colorInfo, const StencilLoadAndStoreInfo& stencilInfo) : INHERITED(rt, origin) , fGpu(gpu) , fClearColor(GrColor4f::FromGrColor(colorInfo.fClearColor)) , fLastPipelineState(nullptr) { get_vk_load_store_ops(colorInfo.fLoadOp, colorInfo.fStoreOp, &fVkColorLoadOp, &fVkColorStoreOp); get_vk_load_store_ops(stencilInfo.fLoadOp, stencilInfo.fStoreOp, &fVkStencilLoadOp, &fVkStencilStoreOp); fCurrentCmdInfo = -1; this->init(); } void GrVkGpuRTCommandBuffer::init() { GrVkRenderPass::LoadStoreOps vkColorOps(fVkColorLoadOp, fVkColorStoreOp); GrVkRenderPass::LoadStoreOps vkStencilOps(fVkStencilLoadOp, fVkStencilStoreOp); CommandBufferInfo& cbInfo = fCommandBufferInfos.push_back(); SkASSERT(fCommandBufferInfos.count() == 1); fCurrentCmdInfo = 0; GrVkRenderTarget* vkRT = static_cast(fRenderTarget); const GrVkResourceProvider::CompatibleRPHandle& rpHandle = vkRT->compatibleRenderPassHandle(); if (rpHandle.isValid()) { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(rpHandle, vkColorOps, vkStencilOps); } else { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(*vkRT, vkColorOps, vkStencilOps); } cbInfo.fColorClearValue.color.float32[0] = fClearColor.fRGBA[0]; cbInfo.fColorClearValue.color.float32[1] = fClearColor.fRGBA[1]; cbInfo.fColorClearValue.color.float32[2] = fClearColor.fRGBA[2]; cbInfo.fColorClearValue.color.float32[3] = fClearColor.fRGBA[3]; if (VK_ATTACHMENT_LOAD_OP_CLEAR == fVkColorLoadOp) { cbInfo.fBounds = SkRect::MakeWH(vkRT->width(), vkRT->height()); } else { cbInfo.fBounds.setEmpty(); } if (VK_ATTACHMENT_LOAD_OP_CLEAR == fVkColorLoadOp) { cbInfo.fLoadStoreState = LoadStoreState::kStartsWithClear; } else if (VK_ATTACHMENT_LOAD_OP_LOAD == fVkColorLoadOp && VK_ATTACHMENT_STORE_OP_STORE == fVkColorStoreOp) { cbInfo.fLoadStoreState = LoadStoreState::kLoadAndStore; } else if (VK_ATTACHMENT_LOAD_OP_DONT_CARE == fVkColorLoadOp) { cbInfo.fLoadStoreState = LoadStoreState::kStartsWithDiscard; } cbInfo.fCommandBuffers.push_back(fGpu->resourceProvider().findOrCreateSecondaryCommandBuffer()); cbInfo.currentCmdBuf()->begin(fGpu, vkRT->framebuffer(), cbInfo.fRenderPass); } GrVkGpuRTCommandBuffer::~GrVkGpuRTCommandBuffer() { for (int i = 0; i < fCommandBufferInfos.count(); ++i) { CommandBufferInfo& cbInfo = fCommandBufferInfos[i]; for (int j = 0; j < cbInfo.fCommandBuffers.count(); ++j) { cbInfo.fCommandBuffers[j]->unref(fGpu); } cbInfo.fRenderPass->unref(fGpu); } } GrGpu* GrVkGpuRTCommandBuffer::gpu() { return fGpu; } void GrVkGpuRTCommandBuffer::end() { if (fCurrentCmdInfo >= 0) { fCommandBufferInfos[fCurrentCmdInfo].currentCmdBuf()->end(fGpu); } } void GrVkGpuRTCommandBuffer::submit() { if (!fRenderTarget) { return; } GrVkRenderTarget* vkRT = static_cast(fRenderTarget); GrVkImage* targetImage = vkRT->msaaImage() ? vkRT->msaaImage() : vkRT; GrStencilAttachment* stencil = fRenderTarget->renderTargetPriv().getStencilAttachment(); for (int i = 0; i < fCommandBufferInfos.count(); ++i) { CommandBufferInfo& cbInfo = fCommandBufferInfos[i]; for (int j = 0; j < cbInfo.fPreDrawUploads.count(); ++j) { InlineUploadInfo& iuInfo = cbInfo.fPreDrawUploads[j]; iuInfo.fFlushState->doUpload(iuInfo.fUpload); } for (int j = 0; j < cbInfo.fPreCopies.count(); ++j) { CopyInfo& copyInfo = cbInfo.fPreCopies[j]; fGpu->copySurface(fRenderTarget, fOrigin, copyInfo.fSrc, copyInfo.fSrcOrigin, copyInfo.fSrcRect, copyInfo.fDstPoint, copyInfo.fShouldDiscardDst); } // TODO: Many things create a scratch texture which adds the discard immediately, but then // don't draw to it right away. This causes the discard to be ignored and we get yelled at // for loading uninitialized data. However, once MDB lands with reordering, the discard will // get reordered with the rest of the draw commands and we can remove the discard check. if (cbInfo.fIsEmpty && cbInfo.fLoadStoreState != LoadStoreState::kStartsWithClear && cbInfo.fLoadStoreState != LoadStoreState::kStartsWithDiscard) { // We have sumbitted no actual draw commands to the command buffer and we are not using // the render pass to do a clear so there is no need to submit anything. continue; } // Make sure if we only have a discard load that we execute the discard on the whole image. // TODO: Once we improve our tracking of discards so that we never end up flushing a discard // call with no actually ops, remove this. if (cbInfo.fIsEmpty && cbInfo.fLoadStoreState == LoadStoreState::kStartsWithDiscard) { cbInfo.fBounds = SkRect::MakeWH(vkRT->width(), vkRT->height()); } if (cbInfo.fBounds.intersect(0, 0, SkIntToScalar(fRenderTarget->width()), SkIntToScalar(fRenderTarget->height()))) { // Make sure we do the following layout changes after all copies, uploads, or any other // pre-work is done since we may change the layouts in the pre-work. Also since the // draws will be submitted in different render passes, we need to guard againts write // and write issues. // Change layout of our render target so it can be used as the color attachment. targetImage->setImageLayout(fGpu, VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL, VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT, VK_PIPELINE_STAGE_ALL_GRAPHICS_BIT, false); // If we are using a stencil attachment we also need to update its layout if (stencil) { GrVkStencilAttachment* vkStencil = (GrVkStencilAttachment*)stencil; vkStencil->setImageLayout(fGpu, VK_IMAGE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL, VK_ACCESS_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT | VK_ACCESS_DEPTH_STENCIL_ATTACHMENT_READ_BIT, VK_PIPELINE_STAGE_ALL_GRAPHICS_BIT, false); } // If we have any sampled images set their layout now. for (int j = 0; j < cbInfo.fSampledImages.count(); ++j) { cbInfo.fSampledImages[j]->setImageLayout(fGpu, VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL, VK_ACCESS_SHADER_READ_BIT, VK_PIPELINE_STAGE_ALL_GRAPHICS_BIT, false); } SkIRect iBounds; cbInfo.fBounds.roundOut(&iBounds); fGpu->submitSecondaryCommandBuffer(cbInfo.fCommandBuffers, cbInfo.fRenderPass, &cbInfo.fColorClearValue, vkRT, fOrigin, iBounds); } } } void GrVkGpuRTCommandBuffer::discard() { GrVkRenderTarget* vkRT = static_cast(fRenderTarget); CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; if (cbInfo.fIsEmpty) { // Change the render pass to do a don't-care load for both color & stencil GrVkRenderPass::LoadStoreOps vkColorOps(VK_ATTACHMENT_LOAD_OP_DONT_CARE, VK_ATTACHMENT_STORE_OP_STORE); GrVkRenderPass::LoadStoreOps