// Copyright (c) 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 "ui/compositor/layer.h" #include #include #include #include "base/auto_reset.h" #include "base/command_line.h" #include "base/json/json_writer.h" #include "base/logging.h" #include "base/memory/ptr_util.h" #include "base/trace_event/trace_event.h" #include "cc/layers/nine_patch_layer.h" #include "cc/layers/picture_layer.h" #include "cc/layers/solid_color_layer.h" #include "cc/layers/surface_layer.h" #include "cc/layers/texture_layer.h" #include "cc/output/copy_output_request.h" #include "cc/output/filter_operation.h" #include "cc/output/filter_operations.h" #include "cc/playback/display_item_list_settings.h" #include "cc/resources/transferable_resource.h" #include "cc/trees/layer_tree_settings.h" #include "ui/compositor/compositor_switches.h" #include "ui/compositor/dip_util.h" #include "ui/compositor/layer_animator.h" #include "ui/compositor/layer_observer.h" #include "ui/compositor/paint_context.h" #include "ui/gfx/animation/animation.h" #include "ui/gfx/canvas.h" #include "ui/gfx/geometry/point3_f.h" #include "ui/gfx/geometry/point_conversions.h" #include "ui/gfx/geometry/size_conversions.h" #include "ui/gfx/interpolated_transform.h" namespace { const ui::Layer* GetRoot(const ui::Layer* layer) { while (layer->parent()) layer = layer->parent(); return layer; } } // namespace namespace ui { class Layer::LayerMirror : public LayerDelegate, LayerObserver { public: LayerMirror(Layer* source, Layer* dest) : source_(source), dest_(dest) { dest->AddObserver(this); dest->set_delegate(this); } ~LayerMirror() override { dest_->RemoveObserver(this); dest_->set_delegate(nullptr); } Layer* dest() { return dest_; } // LayerDelegate: void OnPaintLayer(const PaintContext& context) override { if (auto* delegate = source_->delegate()) delegate->OnPaintLayer(context); } void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override {} void OnDeviceScaleFactorChanged(float device_scale_factor) override {} // LayerObserver: void LayerDestroyed(Layer* layer) override { DCHECK_EQ(dest_, layer); source_->OnMirrorDestroyed(this); } private: Layer* const source_; Layer* const dest_; DISALLOW_COPY_AND_ASSIGN(LayerMirror); }; Layer::Layer() : type_(LAYER_TEXTURED), compositor_(NULL), parent_(NULL), visible_(true), fills_bounds_opaquely_(true), fills_bounds_completely_(false), background_blur_radius_(0), layer_saturation_(0.0f), layer_brightness_(0.0f), layer_grayscale_(0.0f), layer_inverted_(false), layer_mask_(NULL), layer_mask_back_link_(NULL), zoom_(1), zoom_inset_(0), delegate_(NULL), owner_(NULL), cc_layer_(NULL), device_scale_factor_(1.0f) { CreateCcLayer(); } Layer::Layer(LayerType type) : type_(type), compositor_(NULL), parent_(NULL), visible_(true), fills_bounds_opaquely_(true), fills_bounds_completely_(false), background_blur_radius_(0), layer_saturation_(0.0f), layer_brightness_(0.0f), layer_grayscale_(0.0f), layer_inverted_(false), layer_mask_(NULL), layer_mask_back_link_(NULL), zoom_(1), zoom_inset_(0), delegate_(NULL), owner_(NULL), cc_layer_(NULL), device_scale_factor_(1.0f) { CreateCcLayer(); } Layer::~Layer() { for (auto& observer : observer_list_) observer.LayerDestroyed(this); // Destroying the animator may cause observers to use the layer (and // indirectly the WebLayer). Destroy the animator first so that the WebLayer // is still around. SetAnimator(nullptr); if (compositor_) compositor_->SetRootLayer(NULL); if (parent_) parent_->Remove(this); if (layer_mask_) SetMaskLayer(NULL); if (layer_mask_back_link_) layer_mask_back_link_->SetMaskLayer(NULL); for (size_t i = 0; i < children_.size(); ++i) children_[i]->parent_ = NULL; cc_layer_->RemoveFromParent(); if (mailbox_release_callback_) mailbox_release_callback_->Run(gpu::SyncToken(), false); } std::unique_ptr Layer::Clone() const { auto clone = base::MakeUnique(type_); clone->SetTransform(GetTargetTransform()); clone->SetBounds(bounds_); clone->SetSubpixelPositionOffset(subpixel_position_offset_); clone->SetMasksToBounds(GetMasksToBounds()); clone->SetOpacity(GetTargetOpacity()); clone->SetVisible(GetTargetVisibility()); clone->SetFillsBoundsOpaquely(fills_bounds_opaquely_); clone->SetFillsBoundsCompletely(fills_bounds_completely_); clone->set_name(name_); // Background filters. clone->SetBackgroundBlur(background_blur_radius_); clone->SetBackgroundZoom(zoom_, zoom_inset_); // Filters. clone->SetLayerSaturation(layer_saturation_); clone->SetLayerBrightness(GetTargetBrightness()); clone->SetLayerGrayscale(GetTargetGrayscale()); clone->SetLayerInverted(layer_inverted_); if (alpha_shape_) clone->SetAlphaShape(base::MakeUnique(*alpha_shape_)); // cc::Layer state. if (surface_layer_ && surface_layer_->surface_id().is_valid()) { clone->SetShowSurface( surface_layer_->surface_id(), surface_layer_->satisfy_callback(), surface_layer_->require_callback(), surface_layer_->surface_size(), surface_layer_->surface_scale(), frame_size_in_dip_); } else if (type_ == LAYER_SOLID_COLOR) { clone->SetColor(GetTargetColor()); } return clone; } std::unique_ptr Layer::Mirror() { auto mirror = Clone(); mirrors_.emplace_back(base::MakeUnique(this, mirror.get())); return mirror; } const Compositor* Layer::GetCompositor() const { return GetRoot(this)->compositor_; } float Layer::opacity() const { return cc_layer_->opacity(); } void Layer::SetCompositor(Compositor* compositor, scoped_refptr root_layer) { // This function must only be called to set the compositor on the root ui // layer. DCHECK(compositor); DCHECK(!compositor_); DCHECK(compositor->root_layer() == this); DCHECK(!parent_); compositor_ = compositor; OnDeviceScaleFactorChanged(compositor->device_scale_factor()); root_layer->AddChild(cc_layer_); SetCompositorForAnimatorsInTree(compositor); } void Layer::ResetCompositor() { DCHECK(!parent_); if (compositor_) { ResetCompositorForAnimatorsInTree(compositor_); compositor_ = nullptr; } } void Layer::AddObserver(LayerObserver* observer) { observer_list_.AddObserver(observer); } void Layer::RemoveObserver(LayerObserver* observer) { observer_list_.RemoveObserver(observer); } void Layer::Add(Layer* child) { DCHECK(!child->compositor_); if (child->parent_) child->parent_->Remove(child); child->parent_ = this; children_.push_back(child); cc_layer_->AddChild(child->cc_layer_); child->OnDeviceScaleFactorChanged(device_scale_factor_); Compositor* compositor = GetCompositor(); if (compositor) child->SetCompositorForAnimatorsInTree(compositor); } void Layer::Remove(Layer* child) { // Current bounds are used to calculate offsets when layers are reparented. // Stop (and complete) an ongoing animation to update the bounds immediately. LayerAnimator* child_animator = child->animator_.get(); if (child_animator) child_animator->StopAnimatingProperty(ui::LayerAnimationElement::BOUNDS); Compositor* compositor = GetCompositor(); if (compositor) child->ResetCompositorForAnimatorsInTree(compositor); std::vector::iterator i = std::find(children_.begin(), children_.end(), child); DCHECK(i != children_.end()); children_.erase(i); child->parent_ = NULL; child->cc_layer_->RemoveFromParent(); } void Layer::StackAtTop(Layer* child) { if (children_.size() <= 1 || child == children_.back()) return; // Already in front. StackAbove(child, children_.back()); } void Layer::StackAbove(Layer* child, Layer* other) { StackRelativeTo(child, other, true); } void Layer::StackAtBottom(Layer* child) { if (children_.size() <= 1 || child == children_.front()) return; // Already on bottom. StackBelow(child, children_.front()); } void Layer::StackBelow(Layer* child, Layer* other) { StackRelativeTo(child, other, false); } bool Layer::Contains(const Layer* other) const { for (const Layer* parent = other; parent; parent = parent->parent()) { if (parent == this) return true; } return false; } void Layer::SetAnimator(LayerAnimator* animator) { Compositor* compositor = GetCompositor(); if (animator_) { if (compositor) animator_->DetachLayerAndTimeline(compositor); animator_->SetDelegate(nullptr); } animator_ = animator; if (animator_) { animator_->SetDelegate(this); if (compositor) animator_->AttachLayerAndTimeline(compositor); } } LayerAnimator* Layer::GetAnimator() { if (!animator_) SetAnimator(LayerAnimator::CreateDefaultAnimator()); return animator_.get(); } void Layer::SetTransform(const gfx::Transform& transform) { GetAnimator()->SetTransform(transform); } gfx::Transform Layer::GetTargetTransform() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::TRANSFORM)) { return animator_->GetTargetTransform(); } return transform(); } void Layer::SetBounds(const gfx::Rect& bounds) { GetAnimator()->SetBounds(bounds); } void Layer::SetSubpixelPositionOffset(const gfx::Vector2dF& offset) { subpixel_position_offset_ = offset; RecomputePosition(); } gfx::Rect Layer::GetTargetBounds() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::BOUNDS)) { return animator_->GetTargetBounds(); } return bounds_; } void Layer::SetMasksToBounds(bool masks_to_bounds) { cc_layer_->SetMasksToBounds(masks_to_bounds); } bool Layer::GetMasksToBounds() const { return cc_layer_->masks_to_bounds(); } void Layer::SetOpacity(float opacity) { GetAnimator()->SetOpacity(opacity); } float Layer::GetCombinedOpacity() const { float opacity = this->opacity(); Layer* current = this->parent_; while (current) { opacity *= current->opacity(); current = current->parent_; } return opacity; } void Layer::SetBackgroundBlur(int blur_radius) { background_blur_radius_ = blur_radius; SetLayerBackgroundFilters(); } void Layer::SetLayerSaturation(float saturation) { layer_saturation_ = saturation; SetLayerFilters(); } void Layer::SetLayerBrightness(float brightness) { GetAnimator()->SetBrightness(brightness); } float Layer::GetTargetBrightness() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::BRIGHTNESS)) { return animator_->GetTargetBrightness(); } return layer_brightness(); } void Layer::SetLayerGrayscale(float grayscale) { GetAnimator()->SetGrayscale(grayscale); } float Layer::GetTargetGrayscale() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::GRAYSCALE)) { return animator_->GetTargetGrayscale(); } return layer_grayscale(); } void Layer::SetLayerInverted(bool inverted) { layer_inverted_ = inverted; SetLayerFilters(); } void Layer::SetMaskLayer(Layer* layer_mask) { // The provided mask should not have a layer mask itself. DCHECK(!layer_mask || (!layer_mask->layer_mask_layer() && layer_mask->children().empty() && !layer_mask->layer_mask_back_link_)); DCHECK(!layer_mask_back_link_); if (layer_mask_ == layer_mask) return; // We need to de-reference the currently linked object so that no problem // arises if the mask layer gets deleted before this object. if (layer_mask_) layer_mask_->layer_mask_back_link_ = NULL; layer_mask_ = layer_mask; cc_layer_->SetMaskLayer(layer_mask ? layer_mask->cc_layer_ : NULL); // We need to reference the linked object so that it can properly break the // link to us when it gets deleted. if (layer_mask) { layer_mask->layer_mask_back_link_ = this; layer_mask->OnDeviceScaleFactorChanged(device_scale_factor_); } } void Layer::SetBackgroundZoom(float zoom, int inset) { zoom_ = zoom; zoom_inset_ = inset; SetLayerBackgroundFilters(); } void Layer::SetAlphaShape(std::unique_ptr region) { alpha_shape_ = std::move(region); SetLayerFilters(); } void Layer::SetLayerFilters() { cc::FilterOperations filters; if (layer_saturation_) { filters.Append(cc::FilterOperation::CreateSaturateFilter( layer_saturation_)); } if (layer_grayscale_) { filters.Append(cc::FilterOperation::CreateGrayscaleFilter( layer_grayscale_)); } if (layer_inverted_) filters.Append(cc::FilterOperation::CreateInvertFilter(1.0)); // Brightness goes last, because the resulting colors neeed clamping, which // cause further color matrix filters to be applied separately. In this order, // they all can be combined in a single pass. if (layer_brightness_) { filters.Append(cc::FilterOperation::CreateSaturatingBrightnessFilter( layer_brightness_)); } if (alpha_shape_) { filters.Append(cc::FilterOperation::CreateAlphaThresholdFilter( *alpha_shape_, 0.f, 0.f)); } cc_layer_->SetFilters(filters); } void Layer::SetLayerBackgroundFilters() { cc::FilterOperations filters; if (zoom_ != 1) filters.Append(cc::FilterOperation::CreateZoomFilter(zoom_, zoom_inset_)); if (background_blur_radius_) { filters.Append(cc::FilterOperation::CreateBlurFilter( background_blur_radius_)); } cc_layer_->SetBackgroundFilters(filters); } float Layer::GetTargetOpacity() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::OPACITY)) return animator_->GetTargetOpacity(); return opacity(); } void Layer::SetVisible(bool visible) { GetAnimator()->SetVisibility(visible); } bool Layer::GetTargetVisibility() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::VISIBILITY)) return animator_->GetTargetVisibility(); return visible_; } bool Layer::IsDrawn() const { const Layer* layer = this; while (layer && layer->visible_) layer = layer->parent_; return layer == NULL; } bool Layer::ShouldDraw() const { return type_ != LAYER_NOT_DRAWN && GetCombinedOpacity() > 0.0f; } // static void Layer::ConvertPointToLayer(const Layer* source, const Layer* target, gfx::Point* point) { if (source == target) return; const Layer* root_layer = GetRoot(source); CHECK_EQ(root_layer, GetRoot(target)); if (source != root_layer) source->ConvertPointForAncestor(root_layer, point); if (target != root_layer) target->ConvertPointFromAncestor(root_layer, point); } bool Layer::GetTargetTransformRelativeTo(const Layer* ancestor, gfx::Transform* transform) const { const Layer* p = this; for (; p && p != ancestor; p = p->parent()) { gfx::Transform translation; translation.Translate(static_cast(p->bounds().x()), static_cast(p->bounds().y())); // Use target transform so that result will be correct once animation is // finished. if (!p->GetTargetTransform().IsIdentity()) transform->ConcatTransform(p->GetTargetTransform()); transform->ConcatTransform(translation); } return p == ancestor; } void Layer::SetFillsBoundsOpaquely(bool fills_bounds_opaquely) { if (fills_bounds_opaquely_ == fills_bounds_opaquely) return; fills_bounds_opaquely_ = fills_bounds_opaquely; cc_layer_->SetContentsOpaque(fills_bounds_opaquely); } void Layer::SetFillsBoundsCompletely(bool fills_bounds_completely) { fills_bounds_completely_ = fills_bounds_completely; } void Layer::SwitchToLayer(scoped_refptr new_layer) { // Finish animations being handled by cc_layer_. if (animator_) { animator_->StopAnimatingProperty(LayerAnimationElement::TRANSFORM); animator_->StopAnimatingProperty(LayerAnimationElement::OPACITY); animator_->SwitchToLayer(new_layer); } if (texture_layer_.get()) texture_layer_->ClearClient(); cc_layer_->RemoveAllChildren(); if (cc_layer_->parent()) { cc_layer_->parent()->ReplaceChild(cc_layer_, new_layer); } cc_layer_->SetLayerClient(NULL); new_layer->SetOpacity(cc_layer_->opacity()); new_layer->SetTransform(cc_layer_->transform()); new_layer->SetPosition(cc_layer_->position()); new_layer->SetBackgroundColor(cc_layer_->background_color()); cc_layer_ = new_layer.get(); content_layer_ = NULL; solid_color_layer_ = NULL; texture_layer_ = NULL; surface_layer_ = NULL; for (size_t i = 0; i < children_.size(); ++i) { DCHECK(children_[i]->cc_layer_); cc_layer_->AddChild(children_[i]->cc_layer_); } cc_layer_->SetLayerClient(this); cc_layer_->SetTransformOrigin(gfx::Point3F()); cc_layer_->SetContentsOpaque(fills_bounds_opaquely_); cc_layer_->SetIsDrawable(type_ != LAYER_NOT_DRAWN); cc_layer_->SetHideLayerAndSubtree(!visible_); cc_layer_->SetElementId(cc::ElementId(cc_layer_->id(), 0)); SetLayerFilters(); SetLayerBackgroundFilters(); } void Layer::SwitchCCLayerForTest() { scoped_refptr new_layer = cc::PictureLayer::Create(this); SwitchToLayer(new_layer); content_layer_ = new_layer; } void