/* * Copyright 2019 Google LLC * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "src/gpu/ganesh/GrRenderTask.h" #include "src/gpu/ganesh/GrAttachment.h" #include "src/gpu/ganesh/GrRenderTarget.h" #include "src/gpu/ganesh/GrRenderTargetProxy.h" #include "src/gpu/ganesh/GrTextureProxyPriv.h" #include "src/gpu/ganesh/GrTextureResolveRenderTask.h" uint32_t GrRenderTask::CreateUniqueID() { static std::atomic nextID{1}; uint32_t id; do { id = nextID.fetch_add(1, std::memory_order_relaxed); } while (id == SK_InvalidUniqueID); return id; } GrRenderTask::GrRenderTask() : fUniqueID(CreateUniqueID()) , fFlags(0) { } void GrRenderTask::disown(GrDrawingManager* drawingMgr) { SkASSERT(!fDrawingMgr || drawingMgr == fDrawingMgr); SkASSERT(this->isClosed()); if (this->isSetFlag(kDisowned_Flag)) { return; } SkDEBUGCODE(fDrawingMgr = nullptr); this->setFlag(kDisowned_Flag); for (const sk_sp& target : fTargets) { if (this == drawingMgr->getLastRenderTask(target.get())) { drawingMgr->setLastRenderTask(target.get(), nullptr); } } } void GrRenderTask::makeSkippable() { SkASSERT(this->isClosed()); if (!this->isSkippable()) { this->setFlag(kSkippable_Flag); this->onMakeSkippable(); } } #ifdef SK_DEBUG GrRenderTask::~GrRenderTask() { SkASSERT(this->isSetFlag(kDisowned_Flag)); } bool GrRenderTask::deferredProxiesAreInstantiated() const { for (int i = 0; i < fDeferredProxies.size(); ++i) { if (!fDeferredProxies[i]->isInstantiated()) { return false; } } return true; } #endif void GrRenderTask::makeClosed(GrRecordingContext* rContext) { if (this->isClosed()) { return; } SkIRect targetUpdateBounds; if (ExpectedOutcome::kTargetDirty == this->onMakeClosed(rContext, &targetUpdateBounds)) { GrSurfaceProxy* proxy = this->target(0); if (proxy->requiresManualMSAAResolve()) { SkASSERT(this->target(0)->asRenderTargetProxy()); this->target(0)->asRenderTargetProxy()->markMSAADirty(targetUpdateBounds); } GrTextureProxy* textureProxy = this->target(0)->asTextureProxy(); if (textureProxy && skgpu::Mipmapped::kYes == textureProxy->mipmapped()) { textureProxy->markMipmapsDirty(); } } if (fTextureResolveTask) { this->addDependency(fTextureResolveTask); fTextureResolveTask->makeClosed(rContext); fTextureResolveTask = nullptr; } this->setFlag(kClosed_Flag); } void GrRenderTask::prepare(GrOpFlushState* flushState) { for (int i = 0; i < fDeferredProxies.size(); ++i) { fDeferredProxies[i]->texPriv().scheduleUpload(flushState); } this->onPrepare(flushState); } // Add a GrRenderTask-based dependency void GrRenderTask::addDependency(GrRenderTask* dependedOn) { SkASSERT(!dependedOn->dependsOn(this)); // loops are bad SkASSERT(!this->dependsOn(dependedOn)); // caller should weed out duplicates fDependencies.push_back(dependedOn); dependedOn->addDependent(this); SkDEBUGCODE(this->validate()); } void GrRenderTask::addDependenciesFromOtherTask(GrRenderTask* otherTask) { SkASSERT(otherTask); for (GrRenderTask* task : otherTask->fDependencies) { // The task should not be adding a dependency to itself. SkASSERT(task != this); if (!this->dependsOn(task)) { this->addDependency(task); } } } // Convert from a GrSurface-based dependency to a GrRenderTask one void GrRenderTask::addDependency(GrDrawingManager* drawingMgr, GrSurfaceProxy* dependedOn, skgpu::Mipmapped mipmapped, GrTextureResolveManager