/* * Copyright 2010 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrRenderTargetOpList.h" #include "GrAuditTrail.h" #include "GrCaps.h" #include "GrGpu.h" #include "GrGpuCommandBuffer.h" #include "GrRect.h" #include "GrRenderTarget.h" #include "GrRenderTargetContext.h" #include "GrResourceProvider.h" #include "instanced/InstancedRendering.h" #include "ops/GrClearOp.h" #include "ops/GrCopySurfaceOp.h" using gr_instanced::InstancedRendering; //////////////////////////////////////////////////////////////////////////////// // Experimentally we have found that most combining occurs within the first 10 comparisons. static const int kMaxOpLookback = 10; static const int kMaxOpLookahead = 10; GrRenderTargetOpList::GrRenderTargetOpList(GrRenderTargetProxy* proxy, GrGpu* gpu, GrAuditTrail* auditTrail) : INHERITED(gpu->getContext()->resourceProvider(), proxy, auditTrail) , fLastClipStackGenID(SK_InvalidUniqueID) SkDEBUGCODE(, fNumClips(0)) { if (GrCaps::InstancedSupport::kNone != gpu->caps()->instancedSupport()) { fInstancedRendering.reset(gpu->createInstancedRendering()); } } GrRenderTargetOpList::~GrRenderTargetOpList() { } //////////////////////////////////////////////////////////////////////////////// #ifdef SK_DEBUG void GrRenderTargetOpList::dump() const { INHERITED::dump(); SkDebugf("ops (%d):\n", fRecordedOps.count()); for (int i = 0; i < fRecordedOps.count(); ++i) { SkDebugf("*******************************\n"); if (!fRecordedOps[i].fOp) { SkDebugf("%d: \n", i); } else { SkDebugf("%d: %s\n", i, fRecordedOps[i].fOp->name()); SkString str = fRecordedOps[i].fOp->dumpInfo(); SkDebugf("%s\n", str.c_str()); const SkRect& bounds = fRecordedOps[i].fOp->bounds(); SkDebugf("ClippedBounds: [L: %.2f, T: %.2f, R: %.2f, B: %.2f]\n", bounds.fLeft, bounds.fTop, bounds.fRight, bounds.fBottom); } } } #endif void GrRenderTargetOpList::prepareOps(GrOpFlushState* flushState) { SkASSERT(fTarget.get()->priv().peekRenderTarget()); SkASSERT(this->isClosed()); // Loop over the ops that haven't yet been prepared. for (int i = 0; i < fRecordedOps.count(); ++i) { if (fRecordedOps[i].fOp) { GrOpFlushState::DrawOpArgs opArgs = { fTarget.get()->priv().peekRenderTarget(), fRecordedOps[i].fAppliedClip, fRecordedOps[i].fDstProxy }; flushState->setDrawOpArgs(&opArgs); fRecordedOps[i].fOp->prepare(flushState); flushState->setDrawOpArgs(nullptr); } } if (fInstancedRendering) { fInstancedRendering->beginFlush(flushState->resourceProvider()); } } static std::unique_ptr create_command_buffer(GrGpu* gpu) { static const GrGpuCommandBuffer::LoadAndStoreInfo kBasicLoadStoreInfo { GrGpuCommandBuffer::LoadOp::kLoad, GrGpuCommandBuffer::StoreOp::kStore, GrColor_ILLEGAL }; std::unique_ptr buffer( gpu->createCommandBuffer(kBasicLoadStoreInfo, // Color kBasicLoadStoreInfo)); // Stencil return buffer; } static inline void finish_command_buffer(GrGpuCommandBuffer* buffer) { if (!buffer) { return; } buffer->end(); buffer->submit(); } // TODO: this is where GrOp::renderTarget is used (which is fine since it // is at flush time). However, we need to store the RenderTargetProxy in the // Ops and instantiate them here. bool GrRenderTargetOpList::executeOps(GrOpFlushState* flushState) { if (0 == fRecordedOps.count()) { return false; } SkASSERT(fTarget.get()->priv().peekRenderTarget()); std::unique_ptr commandBuffer = create_command_buffer(flushState->gpu()); flushState->setCommandBuffer(commandBuffer.get()); // Draw all the generated geometry. for (int i = 0; i < fRecordedOps.count(); ++i) { if (!fRecordedOps[i].fOp) { continue; } if (fRecordedOps[i].fOp->needsCommandBufferIsolation()) { // This op is a special snowflake and must occur between command buffers // TODO: make this go through the command buffer finish_command_buffer(commandBuffer.get()); commandBuffer.reset(); flushState->setCommandBuffer(commandBuffer.get()); } else if (!commandBuffer) { commandBuffer = create_command_buffer(flushState->gpu()); flushState->setCommandBuffer(commandBuffer.get()); } GrOpFlushState::DrawOpArgs opArgs { fTarget.get()->priv().peekRenderTarget(), fRecordedOps[i].fAppliedClip, fRecordedOps[i].fDstProxy }; flushState->setDrawOpArgs(&opArgs); fRecordedOps[i].fOp->execute(flushState); flushState->setDrawOpArgs(nullptr); } finish_command_buffer(commandBuffer.get()); flushState->setCommandBuffer(nullptr); return true; } void GrRenderTargetOpList::reset() { fLastFullClearOp = nullptr; fLastClipStackGenID = SK_InvalidUniqueID; fRecordedOps.reset(); if (fInstancedRendering) { fInstancedRendering->endFlush(); fInstancedRendering = nullptr; } INHERITED::reset(); } void GrRenderTargetOpList::abandonGpuResources() { if (fInstancedRendering) { fInstancedRendering->resetGpuResources(InstancedRendering::ResetType::kAbandon); } } void GrRenderTargetOpList::freeGpuResources() { if (fInstancedRendering) { fInstancedRendering->resetGpuResources(InstancedRendering::ResetType::kDestroy); } } void GrRenderTargetOpList::fullClear(const GrCaps& caps, GrColor color) { // Currently this just inserts or updates the last clear op. However, once in MDB this can // remove all the previously recorded ops and change the load op to clear with supplied // color. if (fLastFullClearOp) { // As currently implemented, fLastFullClearOp should be the last op because we would // have cleared it when another op was recorded. SkASSERT(fRecordedOps.back().fOp.get() == fLastFullClearOp); GrOP_INFO("opList: %d Fusing clears (opID: %d Color: 0x%08x -> 0x%08x)\n", this->uniqueID(), fLastFullClearOp->uniqueID(), fLastFullClearOp->color(), color); fLastFullClearOp->setColor(color); return; } std::unique_ptr op(GrClearOp::Make(GrFixedClip::Disabled(), color, fTarget.get())); if (!op) { return; } if (GrOp* clearOp = this->recordOp(std::move(op), caps)) { // This is either the clear op we just created or another one that it combined with. fLastFullClearOp = static_cast(clearOp); } } //////////////////////////////////////////////////////////////////////////////// // MDB TODO: fuse with GrTextureOpList::copySurface bool GrRenderTargetOpList::copySurface(const GrCaps& caps, GrSurfaceProxy* dst, GrSurfaceProxy* src, const SkIRect& srcRect, const SkIPoint& dstPoint) { SkASSERT(dst->asRenderTargetProxy() == fTarget.get()); std::unique_ptr op = GrCopySurfaceOp::Make(dst, src, srcRect, dstPoint); if (!op) { return false; } #ifdef ENABLE_MDB this->addDependency(src); #endif this->recordOp(std::move(op), caps); return true; } static inline bool can_reorder(const SkRect& a, const SkRect& b) { return !GrRectsOverlap(a, b); } bool GrRenderTargetOpList::combineIfPossible(const RecordedOp& a, GrOp* b, const GrAppliedClip* bClip, const DstProxy* bDstProxy, const GrCaps& caps) { if (a.fAppliedClip) { if (!bClip) { return false; } if (*a.fAppliedClip != *bClip) { return false; } } else if (bClip) { return false; } if (bDstProxy) { if (a.fDstProxy != *bDstProxy) { return false; } } else if (a.fDstProxy.proxy()) { return false; } return