path: root/cc/raster/gpu_tile_task_worker_pool.cc

// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "cc/raster/gpu_tile_task_worker_pool.h"

#include <algorithm>

#include "base/trace_event/trace_event.h"
#include "cc/playback/raster_source.h"
#include "cc/raster/gpu_rasterizer.h"
#include "cc/raster/raster_buffer.h"
#include "cc/raster/scoped_gpu_raster.h"
#include "cc/resources/resource.h"
#include "gpu/command_buffer/client/gles2_interface.h"
#include "third_party/skia/include/core/SkMultiPictureDraw.h"
#include "third_party/skia/include/core/SkPictureRecorder.h"
#include "third_party/skia/include/core/SkSurface.h"
#include "third_party/skia/include/gpu/GrContext.h"

namespace cc {
namespace {

class RasterBufferImpl : public RasterBuffer {
 public:
  RasterBufferImpl(GpuRasterizer* rasterizer,
                   const Resource* resource,
                   uint64_t resource_content_id,
                   uint64_t previous_content_id)
      : rasterizer_(rasterizer),
        lock_(rasterizer->resource_provider(), resource->id()),
        resource_has_previous_content_(
            resource_content_id && resource_content_id == previous_content_id) {
  }

  // Overridden from RasterBuffer:
  void Playback(const RasterSource* raster_source,
                const gfx::Rect& raster_full_rect,
                const gfx::Rect& raster_dirty_rect,
                uint64_t new_content_id,
                float scale,
                bool include_images) override {
    TRACE_EVENT0("cc", "RasterBufferImpl::Playback");
    // GPU raster doesn't do low res tiles, so should always include images.
    DCHECK(include_images);
    ContextProvider* context_provider = rasterizer_->resource_provider()
                                            ->output_surface()
                                            ->worker_context_provider();
    DCHECK(context_provider);

    ContextProvider::ScopedContextLock scoped_context(context_provider);

    gfx::Rect playback_rect = raster_full_rect;
    if (resource_has_previous_content_) {
      playback_rect.Intersect(raster_dirty_rect);
    }
    DCHECK(!playback_rect.IsEmpty())
        << "Why are we rastering a tile that's not dirty?";

    // TODO(danakj): Implement partial raster with raster_dirty_rect.
    // Rasterize source into resource.
    rasterizer_->RasterizeSource(&lock_, raster_source, raster_full_rect,
                                 playback_rect, scale);

    // Barrier to sync worker context output to cc context.
    scoped_context.ContextGL()->OrderingBarrierCHROMIUM();
  }

 private:
  GpuRasterizer* rasterizer_;
  ResourceProvider::ScopedWriteLockGr lock_;
  bool resource_has_previous_content_;

  DISALLOW_COPY_AND_ASSIGN(RasterBufferImpl);
};

}  // namespace

// static
scoped_ptr<TileTaskWorkerPool> GpuTileTaskWorkerPool::Create(
    base::SequencedTaskRunner* task_runner,
    TaskGraphRunner* task_graph_runner,
    ContextProvider* context_provider,
    ResourceProvider* resource_provider,
    bool use_distance_field_text,
    int gpu_rasterization_msaa_sample_count) {
  return make_scoped_ptr<TileTaskWorkerPool>(new GpuTileTaskWorkerPool(
      task_runner, task_graph_runner, context_provider, resource_provider,
      use_distance_field_text, gpu_rasterization_msaa_sample_count));
}

GpuTileTaskWorkerPool::GpuTileTaskWorkerPool(
    base::SequencedTaskRunner* task_runner,
    TaskGraphRunner* task_graph_runner,
    ContextProvider* context_provider,
    ResourceProvider* resource_provider,
    bool use_distance_field_text,
    int gpu_rasterization_msaa_sample_count)
    : task_runner_(task_runner),
      task_graph_runner_(task_graph_runner),
      namespace_token_(task_graph_runner_->GetNamespaceToken()),
      rasterizer_(new GpuRasterizer(context_provider,
                                    resource_provider,
                                    use_distance_field_text,
                                    gpu_rasterization_msaa_sample_count)),
      task_set_finished_weak_ptr_factory_(this),
      weak_ptr_factory_(this) {
}

GpuTileTaskWorkerPool::~GpuTileTaskWorkerPool() {
  DCHECK_EQ(0u, completed_tasks_.size());
}

TileTaskRunner* GpuTileTaskWorkerPool::AsTileTaskRunner() {
  return this;
}

void GpuTileTaskWorkerPool::SetClient(TileTaskRunnerClient* client) {
  client_ = client;
}

void GpuTileTaskWorkerPool::Shutdown() {
  TRACE_EVENT0("cc", "GpuTileTaskWorkerPool::Shutdown");

