1cb93a386Sopenharmony_ci/* 2cb93a386Sopenharmony_ci * Copyright 2019 Google Inc. 3cb93a386Sopenharmony_ci * 4cb93a386Sopenharmony_ci * Use of this source code is governed by a BSD-style license that can be 5cb93a386Sopenharmony_ci * found in the LICENSE file. 6cb93a386Sopenharmony_ci */ 7cb93a386Sopenharmony_ci 8cb93a386Sopenharmony_ci#include "src/gpu/ops/OpsTask.h" 9cb93a386Sopenharmony_ci 10cb93a386Sopenharmony_ci#include "include/gpu/GrRecordingContext.h" 11cb93a386Sopenharmony_ci#include "src/core/SkRectPriv.h" 12cb93a386Sopenharmony_ci#include "src/core/SkScopeExit.h" 13cb93a386Sopenharmony_ci#include "src/core/SkTraceEvent.h" 14cb93a386Sopenharmony_ci#include "src/gpu/GrAttachment.h" 15cb93a386Sopenharmony_ci#include "src/gpu/GrAuditTrail.h" 16cb93a386Sopenharmony_ci#include "src/gpu/GrCaps.h" 17cb93a386Sopenharmony_ci#include "src/gpu/GrGpu.h" 18cb93a386Sopenharmony_ci#include "src/gpu/GrMemoryPool.h" 19cb93a386Sopenharmony_ci#include "src/gpu/GrOpFlushState.h" 20cb93a386Sopenharmony_ci#include "src/gpu/GrOpsRenderPass.h" 21cb93a386Sopenharmony_ci#include "src/gpu/GrRecordingContextPriv.h" 22cb93a386Sopenharmony_ci#include "src/gpu/GrRenderTarget.h" 23cb93a386Sopenharmony_ci#include "src/gpu/GrResourceAllocator.h" 24cb93a386Sopenharmony_ci#include "src/gpu/GrResourceProvider.h" 25cb93a386Sopenharmony_ci#include "src/gpu/GrTexture.h" 26cb93a386Sopenharmony_ci#include "src/gpu/geometry/GrRect.h" 27cb93a386Sopenharmony_ci 28cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 29cb93a386Sopenharmony_ci 30cb93a386Sopenharmony_cinamespace { 31cb93a386Sopenharmony_ci 32cb93a386Sopenharmony_ci// Experimentally we have found that most combining occurs within the first 10 comparisons. 33cb93a386Sopenharmony_cistatic const int kMaxOpMergeDistance = 10; 34cb93a386Sopenharmony_cistatic const int kMaxOpChainDistance = 10; 35cb93a386Sopenharmony_ci 36cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 37cb93a386Sopenharmony_ci 38cb93a386Sopenharmony_ciinline bool can_reorder(const SkRect& a, const SkRect& b) { return !GrRectsOverlap(a, b); } 39cb93a386Sopenharmony_ci 40cb93a386Sopenharmony_ciGrOpsRenderPass* create_render_pass(GrGpu* gpu, 41cb93a386Sopenharmony_ci GrRenderTarget* rt, 42cb93a386Sopenharmony_ci bool useMSAASurface, 43cb93a386Sopenharmony_ci GrAttachment* stencil, 44cb93a386Sopenharmony_ci GrSurfaceOrigin origin, 45cb93a386Sopenharmony_ci const SkIRect& bounds, 46cb93a386Sopenharmony_ci GrLoadOp colorLoadOp, 47cb93a386Sopenharmony_ci const std::array<float, 4>& loadClearColor, 48cb93a386Sopenharmony_ci GrLoadOp stencilLoadOp, 49cb93a386Sopenharmony_ci GrStoreOp stencilStoreOp, 50cb93a386Sopenharmony_ci const SkTArray<GrSurfaceProxy*, true>& sampledProxies, 51cb93a386Sopenharmony_ci GrXferBarrierFlags renderPassXferBarriers) { 52cb93a386Sopenharmony_ci const GrOpsRenderPass::LoadAndStoreInfo kColorLoadStoreInfo { 53cb93a386Sopenharmony_ci colorLoadOp, 54cb93a386Sopenharmony_ci GrStoreOp::kStore, 55cb93a386Sopenharmony_ci loadClearColor 56cb93a386Sopenharmony_ci }; 57cb93a386Sopenharmony_ci 58cb93a386Sopenharmony_ci // TODO: 59cb93a386Sopenharmony_ci // We would like to (at this level) only ever clear & discard. We would need 60cb93a386Sopenharmony_ci // to stop splitting up higher level OpsTasks for copyOps to achieve that. 61cb93a386Sopenharmony_ci // Note: we would still need SB loads and stores but they would happen at a 62cb93a386Sopenharmony_ci // lower level (inside the VK command buffer). 63cb93a386Sopenharmony_ci const GrOpsRenderPass::StencilLoadAndStoreInfo stencilLoadAndStoreInfo { 64cb93a386Sopenharmony_ci stencilLoadOp, 65cb93a386Sopenharmony_ci stencilStoreOp, 66cb93a386Sopenharmony_ci }; 67cb93a386Sopenharmony_ci 68cb93a386Sopenharmony_ci return gpu->getOpsRenderPass(rt, useMSAASurface, stencil, origin, bounds, kColorLoadStoreInfo, 69cb93a386Sopenharmony_ci stencilLoadAndStoreInfo, sampledProxies, renderPassXferBarriers); 70cb93a386Sopenharmony_ci} 71cb93a386Sopenharmony_ci 72cb93a386Sopenharmony_ci} // anonymous namespace 73cb93a386Sopenharmony_ci 74cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 75cb93a386Sopenharmony_ci 76cb93a386Sopenharmony_cinamespace skgpu::v1 { 77cb93a386Sopenharmony_ci 78cb93a386Sopenharmony_ciinline OpsTask::OpChain::List::List(GrOp::Owner op) 79cb93a386Sopenharmony_ci : fHead(std::move(op)), fTail(fHead.get()) { 80cb93a386Sopenharmony_ci this->validate(); 81cb93a386Sopenharmony_ci} 82cb93a386Sopenharmony_ci 83cb93a386Sopenharmony_ciinline OpsTask::OpChain::List::List(List&& that) { *this = std::move(that); } 84cb93a386Sopenharmony_ci 85cb93a386Sopenharmony_ciinline OpsTask::OpChain::List& OpsTask::OpChain::List::operator=(List&& that) { 86cb93a386Sopenharmony_ci fHead = std::move(that.fHead); 87cb93a386Sopenharmony_ci fTail = that.fTail; 88cb93a386Sopenharmony_ci that.fTail = nullptr; 89cb93a386Sopenharmony_ci this->validate(); 90cb93a386Sopenharmony_ci return *this; 91cb93a386Sopenharmony_ci} 92cb93a386Sopenharmony_ci 93cb93a386Sopenharmony_ciinline GrOp::Owner OpsTask::OpChain::List::popHead() { 94cb93a386Sopenharmony_ci SkASSERT(fHead); 95cb93a386Sopenharmony_ci auto temp = fHead->cutChain(); 96cb93a386Sopenharmony_ci std::swap(temp, fHead); 97cb93a386Sopenharmony_ci if (!fHead) { 98cb93a386Sopenharmony_ci SkASSERT(fTail == temp.get()); 99cb93a386Sopenharmony_ci fTail = nullptr; 100cb93a386Sopenharmony_ci } 101cb93a386Sopenharmony_ci return temp; 102cb93a386Sopenharmony_ci} 103cb93a386Sopenharmony_ci 104cb93a386Sopenharmony_ciinline GrOp::Owner OpsTask::OpChain::List::removeOp(GrOp* op) { 105cb93a386Sopenharmony_ci#ifdef SK_DEBUG 106cb93a386Sopenharmony_ci auto head = op; 107cb93a386Sopenharmony_ci while (head->prevInChain()) { head = head->prevInChain(); } 108cb93a386Sopenharmony_ci SkASSERT(head == fHead.get()); 109cb93a386Sopenharmony_ci#endif 110cb93a386Sopenharmony_ci auto prev = op->prevInChain(); 111cb93a386Sopenharmony_ci if (!prev) { 112cb93a386Sopenharmony_ci SkASSERT(op == fHead.get()); 113cb93a386Sopenharmony_ci return this->popHead(); 114cb93a386Sopenharmony_ci } 115cb93a386Sopenharmony_ci auto temp = prev->cutChain(); 116cb93a386Sopenharmony_ci if (auto next = temp->cutChain()) { 117cb93a386Sopenharmony_ci prev->chainConcat(std::move(next)); 118cb93a386Sopenharmony_ci } else { 119cb93a386Sopenharmony_ci SkASSERT(fTail == op); 120cb93a386Sopenharmony_ci fTail = prev; 121cb93a386Sopenharmony_ci } 122cb93a386Sopenharmony_ci this->validate(); 123cb93a386Sopenharmony_ci return temp; 124cb93a386Sopenharmony_ci} 125cb93a386Sopenharmony_ci 126cb93a386Sopenharmony_ciinline void OpsTask::OpChain::List::pushHead(GrOp::Owner op) { 127cb93a386Sopenharmony_ci SkASSERT(op); 128cb93a386Sopenharmony_ci SkASSERT(op->isChainHead()); 129cb93a386Sopenharmony_ci SkASSERT(op->isChainTail()); 130cb93a386Sopenharmony_ci if (fHead) { 131cb93a386Sopenharmony_ci op->chainConcat(std::move(fHead)); 132cb93a386Sopenharmony_ci fHead = std::move(op); 133cb93a386Sopenharmony_ci } else { 134cb93a386Sopenharmony_ci fHead = std::move(op); 135cb93a386Sopenharmony_ci fTail = fHead.get(); 136cb93a386Sopenharmony_ci } 137cb93a386Sopenharmony_ci} 138cb93a386Sopenharmony_ci 139cb93a386Sopenharmony_ciinline void OpsTask::OpChain::List::pushTail(GrOp::Owner op) { 140cb93a386Sopenharmony_ci SkASSERT(op->isChainTail()); 141cb93a386Sopenharmony_ci fTail->chainConcat(std::move(op)); 142cb93a386Sopenharmony_ci fTail = fTail->nextInChain(); 143cb93a386Sopenharmony_ci} 144cb93a386Sopenharmony_ci 145cb93a386Sopenharmony_ciinline void OpsTask::OpChain::List::validate() const { 146cb93a386Sopenharmony_ci#ifdef SK_DEBUG 147cb93a386Sopenharmony_ci if (fHead) { 148cb93a386Sopenharmony_ci SkASSERT(fTail); 149cb93a386Sopenharmony_ci fHead->validateChain(fTail); 150cb93a386Sopenharmony_ci } 151cb93a386Sopenharmony_ci#endif 152cb93a386Sopenharmony_ci} 153cb93a386Sopenharmony_ci 154cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 155cb93a386Sopenharmony_ci 156cb93a386Sopenharmony_ciOpsTask::OpChain::OpChain(GrOp::Owner op, GrProcessorSet::Analysis processorAnalysis, 157cb93a386Sopenharmony_ci