// 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/layer_impl.h" #include "base/debug/trace_event.h" #include "base/json/json_reader.h" #include "base/strings/stringprintf.h" #include "cc/animation/animation_registrar.h" #include "cc/animation/scrollbar_animation_controller.h" #include "cc/animation/scrollbar_animation_controller_linear_fade.h" #include "cc/animation/scrollbar_animation_controller_thinning.h" #include "cc/base/math_util.h" #include "cc/debug/debug_colors.h" #include "cc/debug/layer_tree_debug_state.h" #include "cc/debug/micro_benchmark_impl.h" #include "cc/debug/traced_value.h" #include "cc/input/layer_scroll_offset_delegate.h" #include "cc/layers/painted_scrollbar_layer_impl.h" #include "cc/layers/quad_sink.h" #include "cc/output/copy_output_request.h" #include "cc/quads/debug_border_draw_quad.h" #include "cc/trees/layer_tree_impl.h" #include "cc/trees/layer_tree_settings.h" #include "cc/trees/proxy.h" #include "ui/gfx/box_f.h" #include "ui/gfx/point_conversions.h" #include "ui/gfx/quad_f.h" #include "ui/gfx/rect_conversions.h" namespace cc { LayerImpl::LayerImpl(LayerTreeImpl* tree_impl, int id) : parent_(NULL), scroll_parent_(NULL), clip_parent_(NULL), mask_layer_id_(-1), replica_layer_id_(-1), layer_id_(id), layer_tree_impl_(tree_impl), anchor_point_(0.5f, 0.5f), anchor_point_z_(0.f), scroll_offset_delegate_(NULL), scrollable_(false), should_scroll_on_main_thread_(false), have_wheel_event_handlers_(false), user_scrollable_horizontal_(true), user_scrollable_vertical_(true), stacking_order_changed_(false), double_sided_(true), layer_property_changed_(false), masks_to_bounds_(false), contents_opaque_(false), is_root_for_isolated_group_(false), preserves_3d_(false), use_parent_backface_visibility_(false), draw_checkerboard_for_missing_tiles_(false), draws_content_(false), hide_layer_and_subtree_(false), force_render_surface_(false), is_container_for_fixed_position_layers_(false), background_color_(0), opacity_(1.0), blend_mode_(SkXfermode::kSrcOver_Mode), draw_depth_(0.f), compositing_reasons_(kCompositingReasonUnknown), current_draw_mode_(DRAW_MODE_NONE), horizontal_scrollbar_layer_(NULL), vertical_scrollbar_layer_(NULL) { DCHECK_GT(layer_id_, 0); DCHECK(layer_tree_impl_); layer_tree_impl_->RegisterLayer(this); AnimationRegistrar* registrar = layer_tree_impl_->animationRegistrar(); layer_animation_controller_ = registrar->GetAnimationControllerForId(layer_id_); layer_animation_controller_->AddValueObserver(this); if (IsActive()) layer_animation_controller_->set_value_provider(this); } LayerImpl::~LayerImpl() { DCHECK_EQ(DRAW_MODE_NONE, current_draw_mode_); layer_animation_controller_->RemoveValueObserver(this); layer_animation_controller_->remove_value_provider(this); if (!copy_requests_.empty() && layer_tree_impl_->IsActiveTree()) layer_tree_impl()->RemoveLayerWithCopyOutputRequest(this); layer_tree_impl_->UnregisterLayer(this); if (scroll_children_) { for (std::set<LayerImpl*>::iterator it = scroll_children_->begin(); it != scroll_children_->end(); ++it) (*it)->scroll_parent_ = NULL; } if (scroll_parent_) scroll_parent_->RemoveScrollChild(this); if (clip_children_) { for (std::set<LayerImpl*>::iterator it = clip_children_->begin(); it != clip_children_->end(); ++it) (*it)->clip_parent_ = NULL; } if (clip_parent_) clip_parent_->RemoveClipChild(this); } void LayerImpl::AddChild(scoped_ptr<LayerImpl> child) { child->set_parent(this); DCHECK_EQ(layer_tree_impl(), child->layer_tree_impl()); children_.push_back(child.Pass()); layer_tree_impl()->set_needs_update_draw_properties(); } scoped_ptr<LayerImpl> LayerImpl::RemoveChild(LayerImpl* child) { for (OwnedLayerImplList::iterator it = children_.begin(); it != children_.end(); ++it) { if (*it == child) { scoped_ptr<LayerImpl> ret = children_.take(it); children_.erase(it); layer_tree_impl()->set_needs_update_draw_properties(); return ret.Pass(); } } return scoped_ptr<LayerImpl>(); } void LayerImpl::ClearChildList() { if (children_.empty()) return; children_.clear(); layer_tree_impl()->set_needs_update_draw_properties(); } bool LayerImpl::HasAncestor(const LayerImpl* ancestor) const { if (!ancestor) return false; for (const LayerImpl* layer = this; layer; layer = layer->parent()) { if (layer == ancestor) return true; } return false; } void LayerImpl::SetScrollParent(LayerImpl* parent) { if (scroll_parent_ == parent) return; // Having both a scroll parent and a scroll offset delegate is unsupported. DCHECK(!scroll_offset_delegate_); if (scroll_parent_) scroll_parent_->RemoveScrollChild(this); scroll_parent_ = parent; } void LayerImpl::SetDebugInfo( scoped_refptr<base::debug::ConvertableToTraceFormat> other) { debug_info_ = other; } void LayerImpl::SetScrollChildren(std::set<LayerImpl*>* children) { if (scroll_children_.get() == children) return; scroll_children_.reset(children); } void LayerImpl::RemoveScrollChild(LayerImpl* child) { DCHECK(scroll_children_); scroll_children_->erase(child); if (scroll_children_->empty()) scroll_children_.reset(); } void LayerImpl::SetClipParent(LayerImpl* ancestor) { if (clip_parent_ == ancestor) return; if (clip_parent_) clip_parent_->RemoveClipChild(this); clip_parent_ = ancestor; } void LayerImpl::SetClipChildren(std::set<LayerImpl*>* children) { if (clip_children_.get() == children) return; clip_children_.reset(children); } void LayerImpl::RemoveClipChild(LayerImpl* child) { DCHECK(clip_children_); clip_children_->erase(child); if (clip_children_->empty()) clip_children_.reset(); } void LayerImpl::PassCopyRequests(ScopedPtrVector<CopyOutputRequest>* requests) { if (requests->empty()) return; bool was_empty = copy_requests_.empty(); copy_requests_.insert_and_take(copy_requests_.end(), *requests); requests->clear(); if (was_empty && layer_tree_impl()->IsActiveTree()) layer_tree_impl()->AddLayerWithCopyOutputRequest(this); NoteLayerPropertyChangedForSubtree(); } void LayerImpl::TakeCopyRequestsAndTransformToTarget( ScopedPtrVector<CopyOutputRequest>* requests) { if (copy_requests_.empty()) return; size_t first_inserted_request = requests->size(); requests->insert_and_take(requests->end(), copy_requests_); copy_requests_.clear(); for (size_t i = first_inserted_request; i < requests->size(); ++i) { CopyOutputRequest* request = requests->at(i); if (!request->has_area()) continue; gfx::Rect request_in_layer_space = request->area(); gfx::Rect request_in_content_space = LayerRectToContentRect(request_in_layer_space); request->set_area( MathUtil::MapClippedRect(draw_properties_.target_space_transform, request_in_content_space)); } if (layer_tree_impl()->IsActiveTree()) layer_tree_impl()->RemoveLayerWithCopyOutputRequest(this); } void LayerImpl::CreateRenderSurface() { DCHECK(!draw_properties_.render_surface); draw_properties_.render_surface = make_scoped_ptr(new RenderSurfaceImpl(this)); draw_properties_.render_target = this; } void LayerImpl::ClearRenderSurface() { draw_properties_.render_surface.reset(); } scoped_ptr<SharedQuadState> LayerImpl::CreateSharedQuadState() const { scoped_ptr<SharedQuadState> state = SharedQuadState::Create(); state->SetAll(draw_properties_.target_space_transform, draw_properties_.content_bounds, draw_properties_.visible_content_rect, draw_properties_.clip_rect, draw_properties_.is_clipped, draw_properties_.opacity, blend_mode_); return state.Pass(); } bool LayerImpl::WillDraw(DrawMode draw_mode, ResourceProvider* resource_provider) { // WillDraw/DidDraw must be matched. DCHECK_NE(DRAW_MODE_NONE, draw_mode); DCHECK_EQ(DRAW_MODE_NONE, current_draw_mode_); current_draw_mode_ = draw_mode; return true; } void