  TaskGraph empty;
  task_graph_runner_->ScheduleTasks(namespace_token_, &empty);
  task_graph_runner_->WaitForTasksToFinishRunning(namespace_token_);
}

void GpuTileTaskWorkerPool::ScheduleTasks(TileTaskQueue* queue) {
  TRACE_EVENT0("cc", "GpuTileTaskWorkerPool::ScheduleTasks");

  // Mark all task sets as pending.
  tasks_pending_.set();

  size_t priority = kTileTaskPriorityBase;

  graph_.Reset();

  // Cancel existing OnTaskSetFinished callbacks.
  task_set_finished_weak_ptr_factory_.InvalidateWeakPtrs();

  scoped_refptr<TileTask> new_task_set_finished_tasks[kNumberOfTaskSets];

  size_t task_count[kNumberOfTaskSets] = {0};

  for (TaskSet task_set = 0; task_set < kNumberOfTaskSets; ++task_set) {
    new_task_set_finished_tasks[task_set] = CreateTaskSetFinishedTask(
        task_runner_.get(),
        base::Bind(&GpuTileTaskWorkerPool::OnTaskSetFinished,
                   task_set_finished_weak_ptr_factory_.GetWeakPtr(), task_set));
  }

  for (TileTaskQueue::Item::Vector::const_iterator it = queue->items.begin();
       it != queue->items.end(); ++it) {
    const TileTaskQueue::Item& item = *it;
    RasterTask* task = item.task;
    DCHECK(!task->HasCompleted());

    for (TaskSet task_set = 0; task_set < kNumberOfTaskSets; ++task_set) {
      if (!item.task_sets[task_set])
        continue;

      ++task_count[task_set];

      graph_.edges.push_back(
          TaskGraph::Edge(task, new_task_set_finished_tasks[task_set].get()));
    }

    InsertNodesForRasterTask(&graph_, task, task->dependencies(), priority++);
  }

  for (TaskSet task_set = 0; task_set < kNumberOfTaskSets; ++task_set) {
    InsertNodeForTask(&graph_, new_task_set_finished_tasks[task_set].get(),
                      kTaskSetFinishedTaskPriorityBase + task_set,
                      task_count[task_set]);
  }

  ScheduleTasksOnOriginThread(this, &graph_);

  // Barrier to sync any new resources to the worker context.
  rasterizer_->resource_provider()
      ->output_surface()
      ->context_provider()
      ->ContextGL()
      ->OrderingBarrierCHROMIUM();

  task_graph_runner_->ScheduleTasks(namespace_token_, &graph_);

  std::copy(new_task_set_finished_tasks,
            new_task_set_finished_tasks + kNumberOfTaskSets,
            task_set_finished_tasks_);
}

void GpuTileTaskWorkerPool::CheckForCompletedTasks() {
  TRACE_EVENT0("cc", "GpuTileTaskWorkerPool::CheckForCompletedTasks");

  task_graph_runner_->CollectCompletedTasks(namespace_token_,
                                            &completed_tasks_);
  CompleteTasks(completed_tasks_);
  completed_tasks_.clear();
}

ResourceFormat GpuTileTaskWorkerPool::GetResourceFormat() const {
  return rasterizer_->resource_provider()->best_render_buffer_format();
}

bool GpuTileTaskWorkerPool::GetResourceRequiresSwizzle() const {
  // This doesn't require a swizzle because we rasterize to the correct format.
  return false;
}

void GpuTileTaskWorkerPool::CompleteTasks(const Task::Vector& tasks) {
  for (auto& task : tasks) {
    TileTask* tile_task = static_cast<TileTask*>(task.get());

    tile_task->WillComplete();
    tile_task->CompleteOnOriginThread(this);
    tile_task->DidComplete();
  }
  completed_tasks_.clear();
}

scoped_ptr<RasterBuffer> GpuTileTaskWorkerPool::AcquireBufferForRaster(
    const Resource* resource,
    uint64_t resource_content_id,
    uint64_t previous_content_id) {
  return scoped_ptr<RasterBuffer>(new RasterBufferImpl(
      rasterizer_.get(), resource, resource_content_id, previous_content_id));
}

void GpuTileTaskWorkerPool::ReleaseBufferForRaster(
    scoped_ptr<RasterBuffer> buffer) {
  // Nothing to do here. RasterBufferImpl destructor cleans up after itself.
}

void GpuTileTaskWorkerPool::OnTaskSetFinished(TaskSet task_set) {
  TRACE_EVENT1("cc", "GpuTileTaskWorkerPool::OnTaskSetFinished", "task_set",
               task_set);

  DCHECK(tasks_pending_[task_set]);
  tasks_pending_[task_set] = false;
  client_->DidFinishRunningTileTasks(task_set);
}

}  // namespace cc