GrAppliedClip* appliedClip, const GrDstProxyView* dstProxyView) 158cb93a386Sopenharmony_ci : fList{std::move(op)} 159cb93a386Sopenharmony_ci , fProcessorAnalysis(processorAnalysis) 160cb93a386Sopenharmony_ci , fAppliedClip(appliedClip) { 161cb93a386Sopenharmony_ci if (fProcessorAnalysis.requiresDstTexture()) { 162cb93a386Sopenharmony_ci SkASSERT(dstProxyView && dstProxyView->proxy()); 163cb93a386Sopenharmony_ci fDstProxyView = *dstProxyView; 164cb93a386Sopenharmony_ci } 165cb93a386Sopenharmony_ci fBounds = fList.head()->bounds(); 166cb93a386Sopenharmony_ci} 167cb93a386Sopenharmony_ci 168cb93a386Sopenharmony_civoid OpsTask::OpChain::visitProxies(const GrVisitProxyFunc& func) const { 169cb93a386Sopenharmony_ci if (fList.empty()) { 170cb93a386Sopenharmony_ci return; 171cb93a386Sopenharmony_ci } 172cb93a386Sopenharmony_ci for (const auto& op : GrOp::ChainRange<>(fList.head())) { 173cb93a386Sopenharmony_ci op.visitProxies(func); 174cb93a386Sopenharmony_ci } 175cb93a386Sopenharmony_ci if (fDstProxyView.proxy()) { 176cb93a386Sopenharmony_ci func(fDstProxyView.proxy(), GrMipmapped::kNo); 177cb93a386Sopenharmony_ci } 178cb93a386Sopenharmony_ci if (fAppliedClip) { 179cb93a386Sopenharmony_ci fAppliedClip->visitProxies(func); 180cb93a386Sopenharmony_ci } 181cb93a386Sopenharmony_ci} 182cb93a386Sopenharmony_ci 183cb93a386Sopenharmony_civoid OpsTask::OpChain::deleteOps() { 184cb93a386Sopenharmony_ci while (!fList.empty()) { 185cb93a386Sopenharmony_ci // Since the value goes out of scope immediately, the GrOp::Owner deletes the op. 186cb93a386Sopenharmony_ci fList.popHead(); 187cb93a386Sopenharmony_ci } 188cb93a386Sopenharmony_ci} 189cb93a386Sopenharmony_ci 190cb93a386Sopenharmony_ci// Concatenates two op chains and attempts to merge ops across the chains. Assumes that we know that 191cb93a386Sopenharmony_ci// the two chains are chainable. Returns the new chain. 192cb93a386Sopenharmony_ciOpsTask::OpChain::List OpsTask::OpChain::DoConcat(List chainA, List chainB, const GrCaps& caps, 193cb93a386Sopenharmony_ci SkArenaAlloc* opsTaskArena, 194cb93a386Sopenharmony_ci GrAuditTrail* auditTrail) { 195cb93a386Sopenharmony_ci // We process ops in chain b from head to tail. We attempt to merge with nodes in a, starting 196cb93a386Sopenharmony_ci // at chain a's tail and working toward the head. We produce one of the following outcomes: 197cb93a386Sopenharmony_ci // 1) b's head is merged into an op in a. 198cb93a386Sopenharmony_ci // 2) An op from chain a is merged into b's head. (In this case b's head gets processed again.) 199cb93a386Sopenharmony_ci // 3) b's head is popped from chain a and added at the tail of a. 200cb93a386Sopenharmony_ci // After result 3 we don't want to attempt to merge the next head of b with the new tail of a, 201cb93a386Sopenharmony_ci // as we assume merges were already attempted when chain b was created. So we keep track of the 202cb93a386Sopenharmony_ci // original tail of a and start our iteration of a there. We also track the bounds of the nodes 203cb93a386Sopenharmony_ci // appended to chain a that will be skipped for bounds testing. If the original tail of a is 204cb93a386Sopenharmony_ci // merged into an op in b (case 2) then we advance the "original tail" towards the head of a. 205cb93a386Sopenharmony_ci GrOp* origATail = chainA.tail(); 206cb93a386Sopenharmony_ci SkRect skipBounds = SkRectPriv::MakeLargestInverted(); 207cb93a386Sopenharmony_ci do { 208cb93a386Sopenharmony_ci int numMergeChecks = 0; 209cb93a386Sopenharmony_ci bool merged = false; 210cb93a386Sopenharmony_ci bool noSkip = (origATail == chainA.tail()); 211cb93a386Sopenharmony_ci SkASSERT(noSkip == (skipBounds == SkRectPriv::MakeLargestInverted())); 212cb93a386Sopenharmony_ci bool canBackwardMerge = noSkip || can_reorder(chainB.head()->bounds(), skipBounds); 213cb93a386Sopenharmony_ci SkRect forwardMergeBounds = skipBounds; 214cb93a386Sopenharmony_ci GrOp* a = origATail; 215cb93a386Sopenharmony_ci while (a) { 216cb93a386Sopenharmony_ci bool canForwardMerge = 217cb93a386Sopenharmony_ci (a == chainA.tail()) || can_reorder(a->bounds(), forwardMergeBounds); 218cb93a386Sopenharmony_ci if (canForwardMerge || canBackwardMerge) { 219cb93a386Sopenharmony_ci auto result = a->combineIfPossible(chainB.head(), opsTaskArena, caps); 220cb93a386Sopenharmony_ci SkASSERT(result != GrOp::CombineResult::kCannotCombine); 221cb93a386Sopenharmony_ci merged = (result == GrOp::CombineResult::kMerged); 222cb93a386Sopenharmony_ci GrOP_INFO("\t\t: (%s opID: %u) -> Combining with (%s, opID: %u)\n", 223cb93a386Sopenharmony_ci chainB.head()->name(), chainB.head()->uniqueID(), a->name(), 224cb93a386Sopenharmony_ci a->uniqueID()); 225cb93a386Sopenharmony_ci } 226cb93a386Sopenharmony_ci if (merged) { 227cb93a386Sopenharmony_ci GR_AUDIT_TRAIL_OPS_RESULT_COMBINED(auditTrail, a, chainB.head()); 228cb93a386Sopenharmony_ci if (canBackwardMerge) { 229cb93a386Sopenharmony_ci // The GrOp::Owner releases the op. 230cb93a386Sopenharmony_ci chainB.popHead(); 231cb93a386Sopenharmony_ci } else { 232cb93a386Sopenharmony_ci // We merged the contents of b's head into a. We will replace b's head with a in 233cb93a386Sopenharmony_ci // chain b. 234cb93a386Sopenharmony_ci SkASSERT(canForwardMerge); 235cb93a386Sopenharmony_ci if (a == origATail) { 236cb93a386Sopenharmony_ci origATail = a->prevInChain(); 237cb93a386Sopenharmony_ci } 238cb93a386Sopenharmony_ci GrOp::Owner detachedA = chainA.removeOp(a); 239cb93a386Sopenharmony_ci // The GrOp::Owner releases the op. 240cb93a386Sopenharmony_ci chainB.popHead(); 241cb93a386Sopenharmony_ci chainB.pushHead(std::move(detachedA)); 242cb93a386Sopenharmony_ci if (chainA.empty()) { 243cb93a386Sopenharmony_ci // We merged all the nodes in chain a to chain b. 244cb93a386Sopenharmony_ci return chainB; 245cb93a386Sopenharmony_ci } 246cb93a386Sopenharmony_ci } 247cb93a386Sopenharmony_ci break; 248cb93a386Sopenharmony_ci } else { 249cb93a386Sopenharmony_ci if (++numMergeChecks == kMaxOpMergeDistance) { 250cb93a386Sopenharmony_ci break; 251cb93a386Sopenharmony_ci } 252cb93a386Sopenharmony_ci forwardMergeBounds.joinNonEmptyArg(a->bounds()); 253cb93a386Sopenharmony_ci canBackwardMerge = 254cb93a386Sopenharmony_ci canBackwardMerge && can_reorder(chainB.head()->bounds(), a->bounds()); 255cb93a386Sopenharmony_ci a = a->prevInChain(); 256cb93a386Sopenharmony_ci } 257cb93a386Sopenharmony_ci } 258cb93a386Sopenharmony_ci // If we weren't able to merge b's head then pop b's head from chain b and make it the new 259cb93a386Sopenharmony_ci // tail of a. 260cb93a386Sopenharmony_ci if (!merged) { 261cb93a386Sopenharmony_ci chainA.pushTail(chainB.popHead()); 262cb93a386Sopenharmony_ci skipBounds.joinNonEmptyArg(chainA.tail()->bounds()); 263cb93a386Sopenharmony_ci } 264cb93a386Sopenharmony_ci } while (!chainB.empty()); 265cb93a386Sopenharmony_ci return chainA; 266cb93a386Sopenharmony_ci} 267cb93a386Sopenharmony_ci 268cb93a386Sopenharmony_ci// Attempts to concatenate the given chain onto our own and merge ops across the chains. Returns 269cb93a386Sopenharmony_ci// whether the operation succeeded. On success, the provided list will be returned empty. 