LayerImpl::DidDraw(ResourceProvider* resource_provider) { DCHECK_NE(DRAW_MODE_NONE, current_draw_mode_); current_draw_mode_ = DRAW_MODE_NONE; } bool LayerImpl::ShowDebugBorders() const { return layer_tree_impl()->debug_state().show_debug_borders; } void LayerImpl::GetDebugBorderProperties(SkColor* color, float* width) const { if (draws_content_) { *color = DebugColors::ContentLayerBorderColor(); *width = DebugColors::ContentLayerBorderWidth(layer_tree_impl()); return; } if (masks_to_bounds_) { *color = DebugColors::MaskingLayerBorderColor(); *width = DebugColors::MaskingLayerBorderWidth(layer_tree_impl()); return; } *color = DebugColors::ContainerLayerBorderColor(); *width = DebugColors::ContainerLayerBorderWidth(layer_tree_impl()); } void LayerImpl::AppendDebugBorderQuad( QuadSink* quad_sink, const SharedQuadState* shared_quad_state, AppendQuadsData* append_quads_data) const { SkColor color; float width; GetDebugBorderProperties(&color, &width); AppendDebugBorderQuad( quad_sink, shared_quad_state, append_quads_data, color, width); } void LayerImpl::AppendDebugBorderQuad(QuadSink* quad_sink, const SharedQuadState* shared_quad_state, AppendQuadsData* append_quads_data, SkColor color, float width) const { if (!ShowDebugBorders()) return; gfx::Rect content_rect(content_bounds()); scoped_ptr<DebugBorderDrawQuad> debug_border_quad = DebugBorderDrawQuad::Create(); debug_border_quad->SetNew(shared_quad_state, content_rect, color, width); quad_sink->Append(debug_border_quad.PassAs<DrawQuad>(), append_quads_data); } bool LayerImpl::HasDelegatedContent() const { return false; } bool LayerImpl::HasContributingDelegatedRenderPasses() const { return false; } RenderPass::Id LayerImpl::FirstContributingRenderPassId() const { return RenderPass::Id(0, 0); } RenderPass::Id LayerImpl::NextContributingRenderPassId(RenderPass::Id id) const { return RenderPass::Id(0, 0); } ResourceProvider::ResourceId LayerImpl::ContentsResourceId() const { NOTREACHED(); return 0; } void LayerImpl::SetSentScrollDelta(gfx::Vector2d sent_scroll_delta) { // Pending tree never has sent scroll deltas DCHECK(layer_tree_impl()->IsActiveTree()); if (sent_scroll_delta_ == sent_scroll_delta) return; sent_scroll_delta_ = sent_scroll_delta; } gfx::Vector2dF LayerImpl::ScrollBy(gfx::Vector2dF scroll) { DCHECK(scrollable()); gfx::Vector2dF min_delta = -scroll_offset_; gfx::Vector2dF max_delta = max_scroll_offset_ - scroll_offset_; // Clamp new_delta so that position + delta stays within scroll bounds. gfx::Vector2dF new_delta = (ScrollDelta() + scroll); new_delta.SetToMax(min_delta); new_delta.SetToMin(max_delta); gfx::Vector2dF unscrolled = ScrollDelta() + scroll - new_delta; SetScrollDelta(new_delta); return unscrolled; } void LayerImpl::ApplySentScrollDeltasFromAbortedCommit() { // Pending tree never has sent scroll deltas DCHECK(layer_tree_impl()->IsActiveTree()); // Apply sent scroll deltas to scroll position / scroll delta as if the // main thread had applied them and then committed those values. // // This function should not change the total scroll offset; it just shifts // some of the scroll delta to the scroll offset. Therefore, adjust these // variables directly rather than calling the scroll offset delegate to // avoid sending it multiple spurious calls. // // Because of the way scroll delta is calculated with a delegate, this will // leave the total scroll offset unchanged on this layer regardless of // whether a delegate is being used. scroll_offset_ += sent_scroll_delta_; scroll_delta_ -= sent_scroll_delta_; sent_scroll_delta_ = gfx::Vector2d(); } void LayerImpl::ApplyScrollDeltasSinceBeginMainFrame() { // Only the pending tree can have missing scrolls. DCHECK(layer_tree_impl()->IsPendingTree()); if (!scrollable()) return; // Pending tree should never have sent scroll