Layer::SetTextureMailbox( const cc::TextureMailbox& mailbox, std::unique_ptr release_callback, gfx::Size texture_size_in_dip) { DCHECK(type_ == LAYER_TEXTURED || type_ == LAYER_SOLID_COLOR); DCHECK(mailbox.IsValid()); DCHECK(release_callback); if (!texture_layer_.get()) { scoped_refptr new_layer = cc::TextureLayer::CreateForMailbox(this); new_layer->SetFlipped(true); SwitchToLayer(new_layer); texture_layer_ = new_layer; // Reset the frame_size_in_dip_ so that SetTextureSize() will not early out, // the frame_size_in_dip_ was for a previous (different) |texture_layer_|. frame_size_in_dip_ = gfx::Size(); } if (mailbox_release_callback_) mailbox_release_callback_->Run(gpu::SyncToken(), false); mailbox_release_callback_ = std::move(release_callback); mailbox_ = mailbox; SetTextureSize(texture_size_in_dip); } void Layer::SetTextureSize(gfx::Size texture_size_in_dip) { DCHECK(texture_layer_.get()); if (frame_size_in_dip_ == texture_size_in_dip) return; frame_size_in_dip_ = texture_size_in_dip; RecomputeDrawsContentAndUVRect(); texture_layer_->SetNeedsDisplay(); } void Layer::SetTextureFlipped(bool flipped) { DCHECK(texture_layer_.get()); texture_layer_->SetFlipped(flipped); } bool Layer::TextureFlipped() const { DCHECK(texture_layer_.get()); return texture_layer_->flipped(); } void Layer::SetShowSurface( const cc::SurfaceId& surface_id, const cc::SurfaceLayer::SatisfyCallback& satisfy_callback, const cc::SurfaceLayer::RequireCallback& require_callback, gfx::Size surface_size, float scale, gfx::Size frame_size_in_dip) { DCHECK(type_ == LAYER_TEXTURED || type_ == LAYER_SOLID_COLOR); scoped_refptr new_layer = cc::SurfaceLayer::Create(satisfy_callback, require_callback); new_layer->SetSurfaceId(surface_id, scale, surface_size); SwitchToLayer(new_layer); surface_layer_ = new_layer; frame_size_in_dip_ = frame_size_in_dip; RecomputeDrawsContentAndUVRect(); for (const auto& mirror : mirrors_) { mirror->dest()->SetShowSurface( surface_id, satisfy_callback, require_callback, surface_size, scale, frame_size_in_dip); } } void Layer::SetShowSolidColorContent() { DCHECK_EQ(type_, LAYER_SOLID_COLOR); if (solid_color_layer_.get()) return; scoped_refptr new_layer = cc::SolidColorLayer::Create(); SwitchToLayer(new_layer); solid_color_layer_ = new_layer; mailbox_ = cc::TextureMailbox(); if (mailbox_release_callback_) { mailbox_release_callback_->Run(gpu::SyncToken(), false); mailbox_release_callback_.reset(); } RecomputeDrawsContentAndUVRect(); } void Layer::UpdateNinePatchLayerImage(const gfx::ImageSkia& image) { DCHECK(type_ == LAYER_NINE_PATCH && nine_patch_layer_.get()); nine_patch_layer_image_ = image; SkBitmap bitmap = nine_patch_layer_image_.GetRepresentation( device_scale_factor_).sk_bitmap(); SkBitmap bitmap_copy; if (bitmap.isImmutable()) { bitmap_copy = bitmap; } else { // UIResourceBitmap requires an immutable copy of the input |bitmap|. bitmap.copyTo(&bitmap_copy); bitmap_copy.setImmutable(); } nine_patch_layer_->SetBitmap(bitmap_copy); } void Layer::UpdateNinePatchLayerAperture(const gfx::Rect& aperture_in_dip) { DCHECK(type_ == LAYER_NINE_PATCH && nine_patch_layer_.get()); nine_patch_layer_aperture_ = aperture_in_dip; gfx::Rect aperture_in_pixel = ConvertRectToPixel(this, aperture_in_dip); nine_patch_layer_->SetAperture(aperture_in_pixel); } void Layer::UpdateNinePatchLayerBorder(const gfx::Rect& border) { DCHECK_EQ(type_, LAYER_NINE_PATCH); DCHECK(nine_patch_layer_.get()); nine_patch_layer_->SetBorder(border); } void Layer::UpdateNinePatchOcclusion(const gfx::Rect& occlusion) { DCHECK(type_ == LAYER_NINE_PATCH && nine_patch_layer_.get()); nine_patch_layer_->SetLayerOcclusion(occlusion); } void Layer::SetColor(SkColor color) { GetAnimator()->SetColor(color); } SkColor Layer::GetTargetColor() const { if (animator_ && animator_->IsAnimatingProperty( LayerAnimationElement::COLOR)) return animator_->GetTargetColor(); return cc_layer_->background_color(); } SkColor Layer::background_color() const { return