270cb93a386Sopenharmony_cibool OpsTask::OpChain::tryConcat( 271cb93a386Sopenharmony_ci List* list, GrProcessorSet::Analysis processorAnalysis, const GrDstProxyView& dstProxyView, 272cb93a386Sopenharmony_ci const GrAppliedClip* appliedClip, const SkRect& bounds, const GrCaps& caps, 273cb93a386Sopenharmony_ci SkArenaAlloc* opsTaskArena, GrAuditTrail* auditTrail) { 274cb93a386Sopenharmony_ci SkASSERT(!fList.empty()); 275cb93a386Sopenharmony_ci SkASSERT(!list->empty()); 276cb93a386Sopenharmony_ci SkASSERT(fProcessorAnalysis.requiresDstTexture() == SkToBool(fDstProxyView.proxy())); 277cb93a386Sopenharmony_ci SkASSERT(processorAnalysis.requiresDstTexture() == SkToBool(dstProxyView.proxy())); 278cb93a386Sopenharmony_ci // All returns use explicit tuple constructor rather than {a, b} to work around old GCC bug. 279cb93a386Sopenharmony_ci if (fList.head()->classID() != list->head()->classID() || 280cb93a386Sopenharmony_ci SkToBool(fAppliedClip) != SkToBool(appliedClip) || 281cb93a386Sopenharmony_ci (fAppliedClip && *fAppliedClip != *appliedClip) || 282cb93a386Sopenharmony_ci (fProcessorAnalysis.requiresNonOverlappingDraws() != 283cb93a386Sopenharmony_ci processorAnalysis.requiresNonOverlappingDraws()) || 284cb93a386Sopenharmony_ci (fProcessorAnalysis.requiresNonOverlappingDraws() && 285cb93a386Sopenharmony_ci // Non-overlaping draws are only required when Ganesh will either insert a barrier, 286cb93a386Sopenharmony_ci // or read back a new dst texture between draws. In either case, we can neither 287cb93a386Sopenharmony_ci // chain nor combine overlapping Ops. 288cb93a386Sopenharmony_ci GrRectsTouchOrOverlap(fBounds, bounds)) || 289cb93a386Sopenharmony_ci (fProcessorAnalysis.requiresDstTexture() != processorAnalysis.requiresDstTexture()) || 290cb93a386Sopenharmony_ci (fProcessorAnalysis.requiresDstTexture() && fDstProxyView != dstProxyView)) { 291cb93a386Sopenharmony_ci return false; 292cb93a386Sopenharmony_ci } 293cb93a386Sopenharmony_ci 294cb93a386Sopenharmony_ci SkDEBUGCODE(bool first = true;) 295cb93a386Sopenharmony_ci do { 296cb93a386Sopenharmony_ci switch (fList.tail()->combineIfPossible(list->head(), opsTaskArena, caps)) 297cb93a386Sopenharmony_ci { 298cb93a386Sopenharmony_ci case GrOp::CombineResult::kCannotCombine: 299cb93a386Sopenharmony_ci // If an op supports chaining then it is required that chaining is transitive and 300cb93a386Sopenharmony_ci // that if any two ops in two different chains can merge then the two chains 301cb93a386Sopenharmony_ci // may also be chained together. Thus, we should only hit this on the first 302cb93a386Sopenharmony_ci // iteration. 303cb93a386Sopenharmony_ci SkASSERT(first); 304cb93a386Sopenharmony_ci return false; 305cb93a386Sopenharmony_ci case GrOp::CombineResult::kMayChain: 306cb93a386Sopenharmony_ci fList = DoConcat(std::move(fList), std::exchange(*list, List()), caps, opsTaskArena, 307cb93a386Sopenharmony_ci auditTrail); 308cb93a386Sopenharmony_ci // The above exchange cleared out 'list'. The list needs to be empty now for the 309cb93a386Sopenharmony_ci // loop to terminate. 310cb93a386Sopenharmony_ci SkASSERT(list->empty()); 311cb93a386Sopenharmony_ci break; 312cb93a386Sopenharmony_ci case GrOp::CombineResult::kMerged: { 313cb93a386Sopenharmony_ci GrOP_INFO("\t\t: (%s opID: %u) -> Combining with (%s, opID: %u)\n", 314cb93a386Sopenharmony_ci list->tail()->name(), list->tail()->uniqueID(), list->head()->name(), 315cb93a386Sopenharmony_ci list->head()->uniqueID()); 316cb93a386Sopenharmony_ci GR_AUDIT_TRAIL_OPS_RESULT_COMBINED(auditTrail, fList.tail(), list->head()); 317cb93a386Sopenharmony_ci // The GrOp::Owner releases the op. 318cb93a386Sopenharmony_ci list->popHead(); 319cb93a386Sopenharmony_ci break; 320cb93a386Sopenharmony_ci } 321cb93a386Sopenharmony_ci } 322cb93a386Sopenharmony_ci SkDEBUGCODE(first = false); 323cb93a386Sopenharmony_ci } while (!list->empty()); 324cb93a386Sopenharmony_ci 325cb93a386Sopenharmony_ci // The new ops were successfully merged and/or chained onto our own. 326cb93a386Sopenharmony_ci fBounds.joinPossiblyEmptyRect(bounds); 327cb93a386Sopenharmony_ci return true; 328cb93a386Sopenharmony_ci} 329cb93a386Sopenharmony_ci 330cb93a386Sopenharmony_cibool OpsTask::OpChain::prependChain(OpChain* that, const GrCaps& caps, SkArenaAlloc* opsTaskArena, 331cb93a386Sopenharmony_ci GrAuditTrail* auditTrail) { 332cb93a386Sopenharmony_ci if (!that->tryConcat(&fList, fProcessorAnalysis, fDstProxyView, fAppliedClip, fBounds, caps, 333cb93a386Sopenharmony_ci opsTaskArena, auditTrail)) { 334cb93a386Sopenharmony_ci this->validate(); 335cb93a386Sopenharmony_ci // append failed 336cb93a386Sopenharmony_ci return false; 337cb93a386Sopenharmony_ci } 338cb93a386Sopenharmony_ci 339cb93a386Sopenharmony_ci // 'that' owns the combined chain. Move it into 'this'. 340cb93a386Sopenharmony_ci SkASSERT(fList.empty()); 341cb93a386Sopenharmony_ci fList = std::move(that->fList); 342cb93a386Sopenharmony_ci fBounds = that->fBounds; 343cb93a386Sopenharmony_ci 344cb93a386Sopenharmony_ci that->fDstProxyView.setProxyView({}); 345cb93a386Sopenharmony_ci if (that->fAppliedClip && that->fAppliedClip->hasCoverageFragmentProcessor()) { 346cb93a386Sopenharmony_ci // Obliterates the processor. 347cb93a386Sopenharmony_ci that->fAppliedClip->detachCoverageFragmentProcessor(); 348cb93a386Sopenharmony_ci } 349cb93a386Sopenharmony_ci this->validate(); 350cb93a386Sopenharmony_ci return true; 351cb93a386Sopenharmony_ci} 352cb93a386Sopenharmony_ci 353cb93a386Sopenharmony_ciGrOp::Owner OpsTask::OpChain::appendOp( 354cb93a386Sopenharmony_ci GrOp::Owner op, GrProcessorSet::Analysis processorAnalysis, 355cb93a386Sopenharmony_ci const GrDstProxyView* dstProxyView, const GrAppliedClip* appliedClip, const GrCaps& caps, 356cb93a386Sopenharmony_ci SkArenaAlloc* opsTaskArena, GrAuditTrail* auditTrail) { 357cb93a386Sopenharmony_ci const GrDstProxyView noDstProxyView; 358cb93a386Sopenharmony_ci if (!dstProxyView) { 359cb93a386Sopenharmony_ci dstProxyView = &noDstProxyView; 360cb93a386Sopenharmony_ci } 361cb93a386Sopenharmony_ci SkASSERT(op->isChainHead() && op->isChainTail()); 362cb93a386Sopenharmony_ci SkRect opBounds = op->bounds(); 363cb93a386Sopenharmony_ci List chain(std::move(op)); 364cb93a386Sopenharmony_ci if (!this->tryConcat(&chain, processorAnalysis, *dstProxyView, appliedClip, opBounds, caps, 365cb93a386Sopenharmony_ci opsTaskArena, auditTrail)) { 366cb93a386Sopenharmony_ci // append failed, give the op back to the caller. 367cb93a386Sopenharmony_ci this->validate(); 368cb93a386Sopenharmony_ci return chain.popHead(); 369cb93a386Sopenharmony_ci } 370cb93a386Sopenharmony_ci 371cb93a386Sopenharmony_ci SkASSERT(chain.empty()); 372cb93a386Sopenharmony_ci this->validate(); 373cb93a386Sopenharmony_ci return nullptr; 374cb93a386Sopenharmony_ci} 375cb93a386Sopenharmony_ci 376cb93a386Sopenharmony_ciinline void OpsTask::OpChain::validate() const { 377cb93a386Sopenharmony_ci#ifdef SK_DEBUG 378cb93a386Sopenharmony_ci fList.validate(); 379cb93a386Sopenharmony_ci for (const auto& op : GrOp::ChainRange<>(fList.head())) { 380cb93a386Sopenharmony_ci // Not using SkRect::contains because we allow empty rects. 381cb93a386Sopenharmony_ci SkASSERT(fBounds.fLeft <= op.bounds().fLeft && fBounds.fTop <= op.bounds().fTop && 382cb93a386Sopenharmony_ci fBounds.fRight >= op.bounds().fRight && fBounds.fBottom >= op.bounds().fBottom); 383cb93a386Sopenharmony_ci } 384cb93a386Sopenharmony_ci#endif 385cb93a386Sopenharmony_ci} 386cb93a386Sopenharmony_ci 387cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 388cb93a386Sopenharmony_ci 389cb93a386Sopenharmony_ciOpsTask::OpsTask(GrDrawingManager* drawingMgr, 390cb93a386Sopenharmony_ci GrSurfaceProxyView view, 391cb93a386Sopenharmony_ci GrAuditTrail* auditTrail, 392cb93a386Sopenharmony_ci sk_sp<GrArenas> arenas) 393cb93a386Sopenharmony_ci : GrRenderTask() 394cb93a386Sopenharmony_ci , fAuditTrail(auditTrail) 395cb93a386Sopenharmony_ci , fUsesMSAASurface(view.asRenderTargetProxy()->numSamples() > 1) 396cb93a386Sopenharmony_ci , fTargetSwizzle(view.swizzle()) 397cb93a386Sopenharmony_ci , fTargetOrigin(view.origin()) 398cb93a386Sopenharmony_ci , fArenas{std::move(arenas)} 399cb93a386Sopenharmony_ci SkDEBUGCODE(, fNumClips(0)) { 400cb93a386Sopenharmony_ci this->addTarget(drawingMgr, view.detachProxy()); 401cb93a386Sopenharmony_ci} 402cb93a386Sopenharmony_ci 403cb93a386Sopenharmony_civoid OpsTask::deleteOps() { 404cb93a386Sopenharmony_ci for (auto& chain : fOpChains) { 405cb93a386Sopenharmony_ci chain.deleteOps(); 406cb93a386Sopenharmony_ci } 407cb93a386Sopenharmony_ci fOpChains.reset(); 408cb93a386Sopenharmony_ci} 409cb93a386Sopenharmony_ci 410cb93a386Sopenharmony_ciOpsTask::~OpsTask() { 411cb93a386Sopenharmony_ci this->deleteOps(); 412cb93a386Sopenharmony_ci} 413cb93a386Sopenharmony_ci 414cb93a386Sopenharmony_civoid OpsTask::addOp(GrDrawingManager* drawingMgr, GrOp::Owner op, 415cb93a386Sopenharmony_ci GrTextureResolveManager textureResolveManager, const GrCaps& caps) { 416cb93a386Sopenharmony_ci auto addDependency = [&](GrSurfaceProxy* p, GrMipmapped mipmapped) { 