cc/layers/picture_layer.cc - chromium/src - Git at Google

 // 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/layers/recording_source.h"
 #include "cc/paint/paint_record.h"
 #include "cc/trees/layer_tree_host.h"
 #include "cc/trees/layer_tree_impl.h"
 #include "cc/trees/transform_node.h"
 #include "ui/gfx/geometry/rect_conversions.h"

 static constexpr int kMaxNumberOfSlowPathsBeforeReporting = 5;

 namespace cc {

 PictureLayer::PictureLayerInputs::PictureLayerInputs() = default;

 PictureLayer::PictureLayerInputs::~PictureLayerInputs() = default;

 scoped_refptr<PictureLayer> PictureLayer::Create(ContentLayerClient* client) {
   return base::WrapRefCounted(new PictureLayer(client));
 }

 PictureLayer::PictureLayer(ContentLayerClient* client)
     : instrumentation_object_tracker_(id()),
       update_source_frame_number_(-1),
       mask_type_(LayerMaskType::NOT_MASK) {
   picture_layer_inputs_.client = client;
 }

 PictureLayer::PictureLayer(ContentLayerClient* client,
                            std::unique_ptr<RecordingSource> source)
     : PictureLayer(client) {
   recording_source_ = std::move(source);
 }

 PictureLayer::~PictureLayer() = default;

 std::unique_ptr<LayerImpl> PictureLayer::CreateLayerImpl(
     LayerTreeImpl* tree_impl) {
   return PictureLayerImpl::Create(tree_impl, id(), mask_type_);
 }

 void PictureLayer::PushPropertiesTo(LayerImpl* base_layer) {
   Layer::PushPropertiesTo(base_layer);
   TRACE_EVENT0("cc", "PictureLayer::PushPropertiesTo");
   PictureLayerImpl* layer_impl = static_cast<PictureLayerImpl*>(base_layer);
   layer_impl->SetLayerMaskType(mask_type());
   DropRecordingSourceContentIfInvalid();

   layer_impl->SetNearestNeighbor(picture_layer_inputs_.nearest_neighbor);
   layer_impl->SetUseTransformedRasterization(
       ShouldUseTransformedRasterization());
   layer_impl->set_gpu_raster_max_texture_size(
       layer_tree_host()->device_viewport_size());
   layer_impl->UpdateRasterSource(recording_source_->CreateRasterSource(),
                                  &last_updated_invalidation_, nullptr);
   DCHECK(last_updated_invalidation_.IsEmpty());
 }

 void PictureLayer::SetLayerTreeHost(LayerTreeHost* host) {
   Layer::SetLayerTreeHost(host);

   if (!host)
     return;

   if (!host->GetSettings().enable_mask_tiling &&
       mask_type_ == LayerMaskType::MULTI_TEXTURE_MASK)
     mask_type_ = LayerMaskType::SINGLE_TEXTURE_MASK;

   if (!recording_source_)
     recording_source_.reset(new RecordingSource);
   recording_source_->SetSlowdownRasterScaleFactor(
       host->GetDebugState().slow_down_raster_scale_factor);

   // Source frame numbers are relative the LayerTreeHost, so this needs
   // to be reset.
   update_source_frame_number_ = -1;
 }

 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()->SourceFrameNumber();
   bool updated = Layer::Update();

   gfx::Size layer_size = bounds();

   recording_source_->SetBackgroundColor(SafeOpaqueBackgroundColor());
   recording_source_->SetRequiresClear(
       !contents_opaque() &&
       !picture_layer_inputs_.client->FillsBoundsCompletely());

   TRACE_EVENT1("cc", "PictureLayer::Update", "source_frame_number",
                layer_tree_host()->SourceFrameNumber());
   devtools_instrumentation::ScopedLayerTreeTask update_layer(
       devtools_instrumentation::kUpdateLayer, id(), layer_tree_host()->GetId());