vkStencilOps(VK_ATTACHMENT_LOAD_OP_DONT_CARE, VK_ATTACHMENT_STORE_OP_STORE); const GrVkRenderPass* oldRP = cbInfo.fRenderPass; const GrVkResourceProvider::CompatibleRPHandle& rpHandle = vkRT->compatibleRenderPassHandle(); if (rpHandle.isValid()) { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(rpHandle, vkColorOps, vkStencilOps); } else { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(*vkRT, vkColorOps, vkStencilOps); } SkASSERT(cbInfo.fRenderPass->isCompatible(*oldRP)); oldRP->unref(fGpu); cbInfo.fBounds.join(fRenderTarget->getBoundsRect()); cbInfo.fLoadStoreState = LoadStoreState::kStartsWithDiscard; // If we are going to discard the whole render target then the results of any copies we did // immediately before to the target won't matter, so just drop them. cbInfo.fPreCopies.reset(); } } void GrVkGpuRTCommandBuffer::insertEventMarker(const char* msg) { // TODO: does Vulkan have a correlate? } void GrVkGpuRTCommandBuffer::onClearStencilClip(const GrFixedClip& clip, bool insideStencilMask) { SkASSERT(!clip.hasWindowRectangles()); CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; GrStencilAttachment* sb = fRenderTarget->renderTargetPriv().getStencilAttachment(); // this should only be called internally when we know we have a // stencil buffer. SkASSERT(sb); int stencilBitCount = sb->bits(); // The contract with the callers does not guarantee that we preserve all bits in the stencil // during this clear. Thus we will clear the entire stencil to the desired value. VkClearDepthStencilValue vkStencilColor; memset(&vkStencilColor, 0, sizeof(VkClearDepthStencilValue)); if (insideStencilMask) { vkStencilColor.stencil = (1 << (stencilBitCount - 1)); } else { vkStencilColor.stencil = 0; } VkClearRect clearRect; // Flip rect if necessary SkIRect vkRect; if (!clip.scissorEnabled()) { vkRect.setXYWH(0, 0, fRenderTarget->width(), fRenderTarget->height()); } else if (kBottomLeft_GrSurfaceOrigin != fOrigin) { vkRect = clip.scissorRect(); } else { const SkIRect& scissor = clip.scissorRect(); vkRect.setLTRB(scissor.fLeft, fRenderTarget->height() - scissor.fBottom, scissor.fRight, fRenderTarget->height() - scissor.fTop); } clearRect.rect.offset = { vkRect.fLeft, vkRect.fTop }; clearRect.rect.extent = { (uint32_t)vkRect.width(), (uint32_t)vkRect.height() }; clearRect.baseArrayLayer = 0; clearRect.layerCount = 1; uint32_t stencilIndex; SkAssertResult(cbInfo.fRenderPass->stencilAttachmentIndex(&stencilIndex)); VkClearAttachment attachment; attachment.aspectMask = VK_IMAGE_ASPECT_STENCIL_BIT; attachment.colorAttachment = 0; // this value shouldn't matter attachment.clearValue.depthStencil = vkStencilColor; cbInfo.currentCmdBuf()->clearAttachments(fGpu, 1, &attachment, 1, &clearRect); cbInfo.fIsEmpty = false; // Update command buffer bounds if (!clip.scissorEnabled()) { cbInfo.fBounds.join(fRenderTarget->getBoundsRect()); } else { cbInfo.fBounds.join(SkRect::Make(clip.scissorRect())); } } void GrVkGpuRTCommandBuffer::onClear(const GrFixedClip& clip, GrColor color) { GrVkRenderTarget* vkRT = static_cast(fRenderTarget); // parent class should never let us get here with no RT SkASSERT(!clip.hasWindowRectangles()); CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; VkClearColorValue