417cb93a386Sopenharmony_ci this->addDependency(drawingMgr, p, mipmapped, textureResolveManager, caps); 418cb93a386Sopenharmony_ci }; 419cb93a386Sopenharmony_ci 420cb93a386Sopenharmony_ci op->visitProxies(addDependency); 421cb93a386Sopenharmony_ci 422cb93a386Sopenharmony_ci this->recordOp(std::move(op), false/*usesMSAA*/, GrProcessorSet::EmptySetAnalysis(), nullptr, 423cb93a386Sopenharmony_ci nullptr, caps); 424cb93a386Sopenharmony_ci} 425cb93a386Sopenharmony_ci 426cb93a386Sopenharmony_civoid OpsTask::addDrawOp(GrDrawingManager* drawingMgr, GrOp::Owner op, bool usesMSAA, 427cb93a386Sopenharmony_ci const GrProcessorSet::Analysis& processorAnalysis, GrAppliedClip&& clip, 428cb93a386Sopenharmony_ci const GrDstProxyView& dstProxyView, 429cb93a386Sopenharmony_ci GrTextureResolveManager textureResolveManager, const GrCaps& caps) { 430cb93a386Sopenharmony_ci auto addDependency = [&](GrSurfaceProxy* p, GrMipmapped mipmapped) { 431cb93a386Sopenharmony_ci this->addSampledTexture(p); 432cb93a386Sopenharmony_ci this->addDependency(drawingMgr, p, mipmapped, textureResolveManager, caps); 433cb93a386Sopenharmony_ci }; 434cb93a386Sopenharmony_ci 435cb93a386Sopenharmony_ci op->visitProxies(addDependency); 436cb93a386Sopenharmony_ci clip.visitProxies(addDependency); 437cb93a386Sopenharmony_ci if (dstProxyView.proxy()) { 438cb93a386Sopenharmony_ci if (!(dstProxyView.dstSampleFlags() & GrDstSampleFlags::kAsInputAttachment)) { 439cb93a386Sopenharmony_ci this->addSampledTexture(dstProxyView.proxy()); 440cb93a386Sopenharmony_ci } 441cb93a386Sopenharmony_ci if (dstProxyView.dstSampleFlags() & GrDstSampleFlags::kRequiresTextureBarrier) { 442cb93a386Sopenharmony_ci fRenderPassXferBarriers |= GrXferBarrierFlags::kTexture; 443cb93a386Sopenharmony_ci } 444cb93a386Sopenharmony_ci addDependency(dstProxyView.proxy(), GrMipmapped::kNo); 445cb93a386Sopenharmony_ci SkASSERT(!(dstProxyView.dstSampleFlags() & GrDstSampleFlags::kAsInputAttachment) || 446cb93a386Sopenharmony_ci dstProxyView.offset().isZero()); 447cb93a386Sopenharmony_ci } 448cb93a386Sopenharmony_ci 449cb93a386Sopenharmony_ci if (processorAnalysis.usesNonCoherentHWBlending()) { 450cb93a386Sopenharmony_ci fRenderPassXferBarriers |= GrXferBarrierFlags::kBlend; 451cb93a386Sopenharmony_ci } 452cb93a386Sopenharmony_ci 453cb93a386Sopenharmony_ci this->recordOp(std::move(op), usesMSAA, processorAnalysis, clip.doesClip() ? &clip : nullptr, 454cb93a386Sopenharmony_ci &dstProxyView, caps); 455cb93a386Sopenharmony_ci} 456cb93a386Sopenharmony_ci 457cb93a386Sopenharmony_civoid OpsTask::endFlush(GrDrawingManager* drawingMgr) { 458cb93a386Sopenharmony_ci fLastClipStackGenID = SK_InvalidUniqueID; 459cb93a386Sopenharmony_ci this->deleteOps(); 460cb93a386Sopenharmony_ci 461cb93a386Sopenharmony_ci fDeferredProxies.reset(); 462cb93a386Sopenharmony_ci fSampledProxies.reset(); 463cb93a386Sopenharmony_ci fAuditTrail = nullptr; 464cb93a386Sopenharmony_ci 465cb93a386Sopenharmony_ci GrRenderTask::endFlush(drawingMgr); 466cb93a386Sopenharmony_ci} 467cb93a386Sopenharmony_ci 468cb93a386Sopenharmony_civoid OpsTask::onPrePrepare(GrRecordingContext* context) { 469cb93a386Sopenharmony_ci SkASSERT(this->isClosed()); 470cb93a386Sopenharmony_ci // TODO: remove the check for discard here once reduced op splitting is turned on. Currently we 471cb93a386Sopenharmony_ci // can end up with OpsTasks that only have a discard load op and no ops. For vulkan validation 472cb93a386Sopenharmony_ci // we need to keep that discard and not drop it. Once we have reduce op list splitting enabled 473cb93a386Sopenharmony_ci // we shouldn't end up with OpsTasks with only discard. 474cb93a386Sopenharmony_ci if (this->isColorNoOp() || 475cb93a386Sopenharmony_ci (fClippedContentBounds.isEmpty() && fColorLoadOp != GrLoadOp::kDiscard)) { 476cb93a386Sopenharmony_ci return; 477cb93a386Sopenharmony_ci } 478cb93a386Sopenharmony_ci TRACE_EVENT0("skia.gpu", TRACE_FUNC); 479cb93a386Sopenharmony_ci 480cb93a386Sopenharmony_ci GrSurfaceProxyView dstView(sk_ref_sp(this->target(0)), fTargetOrigin, fTargetSwizzle); 481cb93a386Sopenharmony_ci for (const auto& chain : fOpChains) { 482cb93a386Sopenharmony_ci if (chain.shouldExecute()) { 483cb93a386Sopenharmony_ci chain.head()->prePrepare(context, 484cb93a386Sopenharmony_ci dstView, 485cb93a386Sopenharmony_ci chain.appliedClip(), 486cb93a386Sopenharmony_ci chain.dstProxyView(), 487cb93a386Sopenharmony_ci fRenderPassXferBarriers, 488cb93a386Sopenharmony_ci fColorLoadOp); 489cb93a386Sopenharmony_ci } 490cb93a386Sopenharmony_ci } 491cb93a386Sopenharmony_ci} 492cb93a386Sopenharmony_ci 493cb93a386Sopenharmony_civoid OpsTask::onPrepare(GrOpFlushState* flushState) { 494cb93a386Sopenharmony_ci SkASSERT(this->target(0)->peekRenderTarget()); 495cb93a386Sopenharmony_ci SkASSERT(this->isClosed()); 496cb93a386Sopenharmony_ci // TODO: remove the check for discard here once reduced op splitting is turned on. Currently we 497cb93a386Sopenharmony_ci // can end up with OpsTasks that only have a discard load op and no ops. For vulkan validation 498cb93a386Sopenharmony_ci // we need to keep that discard and not drop it. Once we have reduce op list splitting enabled 499cb93a386Sopenharmony_ci // we shouldn't end up with OpsTasks with only discard. 500cb93a386Sopenharmony_ci if (this->isColorNoOp() || 501cb93a386Sopenharmony_ci (fClippedContentBounds.isEmpty() && fColorLoadOp != GrLoadOp::kDiscard)) { 502cb93a386Sopenharmony_ci return; 503cb93a386Sopenharmony_ci } 504cb93a386Sopenharmony_ci TRACE_EVENT0("skia.gpu", TRACE_FUNC); 505cb93a386Sopenharmony_ci 506cb93a386Sopenharmony_ci flushState->setSampledProxyArray(&fSampledProxies); 507cb93a386Sopenharmony_ci GrSurfaceProxyView dstView(sk_ref_sp(this->target(0)), fTargetOrigin, fTargetSwizzle); 508cb93a386Sopenharmony_ci auto grGpu = flushState->gpu(); 509cb93a386Sopenharmony_ci // Loop over the ops that haven't yet been prepared. 510cb93a386Sopenharmony_ci GrGpuResourceTag tag; 511cb93a386Sopenharmony_ci for (const auto& chain : fOpChains) { 512cb93a386Sopenharmony_ci if (chain.shouldExecute()) { 513cb93a386Sopenharmony_ci#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK 514cb93a386Sopenharmony_ci TRACE_EVENT0("skia.gpu", chain.head()->name()); 515cb93a386Sopenharmony_ci#endif 516cb93a386Sopenharmony_ci tag = chain.head()->getGrOpTag(); 517cb93a386Sopenharmony_ci if (grGpu && tag.isGrTagValid()) { 518cb93a386Sopenharmony_ci grGpu->setCurrentGrResourceTag(tag); 519cb93a386Sopenharmony_ci } 520cb93a386Sopenharmony_ci GrOpFlushState::OpArgs opArgs(chain.head(), 521cb93a386Sopenharmony_ci dstView, 522cb93a386Sopenharmony_ci fUsesMSAASurface, 523cb93a386Sopenharmony_ci chain.appliedClip(), 524cb93a386Sopenharmony_ci chain.dstProxyView(), 525cb93a386Sopenharmony_ci fRenderPassXferBarriers, 526cb93a386Sopenharmony_ci fColorLoadOp); 527cb93a386Sopenharmony_ci 528cb93a386Sopenharmony_ci flushState->setOpArgs(&opArgs); 529cb93a386Sopenharmony_ci 530cb93a386Sopenharmony_ci // Temporary debugging helper: for debugging prePrepare w/o going through DDLs 531cb93a386Sopenharmony_ci // Delete once most of the GrOps have an onPrePrepare. 532cb93a386Sopenharmony_ci // chain.head()->prePrepare(flushState->gpu()->getContext(), &this->target(0), 533cb93a386Sopenharmony_ci // chain.appliedClip()); 534cb93a386Sopenharmony_ci 535cb93a386Sopenharmony_ci // GrOp::prePrepare may or may not have been called at this point 536cb93a386Sopenharmony_ci chain.head()->prepare(flushState); 537cb93a386Sopenharmony_ci flushState->setOpArgs(nullptr); 538cb93a386Sopenharmony_ci if (grGpu && tag.isGrTagValid()) { 539cb93a386Sopenharmony_ci grGpu->popGrResourceTag(); 540cb93a386Sopenharmony_ci } 541cb93a386Sopenharmony_ci } 542cb93a386Sopenharmony_ci } 543cb93a386Sopenharmony_ci flushState->setSampledProxyArray(nullptr); 544cb93a386Sopenharmony_ci} 545cb93a386Sopenharmony_ci 546cb93a386Sopenharmony_ci// TODO: this is where GrOp::renderTarget is used (which is fine since it 547cb93a386Sopenharmony_ci// is at flush time). However, we need to store the RenderTargetProxy in the 548cb93a386Sopenharmony_ci// Ops and instantiate them here. 549cb93a386Sopenharmony_cibool OpsTask::onExecute(GrOpFlushState* flushState) { 550cb93a386Sopenharmony_ci SkASSERT(this->numTargets() == 1); 551cb93a386Sopenharmony_ci GrRenderTargetProxy* proxy = this->target(0)->asRenderTargetProxy(); 552cb93a386Sopenharmony_ci SkASSERT(proxy); 553cb93a386Sopenharmony_ci SK_AT_SCOPE_EXIT(proxy->clearArenas()); 554cb93a386Sopenharmony_ci 555cb93a386Sopenharmony_ci // TODO: remove the check for discard here once reduced op splitting is turned on. Currently we 556cb93a386Sopenharmony_ci // can end up with OpsTasks that only have a discard load op and no ops. For vulkan validation 557cb93a386Sopenharmony_ci // we need to keep that discard and not drop it. Once we have reduce op list splitting enabled 558cb93a386Sopenharmony_ci // we shouldn't end up with OpsTasks with only discard. 