deltas. DCHECK(sent_scroll_delta().IsZero()); LayerImpl* active_twin = layer_tree_impl()->FindActiveTreeLayerById(id()); if (active_twin) { // Scrolls that happens after begin frame (where the sent scroll delta // comes from) and commit need to be applied to the pending tree // so that it is up to date with the total scroll. SetScrollDelta(active_twin->ScrollDelta() - active_twin->sent_scroll_delta()); } } InputHandler::ScrollStatus LayerImpl::TryScroll( gfx::PointF screen_space_point, InputHandler::ScrollInputType type) const { if (should_scroll_on_main_thread()) { TRACE_EVENT0("cc", "LayerImpl::TryScroll: Failed ShouldScrollOnMainThread"); return InputHandler::ScrollOnMainThread; } if (!screen_space_transform().IsInvertible()) { TRACE_EVENT0("cc", "LayerImpl::TryScroll: Ignored NonInvertibleTransform"); return InputHandler::ScrollIgnored; } if (!non_fast_scrollable_region().IsEmpty()) { bool clipped = false; gfx::Transform inverse_screen_space_transform( gfx::Transform::kSkipInitialization); if (!screen_space_transform().GetInverse(&inverse_screen_space_transform)) { // TODO(shawnsingh): We shouldn't be applying a projection if screen space // transform is uninvertible here. Perhaps we should be returning // ScrollOnMainThread in this case? } gfx::PointF hit_test_point_in_content_space = MathUtil::ProjectPoint(inverse_screen_space_transform, screen_space_point, &clipped); gfx::PointF hit_test_point_in_layer_space = gfx::ScalePoint(hit_test_point_in_content_space, 1.f / contents_scale_x(), 1.f / contents_scale_y()); if (!clipped && non_fast_scrollable_region().Contains( gfx::ToRoundedPoint(hit_test_point_in_layer_space))) { TRACE_EVENT0("cc", "LayerImpl::tryScroll: Failed NonFastScrollableRegion"); return InputHandler::ScrollOnMainThread; } } if (type == InputHandler::Wheel && have_wheel_event_handlers()) { TRACE_EVENT0("cc", "LayerImpl::tryScroll: Failed WheelEventHandlers"); return InputHandler::ScrollOnMainThread; } if (!scrollable()) { TRACE_EVENT0("cc", "LayerImpl::tryScroll: Ignored not scrollable"); return InputHandler::ScrollIgnored; } if (max_scroll_offset_.x() <= 0 && max_scroll_offset_.y() <= 0) { TRACE_EVENT0("cc", "LayerImpl::tryScroll: Ignored. Technically scrollable," " but has no affordance in either direction."); return InputHandler::ScrollIgnored; } return InputHandler::ScrollStarted; } bool LayerImpl::DrawCheckerboardForMissingTiles() const { return draw_checkerboard_for_missing_tiles_ && !layer_tree_impl()->settings().background_color_instead_of_checkerboard; } gfx::Rect LayerImpl::LayerRectToContentRect( const gfx::RectF& layer_rect) const { gfx::RectF content_rect = gfx::ScaleRect(layer_rect, contents_scale_x(), contents_scale_y()); // Intersect with content rect to avoid the extra pixel because for some // values x and y, ceil((x / y) * y) may be x + 1. content_rect.Intersect(gfx::Rect(content_bounds())); return gfx::ToEnclosingRect(content_rect); } skia::RefPtr<SkPicture> LayerImpl::GetPicture() { return skia::RefPtr<SkPicture>(); } bool LayerImpl::AreVisibleResourcesReady() const { return true; } scoped_ptr<LayerImpl> LayerImpl::CreateLayerImpl(LayerTreeImpl* tree_impl) { return LayerImpl::Create(tree_impl, layer_id_); } void LayerImpl::PushPropertiesTo(LayerImpl* layer) { layer->SetAnchorPoint(anchor_point_); layer->SetAnchorPointZ(anchor_point_z_); layer->SetBackgroundColor(background_color_); layer->SetBounds(bounds_); layer->SetContentBounds(content_bounds()); layer->SetContentsScale(contents_scale_x(), contents_scale_y()); layer->SetDebugName(debug_name_); layer->SetCompositingReasons(compositing_reasons_); layer->SetDoubleSided(double_sided_); layer->SetDrawCheckerboardForMissingTiles( draw_checkerboard_for_missing_tiles_); layer->SetForceRenderSurface(force_render_surface_); layer->SetDrawsContent(DrawsContent()