a.fOp->combineIfPossible(b, caps); } GrOp* GrRenderTargetOpList::recordOp(std::unique_ptr op, const GrCaps& caps, GrAppliedClip* clip, const DstProxy* dstProxy) { SkASSERT(fTarget.get()); // A closed GrOpList should never receive new/more ops SkASSERT(!this->isClosed()); // Check if there is an op we can combine with by linearly searching back until we either // 1) check every op // 2) intersect with something // 3) find a 'blocker' GR_AUDIT_TRAIL_ADD_OP(fAuditTrail, op.get(), fTarget.get()->uniqueID()); GrOP_INFO("opList: %d Recording (%s, opID: %u)\n" "\tBounds [L: %.2f, T: %.2f R: %.2f B: %.2f]\n", this->uniqueID(), op->name(), op->uniqueID(), op->bounds().fLeft, op->bounds().fTop, op->bounds().fRight, op->bounds().fBottom); GrOP_INFO(SkTabString(op->dumpInfo(), 1).c_str()); GrOP_INFO("\tOutcome:\n"); int maxCandidates = SkTMin(kMaxOpLookback, fRecordedOps.count()); // If we don't have a valid destination render target then we cannot reorder. if (maxCandidates) { int i = 0; while (true) { const RecordedOp& candidate = fRecordedOps.fromBack(i); if (this->combineIfPossible(candidate, op.get(), clip, dstProxy, caps)) { GrOP_INFO("\t\tBackward: Combining with (%s, opID: %u)\n", candidate.fOp->name(), candidate.fOp->uniqueID()); GrOP_INFO("\t\t\tBackward: Combined op info:\n"); GrOP_INFO(SkTabString(candidate.fOp->dumpInfo(), 4).c_str()); GR_AUDIT_TRAIL_OPS_RESULT_COMBINED(fAuditTrail, candidate.fOp.get(), op.get()); return candidate.fOp.get(); } // Stop going backwards if we would cause a painter's order violation. if (!can_reorder(fRecordedOps.fromBack(i).fOp->bounds(), op->bounds())) { GrOP_INFO("\t\tBackward: Intersects with (%s, opID: %u)\n", candidate.fOp->name(), candidate.fOp->uniqueID()); break; } ++i; if (i == maxCandidates) { GrOP_INFO("\t\tBackward: Reached max lookback or beginning of op array %d\n", i); break; } } } else { GrOP_INFO("\t\tBackward: FirstOp\n"); } GR_AUDIT_TRAIL_OP_RESULT_NEW(fAuditTrail, op); if (clip) { clip = fClipAllocator.make(std::move(*clip)); SkDEBUGCODE(fNumClips++;) } fRecordedOps.emplace_back(std::move(op), clip, dstProxy); fRecordedOps.back().fOp->wasRecorded(this); fLastFullClearOp = nullptr; return fRecordedOps.back().fOp.get(); } void GrRenderTargetOpList::forwardCombine(const GrCaps& caps) { SkASSERT(!this->isClosed()); GrOP_INFO("opList: %d ForwardCombine %d ops:\n", this->uniqueID(), fRecordedOps.count()); for (int i = 0; i < fRecordedOps.count() - 1; ++i) { GrOp* op = fRecordedOps[i].fOp.get(); int maxCandidateIdx = SkTMin(i + kMaxOpLookahead, fRecordedOps.count() - 1); int j = i + 1; while (true) { const RecordedOp& candidate = fRecordedOps[j]; if (this->combineIfPossible(fRecordedOps[i], candidate.fOp.get(), candidate.fAppliedClip, &candidate.fDstProxy, caps)) { GrOP_INFO("\t\t%d: (%s opID: %u) -> Combining with (%s, opID: %u)\n", i, op->name(), op->uniqueID(), candidate.fOp->name(), candidate.fOp->uniqueID()); GR_AUDIT_TRAIL_OPS_RESULT_COMBINED(fAuditTrail, op, candidate.fOp.get()); fRecordedOps[j].fOp = std::move(fRecordedOps[i].fOp); break; } // Stop traversing if we would cause a painter's order violation. if (!can_reorder(fRecordedOps[j].fOp->bounds(), op->bounds())) { GrOP_INFO("\t\t%d: (%s opID: %u) -> Intersects with (%s, opID: %u)\n", i, op->name(), op->uniqueID(), candidate.fOp->name(), candidate.fOp->uniqueID()); break; } ++j; if (j > maxCandidateIdx) { GrOP_INFO("\t\t%d: (%s opID: %u) -> Reached max lookahead or end of array\n", i, op->name(), op->uniqueID()); break; } } } }