   // 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(picture_layer_inputs_.client);

   picture_layer_inputs_.recorded_viewport =
       picture_layer_inputs_.client->PaintableRegion();

   updated |= recording_source_->UpdateAndExpandInvalidation(
       &last_updated_invalidation_, layer_size,
       picture_layer_inputs_.recorded_viewport);

   if (updated) {
     picture_layer_inputs_.display_list =
         picture_layer_inputs_.client->PaintContentsToDisplayList(
             ContentLayerClient::PAINTING_BEHAVIOR_NORMAL);
     picture_layer_inputs_.painter_reported_memory_usage =
         picture_layer_inputs_.client->GetApproximateUnsharedMemoryUsage();
     recording_source_->UpdateDisplayItemList(
         picture_layer_inputs_.display_list,
         picture_layer_inputs_.painter_reported_memory_usage,
         layer_tree_host()->recording_scale_factor());

     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::SetLayerMaskType(LayerMaskType mask_type) {
   // We do not allow converting SINGLE_TEXTURE_MASK to MULTI_TEXTURE_MASK in
   // order to avoid rerastering when a mask's transform is being animated.
   if (mask_type_ == LayerMaskType::SINGLE_TEXTURE_MASK &&
       mask_type == LayerMaskType::MULTI_TEXTURE_MASK)
     return;
   mask_type_ = mask_type;
 }

 sk_sp<SkPicture> 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 it.  For now we
   // just paint a fresh one to get consistent results.
   if (!DrawsContent())
     return nullptr;

   gfx::Size layer_size = bounds();
   RecordingSource recording_source;
   Region recording_invalidation;

   gfx::Rect new_recorded_viewport =
       picture_layer_inputs_.client->PaintableRegion();
   scoped_refptr<DisplayItemList> display_list =
       picture_layer_inputs_.client->PaintContentsToDisplayList(
           ContentLayerClient::PAINTING_BEHAVIOR_NORMAL);
   size_t painter_reported_memory_usage =
       picture_layer_inputs_.client->GetApproximateUnsharedMemoryUsage();

   recording_source.UpdateAndExpandInvalidation(
       &recording_invalidation, layer_size, new_recorded_viewport);
   recording_source.UpdateDisplayItemList(
       display_list, painter_reported_memory_usage,
       layer_tree_host()->recording_scale_factor());

   scoped_refptr<RasterSource> raster_source =
       recording_source.CreateRasterSource();
   return raster_source->GetFlattenedPicture();
 }

 bool PictureLayer::HasSlowPaths() const {
   // The display list needs to be created (see: UpdateAndExpandInvalidation)
   // before checking for slow paths. There are cases where an update will not
   // create a display list (e.g., if the size is empty). We return false in
   // these cases because the slow paths bit sticks true.
   return picture_layer_inputs_.display_list &&
          picture_layer_inputs_.display_list->NumSlowPaths() >
              kMaxNumberOfSlowPathsBeforeReporting;
 }

 bool PictureLayer::HasNonAAPaint() const {
   // We return false by default, as this bit sticks true.
   return picture_layer_inputs_.display_list &&
          picture_layer_inputs_.display_list->HasNonAAPaint();
 }

 void PictureLayer::ClearClient() {
   picture_layer_inputs_.client = nullptr;
   UpdateDrawsContent(HasDrawableContent());
 }

 void PictureLayer::SetNearestNeighbor(bool nearest_neighbor) {
   if (picture_layer_inputs_.nearest_neighbor == nearest_neighbor)
     return;

   picture_layer_inputs_.nearest_neighbor = nearest_neighbor;
   SetNeedsCommit();
 }

 void PictureLayer::SetTransformedRasterizationAllowed(bool allowed) {
   if (picture_layer_inputs_.transformed_rasterization_allowed == allowed)
     return;

   picture_layer_inputs_.transformed_rasterization_allowed = allowed;
   SetNeedsCommit();
 }

 bool PictureLayer::HasDrawableContent() const {
   return picture_layer_inputs_.client && Layer::HasDrawableContent();
 }

 void PictureLayer::RunMicroBenchmark(MicroBenchmark* benchmark) {
   benchmark->RunOnLayer(this);
 }

 void PictureLayer::DropRecordingSourceContentIfInvalid() {
   int source_frame_number = layer_tree_host()->SourceFrameNumber();
   gfx::Size recording_source_bounds = recording_source_->GetSize();

   gfx::Size layer_bounds = 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();
     picture_layer_inputs_.recorded_viewport = gfx::Rect();
     picture_layer_inputs_.display_list = nullptr;
     picture_layer_inputs_.painter_reported_memory_usage = 0;
   }
 }

 bool PictureLayer::ShouldUseTransformedRasterization() const {
   if (!picture_layer_inputs_.transformed_rasterization_allowed)
     return false;