); layer->SetHideLayerAndSubtree(hide_layer_and_subtree_); layer->SetFilters(filters()); layer->SetBackgroundFilters(background_filters()); layer->SetMasksToBounds(masks_to_bounds_); layer->SetShouldScrollOnMainThread(should_scroll_on_main_thread_); layer->SetHaveWheelEventHandlers(have_wheel_event_handlers_); layer->SetNonFastScrollableRegion(non_fast_scrollable_region_); layer->SetTouchEventHandlerRegion(touch_event_handler_region_); layer->SetContentsOpaque(contents_opaque_); layer->SetOpacity(opacity_); layer->SetBlendMode(blend_mode_); layer->SetIsRootForIsolatedGroup(is_root_for_isolated_group_); layer->SetPosition(position_); layer->SetIsContainerForFixedPositionLayers( is_container_for_fixed_position_layers_); layer->SetFixedContainerSizeDelta(fixed_container_size_delta_); layer->SetPositionConstraint(position_constraint_); layer->SetPreserves3d(preserves_3d()); layer->SetUseParentBackfaceVisibility(use_parent_backface_visibility_); layer->SetSublayerTransform(sublayer_transform_); layer->SetTransform(transform_); layer->SetScrollable(scrollable_); layer->set_user_scrollable_horizontal(user_scrollable_horizontal_); layer->set_user_scrollable_vertical(user_scrollable_vertical_); layer->SetScrollOffsetAndDelta( scroll_offset_, layer->ScrollDelta() - layer->sent_scroll_delta()); layer->SetSentScrollDelta(gfx::Vector2d()); layer->SetMaxScrollOffset(max_scroll_offset_); LayerImpl* scroll_parent = NULL; if (scroll_parent_) scroll_parent = layer->layer_tree_impl()->LayerById(scroll_parent_->id()); layer->SetScrollParent(scroll_parent); if (scroll_children_) { std::set<LayerImpl*>* scroll_children = new std::set<LayerImpl*>; for (std::set<LayerImpl*>::iterator it = scroll_children_->begin(); it != scroll_children_->end(); ++it) scroll_children->insert(layer->layer_tree_impl()->LayerById((*it)->id())); layer->SetScrollChildren(scroll_children); } LayerImpl* clip_parent = NULL; if (clip_parent_) { clip_parent = layer->layer_tree_impl()->LayerById( clip_parent_->id()); } layer->SetClipParent(clip_parent); if (clip_children_) { std::set<LayerImpl*>* clip_children = new std::set<LayerImpl*>; for (std::set<LayerImpl*>::iterator it = clip_children_->begin(); it != clip_children_->end(); ++it) clip_children->insert(layer->layer_tree_impl()->LayerById((*it)->id())); layer->SetClipChildren(clip_children); } layer->PassCopyRequests(©_requests_); // If the main thread commits multiple times before the impl thread actually // draws, then damage tracking will become incorrect if we simply clobber the // update_rect here. The LayerImpl's update_rect needs to accumulate (i.e. // union) any update changes that have occurred on the main thread. update_rect_.Union(layer->update_rect()); layer->set_update_rect(update_rect_); layer->SetStackingOrderChanged(stacking_order_changed_); // Reset any state that should be cleared for the next update. stacking_order_changed_ = false; update_rect_ = gfx::RectF(); layer->SetDebugInfo(debug_info_); } base::DictionaryValue* LayerImpl::LayerTreeAsJson() const { base::DictionaryValue* result = new base::DictionaryValue; result->SetString("LayerType", LayerTypeAsString()); base::ListValue* list = new base::ListValue; list->AppendInteger(bounds().width()); list->AppendInteger(bounds().height()); result->Set("Bounds", list); list = new base::ListValue; list->AppendDouble(position_.x()); list->AppendDouble(position_.y()); result->Set("Position", list); const gfx::Transform& gfx_transform = draw_properties_.target_space_transform; double transform[16]; gfx_transform.matrix().asColMajord(transform); list = new base::ListValue; for (int i = 0; i < 16; ++i) list->AppendDouble(transform[i]); result->Set("DrawTransform", list); result->SetBoolean("DrawsContent", draws_content_); result->SetDouble("Opacity", opacity()); result->SetBoolean("ContentsOpaque", contents_opaque_); if (scrollable_) result->SetBoolean("Scrollable", scrollable_); if (have_wheel_event_handlers_) result->SetBoolean("WheelHandler", have_wheel_event_handlers_); if (!touch_event_handler_region_.IsEmpty()) { scoped_ptr<base::Value> region = touch_event_handler_region_.AsValue(); result->Set("TouchRegion", region.release()); } list = new base::ListValue; for (size_t i = 0; i < children_.size(); ++i) list->Append(children_[i]->LayerTreeAsJson()); result->Set("Children", list); return result; } void LayerImpl::SetStackingOrderChanged(bool stacking_order_changed) { if (stacking_order_changed) { stacking_order_changed_ = true; NoteLayerPropertyChangedForSubtree(); } } void LayerImpl::NoteLayerPropertyChanged() { layer_property_changed_ = true; layer_tree_impl()->set_needs_update_draw_properties(); } void LayerImpl::NoteLayerPropertyChangedForSubtree() { NoteLayerPropertyChanged(); NoteLayerPropertyChangedForDescendants(); } void LayerImpl::NoteLayerPropertyChangedForDescendants() { layer_tree_impl()->set_needs_update_draw_properties(); for (size_t i = 0; i < children_.size(); ++i) children_[i]->NoteLayerPropertyChangedForSubtree(); } const char* LayerImpl::LayerTypeAsString() const { return "cc::LayerImpl"; } void LayerImpl::ResetAllChangeTrackingForSubtree() { layer_property_changed_ = false; update_rect_ = gfx::RectF(); if (draw_properties_.render_surface) draw_properties_.render_surface->ResetPropertyChangedFlag(); if (mask_layer_) mask_layer_->ResetAllChangeTrackingForSubtree(); if (replica_layer_) { // This also resets the replica mask, if it exists. replica_layer_->ResetAllChangeTrackingForSubtree(); } for (size_t i = 0; i < children_.size(); ++i) children_[i]->ResetAllChangeTrackingForSubtree(); } bool LayerImpl::LayerIsAlwaysDamaged() const { return false; } gfx::Vector2dF LayerImpl::ScrollOffsetForAnimation() const { return TotalScrollOffset(); } void LayerImpl::OnFilterAnimated(const FilterOperations& filters) { SetFilters(filters); } void LayerImpl::OnOpacityAnimated(float opacity) { SetOpacity(opacity); } void LayerImpl::OnTransformAnimated(const gfx::Transform& transform) { SetTransform(transform); } void LayerImpl::OnScrollOffsetAnimated(gfx::Vector2dF scroll_offset) { // Only layers in the active tree should need to do anything here, since // layers in the pending tree will find out about these changes as a // result of the call to SetScrollDelta. if (!IsActive()) return; SetScrollDelta(scroll_offset - scroll_offset_); layer_tree_impl_->DidAnimateScrollOffset(); } void LayerImpl::OnAnimationWaitingForDeletion() {} bool LayerImpl::IsActive() const { return layer_tree_impl_->IsActiveTree(); } void LayerImpl::SetBounds(gfx::Size bounds) { if (bounds_ == bounds) return; bounds_ = bounds; if (masks_to_bounds()) NoteLayerPropertyChangedForSubtree(); else NoteLayerPropertyChanged(); } void LayerImpl::SetMaskLayer(scoped_ptr<LayerImpl> mask_layer) { int new_layer_id = mask_layer ? mask_layer->id() : -1; if (mask_layer) { DCHECK_EQ(layer_tree_impl(), mask_layer->layer_tree_impl()); DCHECK_NE(new_layer_id, mask_layer_id_); } else if (new_layer_id == mask_layer_id_) { return; } mask_layer_ = mask_layer.Pass(); mask_layer_id_ = new_layer_id; if (mask_layer_) mask_layer_->set_parent(this); NoteLayerPropertyChangedForSubtree(); } scoped_ptr<LayerImpl> LayerImpl::TakeMaskLayer() { mask_layer_id_ = -1; return mask_layer_.Pass(); } void LayerImpl::SetReplicaLayer(scoped_ptr<LayerImpl> replica_layer) { int new_layer_id = replica_layer ? replica_layer->id() : -1; if (replica_layer) { DCHECK_EQ(layer_tree_impl(), replica_layer->layer_tree_impl()); DCHECK_NE(new_layer_id, replica_layer_id_); } else if (new_layer_id == replica_layer_id_) { return; } replica_layer_ = replica_layer.Pass(); replica_layer_id_ = new_layer_id; if (replica_layer_) replica_layer_->set_parent(this); NoteLayerPropertyChangedForSubtree(); } scoped_ptr<LayerImpl> LayerImpl::TakeReplicaLayer() { replica_layer_id_ = -1; return replica_layer_.Pass(); } ScrollbarLayerImplBase* LayerImpl::ToScrollbarLayer() { return NULL; } void LayerImpl::SetDrawsContent(bool draws_content) { if (draws_content_ == draws_content) return; draws_content_ = draws_content; NoteLayerPropertyChanged(); } void LayerImpl::SetHideLayerAndSubtree(bool hide) { if (hide_layer_and_subtree_ == hide) return; hide_layer_and_subtree_ = hide; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetAnchorPoint(gfx::PointF anchor_point) { if (anchor_point_ == anchor_point) return; anchor_point_ = anchor_point; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetAnchorPointZ(float anchor_point_z) { if (anchor_point_z_ == anchor_point_z) return; anchor_point_z_ = anchor_point_z; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetBackgroundColor(SkColor background_color) { if (background_color_ == background_color) return; background_color_ = background_color; NoteLayerPropertyChanged(); } SkColor LayerImpl::SafeOpaqueBackgroundColor() const { SkColor color = background_color(); if (SkColorGetA(color) == 255 && !contents_opaque()) { color = SK_ColorTRANSPARENT; } else if (SkColorGetA(color) != 255 && contents_opaque()) { for (const LayerImpl* layer = parent(); layer; layer = layer->parent()) { color = layer->background_color(); if (SkColorGetA(color) == 255) break; } if (SkColorGetA(color) != 255) color = layer_tree_impl()->background_color(); if (SkColorGetA(color) != 255) color = SkColorSetA(color, 255); } return color; } void LayerImpl::SetFilters(const FilterOperations& filters) { if (filters_ == filters) return; filters_ = filters; NoteLayerPropertyChangedForSubtree(); } bool LayerImpl::FilterIsAnimating() const { return layer_animation_controller_->IsAnimatingProperty(Animation::Filter); } bool LayerImpl::FilterIsAnimatingOnImplOnly() const { Animation* filter_animation = layer_animation_controller_->GetAnimation(Animation::Filter); return filter_animation && filter_animation->is_impl_only(); } void LayerImpl::SetBackgroundFilters( const FilterOperations& filters) { if (background_filters_ == filters) return; background_filters_ = filters; NoteLayerPropertyChanged(); } void LayerImpl::SetMasksToBounds(bool masks_to_bounds) { if (masks_to_bounds_ == masks_to_bounds) return; masks_to_bounds_ = masks_to_bounds; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetContentsOpaque(bool opaque) { if (contents_opaque_ == opaque) return; contents_opaque_ = opaque; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetOpacity(float opacity) { if (opacity_ == opacity) return; opacity_ = opacity; NoteLayerPropertyChangedForSubtree(); } bool LayerImpl::OpacityIsAnimating() const { return layer_animation_controller_->IsAnimatingProperty(Animation::Opacity); } bool LayerImpl::OpacityIsAnimatingOnImplOnly() const { Animation* opacity_animation = layer_animation_controller_->GetAnimation(Animation::Opacity); return opacity_animation && opacity_animation->is_impl_only(); } void LayerImpl::SetBlendMode(SkXfermode::Mode blend_mode) { if (blend_mode_ == blend_mode) return; blend_mode_ = blend_mode; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetIsRootForIsolatedGroup(bool root) { if (is_root_for_isolated_group_ == root) return; is_root_for_isolated_group_ = root; } void LayerImpl::SetPosition(gfx::PointF position) { if (position_ == position) return; position_ = position; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetPreserves3d(bool preserves3_d) { if (preserves_3d_ == preserves3_d) return; preserves_3d_ = preserves3_d; NoteLayerPropertyChangedForSubtree(); } void