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// Copyright 2013 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/tile_task_worker_pool.h"
#include <algorithm>
#include "base/trace_event/trace_event.h"
#include "cc/playback/display_list_raster_source.h"
#include "skia/ext/refptr.h"
#include "third_party/skia/include/core/SkCanvas.h"
#include "third_party/skia/include/core/SkDrawFilter.h"
#include "third_party/skia/include/core/SkSurface.h"
namespace cc {
namespace {
class TaskSetFinishedTaskImpl : public TileTask {
public:
explicit TaskSetFinishedTaskImpl(
base::SequencedTaskRunner* task_runner,
const base::Closure& on_task_set_finished_callback)
: task_runner_(task_runner),
on_task_set_finished_callback_(on_task_set_finished_callback) {}
// Overridden from Task:
void RunOnWorkerThread() override {
TRACE_EVENT0("cc", "TaskSetFinishedTaskImpl::RunOnWorkerThread");
TaskSetFinished();
}
// Overridden from TileTask:
void ScheduleOnOriginThread(TileTaskClient* client) override {}
void CompleteOnOriginThread(TileTaskClient* client) override {}
protected:
~TaskSetFinishedTaskImpl() override {}
void TaskSetFinished() {
task_runner_->PostTask(FROM_HERE, on_task_set_finished_callback_);
}
private:
scoped_refptr<base::SequencedTaskRunner> task_runner_;
const base::Closure on_task_set_finished_callback_;
DISALLOW_COPY_AND_ASSIGN(TaskSetFinishedTaskImpl);
};
} // namespace
// This allows a micro benchmark system to run tasks with highest priority,
// since it should finish as quickly as possible.
size_t TileTaskWorkerPool::kBenchmarkTaskPriority = 0u;
// Task priorities that make sure task set finished tasks run before any
// other remaining tasks. This is combined with the task set type to ensure
// proper prioritization ordering between task set types.
size_t TileTaskWorkerPool::kTaskSetFinishedTaskPriorityBase = 1u;
// For correctness, |kTileTaskPriorityBase| must be greater than
// |kTaskSetFinishedTaskPriorityBase + kNumberOfTaskSets|.
size_t TileTaskWorkerPool::kTileTaskPriorityBase = 10u;
TileTaskWorkerPool::TileTaskWorkerPool() {
}
TileTaskWorkerPool::~TileTaskWorkerPool() {
}
// static
scoped_refptr<TileTask> TileTaskWorkerPool::CreateTaskSetFinishedTask(
base::SequencedTaskRunner* task_runner,
const base::Closure& on_task_set_finished_callback) {
return make_scoped_refptr(
new TaskSetFinishedTaskImpl(task_runner, on_task_set_finished_callback));
}
// static
void TileTaskWorkerPool::ScheduleTasksOnOriginThread(TileTaskClient* client,
TaskGraph* graph) {
TRACE_EVENT0("cc", "TileTaskWorkerPool::ScheduleTasksOnOriginThread");
for (TaskGraph::Node::Vector::iterator it = graph->nodes.begin();
it != graph->nodes.end(); ++it) {
TaskGraph::Node& node = *it;
TileTask* task = static_cast<TileTask*>(node.task);
if (!task->HasBeenScheduled()) {
task->WillSchedule();
task->ScheduleOnOriginThread(client);
task->DidSchedule();
}
}
}
// static
void TileTaskWorkerPool::InsertNodeForTask(TaskGraph* graph,
TileTask* task,
size_t priority,
size_t dependencies) {
DCHECK(std::find_if(graph->nodes.begin(), graph->nodes.end(),
TaskGraph::Node::TaskComparator(task)) ==
graph->nodes.end());
graph->nodes.push_back(TaskGraph::Node(task, priority, dependencies));
}
// static
void TileTaskWorkerPool::InsertNodesForRasterTask(
TaskGraph* graph,
RasterTask* raster_task,
const ImageDecodeTask::Vector& decode_tasks,
size_t priority) {
size_t dependencies = 0u;
// Insert image decode tasks.
for (ImageDecodeTask::Vector::const_iterator it = decode_tasks.begin();
it != decode_tasks.end(); ++it) {
ImageDecodeTask* decode_task = it->get();
// Skip if already decoded.
if (decode_task->HasCompleted())
continue;
dependencies++;
// Add decode task if it doesn't already exists in graph.