559cb93a386Sopenharmony_ci if (this->isColorNoOp() || 560cb93a386Sopenharmony_ci (fClippedContentBounds.isEmpty() && fColorLoadOp != GrLoadOp::kDiscard)) { 561cb93a386Sopenharmony_ci return false; 562cb93a386Sopenharmony_ci } 563cb93a386Sopenharmony_ci 564cb93a386Sopenharmony_ci TRACE_EVENT0("skia.gpu", TRACE_FUNC); 565cb93a386Sopenharmony_ci 566cb93a386Sopenharmony_ci // Make sure load ops are not kClear if the GPU needs to use draws for clears 567cb93a386Sopenharmony_ci SkASSERT(fColorLoadOp != GrLoadOp::kClear || 568cb93a386Sopenharmony_ci !flushState->gpu()->caps()->performColorClearsAsDraws()); 569cb93a386Sopenharmony_ci 570cb93a386Sopenharmony_ci const GrCaps& caps = *flushState->gpu()->caps(); 571cb93a386Sopenharmony_ci GrRenderTarget* renderTarget = proxy->peekRenderTarget(); 572cb93a386Sopenharmony_ci SkASSERT(renderTarget); 573cb93a386Sopenharmony_ci 574cb93a386Sopenharmony_ci GrAttachment* stencil = nullptr; 575cb93a386Sopenharmony_ci if (proxy->needsStencil()) { 576cb93a386Sopenharmony_ci SkASSERT(proxy->canUseStencil(caps)); 577cb93a386Sopenharmony_ci if (!flushState->resourceProvider()->attachStencilAttachment(renderTarget, 578cb93a386Sopenharmony_ci fUsesMSAASurface)) { 579cb93a386Sopenharmony_ci SkDebugf("WARNING: failed to attach a stencil buffer. Rendering will be skipped.\n"); 580cb93a386Sopenharmony_ci return false; 581cb93a386Sopenharmony_ci } 582cb93a386Sopenharmony_ci stencil = renderTarget->getStencilAttachment(fUsesMSAASurface); 583cb93a386Sopenharmony_ci } 584cb93a386Sopenharmony_ci 585cb93a386Sopenharmony_ci GrLoadOp stencilLoadOp; 586cb93a386Sopenharmony_ci switch (fInitialStencilContent) { 587cb93a386Sopenharmony_ci case StencilContent::kDontCare: 588cb93a386Sopenharmony_ci stencilLoadOp = GrLoadOp::kDiscard; 589cb93a386Sopenharmony_ci break; 590cb93a386Sopenharmony_ci case StencilContent::kUserBitsCleared: 591cb93a386Sopenharmony_ci SkASSERT(!caps.performStencilClearsAsDraws()); 592cb93a386Sopenharmony_ci SkASSERT(stencil); 593cb93a386Sopenharmony_ci if (caps.discardStencilValuesAfterRenderPass()) { 594cb93a386Sopenharmony_ci // Always clear the stencil if it is being discarded after render passes. This is 595cb93a386Sopenharmony_ci // also an optimization because we are on a tiler and it avoids loading the values 596cb93a386Sopenharmony_ci // from memory. 597cb93a386Sopenharmony_ci stencilLoadOp = GrLoadOp::kClear; 598cb93a386Sopenharmony_ci break; 599cb93a386Sopenharmony_ci } 600cb93a386Sopenharmony_ci if (!stencil->hasPerformedInitialClear()) { 601cb93a386Sopenharmony_ci stencilLoadOp = GrLoadOp::kClear; 602cb93a386Sopenharmony_ci stencil->markHasPerformedInitialClear(); 603cb93a386Sopenharmony_ci break; 604cb93a386Sopenharmony_ci } 605cb93a386Sopenharmony_ci // SurfaceDrawContexts are required to leave the user stencil bits in a cleared state 606cb93a386Sopenharmony_ci // once finished, meaning the stencil values will always remain cleared after the 607cb93a386Sopenharmony_ci // initial clear. Just fall through to reloading the existing (cleared) stencil values 608cb93a386Sopenharmony_ci // from memory. 609cb93a386Sopenharmony_ci [[fallthrough]]; 610cb93a386Sopenharmony_ci case StencilContent::kPreserved: 611cb93a386Sopenharmony_ci SkASSERT(stencil); 612cb93a386Sopenharmony_ci stencilLoadOp = GrLoadOp::kLoad; 613cb93a386Sopenharmony_ci break; 614cb93a386Sopenharmony_ci } 615cb93a386Sopenharmony_ci 616cb93a386Sopenharmony_ci // NOTE: If fMustPreserveStencil is set, then we are executing a surfaceDrawContext that split 617cb93a386Sopenharmony_ci // its opsTask. 618cb93a386Sopenharmony_ci // 619cb93a386Sopenharmony_ci // FIXME: We don't currently flag render passes that don't use stencil at all. In that case 620cb93a386Sopenharmony_ci // their store op might be "discard", and we currently make the assumption that a discard will 621cb93a386Sopenharmony_ci // not invalidate what's already in main memory. This is probably ok for now, but certainly 622cb93a386Sopenharmony_ci // something we want to address soon. 623cb93a386Sopenharmony_ci GrStoreOp stencilStoreOp = (caps.discardStencilValuesAfterRenderPass() && !fMustPreserveStencil) 624cb93a386Sopenharmony_ci ? GrStoreOp::kDiscard 625cb93a386Sopenharmony_ci : GrStoreOp::kStore; 626cb93a386Sopenharmony_ci 627cb93a386Sopenharmony_ci GrOpsRenderPass* renderPass = create_render_pass(flushState->gpu(), 628cb93a386Sopenharmony_ci proxy->peekRenderTarget(), 629cb93a386Sopenharmony_ci fUsesMSAASurface, 630cb93a386Sopenharmony_ci stencil, 631cb93a386Sopenharmony_ci fTargetOrigin, 632cb93a386Sopenharmony_ci fClippedContentBounds, 633cb93a386Sopenharmony_ci fColorLoadOp, 634cb93a386Sopenharmony_ci fLoadClearColor, 635cb93a386Sopenharmony_ci stencilLoadOp, 636cb93a386Sopenharmony_ci stencilStoreOp, 637cb93a386Sopenharmony_ci fSampledProxies, 638cb93a386Sopenharmony_ci fRenderPassXferBarriers); 639cb93a386Sopenharmony_ci 640cb93a386Sopenharmony_ci if (!renderPass) { 641cb93a386Sopenharmony_ci return false; 642cb93a386Sopenharmony_ci } 643cb93a386Sopenharmony_ci flushState->setOpsRenderPass(renderPass); 644cb93a386Sopenharmony_ci renderPass->begin(); 645cb93a386Sopenharmony_ci 646cb93a386Sopenharmony_ci GrSurfaceProxyView dstView(sk_ref_sp(this->target(0)), fTargetOrigin, fTargetSwizzle); 647cb93a386Sopenharmony_ci 648cb93a386Sopenharmony_ci auto grGpu = flushState->gpu(); 649cb93a386Sopenharmony_ci // Draw all the generated geometry. 650cb93a386Sopenharmony_ci GrGpuResourceTag tag; 651cb93a386Sopenharmony_ci for (const auto& chain : fOpChains) { 652cb93a386Sopenharmony_ci if (!chain.shouldExecute()) { 653cb93a386Sopenharmony_ci continue; 654cb93a386Sopenharmony_ci } 655cb93a386Sopenharmony_ci#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK 656cb93a386Sopenharmony_ci TRACE_EVENT0("skia.gpu", chain.head()->name()); 657cb93a386Sopenharmony_ci#endif 658cb93a386Sopenharmony_ci tag = chain.head()->getGrOpTag(); 659cb93a386Sopenharmony_ci if (grGpu && tag.isGrTagValid()) { 660cb93a386Sopenharmony_ci grGpu->setCurrentGrResourceTag(tag); 661cb93a386Sopenharmony_ci } 662cb93a386Sopenharmony_ci 663cb93a386Sopenharmony_ci GrOpFlushState::OpArgs opArgs(chain.head(), 664cb93a386Sopenharmony_ci dstView, 665cb93a386Sopenharmony_ci fUsesMSAASurface, 666cb93a386Sopenharmony_ci chain.appliedClip(), 667cb93a386Sopenharmony_ci chain.dstProxyView(), 668cb93a386Sopenharmony_ci fRenderPassXferBarriers, 669cb93a386Sopenharmony_ci fColorLoadOp); 670cb93a386Sopenharmony_ci 671cb93a386Sopenharmony_ci flushState->setOpArgs(&opArgs); 672cb93a386Sopenharmony_ci chain.head()->execute(flushState, chain.bounds()); 673cb93a386Sopenharmony_ci flushState->setOpArgs(nullptr); 674cb93a386Sopenharmony_ci if (grGpu && tag.isGrTagValid()) { 675cb93a386Sopenharmony_ci grGpu->popGrResourceTag(); 676cb93a386Sopenharmony_ci } 677cb93a386Sopenharmony_ci } 678cb93a386Sopenharmony_ci 679cb93a386Sopenharmony_ci renderPass->end(); 680cb93a386Sopenharmony_ci flushState->gpu()->submit(renderPass); 681cb93a386Sopenharmony_ci flushState->setOpsRenderPass(nullptr); 682cb93a386Sopenharmony_ci 683cb93a386Sopenharmony_ci return true; 684cb93a386Sopenharmony_ci} 685cb93a386Sopenharmony_ci 686cb93a386Sopenharmony_civoid OpsTask::setColorLoadOp(GrLoadOp op, std::array<float, 4> color) { 687cb93a386Sopenharmony_ci fColorLoadOp = op; 688cb93a386Sopenharmony_ci fLoadClearColor = color; 689cb93a386Sopenharmony_ci if (GrLoadOp::kClear == fColorLoadOp) { 690cb93a386Sopenharmony_ci GrSurfaceProxy* proxy = this->target(0); 691cb93a386Sopenharmony_ci SkASSERT(proxy); 692cb93a386Sopenharmony_ci fTotalBounds = proxy->backingStoreBoundsRect(); 693cb93a386Sopenharmony_ci } 694cb93a386Sopenharmony_ci} 695cb93a386Sopenharmony_ci 696cb93a386Sopenharmony_civoid OpsTask::reset() { 697cb93a386Sopenharmony_ci fDeferredProxies.reset(); 698cb93a386Sopenharmony_ci fSampledProxies.reset(); 699cb93a386Sopenharmony_ci fClippedContentBounds = SkIRect::MakeEmpty(); 700cb93a386Sopenharmony_ci fTotalBounds = SkRect::MakeEmpty(); 701cb93a386Sopenharmony_ci this->deleteOps(); 702cb93a386Sopenharmony_ci fRenderPassXferBarriers = GrXferBarrierFlags::kNone; 703cb93a386Sopenharmony_ci} 704cb93a386Sopenharmony_ci 705cb93a386Sopenharmony_cibool OpsTask::canMerge(const OpsTask* opsTask) const { 706cb93a386Sopenharmony_ci return this->target(0) == opsTask->target(0) && 707cb93a386Sopenharmony_ci fArenas == opsTask->fArenas && 708cb93a386Sopenharmony_ci !opsTask->fCannotMergeBackward; 709cb93a386Sopenharmony_ci} 710cb93a386Sopenharmony_ci 711cb93a386Sopenharmony_ciint OpsTask::mergeFrom(SkSpan<const sk_sp<GrRenderTask>> tasks) { 712cb93a386Sopenharmony_ci int mergedCount = 0; 713cb93a386Sopenharmony_ci for (const sk_sp<GrRenderTask>& task : tasks) { 714cb93a386Sopenharmony_ci auto opsTask = task->asOpsTask(); 715cb93a386Sopenharmony_ci if (!opsTask || !this->canMerge(opsTask)) { 716cb93a386Sopenharmony_ci break; 717cb93a386Sopenharmony_ci } 718cb93a386Sopenharmony_ci SkASSERT(fTargetSwizzle == opsTask->fTargetSwizzle); 719cb93a386Sopenharmony_ci SkASSERT(fTargetOrigin == opsTask->fTargetOrigin); 720cb93a386Sopenharmony_ci if (GrLoadOp::kClear == opsTask->fColorLoadOp) { 721cb93a386Sopenharmony_ci // TODO(11903): Go back to actually dropping ops tasks when we are merged with 722cb93a386Sopenharmony_ci // color clear. 723cb93a386Sopenharmony_ci return 0; 724cb93a386Sopenharmony_ci } 725cb93a386Sopenharmony_ci mergedCount += 1; 726cb93a386Sopenharmony_ci } 727cb93a386Sopenharmony_ci if (0 == mergedCount) { 728cb93a386Sopenharmony_ci return 0; 729cb93a386Sopenharmony_ci } 730cb93a386Sopenharmony_ci 731cb93a386Sopenharmony_ci SkSpan<const sk_sp<OpsTask>> mergingNodes( 732cb93a386Sopenharmony_ci reinterpret_cast<const sk_sp<OpsTask>*>(tasks.data()), SkToSizeT(mergedCount)); 733cb93a386Sopenharmony_ci int addlDeferredProxyCount = 0; 734cb93a386Sopenharmony_ci int addlProxyCount = 0; 735cb93a386Sopenharmony_ci int addlOpChainCount = 0; 736cb93a386Sopenharmony_ci for (const auto& toMerge : mergingNodes) { 737cb93a386Sopenharmony_ci addlDeferredProxyCount += toMerge->fDeferredProxies.count(); 738cb93a386Sopenharmony_ci addlProxyCount += toMerge->fSampledProxies.count(); 739cb93a386Sopenharmony_ci addlOpChainCount += toMerge->fOpChains.count(); 740cb93a386Sopenharmony_ci fClippedContentBounds.join(toMerge->fClippedContentBounds); 741cb93a386Sopenharmony_ci fTotalBounds.join(toMerge->fTotalBounds); 742cb93a386Sopenharmony_ci fRenderPassXferBarriers |= toMerge->fRenderPassXferBarriers; 743cb93a386Sopenharmony_ci if (fInitialStencilContent == StencilContent::kDontCare) { 744cb93a386Sopenharmony_ci // Propogate the first stencil content that isn't kDontCare. 745cb93a386Sopenharmony_ci // 746cb93a386Sopenharmony_ci // Once the stencil has any kind of initial content that isn't kDontCare, then the 747cb93a386Sopenharmony_ci // inital contents of subsequent opsTasks that get merged in don't matter. 748cb93a386Sopenharmony_ci // 749cb93a386Sopenharmony_ci // (This works because the opsTask all target the same render target and are in 750cb93a386Sopenharmony_ci // painter's order. kPreserved obviously happens automatically with a merge, and kClear 751cb93a386Sopenharmony_ci // is also automatic because the contract is for ops to leave the stencil buffer in a 752cb93a386Sopenharmony_ci // cleared state when finished.) 753cb93a386Sopenharmony_ci fInitialStencilContent = toMerge->fInitialStencilContent; 754cb93a386Sopenharmony_ci } 755cb93a386Sopenharmony_ci fUsesMSAASurface |= toMerge->fUsesMSAASurface; 756cb93a386Sopenharmony_ci SkDEBUGCODE(fNumClips += toMerge->fNumClips); 757cb93a386Sopenharmony_ci } 758cb93a386Sopenharmony_ci 759cb93a386Sopenharmony_ci fLastClipStackGenID = SK_InvalidUniqueID; 760cb93a386Sopenharmony_ci fDeferredProxies.reserve_back(addlDeferredProxyCount); 761cb93a386Sopenharmony_ci fSampledProxies.reserve_back(addlProxyCount); 762cb93a386Sopenharmony_ci fOpChains.reserve_back(addlOpChainCount); 763cb93a386Sopenharmony_ci for (const auto& toMerge : mergingNodes) { 764cb93a386Sopenharmony_ci for (GrRenderTask* renderTask : toMerge->dependents()) { 765cb93a386Sopenharmony_ci renderTask->replaceDependency(toMerge.get(), this); 766cb93a386Sopenharmony_ci } 767cb93a386Sopenharmony_ci for (GrRenderTask* renderTask : toMerge->dependencies()) { 768cb93a386Sopenharmony_ci renderTask->replaceDependent(toMerge.get(), this); 769cb93a386Sopenharmony_ci } 770cb93a386Sopenharmony_ci fDeferredProxies.move_back_n(toMerge->fDeferredProxies.count(), 771cb93a386Sopenharmony_ci toMerge->fDeferredProxies.data()); 772cb93a386Sopenharmony_ci fSampledProxies.move_back_n(toMerge->fSampledProxies.count(), 773cb93a386Sopenharmony_ci toMerge->fSampledProxies.data()); 774cb93a386Sopenharmony_ci fOpChains.move_back_n(toMerge->fOpChains.count(), 775cb93a386Sopenharmony_ci toMerge->fOpChains.data()); 776cb93a386Sopenharmony_ci toMerge->fDeferredProxies.reset(); 777cb93a386Sopenharmony_ci toMerge->fSampledProxies.reset(); 778cb93a386Sopenharmony_ci toMerge->fOpChains.reset(); 779cb93a386Sopenharmony_ci } 780cb93a386Sopenharmony_ci fMustPreserveStencil = mergingNodes.back()->fMustPreserveStencil; 781cb93a386Sopenharmony_ci return mergedCount; 782cb93a386Sopenharmony_ci} 783cb93a386Sopenharmony_ci 784cb93a386Sopenharmony_cibool OpsTask::resetForFullscreenClear(CanDiscardPreviousOps canDiscardPreviousOps) { 785cb93a386Sopenharmony_ci if (CanDiscardPreviousOps::kYes == canDiscardPreviousOps || this->isEmpty()) { 786cb93a386Sopenharmony_ci this->deleteOps(); 787cb93a386Sopenharmony_ci fDeferredProxies.reset(); 788cb93a386Sopenharmony_ci fSampledProxies.reset(); 789cb93a386Sopenharmony_ci 790cb93a386Sopenharmony_ci // If the opsTask is using a render target which wraps a vulkan command buffer, we can't do 791cb93a386Sopenharmony_ci // a clear load since we cannot change the render pass that we are using. Thus we fall back 792cb93a386Sopenharmony_ci // to making a clear op in this case. 793cb93a386Sopenharmony_ci return !this->target(0)->asRenderTargetProxy()->wrapsVkSecondaryCB(); 794cb93a386Sopenharmony_ci } 795cb93a386Sopenharmony_ci 796cb93a386Sopenharmony_ci // Could not empty the task, so an op must be added to handle the clear 797cb93a386Sopenharmony_ci return false; 798cb93a386Sopenharmony_ci} 799cb93a386Sopenharmony_ci 800cb93a386Sopenharmony_civoid OpsTask::discard() { 801cb93a386Sopenharmony_ci // Discard calls to in-progress opsTasks are ignored. Calls at the start update the 802cb93a386Sopenharmony_ci // opsTasks' color & stencil load ops. 803cb93a386Sopenharmony_ci if (this->isEmpty()) { 804cb93a386Sopenharmony_ci fColorLoadOp = GrLoadOp::kDiscard; 805cb93a386Sopenharmony_ci fInitialStencilContent = StencilContent::kDontCare; 806cb93a386Sopenharmony_ci fTotalBounds.setEmpty(); 807cb93a386Sopenharmony_ci } 808cb93a386Sopenharmony_ci} 809cb93a386Sopenharmony_ci 810cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 811cb93a386Sopenharmony_ci 812cb93a386Sopenharmony_ci#if GR_TEST_UTILS 813cb93a386Sopenharmony_civoid OpsTask::dump(const SkString& label, 814cb93a386Sopenharmony_ci SkString indent, 815cb93a386Sopenharmony_ci bool printDependencies, 816cb93a386Sopenharmony_ci bool close) const { 817cb93a386Sopenharmony_ci GrRenderTask::dump(label, indent, printDependencies, false); 818cb93a386Sopenharmony_ci 819cb93a386Sopenharmony_ci SkDebugf("%sfColorLoadOp: ", indent.c_str()); 820cb93a386Sopenharmony_ci switch (fColorLoadOp) { 821cb93a386Sopenharmony_ci case GrLoadOp::kLoad: 822cb93a386Sopenharmony_ci SkDebugf("kLoad\n"); 823cb93a386Sopenharmony_ci break; 824cb93a386Sopenharmony_ci case GrLoadOp::kClear: 825cb93a386Sopenharmony_ci SkDebugf("kClear {%g, %g, %g, %g}\n", 826cb93a386Sopenharmony_ci fLoadClearColor[0], 827cb93a386Sopenharmony_ci fLoadClearColor[1], 828cb93a386Sopenharmony_ci fLoadClearColor[2], 829cb93a386Sopenharmony_ci fLoadClearColor[3]); 830cb93a386Sopenharmony_ci break; 831cb93a386Sopenharmony_ci case GrLoadOp::kDiscard: 832cb93a386Sopenharmony_ci SkDebugf("kDiscard\n"); 833cb93a386Sopenharmony_ci break; 834cb93a386Sopenharmony_ci } 835cb93a386Sopenharmony_ci 836cb93a386Sopenharmony_ci SkDebugf("%sfInitialStencilContent: ", indent.c_str()); 837cb93a386Sopenharmony_ci switch (fInitialStencilContent) { 838cb93a386Sopenharmony_ci case StencilContent::kDontCare: 839cb93a386Sopenharmony_ci SkDebugf("kDontCare\n"); 840cb93a386Sopenharmony_ci break; 841cb93a386Sopenharmony_ci case StencilContent::kUserBitsCleared: 842cb93a386Sopenharmony_ci SkDebugf("kUserBitsCleared\n"); 843cb93a386Sopenharmony_ci break; 844cb93a386Sopenharmony_ci case StencilContent::kPreserved: 845cb93a386Sopenharmony_ci SkDebugf("kPreserved\n"); 846cb93a386Sopenharmony_ci break; 847cb93a386Sopenharmony_ci } 848cb93a386Sopenharmony_ci 849cb93a386Sopenharmony_ci SkDebugf("%s%d ops:\n", indent.c_str(), fOpChains.count()); 850cb93a386Sopenharmony_ci for (int i = 0; i < fOpChains.count(); ++i) { 851cb93a386Sopenharmony_ci SkDebugf("%s*******************************\n", indent.c_str()); 852cb93a386Sopenharmony_ci if (!fOpChains[i].head()) { 853cb93a386Sopenharmony_ci SkDebugf("%s%d: <combined forward or failed instantiation>\n", indent.c_str(), i); 854cb93a386Sopenharmony_ci } else { 855cb93a386Sopenharmony_ci SkDebugf("%s%d: %s\n", indent.c_str(), i, fOpChains[i].head()->name()); 856cb93a386Sopenharmony_ci SkRect bounds = fOpChains[i].bounds(); 857cb93a386Sopenharmony_ci SkDebugf("%sClippedBounds: [L: %.2f, T: %.2f, R: %.2f, B: %.2f]\n", 858cb93a386Sopenharmony_ci indent.c_str(), 859cb93a386Sopenharmony_ci bounds.fLeft, bounds.fTop, bounds.fRight, bounds.fBottom); 860cb93a386Sopenharmony_ci for (const auto& op : GrOp::ChainRange<>(fOpChains[i].head())) { 861cb93a386Sopenharmony_ci SkString info = SkTabString(op.dumpInfo(), 1); 862cb93a386Sopenharmony_ci SkDebugf("%s%s\n", indent.c_str(), info.c_str()); 863cb93a386Sopenharmony_ci bounds = op.bounds(); 864cb93a386Sopenharmony_ci SkDebugf("%s\tClippedBounds: [L: %.2f, T: %.2f, R: %.2f, B: %.2f]\n", 865cb93a386Sopenharmony_ci indent.c_str(), 866cb93a386Sopenharmony_ci bounds.fLeft, bounds.fTop, bounds.fRight, bounds.fBottom); 867cb93a386Sopenharmony_ci } 868cb93a386Sopenharmony_ci } 869cb93a386Sopenharmony_ci } 870cb93a386Sopenharmony_ci 871cb93a386Sopenharmony_ci if (close) { 872cb93a386Sopenharmony_ci SkDebugf("%s--------------------------------------------------------------\n\n", 873cb93a386Sopenharmony_ci indent.c_str()); 874cb93a386Sopenharmony_ci } 875cb93a386Sopenharmony_ci} 876cb93a386Sopenharmony_ci#endif 877cb93a386Sopenharmony_ci 878cb93a386Sopenharmony_ci#ifdef SK_DEBUG 879cb93a386Sopenharmony_civoid OpsTask::visitProxies_debugOnly(const GrVisitProxyFunc& func) const { 880cb93a386Sopenharmony_ci auto textureFunc = [ func ] (GrSurfaceProxy* tex, GrMipmapped mipmapped) { 881cb93a386Sopenharmony_ci func(tex, mipmapped); 882cb93a386Sopenharmony_ci }; 883cb93a386Sopenharmony_ci 884cb93a386Sopenharmony_ci for (const OpChain& chain : fOpChains) { 885cb93a386Sopenharmony_ci chain.visitProxies(textureFunc); 886cb93a386Sopenharmony_ci } 887cb93a386Sopenharmony_ci} 888cb93a386Sopenharmony_ci 889cb93a386Sopenharmony_ci#endif 890cb93a386Sopenharmony_ci 891cb93a386Sopenharmony_ci//////////////////////////////////////////////////////////////////////////////// 892cb93a386Sopenharmony_ci 893cb93a386Sopenharmony_civoid OpsTask::onMakeSkippable() { 894cb93a386Sopenharmony_ci this->deleteOps(); 895cb93a386Sopenharmony_ci fDeferredProxies.reset(); 896cb93a386Sopenharmony_ci fColorLoadOp = GrLoadOp::kLoad; 897cb93a386Sopenharmony_ci SkASSERT(this->isColorNoOp()); 898cb93a386Sopenharmony_ci} 899cb93a386Sopenharmony_ci 900cb93a386Sopenharmony_cibool OpsTask::onIsUsed(GrSurfaceProxy* proxyToCheck) const { 901cb93a386Sopenharmony_ci bool used = false; 902cb93a386Sopenharmony_ci for (GrSurfaceProxy* proxy : fSampledProxies) { 903cb93a386Sopenharmony_ci if (proxy == proxyToCheck) { 904cb93a386Sopenharmony_ci used = true; 905cb93a386Sopenharmony_ci break; 906cb93a386Sopenharmony_ci } 907cb93a386Sopenharmony_ci } 908cb93a386Sopenharmony_ci#ifdef SK_DEBUG 909cb93a386Sopenharmony_ci bool usedSlow = false; 910cb93a386Sopenharmony_ci auto visit = [ proxyToCheck, &usedSlow ] (GrSurfaceProxy* p, GrMipmapped) { 911cb93a386Sopenharmony_ci if (p == proxyToCheck) { 912cb93a386Sopenharmony_ci usedSlow = true; 913cb93a386Sopenharmony_ci } 914cb93a386Sopenharmony_ci }; 915cb93a386Sopenharmony_ci this->visitProxies_debugOnly(visit); 916cb93a386Sopenharmony_ci SkASSERT(used == usedSlow); 917cb93a386Sopenharmony_ci#endif 918cb93a386Sopenharmony_ci 919cb93a386Sopenharmony_ci return used; 920cb93a386Sopenharmony_ci} 921cb93a386Sopenharmony_ci 922cb93a386Sopenharmony_civoid OpsTask::gatherProxyIntervals(GrResourceAllocator* alloc) const { 923cb93a386Sopenharmony_ci SkASSERT(this->isClosed()); 924cb93a386Sopenharmony_ci if (this->isColorNoOp()) { 925cb93a386Sopenharmony_ci return; 926cb93a386Sopenharmony_ci } 927cb93a386Sopenharmony_ci 928cb93a386Sopenharmony_ci for (int i = 0; i < fDeferredProxies.count(); ++i) { 929cb93a386Sopenharmony_ci SkASSERT(!fDeferredProxies[i]->isInstantiated()); 930cb93a386Sopenharmony_ci // We give all the deferred proxies a write usage at the very start of flushing. This 931cb93a386Sopenharmony_ci // locks them out of being reused for the entire flush until they are read - and then 932cb93a386Sopenharmony_ci // they can be recycled. This is a bit unfortunate because a flush can proceed in waves 933cb93a386Sopenharmony_ci // with sub-flushes. The deferred proxies only need to be pinned from the start of 934cb93a386Sopenharmony_ci // the sub-flush in which they appear. 935cb93a386Sopenharmony_ci alloc->addInterval(fDeferredProxies[i], 0, 0, GrResourceAllocator::ActualUse::kNo); 936cb93a386Sopenharmony_ci } 937cb93a386Sopenharmony_ci 938cb93a386Sopenharmony_ci GrSurfaceProxy* targetProxy = this->target(0); 939cb93a386Sopenharmony_ci 940cb93a386Sopenharmony_ci // Add the interval for all the writes to this OpsTasks's target 941cb93a386Sopenharmony_ci if (fOpChains.count()) { 942cb93a386Sopenharmony_ci unsigned int cur = alloc->curOp(); 943cb93a386Sopenharmony_ci 944cb93a386Sopenharmony_ci alloc->addInterval(targetProxy, cur, cur + fOpChains.count() - 1, 945cb93a386Sopenharmony_ci GrResourceAllocator::ActualUse::kYes); 946cb93a386Sopenharmony_ci } else { 947cb93a386Sopenharmony_ci // This can happen if there is a loadOp (e.g., a clear) but no other draws. In this case we 948cb93a386Sopenharmony_ci // still need to add an interval for the destination so we create a fake op# for 949cb93a386Sopenharmony_ci // the missing clear op. 950cb93a386Sopenharmony_ci alloc->addInterval(targetProxy, alloc->curOp(), alloc->curOp(), 951cb93a386Sopenharmony_ci GrResourceAllocator::ActualUse::kYes); 952cb93a386Sopenharmony_ci alloc->incOps(); 953cb93a386Sopenharmony_ci } 954cb93a386Sopenharmony_ci 955cb93a386Sopenharmony_ci auto gather = [ alloc SkDEBUGCODE(, this) ] (GrSurfaceProxy* p, GrMipmapped) { 956cb93a386Sopenharmony_ci alloc->addInterval(p, 957cb93a386Sopenharmony_ci alloc->curOp(), 958cb93a386Sopenharmony_ci alloc->curOp(), 959cb93a386Sopenharmony_ci GrResourceAllocator::ActualUse::kYes 960cb93a386Sopenharmony_ci SkDEBUGCODE(, this->target(0) == p)); 961cb93a386Sopenharmony_ci }; 962cb93a386Sopenharmony_ci // TODO: visitProxies is expensive. Can we do this with fSampledProxies instead? 