cc_layer_->background_color(); } bool Layer::SchedulePaint(const gfx::Rect& invalid_rect) { if ((type_ == LAYER_SOLID_COLOR && !texture_layer_.get()) || type_ == LAYER_NINE_PATCH || (!delegate_ && !mailbox_.IsValid())) return false; damaged_region_.Union(invalid_rect); ScheduleDraw(); if (layer_mask_) { layer_mask_->damaged_region_.Union(invalid_rect); layer_mask_->ScheduleDraw(); } return true; } void Layer::ScheduleDraw() { Compositor* compositor = GetCompositor(); if (compositor) compositor->ScheduleDraw(); } void Layer::SendDamagedRects() { if (damaged_region_.IsEmpty()) return; if (!delegate_ && !mailbox_.IsValid()) return; for (cc::Region::Iterator iter(damaged_region_); iter.has_rect(); iter.next()) cc_layer_->SetNeedsDisplayRect(iter.rect()); if (layer_mask_) layer_mask_->SendDamagedRects(); if (content_layer_) paint_region_.Union(damaged_region_); damaged_region_.Clear(); } void Layer::CompleteAllAnimations() { typedef std::vector > LayerAnimatorVector; LayerAnimatorVector animators; CollectAnimators(&animators); for (LayerAnimatorVector::const_iterator it = animators.begin(); it != animators.end(); ++it) { (*it)->StopAnimating(); } } void Layer::SuppressPaint() { if (!delegate_) return; delegate_ = NULL; for (size_t i = 0; i < children_.size(); ++i) children_[i]->SuppressPaint(); } void Layer::OnDeviceScaleFactorChanged(float device_scale_factor) { if (device_scale_factor_ == device_scale_factor) return; if (animator_) animator_->StopAnimatingProperty(LayerAnimationElement::TRANSFORM); device_scale_factor_ = device_scale_factor; RecomputeDrawsContentAndUVRect(); RecomputePosition(); if (nine_patch_layer_) { UpdateNinePatchLayerImage(nine_patch_layer_image_); UpdateNinePatchLayerAperture(nine_patch_layer_aperture_); } SchedulePaint(gfx::Rect(bounds_.size())); if (delegate_) delegate_->OnDeviceScaleFactorChanged(device_scale_factor); for (size_t i = 0; i < children_.size(); ++i) children_[i]->OnDeviceScaleFactorChanged(device_scale_factor); if (layer_mask_) layer_mask_->OnDeviceScaleFactorChanged(device_scale_factor); } void Layer::OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) { DCHECK(surface_layer_.get()); if (delegate_) delegate_->OnDelegatedFrameDamage(damage_rect_in_dip); } void Layer::SetScrollable(Layer* parent_clip_layer, const base::Closure& on_scroll) { cc_layer_->SetScrollClipLayerId(parent_clip_layer->cc_layer_->id()); cc_layer_->set_did_scroll_callback(on_scroll); cc_layer_->SetUserScrollable(true, true); } gfx::ScrollOffset Layer::CurrentScrollOffset() const { const Compositor* compositor = GetCompositor(); gfx::ScrollOffset offset; if (compositor && compositor->GetScrollOffsetForLayer(cc_layer_->id(), &offset)) return offset; return cc_layer_->scroll_offset(); } void Layer::SetScrollOffset(const gfx::ScrollOffset& offset) { Compositor* compositor = GetCompositor(); bool scrolled_on_impl_side = compositor && compositor->ScrollLayerTo(cc_layer_->id(), offset); if (!scrolled_on_impl_side) cc_layer_->SetScrollOffset(offset); DCHECK_EQ(offset.x(), CurrentScrollOffset().x()); DCHECK_EQ(offset.y(), CurrentScrollOffset().y()); } void Layer::RequestCopyOfOutput( std::unique_ptr request) { cc_layer_->RequestCopyOfOutput(std::move(request)); } gfx::Rect Layer::PaintableRegion() { return gfx::Rect(size()); } scoped_refptr Layer::PaintContentsToDisplayList( ContentLayerClient::PaintingControlSetting painting_control) { TRACE_EVENT1("ui", "Layer::PaintContentsToDisplayList", "name", name_); gfx::Rect local_bounds(bounds().size()); gfx::Rect invalidation( gfx::IntersectRects(paint_region_.bounds(), local_bounds)); paint_region_.Clear(); cc::DisplayItemListSettings settings; settings.use_cached_picture = false; scoped_refptr display_list = cc::DisplayItemList::Create(settings); if (delegate_) { delegate_->OnPaintLayer( PaintContext(display_list.get(), device_scale_factor_, invalidation)); } display_list->Finalize(); // TODO(domlaskowski): Move mirror