示例#1
0
int GrInOrderDrawBuffer::concatInstancedDraw(const DrawInfo& info) {
    GrAssert(info.isInstanced());

    const GeometrySrcState& geomSrc = this->getGeomSrc();
    const GrDrawState& drawState = this->getDrawState();

    // we only attempt to concat the case when reserved verts are used with a client-specified index
    // buffer. To make this work with client-specified VBs we'd need to know if the VB was updated
    // between draws.
    if (kReserved_GeometrySrcType != geomSrc.fVertexSrc ||
        kBuffer_GeometrySrcType != geomSrc.fIndexSrc) {
        return 0;
    }
    // Check if there is a draw info that is compatible that uses the same VB from the pool and
    // the same IB
    if (kDraw_Cmd != fCmds.back()) {
        return 0;
    }

    DrawRecord* draw = &fDraws.back();
    GeometryPoolState& poolState = fGeoPoolStateStack.back();
    const GrVertexBuffer* vertexBuffer = poolState.fPoolVertexBuffer;

    if (!draw->isInstanced() ||
        draw->verticesPerInstance() != info.verticesPerInstance() ||
        draw->indicesPerInstance() != info.indicesPerInstance() ||
        draw->fVertexBuffer != vertexBuffer ||
        draw->fIndexBuffer != geomSrc.fIndexBuffer) {
        return 0;
    }
    // info does not yet account for the offset from the start of the pool's VB while the previous
    // draw record does.
    int adjustedStartVertex = poolState.fPoolStartVertex + info.startVertex();
    if (draw->startVertex() + draw->vertexCount() != adjustedStartVertex) {
        return 0;
    }

    GrAssert(poolState.fPoolStartVertex == draw->startVertex() + draw->vertexCount());

    // how many instances can be concat'ed onto draw given the size of the index buffer
    int instancesToConcat = this->indexCountInCurrentSource() / info.indicesPerInstance();
    instancesToConcat -= draw->instanceCount();
    instancesToConcat = GrMin(instancesToConcat, info.instanceCount());

    // update the amount of reserved vertex data actually referenced in draws
    size_t vertexBytes = instancesToConcat * info.verticesPerInstance() *
                         drawState.getVertexSize();
    poolState.fUsedPoolVertexBytes = GrMax(poolState.fUsedPoolVertexBytes, vertexBytes);

    draw->adjustInstanceCount(instancesToConcat);
    return instancesToConcat;
}
示例#2
0
int GrInOrderDrawBuffer::concatInstancedDraw(const DrawInfo& info) {
    SkASSERT(!fCmdBuffer.empty());
    SkASSERT(info.isInstanced());

    const GeometrySrcState& geomSrc = this->getGeomSrc();
    const GrDrawState& drawState = this->getDrawState();

    // we only attempt to concat the case when reserved verts are used with a client-specified index
    // buffer. To make this work with client-specified VBs we'd need to know if the VB was updated
    // between draws.
    if (kReserved_GeometrySrcType != geomSrc.fVertexSrc ||
        kBuffer_GeometrySrcType != geomSrc.fIndexSrc) {
        return 0;
    }
    // Check if there is a draw info that is compatible that uses the same VB from the pool and
    // the same IB
    if (kDraw_Cmd != strip_trace_bit(fCmdBuffer.back().fType)) {
        return 0;
    }

    Draw* draw = static_cast<Draw*>(&fCmdBuffer.back());
    GeometryPoolState& poolState = fGeoPoolStateStack.back();
    const GrVertexBuffer* vertexBuffer = poolState.fPoolVertexBuffer;

    if (!draw->fInfo.isInstanced() ||
        draw->fInfo.verticesPerInstance() != info.verticesPerInstance() ||
        draw->fInfo.indicesPerInstance() != info.indicesPerInstance() ||
        draw->vertexBuffer() != vertexBuffer ||
        draw->indexBuffer() != geomSrc.fIndexBuffer) {
        return 0;
    }
    // info does not yet account for the offset from the start of the pool's VB while the previous
    // draw record does.
    int adjustedStartVertex = poolState.fPoolStartVertex + info.startVertex();
    if (draw->fInfo.startVertex() + draw->fInfo.vertexCount() != adjustedStartVertex) {
        return 0;
    }

    SkASSERT(poolState.fPoolStartVertex == draw->fInfo.startVertex() + draw->fInfo.vertexCount());

    // how many instances can be concat'ed onto draw given the size of the index buffer
    int instancesToConcat = this->indexCountInCurrentSource() / info.indicesPerInstance();
    instancesToConcat -= draw->fInfo.instanceCount();
    instancesToConcat = SkTMin(instancesToConcat, info.instanceCount());

    // update the amount of reserved vertex data actually referenced in draws
    size_t vertexBytes = instancesToConcat * info.verticesPerInstance() *
                         drawState.getVertexStride();
    poolState.fUsedPoolVertexBytes = SkTMax(poolState.fUsedPoolVertexBytes, vertexBytes);

    draw->fInfo.adjustInstanceCount(instancesToConcat);

    // update last fGpuCmdMarkers to include any additional trace markers that have been added
    if (this->getActiveTraceMarkers().count() > 0) {
        if (cmd_has_trace_marker(draw->fType)) {
            fGpuCmdMarkers.back().addSet(this->getActiveTraceMarkers());
        } else {
            fGpuCmdMarkers.push_back(this->getActiveTraceMarkers());
            draw->fType = add_trace_bit(draw->fType);
        }
    }

    return instancesToConcat;
}