/* * Copyright 2015 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef GrOpFlushState_DEFINED #define GrOpFlushState_DEFINED #include "GrBufferAllocPool.h" #include "SkArenaAlloc.h" #include "ops/GrMeshDrawOp.h" class GrGpu; class GrGpuCommandBuffer; class GrResourceProvider; /** Tracks the state across all the GrOps (really just the GrDrawOps) in a GrOpList flush. */ class GrOpFlushState { public: GrOpFlushState(GrGpu*, GrResourceProvider*); ~GrOpFlushState() { this->reset(); } /** Inserts an upload to be executed after all ops in the flush prepared their draws but before the draws are executed to the backend 3D API. */ void addASAPUpload(GrDrawOp::DeferredUploadFn&& upload) { fAsapUploads.emplace_back(std::move(upload)); } const GrCaps& caps() const; GrResourceProvider* resourceProvider() const { return fResourceProvider; } /** Has the token been flushed to the backend 3D API. */ bool hasDrawBeenFlushed(GrDrawOpUploadToken token) const { return token.fSequenceNumber <= fLastFlushedToken.fSequenceNumber; } /** Issue a token to an operation that is being enqueued. */ GrDrawOpUploadToken issueDrawToken() { return GrDrawOpUploadToken(++fLastIssuedToken.fSequenceNumber); } /** Call every time a draw that was issued a token is flushed */ void flushToken() { ++fLastFlushedToken.fSequenceNumber; } /** Gets the next draw token that will be issued. */ GrDrawOpUploadToken nextDrawToken() const { return GrDrawOpUploadToken(fLastIssuedToken.fSequenceNumber + 1); } /** The last token flushed to all the way to the backend API. */ GrDrawOpUploadToken nextTokenToFlush() const { return GrDrawOpUploadToken(fLastFlushedToken.fSequenceNumber + 1); } void* makeVertexSpace(size_t vertexSize, int vertexCount, const GrBuffer** buffer, int* startVertex); uint16_t* makeIndexSpace(int indexCount, const GrBuffer** buffer, int* startIndex); void* makeVertexSpaceAtLeast(size_t vertexSize, int minVertexCount, int fallbackVertexCount, const GrBuffer** buffer, int* startVertex, int* actualVertexCount); uint16_t* makeIndexSpaceAtLeast(int minIndexCount, int fallbackIndexCount, const GrBuffer** buffer, int* startIndex, int* actualIndexCount); /** This is called after each op has a chance to prepare its draws and before the draws are issued. */ void preIssueDraws() { fVertexPool.unmap(); fIndexPool.unmap(); int uploadCount = fAsapUploads.count(); for (int i = 0; i < uploadCount; i++) { this->doUpload(fAsapUploads[i]); } fAsapUploads.reset(); } void doUpload(GrDrawOp::DeferredUploadFn&); void putBackIndices(size_t indices) { fIndexPool.putBack(indices * sizeof(uint16_t)); } void putBackVertexSpace(size_t sizeInBytes) { fVertexPool.putBack(sizeInBytes); } GrGpuCommandBuffer* commandBuffer() { return fCommandBuffer; } void setCommandBuffer(GrGpuCommandBuffer* buffer) { fCommandBuffer = buffer; } GrGpu* gpu() { return fGpu; } void reset() { fVertexPool.reset(); fIndexPool.reset(); fPipelines.reset(); } /** Additional data required on a per-op basis when executing GrDrawOps. */ struct DrawOpArgs { GrRenderTarget* fRenderTarget; const GrAppliedClip* fAppliedClip; GrXferProcessor::DstProxy fDstProxy; }; void setDrawOpArgs(DrawOpArgs* opArgs) { fOpArgs = opArgs; } const DrawOpArgs& drawOpArgs() const { SkASSERT(fOpArgs); return *fOpArgs; } template GrPipeline* allocPipeline(Args... args) { return fPipelines.make(std::forward(args)...); } private: GrGpu* fGpu; GrResourceProvider* fResourceProvider; GrGpuCommandBuffer* fCommandBuffer; GrVertexBufferAllocPool fVertexPool; GrIndexBufferAllocPool fIndexPool; SkSTArray<4, GrDrawOp::DeferredUploadFn> fAsapUploads; GrDrawOpUploadToken fLastIssuedToken; GrDrawOpUploadToken fLastFlushedToken; DrawOpArgs* fOpArgs; SkArenaAlloc fPipelines{sizeof(GrPipeline) * 100}; }; /** * A word about uploads and tokens: Ops should usually schedule their uploads to occur at the * begining of a frame whenever possible. These are called ASAP uploads. Of course, this requires * that there are no draws that have yet to be flushed that rely on the old texture contents. In * that case the ASAP upload would happen prior to the previous draw causing the draw to read the * new (wrong) texture data. In that case they should schedule an inline upload. * * Ops, in conjunction with helpers such as GrDrawOpAtlas, can use the token system to know * what the most recent draw was that referenced a resource (or portion of a