invalidation to Layer::SchedulePaint. for (const auto& mirror : mirrors_) mirror->dest()->SchedulePaint(invalidation); return display_list; } bool Layer::FillsBoundsCompletely() const { return fills_bounds_completely_; } size_t Layer::GetApproximateUnsharedMemoryUsage() const { // Most of the "picture memory" is shared with the cc::DisplayItemList, so // there's nothing significant to report here. return 0; } bool Layer::PrepareTextureMailbox( cc::TextureMailbox* mailbox, std::unique_ptr* release_callback) { if (!mailbox_release_callback_) return false; *mailbox = mailbox_; *release_callback = std::move(mailbox_release_callback_); return true; } class LayerDebugInfo : public base::trace_event::ConvertableToTraceFormat { public: explicit LayerDebugInfo(const std::string& name) : name_(name) {} ~LayerDebugInfo() override {} void AppendAsTraceFormat(std::string* out) const override { base::DictionaryValue dictionary; dictionary.SetString("layer_name", name_); std::string tmp; base::JSONWriter::Write(dictionary, &tmp); out->append(tmp); } private: std::string name_; }; std::unique_ptr Layer::TakeDebugInfo(cc::Layer* layer) { return base::WrapUnique(new LayerDebugInfo(name_)); } void Layer::didUpdateMainThreadScrollingReasons() {} void Layer::didChangeScrollbarsHidden(bool) {} void Layer::CollectAnimators( std::vector>* animators) { if (animator_ && animator_->is_animating()) animators->push_back(animator_); for (auto* child : children_) child->CollectAnimators(animators); } void Layer::StackRelativeTo(Layer* child, Layer* other, bool above) { DCHECK_NE(child, other); DCHECK_EQ(this, child->parent()); DCHECK_EQ(this, other->parent()); const size_t child_i = std::find(children_.begin(), children_.end(), child) - children_.begin(); const size_t other_i = std::find(children_.begin(), children_.end(), other) - children_.begin(); if ((above && child_i == other_i + 1) || (!above && child_i + 1 == other_i)) return; const size_t dest_i = above ? (child_i < other_i ? other_i : other_i + 1) : (child_i < other_i ? other_i - 1 : other_i); children_.erase(children_.begin() + child_i); children_.insert(children_.begin() + dest_i, child); child->cc_layer_->RemoveFromParent(); cc_layer_->InsertChild(child->cc_layer_, dest_i); } bool Layer::ConvertPointForAncestor(const Layer* ancestor, gfx::Point* point) const { gfx::Transform transform; bool result = GetTargetTransformRelativeTo(ancestor, &transform); auto p = gfx::Point3F(gfx::PointF(*point)); transform.TransformPoint(&p); *point = gfx::ToFlooredPoint(p.AsPointF()); return result; } bool Layer::ConvertPointFromAncestor(const Layer* ancestor, gfx::Point* point) const { gfx::Transform transform; bool result = GetTargetTransformRelativeTo(ancestor, &transform); auto p = gfx::Point3F(gfx::PointF(*point)); transform.TransformPointReverse(&p); *point = gfx::ToFlooredPoint(p.AsPointF()); return result; } void Layer::SetBoundsFromAnimation(const gfx::Rect& bounds) { if (bounds == bounds_) return; base::Closure closure; const gfx::Rect old_bounds = bounds_; bounds_ = bounds; RecomputeDrawsContentAndUVRect(); RecomputePosition(); if (delegate_) delegate_->OnLayerBoundsChanged(old_bounds); if (bounds.size() == old_bounds.size()) { // Don't schedule a draw if we're invisible. We'll schedule one // automatically when we get visible. if (IsDrawn()) ScheduleDraw(); } else { // Always schedule a paint, even if we're invisible. SchedulePaint(gfx::Rect(bounds.size())); } if (sync_bounds_) { for (const auto& mirror : mirrors_) mirror->dest()->SetBounds(bounds); } } void Layer::SetTransformFromAnimation(const gfx::Transform& transform) { cc_layer_->SetTransform(transform); } void Layer::SetOpacityFromAnimation(float opacity) { cc_layer_->SetOpacity(opacity); ScheduleDraw(); } void Layer::SetVisibilityFromAnimation(bool visible) { if (visible_ == visible) return; visible_ = visible; cc_layer_->SetHideLayerAndSubtree(!visible_); } void Layer::SetBrightnessFromAnimation(float