vkColor; GrColorToRGBAFloat(color, vkColor.float32); if (cbInfo.fIsEmpty && !clip.scissorEnabled()) { // Change the render pass to do a clear load GrVkRenderPass::LoadStoreOps vkColorOps(VK_ATTACHMENT_LOAD_OP_CLEAR, VK_ATTACHMENT_STORE_OP_STORE); // Preserve the stencil buffer's load & store settings GrVkRenderPass::LoadStoreOps vkStencilOps(fVkStencilLoadOp, fVkStencilStoreOp); const GrVkRenderPass* oldRP = cbInfo.fRenderPass; const GrVkResourceProvider::CompatibleRPHandle& rpHandle = vkRT->compatibleRenderPassHandle(); if (rpHandle.isValid()) { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(rpHandle, vkColorOps, vkStencilOps); } else { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(*vkRT, vkColorOps, vkStencilOps); } SkASSERT(cbInfo.fRenderPass->isCompatible(*oldRP)); oldRP->unref(fGpu); GrColorToRGBAFloat(color, cbInfo.fColorClearValue.color.float32); cbInfo.fLoadStoreState = LoadStoreState::kStartsWithClear; // If we are going to clear the whole render target then the results of any copies we did // immediately before to the target won't matter, so just drop them. cbInfo.fPreCopies.reset(); // Update command buffer bounds cbInfo.fBounds.join(fRenderTarget->getBoundsRect()); return; } // We always do a sub rect clear with clearAttachments since we are inside a render pass VkClearRect clearRect; // Flip rect if necessary SkIRect vkRect; if (!clip.scissorEnabled()) { vkRect.setXYWH(0, 0, fRenderTarget->width(), fRenderTarget->height()); } else if (kBottomLeft_GrSurfaceOrigin != fOrigin) { vkRect = clip.scissorRect(); } else { const SkIRect& scissor = clip.scissorRect(); vkRect.setLTRB(scissor.fLeft, fRenderTarget->height() - scissor.fBottom, scissor.fRight, fRenderTarget->height() - scissor.fTop); } clearRect.rect.offset = { vkRect.fLeft, vkRect.fTop }; clearRect.rect.extent = { (uint32_t)vkRect.width(), (uint32_t)vkRect.height() }; clearRect.baseArrayLayer = 0; clearRect.layerCount = 1; uint32_t colorIndex; SkAssertResult(cbInfo.fRenderPass->colorAttachmentIndex(&colorIndex)); VkClearAttachment attachment; attachment.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT; attachment.colorAttachment = colorIndex; attachment.clearValue.color = vkColor; cbInfo.currentCmdBuf()->clearAttachments(fGpu, 1, &attachment, 1, &clearRect); cbInfo.fIsEmpty = false; // Update command buffer bounds if (!clip.scissorEnabled()) { cbInfo.fBounds.join(fRenderTarget->getBoundsRect()); } else { cbInfo.fBounds.join(SkRect::Make(clip.scissorRect())); } return; } //////////////////////////////////////////////////////////////////////////////// void GrVkGpuRTCommandBuffer::addAdditionalCommandBuffer() { GrVkRenderTarget* vkRT = static_cast(fRenderTarget); CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; cbInfo.currentCmdBuf()->end(fGpu); cbInfo.fCommandBuffers.push_back(fGpu->resourceProvider().findOrCreateSecondaryCommandBuffer()); cbInfo.currentCmdBuf()->begin(fGpu, vkRT->framebuffer(), cbInfo.fRenderPass); } void GrVkGpuRTCommandBuffer::addAdditionalRenderPass() { GrVkRenderTarget* vkRT = static_cast(fRenderTarget); fCommandBufferInfos[fCurrentCmdInfo].currentCmdBuf()->end(fGpu); CommandBufferInfo& cbInfo = fCommandBufferInfos.push_back(); fCurrentCmdInfo++; GrVkRenderPass::LoadStoreOps