   // Background color overfill is undesirable with transformed rasterization.
   // However, without background overfill, the tiles will be non-opaque on
   // external edges, and layer opaque region can't be computed in layer space
   // due to rounding under extreme scaling. This defeats many opaque layer
   // optimization. Prefer optimization over quality for this particular case.
   if (contents_opaque())
     return false;

   const TransformTree& transform_tree =
       layer_tree_host()->property_trees()->transform_tree;
   DCHECK(!transform_tree.needs_update());
   auto* transform_node = transform_tree.Node(transform_tree_index());
   DCHECK(transform_node);
   // TODO(pdr): This is a workaround for https://crbug.com/708951 to avoid
   // crashing when there's no transform node. This workaround should be removed.
   if (!transform_node)
     return false;

   if (transform_node->to_screen_is_potentially_animated)
     return false;

   const gfx::Transform& to_screen =
       transform_tree.ToScreen(transform_tree_index());
   if (!to_screen.IsScaleOrTranslation())
     return false;

   float origin_x =
       to_screen.matrix().getFloat(0, 3) + offset_to_transform_parent().x();
   float origin_y =
       to_screen.matrix().getFloat(1, 3) + offset_to_transform_parent().y();
   if (origin_x - floorf(origin_x) == 0.f && origin_y - floorf(origin_y) == 0.f)
     return false;

   return true;
 }

 const DisplayItemList* PictureLayer::GetDisplayItemList() {
   return picture_layer_inputs_.display_list.get();
 }

 }  // namespace cc
	// 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/layers/recording_source.h"
	#include "cc/paint/paint_record.h"
	#include "cc/trees/layer_tree_host.h"
	#include "cc/trees/layer_tree_impl.h"
	#include "cc/trees/transform_node.h"
	#include "ui/gfx/geometry/rect_conversions.h"

	static constexpr int kMaxNumberOfSlowPathsBeforeReporting = 5;

	namespace cc {

	PictureLayer::PictureLayerInputs::PictureLayerInputs() = default;

	PictureLayer::PictureLayerInputs::~PictureLayerInputs() = default;

	scoped_refptr<PictureLayer> PictureLayer::Create(ContentLayerClient* client) {
	return base::WrapRefCounted(new PictureLayer(client));
	}

	PictureLayer::PictureLayer(ContentLayerClient* client)
	: instrumentation_object_tracker_(id()),
	update_source_frame_number_(-1),
	mask_type_(LayerMaskType::NOT_MASK) {
	picture_layer_inputs_.client = client;
	}

	PictureLayer::PictureLayer(ContentLayerClient* client,
	std::unique_ptr<RecordingSource> source)
	: PictureLayer(client) {
	recording_source_ = std::move(source);
	}

	PictureLayer::~PictureLayer() = default;

	std::unique_ptr<LayerImpl> PictureLayer::CreateLayerImpl(
	LayerTreeImpl* tree_impl) {
	return PictureLayerImpl::Create(tree_impl, id(), mask_type_);
	}

	void PictureLayer::PushPropertiesTo(LayerImpl* base_layer) {
	Layer::PushPropertiesTo(base_layer);
	TRACE_EVENT0("cc", "PictureLayer::PushPropertiesTo");
	PictureLayerImpl* layer_impl = static_cast<PictureLayerImpl*>(base_layer);
	layer_impl->SetLayerMaskType(mask_type());
	DropRecordingSourceContentIfInvalid();