textureResolveManager, const GrCaps& caps) { // If it is still receiving dependencies, this GrRenderTask shouldn't be closed SkASSERT(!this->isClosed()); GrRenderTask* dependedOnTask = drawingMgr->getLastRenderTask(dependedOn); if (dependedOnTask == this) { // self-read - presumably for dst reads. We don't need to do anything in this case. The // XferProcessor will detect what is happening and insert a texture barrier. SkASSERT(skgpu::Mipmapped::kNo == mipmapped); // We should never attempt a self-read on a surface that has a separate MSAA renderbuffer. SkASSERT(!dependedOn->requiresManualMSAAResolve()); SkASSERT(!dependedOn->asTextureProxy() || !dependedOn->asTextureProxy()->texPriv().isDeferred()); return; } bool alreadyDependent = false; if (dependedOnTask) { if (this->dependsOn(dependedOnTask) || fTextureResolveTask == dependedOnTask) { alreadyDependent = true; dependedOnTask = nullptr; // don't add duplicate dependencies } else if (!dependedOnTask->isSetFlag(kAtlas_Flag)) { // We are closing 'dependedOnTask' here bc the current contents of it are what 'this' // renderTask depends on. We need a break in 'dependedOnTask' so that the usage of // that state has a chance to execute. dependedOnTask->makeClosed(drawingMgr->getContext()); } } auto resolveFlags = GrSurfaceProxy::ResolveFlags::kNone; if (dependedOn->requiresManualMSAAResolve()) { auto* renderTargetProxy = dependedOn->asRenderTargetProxy(); SkASSERT(renderTargetProxy); if (renderTargetProxy->isMSAADirty()) { resolveFlags |= GrSurfaceProxy::ResolveFlags::kMSAA; } } GrTextureProxy* textureProxy = dependedOn->asTextureProxy(); if (skgpu::Mipmapped::kYes == mipmapped) { SkASSERT(textureProxy); if (skgpu::Mipmapped::kYes != textureProxy->mipmapped()) { // There are some cases where we might be given a non-mipmapped texture with a mipmap // filter. See skbug.com/7094. mipmapped = skgpu::Mipmapped::kNo; } else if (textureProxy->mipmapsAreDirty()) { resolveFlags |= GrSurfaceProxy::ResolveFlags::kMipMaps; } } // Does this proxy have msaa to resolve and/or mipmaps to regenerate? if (GrSurfaceProxy::ResolveFlags::kNone != resolveFlags) { if (!fTextureResolveTask) { fTextureResolveTask = textureResolveManager.newTextureResolveRenderTask(caps); } fTextureResolveTask->addProxy(drawingMgr, sk_ref_sp(dependedOn), resolveFlags, caps); // addProxy() should have closed the texture proxy's previous task. SkASSERT(!dependedOnTask || dependedOnTask->isClosed()); SkASSERT(drawingMgr->getLastRenderTask(dependedOn) == fTextureResolveTask); #ifdef SK_DEBUG // addProxy() should have called addDependency (in this instance, recursively) on // fTextureResolveTask. if (dependedOnTask) { SkASSERT(fTextureResolveTask->dependsOn(dependedOnTask)); } if (textureProxy && textureProxy->texPriv().isDeferred()) { SkASSERT(fTextureResolveTask->fDeferredProxies.back() == textureProxy); } // The GrTextureResolveRenderTask factory should have also marked the proxy clean, set the // last renderTask on the textureProxy to textureResolveTask, and closed textureResolveTask. if (resolveFlags & GrSurfaceProxy::ResolveFlags::kMSAA) { if (GrRenderTargetProxy* renderTargetProxy = dependedOn->asRenderTargetProxy()) { SkASSERT(!renderTargetProxy->isMSAADirty()); } } if (textureProxy && (resolveFlags & GrSurfaceProxy::ResolveFlags::kMipMaps)) { SkASSERT(!textureProxy->mipmapsAreDirty()); } SkASSERT(drawingMgr->getLastRenderTask(dependedOn) == fTextureResolveTask); #endif return; } if (textureProxy && textureProxy->texPriv().isDeferred()) { if (alreadyDependent) { SkASSERT(std::find(fDeferredProxies.begin(), fDeferredProxies.end(), textureProxy) != fDeferredProxies.end()); } else { fDeferredProxies.push_back(textureProxy); } } if (dependedOnTask) { this->addDependency(dependedOnTask); } } void GrRenderTask::replaceDependency(const GrRenderTask* toReplace, GrRenderTask* replaceWith) { for (auto& target : fDependencies) { if (target == toReplace) { target = replaceWith; replaceWith->fDependents.push_back(this); break; } } } void GrRenderTask::replaceDependent(const GrRenderTask* toReplace, GrRenderTask* replaceWith) { for (auto& target : fDependents) { if (target == toReplace) { target = replaceWith; replaceWith->fDependencies.push_back(this); break; } } } bool GrRenderTask::dependsOn(const GrRenderTask* dependedOn) const { for (int i = 0; i < fDependencies.size(); ++i) { if (fDependencies[i] == dependedOn) { return true; } } return false; } void GrRenderTask::addDependent(GrRenderTask* dependent) { fDependents.push_back(dependent); } #ifdef SK_DEBUG bool GrRenderTask::isDependent(const GrRenderTask* dependent) const { for (int i = 0; i < fDependents.size(); ++i) { if (fDependents[i] == dependent) { return true; } } return false; } void GrRenderTask::validate() const { // TODO: check for loops and duplicates for (int i = 0; i < fDependencies.size(); ++i) { SkASSERT(fDependencies[i]->isDependent(this)); } } #endif bool GrRenderTask::isInstantiated() const { for (const sk_sp& target : fTargets) { GrSurfaceProxy* proxy = target.get(); if (!proxy->isInstantiated()) { return false; } GrSurface* surface = proxy->peekSurface(); if (surface->wasDestroyed()) { return false; } } return true; } void GrRenderTask::addTarget(GrDrawingManager* drawingMgr, sk_sp proxy) { SkASSERT(proxy); SkASSERT(!this->isClosed()); SkASSERT(!fDrawingMgr || drawingMgr == fDrawingMgr); SkDEBUGCODE(fDrawingMgr = drawingMgr); drawingMgr->setLastRenderTask(proxy.get(), this); proxy->isUsedAsTaskTarget(); fTargets.emplace_back(std::move(proxy)); } #if defined(GR_TEST_UTILS) void GrRenderTask::dump(const SkString& label, SkString indent, bool printDependencies, bool close) const { SkDebugf("%s%s --------------------------------------------------------------\n", indent.c_str(), label.c_str()); SkDebugf("%s%s task - renderTaskID: %u\n", indent.c_str(), this->name(), fUniqueID); if (!fTargets.empty()) { SkDebugf("%sTargets: \n", indent.c_str()); for (const sk_sp& target : fTargets) { SkASSERT(target); SkString proxyStr = target->dump(); SkDebugf("%s%s\n", indent.c_str(), proxyStr.c_str()); } } if (printDependencies) { SkDebugf("%sI rely On (%d): ", indent.c_str(), fDependencies.size()); for (int i = 0; i < fDependencies.size(); ++i) { SkDebugf("%u, ", fDependencies[i]->fUniqueID); } SkDebugf("\n"); SkDebugf("%s(%d) Rely On Me: ", indent.c_str(), fDependents.size()); for (int i = 0; i < fDependents.size(); ++i) { SkDebugf("%u, ", fDependents[i]->fUniqueID); } SkDebugf("\n"); } if (close) { SkDebugf("%s--------------------------------------------------------------\n\n", indent.c_str()); } } #endif