src/gpu/batches/GrVertexBatch.cpp - skia - Git at Google

 /*
  * 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 "GrVertexBatch.h"
 #include "GrBatchFlushState.h"
 #include "GrResourceProvider.h"

 GrVertexBatch::GrVertexBatch(uint32_t classID)
     : INHERITED(classID)
     , fBaseDrawToken(GrBatchDrawToken::AlreadyFlushedToken()) {
 }

 void GrVertexBatch::onPrepare(GrBatchFlushState* state) {
     Target target(state, this);
     this->onPrepareDraws(&target);
 }

 void* GrVertexBatch::InstancedHelper::init(Target* target, GrPrimitiveType primType,
                                            size_t vertexStride, const GrBuffer* indexBuffer,
                                            int verticesPerInstance, int indicesPerInstance,
                                            int instancesToDraw) {
     SkASSERT(target);
     if (!indexBuffer) {
         return nullptr;
     }
     const GrBuffer* vertexBuffer;
     int firstVertex;
     int vertexCount = verticesPerInstance * instancesToDraw;
     void* vertices = target->makeVertexSpace(vertexStride, vertexCount, &vertexBuffer, &firstVertex);
     if (!vertices) {
         SkDebugf("Vertices could not be allocated for instanced rendering.");
         return nullptr;
     }
     SkASSERT(vertexBuffer);
     size_t ibSize = indexBuffer->gpuMemorySize();
     int maxInstancesPerDraw = static_cast<int>(ibSize / (sizeof(uint16_t) * indicesPerInstance));

     fMesh.initInstanced(primType, vertexBuffer, indexBuffer,
         firstVertex, verticesPerInstance, indicesPerInstance, instancesToDraw,
         maxInstancesPerDraw);
     return vertices;
 }

 void GrVertexBatch::InstancedHelper::recordDraw(Target* target, const GrGeometryProcessor* gp) {
     SkASSERT(fMesh.instanceCount());
     target->draw(gp, fMesh);
 }

 void* GrVertexBatch::QuadHelper::init(Target* target, size_t vertexStride,
                                       int quadsToDraw) {
     sk_sp<const GrBuffer> quadIndexBuffer(
         target->resourceProvider()->refQuadIndexBuffer());
     if (!quadIndexBuffer) {
         SkDebugf("Could not get quad index buffer.");
         return nullptr;
     }
     return this->INHERITED::init(target, kTriangles_GrPrimitiveType, vertexStride,
                                  quadIndexBuffer.get(), kVerticesPerQuad, kIndicesPerQuad,
                                  quadsToDraw);
 }

 void GrVertexBatch::onDraw(GrBatchFlushState* state, const SkRect& bounds) {
     int currUploadIdx = 0;
     int currMeshIdx = 0;

     SkASSERT(fQueuedDraws.empty() || fBaseDrawToken == state->nextTokenToFlush());

     for (int currDrawIdx = 0; currDrawIdx < fQueuedDraws.count(); ++currDrawIdx) {
         GrBatchDrawToken drawToken = state->nextTokenToFlush();
         while (currUploadIdx < fInlineUploads.count() &&
                fInlineUploads[currUploadIdx].fUploadBeforeToken == drawToken) {
             state->commandBuffer()->inlineUpload(state, fInlineUploads[currUploadIdx++].fUpload);
         }
         const QueuedDraw &draw = fQueuedDraws[currDrawIdx];
         state->commandBuffer()->draw(*this->pipeline(), *draw.fGeometryProcessor.get(),
                                      fMeshes.begin() + currMeshIdx, draw.fMeshCnt, bounds);
         currMeshIdx += draw.fMeshCnt;
         state->flushToken();
     }
     SkASSERT(currUploadIdx == fInlineUploads.count());
     SkASSERT(currMeshIdx == fMeshes.count());
     fQueuedDraws.reset();
     fInlineUploads.reset();
 }

 //////////////////////////////////////////////////////////////////////////////

 void GrVertexBatch::Target::draw(const GrGeometryProcessor* gp, const GrMesh& mesh) {
     GrVertexBatch* batch = this->vertexBatch();
     batch->fMeshes.push_back(mesh);
     if (!batch->fQueuedDraws.empty()) {
         // If the last draw shares a geometry processor and there are no intervening uploads,
         // add this mesh to it.
         GrVertexBatch::QueuedDraw& lastDraw = this->vertexBatch()->fQueuedDraws.back();
         if (lastDraw.fGeometryProcessor == gp &&
             (batch->fInlineUploads.empty() ||
              batch->fInlineUploads.back().fUploadBeforeToken != this->nextDrawToken())) {
             ++lastDraw.fMeshCnt;
             return;
         }
     }
     GrVertexBatch::QueuedDraw& draw = this->vertexBatch()->fQueuedDraws.push_back();
     GrBatchDrawToken token = this->state()->issueDrawToken();
     draw.fGeometryProcessor.reset(gp);
     draw.fMeshCnt = 1;
     if (batch->fQueuedDraws.count() == 1) {
         batch->fBaseDrawToken = token;
     }
 }
	/*
	* 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 "GrVertexBatch.h"
	#include "GrBatchFlushState.h"
	#include "GrResourceProvider.h"