963cb93a386Sopenharmony_ci for (const OpChain& recordedOp : fOpChains) { 964cb93a386Sopenharmony_ci recordedOp.visitProxies(gather); 965cb93a386Sopenharmony_ci 966cb93a386Sopenharmony_ci // Even though the op may have been (re)moved we still need to increment the op count to 967cb93a386Sopenharmony_ci // keep all the math consistent. 968cb93a386Sopenharmony_ci alloc->incOps(); 969cb93a386Sopenharmony_ci } 970cb93a386Sopenharmony_ci} 971cb93a386Sopenharmony_ci 972cb93a386Sopenharmony_civoid OpsTask::recordOp( 973cb93a386Sopenharmony_ci GrOp::Owner op, bool usesMSAA, GrProcessorSet::Analysis processorAnalysis, 974cb93a386Sopenharmony_ci GrAppliedClip* clip, const GrDstProxyView* dstProxyView, const GrCaps& caps) { 975cb93a386Sopenharmony_ci GrSurfaceProxy* proxy = this->target(0); 976cb93a386Sopenharmony_ci#ifdef SK_DEBUG 977cb93a386Sopenharmony_ci op->validate(); 978cb93a386Sopenharmony_ci SkASSERT(processorAnalysis.requiresDstTexture() == (dstProxyView && dstProxyView->proxy())); 979cb93a386Sopenharmony_ci SkASSERT(proxy); 980cb93a386Sopenharmony_ci // A closed OpsTask should never receive new/more ops 981cb93a386Sopenharmony_ci SkASSERT(!this->isClosed()); 982cb93a386Sopenharmony_ci // Ensure we can support dynamic msaa if the caller is trying to trigger it. 983cb93a386Sopenharmony_ci if (proxy->asRenderTargetProxy()->numSamples() == 1 && usesMSAA) { 984cb93a386Sopenharmony_ci SkASSERT(caps.supportsDynamicMSAA(proxy->asRenderTargetProxy())); 985cb93a386Sopenharmony_ci } 986cb93a386Sopenharmony_ci#endif 987cb93a386Sopenharmony_ci 988cb93a386Sopenharmony_ci if (!op->bounds().isFinite()) { 989cb93a386Sopenharmony_ci return; 990cb93a386Sopenharmony_ci } 991cb93a386Sopenharmony_ci 992cb93a386Sopenharmony_ci fUsesMSAASurface |= usesMSAA; 993cb93a386Sopenharmony_ci 994cb93a386Sopenharmony_ci // Account for this op's bounds before we attempt to combine. 995cb93a386Sopenharmony_ci // NOTE: The caller should have already called "op->setClippedBounds()" by now, if applicable. 996cb93a386Sopenharmony_ci fTotalBounds.join(op->bounds()); 997cb93a386Sopenharmony_ci 998cb93a386Sopenharmony_ci // Check if there is an op we can combine with by linearly searching back until we either 999cb93a386Sopenharmony_ci // 1) check every op 1000cb93a386Sopenharmony_ci // 2) intersect with something 1001cb93a386Sopenharmony_ci // 3) find a 'blocker' 1002cb93a386Sopenharmony_ci GR_AUDIT_TRAIL_ADD_OP(fAuditTrail, op.get(), proxy->uniqueID()); 1003cb93a386Sopenharmony_ci GrOP_INFO("opsTask: %d Recording (%s, opID: %u)\n" 1004cb93a386Sopenharmony_ci "\tBounds [L: %.2f, T: %.2f R: %.2f B: %.2f]\n", 1005cb93a386Sopenharmony_ci this->uniqueID(), 1006cb93a386Sopenharmony_ci op->name(), 1007cb93a386Sopenharmony_ci op->uniqueID(), 1008cb93a386Sopenharmony_ci op->bounds().fLeft, op->bounds().fTop, 1009cb93a386Sopenharmony_ci op->bounds().fRight, op->bounds().fBottom); 1010cb93a386Sopenharmony_ci GrOP_INFO(SkTabString(op->dumpInfo(), 1).c_str()); 1011cb93a386Sopenharmony_ci GrOP_INFO("\tOutcome:\n"); 1012cb93a386Sopenharmony_ci int maxCandidates = std::min(kMaxOpChainDistance, fOpChains.count()); 1013cb93a386Sopenharmony_ci if (maxCandidates) { 1014cb93a386Sopenharmony_ci int i = 0; 1015cb93a386Sopenharmony_ci while (true) { 1016cb93a386Sopenharmony_ci OpChain& candidate = fOpChains.fromBack(i); 1017cb93a386Sopenharmony_ci op = candidate.appendOp(std::move(op), processorAnalysis, dstProxyView, clip, caps, 1018cb93a386Sopenharmony_ci fArenas->arenaAlloc(), fAuditTrail); 1019cb93a386Sopenharmony_ci if (!op) { 1020cb93a386Sopenharmony_ci return; 1021cb93a386Sopenharmony_ci } 1022cb93a386Sopenharmony_ci // Stop going backwards if we would cause a painter's order violation. 1023cb93a386Sopenharmony_ci if (!can_reorder(candidate.bounds(), op->bounds())) { 1024cb93a386Sopenharmony_ci GrOP_INFO("\t\tBackward: Intersects with chain (%s, head opID: %u)\n", 1025cb93a386Sopenharmony_ci candidate.head()->name(), candidate.head()->uniqueID()); 1026cb93a386Sopenharmony_ci break; 1027cb93a386Sopenharmony_ci } 1028cb93a386Sopenharmony_ci if (++i == maxCandidates) { 1029cb93a386Sopenharmony_ci GrOP_INFO("\t\tBackward: Reached max lookback or beginning of op array %d\n", i); 1030cb93a386Sopenharmony_ci break; 1031cb93a386Sopenharmony_ci } 1032cb93a386Sopenharmony_ci } 1033cb93a386Sopenharmony_ci } else { 1034cb93a386Sopenharmony_ci GrOP_INFO("\t\tBackward: FirstOp\n"); 1035cb93a386Sopenharmony_ci } 1036cb93a386Sopenharmony_ci if (clip) { 1037cb93a386Sopenharmony_ci clip = fArenas->arenaAlloc()->make<GrAppliedClip>(std::move(*clip)); 1038cb93a386Sopenharmony_ci SkDEBUGCODE(fNumClips++;) 1039cb93a386Sopenharmony_ci } 1040cb93a386Sopenharmony_ci fOpChains.emplace_back(std::move(op), processorAnalysis, clip, dstProxyView); 1041cb93a386Sopenharmony_ci} 1042cb93a386Sopenharmony_ci 1043cb93a386Sopenharmony_civoid OpsTask::forwardCombine(const GrCaps& caps) { 1044cb93a386Sopenharmony_ci SkASSERT(!this->isClosed()); 1045cb93a386Sopenharmony_ci GrOP_INFO("opsTask: %d ForwardCombine %d ops:\n", this->uniqueID(), fOpChains.count()); 1046cb93a386Sopenharmony_ci 1047cb93a386Sopenharmony_ci for (int i = 0; i < fOpChains.count() - 1; ++i) { 1048cb93a386Sopenharmony_ci OpChain& chain = fOpChains[i]; 1049cb93a386Sopenharmony_ci int maxCandidateIdx = std::min(i + kMaxOpChainDistance, fOpChains.count() - 1); 1050cb93a386Sopenharmony_ci int j = i + 1; 1051cb93a386Sopenharmony_ci while (true) { 1052cb93a386Sopenharmony_ci OpChain& candidate = fOpChains[j]; 1053cb93a386Sopenharmony_ci if (candidate.prependChain(&chain, caps, fArenas->arenaAlloc(), fAuditTrail)) { 1054cb93a386Sopenharmony_ci break; 1055cb93a386Sopenharmony_ci } 1056cb93a386Sopenharmony_ci // Stop traversing if we would cause a painter's order violation. 1057cb93a386Sopenharmony_ci if (!can_reorder(chain.bounds(), candidate.bounds())) { 1058cb93a386Sopenharmony_ci GrOP_INFO( 1059cb93a386Sopenharmony_ci "\t\t%d: chain (%s head opID: %u) -> " 1060cb93a386Sopenharmony_ci "Intersects with chain (%s, head opID: %u)\n", 1061cb93a386Sopenharmony_ci i, chain.head()->name(), chain.head()->uniqueID(), candidate.head()->name(), 1062cb93a386Sopenharmony_ci candidate.head()->uniqueID()); 1063cb93a386Sopenharmony_ci break; 1064cb93a386Sopenharmony_ci } 1065cb93a386Sopenharmony_ci if (++j > maxCandidateIdx) { 1066cb93a386Sopenharmony_ci GrOP_INFO("\t\t%d: chain (%s opID: %u) -> Reached max lookahead or end of array\n", 1067cb93a386Sopenharmony_ci i, chain.head()->name(), chain.head()->uniqueID()); 1068cb93a386Sopenharmony_ci break; 1069cb93a386Sopenharmony_ci } 1070cb93a386Sopenharmony_ci } 1071cb93a386Sopenharmony_ci } 1072cb93a386Sopenharmony_ci} 1073cb93a386Sopenharmony_ci 1074cb93a386Sopenharmony_ciGrRenderTask::ExpectedOutcome OpsTask::onMakeClosed(GrRecordingContext* rContext, 1075cb93a386Sopenharmony_ci SkIRect* targetUpdateBounds) { 1076cb93a386Sopenharmony_ci this->forwardCombine(*rContext->priv().caps()); 1077cb93a386Sopenharmony_ci if (!this->isColorNoOp()) { 1078cb93a386Sopenharmony_ci GrSurfaceProxy* proxy = this->target(0); 1079cb93a386Sopenharmony_ci // Use the entire backing store bounds since the GPU doesn't clip automatically to the 1080cb93a386Sopenharmony_ci // logical dimensions. 1081cb93a386Sopenharmony_ci SkRect clippedContentBounds = proxy->backingStoreBoundsRect(); 1082cb93a386Sopenharmony_ci // TODO: If we can fix up GLPrograms test to always intersect the target proxy bounds 1083cb93a386Sopenharmony_ci // then we can simply assert here that the bounds intersect. 1084cb93a386Sopenharmony_ci if (clippedContentBounds.intersect(fTotalBounds)) { 1085cb93a386Sopenharmony_ci clippedContentBounds.roundOut(&fClippedContentBounds); 1086cb93a386Sopenharmony_ci *targetUpdateBounds = GrNativeRect::MakeIRectRelativeTo( 1087cb93a386Sopenharmony_ci fTargetOrigin, 1088cb93a386Sopenharmony_ci this->target(0)->backingStoreDimensions().height(), 1089cb93a386Sopenharmony_ci fClippedContentBounds); 1090cb93a386Sopenharmony_ci return ExpectedOutcome::kTargetDirty; 1091cb93a386Sopenharmony_ci } 1092cb93a386Sopenharmony_ci } 1093cb93a386Sopenharmony_ci return ExpectedOutcome::kTargetUnchanged; 1094cb93a386Sopenharmony_ci} 1095cb93a386Sopenharmony_ci 1096cb93a386Sopenharmony_ci} // namespace skgpu::v1 1097