vkColorOps(VK_ATTACHMENT_LOAD_OP_LOAD, VK_ATTACHMENT_STORE_OP_STORE); GrVkRenderPass::LoadStoreOps vkStencilOps(VK_ATTACHMENT_LOAD_OP_LOAD, VK_ATTACHMENT_STORE_OP_STORE); const GrVkResourceProvider::CompatibleRPHandle& rpHandle = vkRT->compatibleRenderPassHandle(); if (rpHandle.isValid()) { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(rpHandle, vkColorOps, vkStencilOps); } else { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(*vkRT, vkColorOps, vkStencilOps); } cbInfo.fLoadStoreState = LoadStoreState::kLoadAndStore; cbInfo.fCommandBuffers.push_back(fGpu->resourceProvider().findOrCreateSecondaryCommandBuffer()); // It shouldn't matter what we set the clear color to here since we will assume loading of the // attachment. memset(&cbInfo.fColorClearValue, 0, sizeof(VkClearValue)); cbInfo.fBounds.setEmpty(); cbInfo.currentCmdBuf()->begin(fGpu, vkRT->framebuffer(), cbInfo.fRenderPass); } void GrVkGpuRTCommandBuffer::inlineUpload(GrOpFlushState* state, GrDeferredTextureUploadFn& upload) { if (!fCommandBufferInfos[fCurrentCmdInfo].fIsEmpty) { this->addAdditionalRenderPass(); } fCommandBufferInfos[fCurrentCmdInfo].fPreDrawUploads.emplace_back(state, upload); } void GrVkGpuRTCommandBuffer::copy(GrSurface* src, GrSurfaceOrigin srcOrigin, const SkIRect& srcRect, const SkIPoint& dstPoint) { CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; if (!cbInfo.fIsEmpty || LoadStoreState::kStartsWithClear == cbInfo.fLoadStoreState) { this->addAdditionalRenderPass(); } fCommandBufferInfos[fCurrentCmdInfo].fPreCopies.emplace_back( src, srcOrigin, srcRect, dstPoint, LoadStoreState::kStartsWithDiscard == cbInfo.fLoadStoreState); if (LoadStoreState::kLoadAndStore != cbInfo.fLoadStoreState) { // Change the render pass to do a load and store so we don't lose the results of our copy GrVkRenderPass::LoadStoreOps vkColorOps(VK_ATTACHMENT_LOAD_OP_LOAD, VK_ATTACHMENT_STORE_OP_STORE); GrVkRenderPass::LoadStoreOps vkStencilOps(VK_ATTACHMENT_LOAD_OP_LOAD, VK_ATTACHMENT_STORE_OP_STORE); const GrVkRenderPass* oldRP = cbInfo.fRenderPass; GrVkRenderTarget* vkRT = static_cast(fRenderTarget); const GrVkResourceProvider::CompatibleRPHandle& rpHandle = vkRT->compatibleRenderPassHandle(); if (rpHandle.isValid()) { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(rpHandle, vkColorOps, vkStencilOps); } else { cbInfo.fRenderPass = fGpu->resourceProvider().findRenderPass(*vkRT, vkColorOps, vkStencilOps); } SkASSERT(cbInfo.fRenderPass->isCompatible(*oldRP)); oldRP->unref(fGpu); cbInfo.fLoadStoreState = LoadStoreState::kLoadAndStore; } } //////////////////////////////////////////////////////////////////////////////// void GrVkGpuRTCommandBuffer::bindGeometry(const GrBuffer* indexBuffer, const GrBuffer* vertexBuffer, const GrBuffer* instanceBuffer) { GrVkSecondaryCommandBuffer* currCmdBuf = fCommandBufferInfos[fCurrentCmdInfo].currentCmdBuf(); // There is no need to put any memory barriers to make sure host writes have finished here. // When a command buffer is submitted to a queue, there is an implicit memory barrier that // occurs for all host writes. Additionally, BufferMemoryBarriers are not allowed inside of // an active RenderPass. // Here our vertex and instance