/* * Copyright 2015 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrReorderCommandBuilder.h" template static bool intersect(const Left& a, const Right& b) { SkASSERT(a.fLeft <= a.fRight && a.fTop <= a.fBottom && b.fLeft <= b.fRight && b.fTop <= b.fBottom); return a.fLeft < b.fRight && b.fLeft < a.fRight && a.fTop < b.fBottom && b.fTop < a.fBottom; } GrTargetCommands::Cmd* GrReorderCommandBuilder::recordDrawBatch(GrBatch* batch) { // Check if there is a Batch Draw we can batch with by linearly searching back until we either // 1) check every draw // 2) intersect with something // 3) find a 'blocker' // Experimentally we have found that most batching occurs within the first 10 comparisons. static const int kMaxLookback = 10; int i = 0; GrRenderTarget* rt = batch->pipeline()->getRenderTarget(); GrBATCH_INFO("Re-Recording (%s, B%u)\n" "\tRenderTarget %p\n" "\tBounds (%f, %f, %f, %f)\n", batch->name(), batch->uniqueID(), rt, batch->bounds().fLeft, batch->bounds().fRight, batch->bounds().fTop, batch->bounds().fBottom); if (GR_BATCH_SPEW) { SkDebugf("\tColorStages:\n"); for (int i = 0; i < batch->pipeline()->numColorFragmentStages(); i++) { SkDebugf("\t\t%s\n", batch->pipeline()->getColorStage(i).processor()->name()); } SkDebugf("\tCoverageStages:\n"); for (int i = 0; i < batch->pipeline()->numCoverageFragmentStages(); i++) { SkDebugf("\t\t%s\n", batch->pipeline()->getCoverageStage(i).processor()->name()); } SkDebugf("\tXP: %s\n", batch->pipeline()->getXferProcessor()->name()); } GrBATCH_INFO("\tOutcome:\n"); if (!this->cmdBuffer()->empty()) { GrTargetCommands::CmdBuffer::ReverseIter reverseIter(*this->cmdBuffer()); do { if (Cmd::kDrawBatch_CmdType == reverseIter->type()) { DrawBatch* previous = static_cast(reverseIter.get()); if (previous->batch()->pipeline()->getRenderTarget() != rt) { GrBATCH_INFO("\t\tBreaking because of (%s, B%u) Rendertarget\n", previous->fBatch->name(), previous->fBatch->uniqueID()); break; } // We cannot continue to search backwards if the render target changes if (previous->batch()->combineIfPossible(batch)) { GrBATCH_INFO("\t\tCombining with (%s, B%u)\n", previous->fBatch->name(), previous->fBatch->uniqueID()); return NULL; } if (intersect(previous->batch()->bounds(), batch->bounds())) { GrBATCH_INFO("\t\tIntersects with (%s, B%u)\n", previous->fBatch->name(), previous->fBatch->uniqueID()); break; } } else if (Cmd::kClear_CmdType == reverseIter->type()) { Clear* previous = static_cast(reverseIter.get()); // We cannot continue to search backwards if the render target changes if (previous->renderTarget() != rt) { GrBATCH_INFO("\t\tBreaking because of Clear's Rendertarget change\n"); break; } // We set the color to illegal if we are doing a discard. if (previous->fColor == GrColor_ILLEGAL || intersect(batch->bounds(), previous->fRect)) { GrBATCH_INFO("\t\tBreaking because of Clear intersection\n"); break; } } else { GrBATCH_INFO("\t\tBreaking because of other %08x\n", reverseIter->type()); // TODO temporary until we can navigate the other types of commands break; } } while (reverseIter.previous() && ++i < kMaxLookback); #if GR_BATCH_SPEW if (!reverseIter.get()) { GrBATCH_INFO("\t\tNo more commands to try and batch with\n"); } else if (i >= kMaxLookback) { GrBATCH_INFO("\t\tReached max lookback %d\n", i); } #endif } #if GR_BATCH_SPEW else { GrBATCH_INFO("\t\tBreaking because empty command buffer\n"); } #endif return GrNEW_APPEND_TO_RECORDER(*this->cmdBuffer(), DrawBatch, (batch, this->batchTarget())); }