// Copyright 2012 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/layers/picture_layer.h" #include "base/auto_reset.h" #include "base/trace_event/trace_event.h" #include "cc/layers/content_layer_client.h" #include "cc/layers/picture_layer_impl.h" #include "cc/playback/recording_source.h" #include "cc/proto/cc_conversions.h" #include "cc/proto/gfx_conversions.h" #include "cc/proto/layer.pb.h" #include "cc/trees/layer_tree_host.h" #include "cc/trees/layer_tree_impl.h" #include "third_party/skia/include/core/SkPictureRecorder.h" #include "ui/gfx/geometry/rect_conversions.h" namespace cc { scoped_refptr PictureLayer::Create(ContentLayerClient* client) { return make_scoped_refptr(new PictureLayer(client)); } PictureLayer::PictureLayer(ContentLayerClient* client) : client_(client), instrumentation_object_tracker_(id()), update_source_frame_number_(-1), is_mask_(false), nearest_neighbor_(false) {} PictureLayer::PictureLayer(ContentLayerClient* client, scoped_ptr source) : PictureLayer(client) { recording_source_ = std::move(source); } PictureLayer::~PictureLayer() { } scoped_ptr PictureLayer::CreateLayerImpl(LayerTreeImpl* tree_impl) { return PictureLayerImpl::Create(tree_impl, id(), is_mask_); } void PictureLayer::PushPropertiesTo(LayerImpl* base_layer) { Layer::PushPropertiesTo(base_layer); TRACE_EVENT0("cc", "PictureLayer::PushPropertiesTo"); PictureLayerImpl* layer_impl = static_cast(base_layer); // TODO(danakj): Make is_mask_ a constructor parameter for PictureLayer. DCHECK_EQ(layer_impl->is_mask(), is_mask_); DropRecordingSourceContentIfInvalid(); layer_impl->SetNearestNeighbor(nearest_neighbor_); // Preserve lcd text settings from the current raster source. bool can_use_lcd_text = layer_impl->RasterSourceUsesLCDText(); scoped_refptr raster_source = recording_source_->CreateRasterSource(can_use_lcd_text); layer_impl->set_gpu_raster_max_texture_size( layer_tree_host()->device_viewport_size()); layer_impl->UpdateRasterSource(raster_source, &last_updated_invalidation_, nullptr); DCHECK(last_updated_invalidation_.IsEmpty()); } void PictureLayer::SetLayerTreeHost(LayerTreeHost* host) { Layer::SetLayerTreeHost(host); if (!host) return; if (!recording_source_) recording_source_.reset(new RecordingSource); recording_source_->SetSlowdownRasterScaleFactor( host->debug_state().slow_down_raster_scale_factor); // If we need to enable image decode tasks, then we have to generate the // discardable images metadata. const LayerTreeSettings& settings = layer_tree_host()->settings(); recording_source_->SetGenerateDiscardableImagesMetadata( settings.image_decode_tasks_enabled); } void PictureLayer::SetNeedsDisplayRect(const gfx::Rect& layer_rect) { DCHECK(!layer_tree_host() || !layer_tree_host()->in_paint_layer_contents()); if (recording_source_) recording_source_->SetNeedsDisplayRect(layer_rect); Layer::SetNeedsDisplayRect(layer_rect); } bool PictureLayer::Update() { update_source_frame_number_ = layer_tree_host()->source_frame_number(); bool updated = Layer::Update(); gfx::Size layer_size = paint_properties().bounds; recording_source_->SetBackgroundColor(SafeOpaqueBackgroundColor()); recording_source_->SetRequiresClear(!contents_opaque() && !client_->FillsBoundsCompletely()); TRACE_EVENT1("cc", "PictureLayer::Update", "source_frame_number", layer_tree_host()->source_frame_number()); devtools_instrumentation::ScopedLayerTreeTask update_layer( devtools_instrumentation::kUpdateLayer, id(), layer_tree_host()->id()); // UpdateAndExpandInvalidation will give us an invalidation that covers // anything not explicitly recorded in this frame. We give this region // to the impl side so that it drops tiles that may not have a recording // for them. DCHECK(client_); updated |= recording_source_->UpdateAndExpandInvalidation( client_, &last_updated_invalidation_, layer_size, update_source_frame_number_, RecordingSource::RECORD_NORMALLY); if (updated) { SetNeedsPushProperties(); } else { // If this invalidation did not affect the recording source, then it can be // cleared as an