inputs need to match the same 0-based bindings they were // assigned in GrVkPipeline. That is, vertex first (if any) followed by instance. uint32_t binding = 0; if (vertexBuffer) { SkASSERT(vertexBuffer); SkASSERT(!vertexBuffer->isCPUBacked()); SkASSERT(!vertexBuffer->isMapped()); currCmdBuf->bindInputBuffer(fGpu, binding++, static_cast(vertexBuffer)); } if (instanceBuffer) { SkASSERT(instanceBuffer); SkASSERT(!instanceBuffer->isCPUBacked()); SkASSERT(!instanceBuffer->isMapped()); currCmdBuf->bindInputBuffer(fGpu, binding++, static_cast(instanceBuffer)); } if (indexBuffer) { SkASSERT(indexBuffer); SkASSERT(!indexBuffer->isMapped()); SkASSERT(!indexBuffer->isCPUBacked()); currCmdBuf->bindIndexBuffer(fGpu, static_cast(indexBuffer)); } } GrVkPipelineState* GrVkGpuRTCommandBuffer::prepareDrawState( const GrPrimitiveProcessor& primProc, const GrPipeline& pipeline, const GrPipeline::FixedDynamicState* fixedDynamicState, const GrPipeline::DynamicStateArrays* dynamicStateArrays, GrPrimitiveType primitiveType) { CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; SkASSERT(cbInfo.fRenderPass); GrVkPipelineState* pipelineState = fGpu->resourceProvider().findOrCreateCompatiblePipelineState(pipeline, primProc, primitiveType, *cbInfo.fRenderPass); if (!pipelineState) { return pipelineState; } if (!cbInfo.fIsEmpty && fLastPipelineState && fLastPipelineState != pipelineState && fGpu->vkCaps().newCBOnPipelineChange()) { this->addAdditionalCommandBuffer(); } fLastPipelineState = pipelineState; pipelineState->setData(fGpu, primProc, pipeline); pipelineState->bind(fGpu, cbInfo.currentCmdBuf()); GrRenderTarget* rt = pipeline.renderTarget(); if (!pipeline.isScissorEnabled()) { GrVkPipeline::SetDynamicScissorRectState(fGpu, cbInfo.currentCmdBuf(), rt, pipeline.proxy()->origin(), SkIRect::MakeWH(rt->width(), rt->height())); } else if (!dynamicStateArrays || !dynamicStateArrays->fScissorRects) { SkASSERT(fixedDynamicState); GrVkPipeline::SetDynamicScissorRectState(fGpu, cbInfo.currentCmdBuf(), rt, pipeline.proxy()->origin(), fixedDynamicState->fScissorRect); } GrVkPipeline::SetDynamicViewportState(fGpu, cbInfo.currentCmdBuf(), rt); GrVkPipeline::SetDynamicBlendConstantState(fGpu, cbInfo.currentCmdBuf(), rt->config(), pipeline.getXferProcessor()); return pipelineState; } static void prepare_sampled_images(const GrResourceIOProcessor& processor, SkTArray* sampledImages, GrVkGpu* gpu) { for (int i = 0; i < processor.numTextureSamplers(); ++i) { const GrResourceIOProcessor::TextureSampler& sampler = processor.textureSampler(i); GrVkTexture* vkTexture = static_cast(sampler.peekTexture()); // We may need to resolve the texture first if it is also a render target GrVkRenderTarget* texRT = static_cast(vkTexture->asRenderTarget()); if (texRT) { gpu->onResolveRenderTarget(texRT); } // Check if we need to regenerate any mip maps if (GrSamplerState::Filter::kMipMap == sampler.samplerState().filter() && (vkTexture->width() != 1 || vkTexture->height() != 1)) { SkASSERT(vkTexture->texturePriv().mipMapped() == GrMipMapped::kYes); if (vkTexture->texturePriv().mipMapsAreDirty()) { gpu->regenerateMipMapLevels(vkTexture); } } sampledImages->push_back(vkTexture); } } void GrVkGpuRTCommandBuffer::onDraw(const