brightness) { layer_brightness_ = brightness; SetLayerFilters(); } void Layer::SetGrayscaleFromAnimation(float grayscale) { layer_grayscale_ = grayscale; SetLayerFilters(); } void Layer::SetColorFromAnimation(SkColor color) { DCHECK_EQ(type_, LAYER_SOLID_COLOR); cc_layer_->SetBackgroundColor(color); SetFillsBoundsOpaquely(SkColorGetA(color) == 0xFF); } void Layer::ScheduleDrawForAnimation() { ScheduleDraw(); } const gfx::Rect& Layer::GetBoundsForAnimation() const { return bounds(); } gfx::Transform Layer::GetTransformForAnimation() const { return transform(); } float Layer::GetOpacityForAnimation() const { return opacity(); } bool Layer::GetVisibilityForAnimation() const { return visible(); } float Layer::GetBrightnessForAnimation() const { return layer_brightness(); } float Layer::GetGrayscaleForAnimation() const { return layer_grayscale(); } SkColor Layer::GetColorForAnimation() const { // WebColor is equivalent to SkColor, per WebColor.h. // The NULL check is here since this is invoked regardless of whether we have // been configured as LAYER_SOLID_COLOR. return solid_color_layer_.get() ? solid_color_layer_->background_color() : SK_ColorBLACK; } float Layer::GetDeviceScaleFactor() const { return device_scale_factor_; } LayerAnimatorCollection* Layer::GetLayerAnimatorCollection() { Compositor* compositor = GetCompositor(); return compositor ? compositor->layer_animator_collection() : NULL; } cc::Layer* Layer::GetCcLayer() const { return cc_layer_; } LayerThreadedAnimationDelegate* Layer::GetThreadedAnimationDelegate() { DCHECK(animator_); return animator_.get(); } void Layer::CreateCcLayer() { if (type_ == LAYER_SOLID_COLOR) { solid_color_layer_ = cc::SolidColorLayer::Create(); cc_layer_ = solid_color_layer_.get(); } else if (type_ == LAYER_NINE_PATCH) { nine_patch_layer_ = cc::NinePatchLayer::Create(); cc_layer_ = nine_patch_layer_.get(); } else { content_layer_ = cc::PictureLayer::Create(this); cc_layer_ = content_layer_.get(); } cc_layer_->SetTransformOrigin(gfx::Point3F()); cc_layer_->SetContentsOpaque(true); cc_layer_->SetIsDrawable(type_ != LAYER_NOT_DRAWN); cc_layer_->SetLayerClient(this); cc_layer_->SetElementId(cc::ElementId(cc_layer_->id(), 0)); RecomputePosition(); } gfx::Transform Layer::transform() const { return cc_layer_->transform(); } void Layer::RecomputeDrawsContentAndUVRect() { DCHECK(cc_layer_); gfx::Size size(bounds_.size()); if (texture_layer_.get()) { size.SetToMin(frame_size_in_dip_); gfx::PointF uv_top_left(0.f, 0.f); gfx::PointF uv_bottom_right( static_cast(size.width()) / frame_size_in_dip_.width(), static_cast(size.height()) / frame_size_in_dip_.height()); texture_layer_->SetUV(uv_top_left, uv_bottom_right); } else if (surface_layer_.get()) { size.SetToMin(frame_size_in_dip_); } cc_layer_->SetBounds(size); } void Layer::RecomputePosition() { cc_layer_->SetPosition(gfx::PointF(bounds_.origin()) + subpixel_position_offset_); } void Layer::SetCompositorForAnimatorsInTree(Compositor* compositor) { DCHECK(compositor); LayerAnimatorCollection* collection = compositor->layer_animator_collection(); if (animator_) { if (animator_->is_animating()) animator_->AddToCollection(collection); animator_->AttachLayerAndTimeline(compositor); } for (auto* child : children_) child->SetCompositorForAnimatorsInTree(compositor); } void Layer::ResetCompositorForAnimatorsInTree(Compositor* compositor) { DCHECK(compositor); LayerAnimatorCollection* collection = compositor->layer_animator_collection(); if (animator_) { animator_->DetachLayerAndTimeline(compositor); animator_->RemoveFromCollection(collection); } for (auto* child : children_) child->ResetCompositorForAnimatorsInTree(compositor); } void Layer::OnMirrorDestroyed(LayerMirror* mirror) { const auto it = std::find_if(mirrors_.begin(), mirrors_.end(), [mirror](const std::unique_ptr& mirror_ptr) { return mirror_ptr.get() == mirror; }); DCHECK(it != mirrors_.end()); mirrors_.erase(it); } } // namespace ui