	layer_impl->SetNearestNeighbor(picture_layer_inputs_.nearest_neighbor);
	layer_impl->SetUseTransformedRasterization(
	ShouldUseTransformedRasterization());
	layer_impl->set_gpu_raster_max_texture_size(
	layer_tree_host()->device_viewport_size());
	layer_impl->UpdateRasterSource(recording_source_->CreateRasterSource(),
	&last_updated_invalidation_, nullptr);
	DCHECK(last_updated_invalidation_.IsEmpty());
	}

	void PictureLayer::SetLayerTreeHost(LayerTreeHost* host) {
	Layer::SetLayerTreeHost(host);

	if (!host)
	return;

	if (!host->GetSettings().enable_mask_tiling &&
	mask_type_ == LayerMaskType::MULTI_TEXTURE_MASK)
	mask_type_ = LayerMaskType::SINGLE_TEXTURE_MASK;

	if (!recording_source_)
	recording_source_.reset(new RecordingSource);
	recording_source_->SetSlowdownRasterScaleFactor(
	host->GetDebugState().slow_down_raster_scale_factor);

	// Source frame numbers are relative the LayerTreeHost, so this needs
	// to be reset.
	update_source_frame_number_ = -1;
	}

	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()->SourceFrameNumber();
	bool updated = Layer::Update();

	gfx::Size layer_size = bounds();

	recording_source_->SetBackgroundColor(SafeOpaqueBackgroundColor());
	recording_source_->SetRequiresClear(
	!contents_opaque() &&
	!picture_layer_inputs_.client->FillsBoundsCompletely());

	TRACE_EVENT1("cc", "PictureLayer::Update", "source_frame_number",
	layer_tree_host()->SourceFrameNumber());
	devtools_instrumentation::ScopedLayerTreeTask update_layer(
	devtools_instrumentation::kUpdateLayer, id(), layer_tree_host()->GetId());

	// 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(picture_layer_inputs_.client);

	picture_layer_inputs_.recorded_viewport =
	picture_layer_inputs_.client->PaintableRegion();

	updated \|= recording_source_->UpdateAndExpandInvalidation(
	&last_updated_invalidation_, layer_size,
	picture_layer_inputs_.recorded_viewport);

	if (updated) {
	picture_layer_inputs_.display_list =
	picture_layer_inputs_.client->PaintContentsToDisplayList(
	ContentLayerClient::PAINTING_BEHAVIOR_NORMAL);
	picture_layer_inputs_.painter_reported_memory_usage =
	picture_layer_inputs_.client->GetApproximateUnsharedMemoryUsage();
	recording_source_->UpdateDisplayItemList(
	picture_layer_inputs_.display_list,
	picture_layer_inputs_.painter_reported_memory_usage,
	layer_tree_host()->recording_scale_factor());

	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::SetLayerMaskType(LayerMaskType mask_type) {
	// We do not allow converting SINGLE_TEXTURE_MASK to MULTI_TEXTURE_MASK in
	// order to avoid rerastering when a mask's transform is being animated.
	if (mask_type_ == LayerMaskType::SINGLE_TEXTURE_MASK &&
	mask_type == LayerMaskType::MULTI_TEXTURE_MASK)
	return;
	mask_type_ = mask_type;
	}

	sk_sp<SkPicture> 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 it. For now we
	// just paint a fresh one to get consistent results.
	if (!DrawsContent())
	return nullptr;

	gfx::Size layer_size = bounds();
	RecordingSource recording_source;
	Region recording_invalidation;

	gfx::Rect new_recorded_viewport =
	picture_layer_inputs_.client->PaintableRegion();
	scoped_refptr<DisplayItemList> display_list =
	picture_layer_inputs_.client->PaintContentsToDisplayList(
	ContentLayerClient::PAINTING_BEHAVIOR_NORMAL);
	size_t painter_reported_memory_usage =
	picture_layer_inputs_.client->GetApproximateUnsharedMemoryUsage();

	recording_source.UpdateAndExpandInvalidation(
	&recording_invalidation, layer_size, new_recorded_viewport);
	recording_source.UpdateDisplayItemList(
	display_list, painter_reported_memory_usage,
	layer_tree_host()->recording_scale_factor());