GrPrimitiveProcessor& primProc, const GrPipeline& pipeline, const GrPipeline::FixedDynamicState* fixedDynamicState, const GrPipeline::DynamicStateArrays* dynamicStateArrays, const GrMesh meshes[], int meshCount, const SkRect& bounds) { SkASSERT(pipeline.renderTarget() == fRenderTarget); if (!meshCount) { return; } CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; prepare_sampled_images(primProc, &cbInfo.fSampledImages, fGpu); GrFragmentProcessor::Iter iter(pipeline); while (const GrFragmentProcessor* fp = iter.next()) { prepare_sampled_images(*fp, &cbInfo.fSampledImages, fGpu); } if (GrTexture* dstTexture = pipeline.peekDstTexture()) { cbInfo.fSampledImages.push_back(static_cast(dstTexture)); } GrPrimitiveType primitiveType = meshes[0].primitiveType(); GrVkPipelineState* pipelineState = this->prepareDrawState(primProc, pipeline, fixedDynamicState, dynamicStateArrays, primitiveType); if (!pipelineState) { return; } bool dynamicScissor = pipeline.isScissorEnabled() && dynamicStateArrays && dynamicStateArrays->fScissorRects; for (int i = 0; i < meshCount; ++i) { const GrMesh& mesh = meshes[i]; if (mesh.primitiveType() != primitiveType) { // Technically we don't have to call this here (since there is a safety check in // pipelineState:setData but this will allow for quicker freeing of resources if the // pipelineState sits in a cache for a while. pipelineState->freeTempResources(fGpu); SkDEBUGCODE(pipelineState = nullptr); primitiveType = mesh.primitiveType(); pipelineState = this->prepareDrawState(primProc, pipeline, fixedDynamicState, dynamicStateArrays, primitiveType); if (!pipelineState) { return; } } if (dynamicScissor) { GrVkPipeline::SetDynamicScissorRectState(fGpu, cbInfo.currentCmdBuf(), fRenderTarget, pipeline.proxy()->origin(), dynamicStateArrays->fScissorRects[i]); } SkASSERT(pipelineState); mesh.sendToGpu(this); } cbInfo.fBounds.join(bounds); cbInfo.fIsEmpty = false; // Technically we don't have to call this here (since there is a safety check in // pipelineState:setData but this will allow for quicker freeing of resources if the // pipelineState sits in a cache for a while. pipelineState->freeTempResources(fGpu); } void GrVkGpuRTCommandBuffer::sendInstancedMeshToGpu(GrPrimitiveType, const GrBuffer* vertexBuffer, int vertexCount, int baseVertex, const GrBuffer* instanceBuffer, int instanceCount, int baseInstance) { CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; this->bindGeometry(nullptr, vertexBuffer, instanceBuffer); cbInfo.currentCmdBuf()->draw(fGpu, vertexCount, instanceCount, baseVertex, baseInstance); fGpu->stats()->incNumDraws(); } void GrVkGpuRTCommandBuffer::sendIndexedInstancedMeshToGpu(GrPrimitiveType, const GrBuffer* indexBuffer, int indexCount, int baseIndex, const GrBuffer* vertexBuffer, int baseVertex, const GrBuffer* instanceBuffer, int instanceCount, int baseInstance, GrPrimitiveRestart restart) { SkASSERT(restart == GrPrimitiveRestart::kNo); CommandBufferInfo& cbInfo = fCommandBufferInfos[fCurrentCmdInfo]; this->bindGeometry(indexBuffer, vertexBuffer, instanceBuffer); cbInfo.currentCmdBuf()->drawIndexed(fGpu, indexCount, instanceCount, baseIndex, baseVertex, baseInstance); fGpu->stats()->incNumDraws(); }