optimization. last_updated_invalidation_.Clear(); } return updated; } void PictureLayer::SetIsMask(bool is_mask) { is_mask_ = is_mask; } sk_sp PictureLayer::GetPicture() const { // We could either flatten the RecordingSource into a single // SkPicture, or paint a fresh one depending on what we intend to do with the // picture. For now we just paint a fresh one to get consistent results. if (!DrawsContent()) return nullptr; gfx::Size layer_size = bounds(); scoped_ptr recording_source(new RecordingSource); Region recording_invalidation; recording_source->UpdateAndExpandInvalidation( client_, &recording_invalidation, layer_size, update_source_frame_number_, RecordingSource::RECORD_NORMALLY); scoped_refptr raster_source = recording_source->CreateRasterSource(false); return raster_source->GetFlattenedPicture(); } bool PictureLayer::IsSuitableForGpuRasterization() const { return recording_source_->IsSuitableForGpuRasterization(); } void PictureLayer::ClearClient() { client_ = nullptr; UpdateDrawsContent(HasDrawableContent()); } void PictureLayer::SetNearestNeighbor(bool nearest_neighbor) { if (nearest_neighbor_ == nearest_neighbor) return; nearest_neighbor_ = nearest_neighbor; SetNeedsCommit(); } bool PictureLayer::HasDrawableContent() const { return client_ && Layer::HasDrawableContent(); } void PictureLayer::SetTypeForProtoSerialization(proto::LayerNode* proto) const { proto->set_type(proto::LayerNode::PICTURE_LAYER); } void PictureLayer::LayerSpecificPropertiesToProto( proto::LayerProperties* proto) { Layer::LayerSpecificPropertiesToProto(proto); DropRecordingSourceContentIfInvalid(); proto::PictureLayerProperties* picture = proto->mutable_picture(); recording_source_->ToProtobuf( picture->mutable_recording_source(), layer_tree_host()->image_serialization_processor()); RegionToProto(last_updated_invalidation_, picture->mutable_invalidation()); picture->set_is_mask(is_mask_); picture->set_nearest_neighbor(nearest_neighbor_); picture->set_update_source_frame_number(update_source_frame_number_); last_updated_invalidation_.Clear(); } void PictureLayer::FromLayerSpecificPropertiesProto( const proto::LayerProperties& proto) { Layer::FromLayerSpecificPropertiesProto(proto); const proto::PictureLayerProperties& picture = proto.picture(); // If this is a new layer, ensure it has a recording source. During layer // hierarchy deserialization, ::SetLayerTreeHost(...) is not called, but // instead the member is set directly, so it needs to be set here explicitly. if (!recording_source_) recording_source_.reset(new RecordingSource); recording_source_->FromProtobuf( picture.recording_source(), layer_tree_host()->image_serialization_processor()); Region new_invalidation = RegionFromProto(picture.invalidation()); last_updated_invalidation_.Swap(&new_invalidation); is_mask_ = picture.is_mask(); nearest_neighbor_ = picture.nearest_neighbor(); update_source_frame_number_ = picture.update_source_frame_number(); } void PictureLayer::RunMicroBenchmark(MicroBenchmark* benchmark) { benchmark->RunOnLayer(this); } void PictureLayer::DropRecordingSourceContentIfInvalid() { int source_frame_number = layer_tree_host()->source_frame_number(); gfx::Size recording_source_bounds = recording_source_->GetSize(); gfx::Size layer_bounds = bounds(); if (paint_properties().source_frame_number == source_frame_number) layer_bounds = paint_properties().bounds; // If update called, then recording source size must match bounds pushed to // impl layer. DCHECK(update_source_frame_number_ != source_frame_number || layer_bounds == recording_source_bounds) << " bounds " << layer_bounds.ToString() << " recording source " << recording_source_bounds.ToString(); if (update_source_frame_number_ != source_frame_number && recording_source_bounds != layer_bounds) { // Update may not get called for the layer (if it's not in the viewport // for example), even though it has resized making the recording source no // longer valid. In this case just destroy the recording source. recording_source_->SetEmptyBounds(); } } } // namespace cc