	GrVertexBatch::GrVertexBatch(uint32_t classID)
	: INHERITED(classID)
	, fBaseDrawToken(GrBatchDrawToken::AlreadyFlushedToken()) {
	}

	void GrVertexBatch::onPrepare(GrBatchFlushState* state) {
	Target target(state, this);
	this->onPrepareDraws(&target);
	}

	void* GrVertexBatch::InstancedHelper::init(Target* target, GrPrimitiveType primType,
	size_t vertexStride, const GrBuffer* indexBuffer,
	int verticesPerInstance, int indicesPerInstance,
	int instancesToDraw) {
	SkASSERT(target);
	if (!indexBuffer) {
	return nullptr;
	}
	const GrBuffer* vertexBuffer;
	int firstVertex;
	int vertexCount = verticesPerInstance * instancesToDraw;
	void* vertices = target->makeVertexSpace(vertexStride, vertexCount, &vertexBuffer, &firstVertex);
	if (!vertices) {
	SkDebugf("Vertices could not be allocated for instanced rendering.");
	return nullptr;
	}
	SkASSERT(vertexBuffer);
	size_t ibSize = indexBuffer->gpuMemorySize();
	int maxInstancesPerDraw = static_cast<int>(ibSize / (sizeof(uint16_t) * indicesPerInstance));

	fMesh.initInstanced(primType, vertexBuffer, indexBuffer,
	firstVertex, verticesPerInstance, indicesPerInstance, instancesToDraw,
	maxInstancesPerDraw);
	return vertices;
	}

	void GrVertexBatch::InstancedHelper::recordDraw(Target* target, const GrGeometryProcessor* gp) {
	SkASSERT(fMesh.instanceCount());
	target->draw(gp, fMesh);
	}

	void* GrVertexBatch::QuadHelper::init(Target* target, size_t vertexStride,
	int quadsToDraw) {
	sk_sp<const GrBuffer> quadIndexBuffer(
	target->resourceProvider()->refQuadIndexBuffer());
	if (!quadIndexBuffer) {
	SkDebugf("Could not get quad index buffer.");
	return nullptr;
	}
	return this->INHERITED::init(target, kTriangles_GrPrimitiveType, vertexStride,
	quadIndexBuffer.get(), kVerticesPerQuad, kIndicesPerQuad,
	quadsToDraw);
	}

	void GrVertexBatch::onDraw(GrBatchFlushState* state, const SkRect& bounds) {
	int currUploadIdx = 0;
	int currMeshIdx = 0;

	SkASSERT(fQueuedDraws.empty() \|\| fBaseDrawToken == state->nextTokenToFlush());

	for (int currDrawIdx = 0; currDrawIdx < fQueuedDraws.count(); ++currDrawIdx) {
	GrBatchDrawToken drawToken = state->nextTokenToFlush();
	while (currUploadIdx < fInlineUploads.count() &&
	fInlineUploads[currUploadIdx].fUploadBeforeToken == drawToken) {
	state->commandBuffer()->inlineUpload(state, fInlineUploads[currUploadIdx++].fUpload);
	}
	const QueuedDraw &draw = fQueuedDraws[currDrawIdx];
	state->commandBuffer()->draw(this->pipeline(), draw.fGeometryProcessor.get(),
	fMeshes.begin() + currMeshIdx, draw.fMeshCnt, bounds);
	currMeshIdx += draw.fMeshCnt;
	state->flushToken();
	}
	SkASSERT(currUploadIdx == fInlineUploads.count());
	SkASSERT(currMeshIdx == fMeshes.count());
	fQueuedDraws.reset();
	fInlineUploads.reset();
	}

	//////////////////////////////////////////////////////////////////////////////

	void GrVertexBatch::Target::draw(const GrGeometryProcessor* gp, const GrMesh& mesh) {
	GrVertexBatch* batch = this->vertexBatch();
	batch->fMeshes.push_back(mesh);
	if (!batch->fQueuedDraws.empty()) {
	// If the last draw shares a geometry processor and there are no intervening uploads,
	// add this mesh to it.
	GrVertexBatch::QueuedDraw& lastDraw = this->vertexBatch()->fQueuedDraws.back();
	if (lastDraw.fGeometryProcessor == gp &&
	(batch->fInlineUploads.empty() \|\|
	batch->fInlineUploads.back().fUploadBeforeToken != this->nextDrawToken())) {
	++lastDraw.fMeshCnt;
	return;
	}
	}
	GrVertexBatch::QueuedDraw& draw = this->vertexBatch()->fQueuedDraws.push_back();
	GrBatchDrawToken token = this->state()->issueDrawToken();
	draw.fGeometryProcessor.reset(gp);
	draw.fMeshCnt = 1;
	if (batch->fQueuedDraws.count() == 1) {
	batch->fBaseDrawToken = token;
	}
	}