	scoped_refptr<RasterSource> raster_source =
	recording_source.CreateRasterSource();
	return raster_source->GetFlattenedPicture();
	}

	bool PictureLayer::HasSlowPaths() const {
	// The display list needs to be created (see: UpdateAndExpandInvalidation)
	// before checking for slow paths. There are cases where an update will not
	// create a display list (e.g., if the size is empty). We return false in
	// these cases because the slow paths bit sticks true.
	return picture_layer_inputs_.display_list &&
	picture_layer_inputs_.display_list->NumSlowPaths() >
	kMaxNumberOfSlowPathsBeforeReporting;
	}

	bool PictureLayer::HasNonAAPaint() const {
	// We return false by default, as this bit sticks true.
	return picture_layer_inputs_.display_list &&
	picture_layer_inputs_.display_list->HasNonAAPaint();
	}

	void PictureLayer::ClearClient() {
	picture_layer_inputs_.client = nullptr;
	UpdateDrawsContent(HasDrawableContent());
	}

	void PictureLayer::SetNearestNeighbor(bool nearest_neighbor) {
	if (picture_layer_inputs_.nearest_neighbor == nearest_neighbor)
	return;

	picture_layer_inputs_.nearest_neighbor = nearest_neighbor;
	SetNeedsCommit();
	}

	void PictureLayer::SetTransformedRasterizationAllowed(bool allowed) {
	if (picture_layer_inputs_.transformed_rasterization_allowed == allowed)
	return;

	picture_layer_inputs_.transformed_rasterization_allowed = allowed;
	SetNeedsCommit();
	}

	bool PictureLayer::HasDrawableContent() const {
	return picture_layer_inputs_.client && Layer::HasDrawableContent();
	}

	void PictureLayer::RunMicroBenchmark(MicroBenchmark* benchmark) {
	benchmark->RunOnLayer(this);
	}

	void PictureLayer::DropRecordingSourceContentIfInvalid() {
	int source_frame_number = layer_tree_host()->SourceFrameNumber();
	gfx::Size recording_source_bounds = recording_source_->GetSize();

	gfx::Size layer_bounds = 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();
	picture_layer_inputs_.recorded_viewport = gfx::Rect();
	picture_layer_inputs_.display_list = nullptr;
	picture_layer_inputs_.painter_reported_memory_usage = 0;
	}
	}

	bool PictureLayer::ShouldUseTransformedRasterization() const {
	if (!picture_layer_inputs_.transformed_rasterization_allowed)
	return false;

	// Background color overfill is undesirable with transformed rasterization.
	// However, without background overfill, the tiles will be non-opaque on
	// external edges, and layer opaque region can't be computed in layer space
	// due to rounding under extreme scaling. This defeats many opaque layer
	// optimization. Prefer optimization over quality for this particular case.
	if (contents_opaque())
	return false;

	const TransformTree& transform_tree =
	layer_tree_host()->property_trees()->transform_tree;
	DCHECK(!transform_tree.needs_update());
	auto* transform_node = transform_tree.Node(transform_tree_index());
	DCHECK(transform_node);
	// TODO(pdr): This is a workaround for https://crbug.com/708951 to avoid
	// crashing when there's no transform node. This workaround should be removed.
	if (!transform_node)
	return false;

	if (transform_node->to_screen_is_potentially_animated)
	return false;

	const gfx::Transform& to_screen =
	transform_tree.ToScreen(transform_tree_index());
	if (!to_screen.IsScaleOrTranslation())
	return false;

	float origin_x =
	to_screen.matrix().getFloat(0, 3) + offset_to_transform_parent().x();
	float origin_y =
	to_screen.matrix().getFloat(1, 3) + offset_to_transform_parent().y();
	if (origin_x - floorf(origin_x) == 0.f && origin_y - floorf(origin_y) == 0.f)
	return false;

	return true;
	}

	const DisplayItemList* PictureLayer::GetDisplayItemList() {
	return picture_layer_inputs_.display_list.get();
	}

	} // namespace cc