resource). Each draw * is assigned a token. A resource (or portion) can be tagged with the most recent draw's * token. The target provides a facility for testing whether the draw corresponding to the token * has been flushed. If it has not been flushed then the op must perform an inline upload instead. * When scheduling an inline upload the op provides the token of the draw that the upload must occur * before. The upload will then occur between the draw that requires the new data but after the * token that requires the old data. * * TODO: Currently the token/upload interface is spread over GrDrawOp, GrMeshDrawOp, * GrDrawOp::Target, and GrMeshDrawOp::Target. However, the interface at the GrDrawOp level is not * complete and isn't useful. We should push it down to GrMeshDrawOp until it is required at the * GrDrawOp level. */ /** * GrDrawOp instances use this object to allocate space for their geometry and to issue the draws * that render their op. */ class GrDrawOp::Target { public: Target(GrOpFlushState* state, GrDrawOp* op) : fState(state), fOp(op) {} /** Returns the token of the draw that this upload will occur before. */ GrDrawOpUploadToken addInlineUpload(DeferredUploadFn&& upload) { fOp->fInlineUploads.emplace_back(std::move(upload), fState->nextDrawToken()); return fOp->fInlineUploads.back().fUploadBeforeToken; } /** Returns the token of the draw that this upload will occur before. Since ASAP uploads are done first during a flush, this will be the first token since the most recent flush. */ GrDrawOpUploadToken addAsapUpload(DeferredUploadFn&& upload) { fState->addASAPUpload(std::move(upload)); return fState->nextTokenToFlush(); } bool hasDrawBeenFlushed(GrDrawOpUploadToken token) const { return fState->hasDrawBeenFlushed(token); } /** Gets the next draw token that will be issued by this target. This can be used by an op to record that the next draw it issues will use a resource (e.g. texture) while preparing that draw. */ GrDrawOpUploadToken nextDrawToken() const { return fState->nextDrawToken(); } const GrCaps& caps() const { return fState->caps(); } GrResourceProvider* resourceProvider() const { return fState->resourceProvider(); } protected: GrDrawOp* op() { return fOp; } GrOpFlushState* state() { return fState; } const GrOpFlushState* state() const { return fState; } private: GrOpFlushState* fState; GrDrawOp* fOp; }; /** Extension of GrDrawOp::Target for use by GrMeshDrawOp. Adds the ability to create vertex draws. */ class GrMeshDrawOp::Target : public GrDrawOp::Target { public: Target(GrOpFlushState* state, GrMeshDrawOp* op) : INHERITED(state, op) {} void draw(const GrGeometryProcessor* gp, const GrPipeline* pipeline, const GrMesh& mesh); void* makeVertexSpace(size_t vertexSize, int vertexCount, const GrBuffer** buffer, int* startVertex) { return this->state()->makeVertexSpace(vertexSize, vertexCount, buffer, startVertex); } uint16_t* makeIndexSpace(int indexCount, const GrBuffer** buffer, int* startIndex) { return this->state()->makeIndexSpace(indexCount, buffer, startIndex); } void* makeVertexSpaceAtLeast(size_t vertexSize, int minVertexCount, int fallbackVertexCount, const GrBuffer** buffer, int* startVertex, int* actualVertexCount) { return this->state()->makeVertexSpaceAtLeast(vertexSize, minVertexCount, fallbackVertexCount, buffer, startVertex, actualVertexCount); } uint16_t* makeIndexSpaceAtLeast(int minIndexCount, int fallbackIndexCount, const GrBuffer** buffer, int* startIndex, int* actualIndexCount) { return this->state()->makeIndexSpaceAtLeast(minIndexCount, fallbackIndexCount, buffer, startIndex, actualIndexCount); } /** Helpers for ops which over-allocate and then return data to the pool. */ void putBackIndices(int indices) { this->state()->putBackIndices(indices); } void putBackVertices(int vertices, size_t vertexStride) { this->state()->putBackVertexSpace(vertices * vertexStride); } GrRenderTarget* renderTarget() const { return this->state()->drawOpArgs().fRenderTarget; } const GrAppliedClip* clip() const { return this->state()->drawOpArgs().fAppliedClip; } const GrXferProcessor::DstProxy& dstProxy() const { return this->state()->drawOpArgs().fDstProxy; } template GrPipeline* allocPipeline(Args... args) { return this->state()->allocPipeline(std::forward(args)...); } private: GrMeshDrawOp* meshDrawOp() { return static_cast(this->op()); } typedef GrDrawOp::Target INHERITED; }; #endif