TaskGraph::Node::Vector::iterator decode_it =
std::find_if(graph->nodes.begin(), graph->nodes.end(),
TaskGraph::Node::TaskComparator(decode_task));
if (decode_it == graph->nodes.end())
InsertNodeForTask(graph, decode_task, priority, 0u);
graph->edges.push_back(TaskGraph::Edge(decode_task, raster_task));
}
InsertNodeForTask(graph, raster_task, priority, dependencies);
}
static bool IsSupportedPlaybackToMemoryFormat(ResourceFormat format) {
switch (format) {
case RGBA_4444:
case RGBA_8888:
case BGRA_8888:
return true;
case ALPHA_8:
case LUMINANCE_8:
case RGB_565:
case ETC1:
case RED_8:
return false;
}
NOTREACHED();
return false;
}
class SkipImageFilter : public SkDrawFilter {
public:
bool filter(SkPaint* paint, Type type) override {
if (type == kBitmap_Type)
return false;
SkShader* shader = paint->getShader();
return !shader || !shader->isABitmap();
}
};
// static
void TileTaskWorkerPool::PlaybackToMemory(
void* memory,
ResourceFormat format,
const gfx::Size& size,
size_t stride,
const DisplayListRasterSource* raster_source,
const gfx::Rect& canvas_bitmap_rect,
const gfx::Rect& canvas_playback_rect,
float scale,
bool include_images) {
TRACE_EVENT0("cc", "TileTaskWorkerPool::PlaybackToMemory");
DCHECK(IsSupportedPlaybackToMemoryFormat(format)) << format;
// Uses kPremul_SkAlphaType since the result is not known to be opaque.
SkImageInfo info =
SkImageInfo::MakeN32(size.width(), size.height(), kPremul_SkAlphaType);
SkColorType buffer_color_type = ResourceFormatToSkColorType(format);
bool needs_copy = buffer_color_type != info.colorType();
// Use unknown pixel geometry to disable LCD text.
SkSurfaceProps surface_props(0, kUnknown_SkPixelGeometry);
if (raster_source->CanUseLCDText()) {
// LegacyFontHost will get LCD text and skia figures out what type to use.
surface_props = SkSurfaceProps(SkSurfaceProps::kLegacyFontHost_InitType);
}
if (!stride)
stride = info.minRowBytes();
DCHECK_GT(stride, 0u);
skia::RefPtr<SkDrawFilter> image_filter;
if (!include_images)
image_filter = skia::AdoptRef(new SkipImageFilter);
if (!needs_copy) {
skia::RefPtr<SkSurface> surface = skia::AdoptRef(
SkSurface::NewRasterDirect(info, memory, stride, &surface_props));
skia::RefPtr<SkCanvas> canvas = skia::SharePtr(surface->getCanvas());
canvas->setDrawFilter(image_filter.get());
raster_source->PlaybackToCanvas(canvas.get(), canvas_bitmap_rect,
canvas_playback_rect, scale);
return;
}
skia::RefPtr<SkSurface> surface =
skia::AdoptRef(SkSurface::NewRaster(info, &surface_props));
skia::RefPtr<SkCanvas> canvas = skia::SharePtr(surface->getCanvas());
canvas->setDrawFilter(image_filter.get());
// TODO(reveman): Improve partial raster support by reducing the size of
// playback rect passed to PlaybackToCanvas. crbug.com/519070
raster_source->PlaybackToCanvas(canvas.get(), canvas_bitmap_rect,
canvas_bitmap_rect, scale);
{
TRACE_EVENT0("cc", "TileTaskWorkerPool::PlaybackToMemory::ConvertPixels");
SkImageInfo dst_info =
SkImageInfo::Make(info.width(), info.height(), buffer_color_type,
info.alphaType(), info.profileType());
// TODO(kaanb): The GL pipeline assumes a 4-byte alignment for the
// bitmap data. There will be no need to call SkAlign4 once crbug.com/293728
// is fixed.
const size_t dst_row_bytes = SkAlign4(dst_info.minRowBytes());
DCHECK_EQ(0u, dst_row_bytes % 4);
bool success = canvas->readPixels(dst_info, memory, dst_row_bytes, 0, 0);
DCHECK_EQ(true, success);
}
}
} // namespace cc
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