LayerImpl::SetSublayerTransform(const gfx::Transform& sublayer_transform) { if (sublayer_transform_ == sublayer_transform) return; sublayer_transform_ = sublayer_transform; // Sublayer transform does not affect the current layer; it affects only its // children. NoteLayerPropertyChangedForDescendants(); } void LayerImpl::SetTransform(const gfx::Transform& transform) { if (transform_ == transform) return; transform_ = transform; NoteLayerPropertyChangedForSubtree(); } bool LayerImpl::TransformIsAnimating() const { return layer_animation_controller_->IsAnimatingProperty(Animation::Transform); } bool LayerImpl::TransformIsAnimatingOnImplOnly() const { Animation* transform_animation = layer_animation_controller_->GetAnimation(Animation::Transform); return transform_animation && transform_animation->is_impl_only(); } void LayerImpl::SetContentBounds(gfx::Size content_bounds) { if (this->content_bounds() == content_bounds) return; draw_properties_.content_bounds = content_bounds; NoteLayerPropertyChanged(); } void LayerImpl::SetContentsScale(float contents_scale_x, float contents_scale_y) { if (this->contents_scale_x() == contents_scale_x && this->contents_scale_y() == contents_scale_y) return; draw_properties_.contents_scale_x = contents_scale_x; draw_properties_.contents_scale_y = contents_scale_y; NoteLayerPropertyChanged(); } void LayerImpl::CalculateContentsScale( float ideal_contents_scale, float device_scale_factor, float page_scale_factor, bool animating_transform_to_screen, float* contents_scale_x, float* contents_scale_y, gfx::Size* content_bounds) { // Base LayerImpl has all of its content scales and content bounds pushed // from its Layer during commit and just reuses those values as-is. *contents_scale_x = this->contents_scale_x(); *contents_scale_y = this->contents_scale_y(); *content_bounds = this->content_bounds(); } void LayerImpl::UpdateScrollbarPositions() { gfx::Vector2dF current_offset = scroll_offset_ + ScrollDelta(); gfx::RectF viewport(PointAtOffsetFromOrigin(current_offset), bounds_); gfx::SizeF scrollable_size(max_scroll_offset_.x() + bounds_.width(), max_scroll_offset_.y() + bounds_.height()); if (horizontal_scrollbar_layer_) { horizontal_scrollbar_layer_->SetCurrentPos(current_offset.x()); horizontal_scrollbar_layer_->SetMaximum(max_scroll_offset_.x()); horizontal_scrollbar_layer_->SetVisibleToTotalLengthRatio( viewport.width() / scrollable_size.width()); } if (vertical_scrollbar_layer_) { vertical_scrollbar_layer_->SetCurrentPos(current_offset.y()); vertical_scrollbar_layer_->SetMaximum(max_scroll_offset_.y()); vertical_scrollbar_layer_->SetVisibleToTotalLengthRatio( viewport.height() / scrollable_size.height()); } if (current_offset == last_scroll_offset_) return; last_scroll_offset_ = current_offset; if (scrollbar_animation_controller_) { bool should_animate = scrollbar_animation_controller_->DidScrollUpdate( layer_tree_impl_->CurrentPhysicalTimeTicks()); if (should_animate) layer_tree_impl_->StartScrollbarAnimation(); } // Get the current_offset_.y() value for a sanity-check on scrolling // benchmark metrics. Specifically, we want to make sure // BasicMouseWheelSmoothScrollGesture has proper scroll curves. if (layer_tree_impl()->IsActiveTree()) { TRACE_COUNTER_ID1("gpu", "scroll_offset_y", this->id(), current_offset.y()); } } void LayerImpl::SetScrollOffsetDelegate( LayerScrollOffsetDelegate* scroll_offset_delegate) { // Having both a scroll parent and a scroll offset delegate is unsupported. DCHECK(!scroll_parent_); if (!scroll_offset_delegate && scroll_offset_delegate_) { scroll_delta_ = scroll_offset_delegate_->GetTotalScrollOffset() - scroll_offset_; } gfx::Vector2dF total_offset = TotalScrollOffset(); scroll_offset_delegate_ = scroll_offset_delegate; if (scroll_offset_delegate_) { scroll_offset_delegate_->SetMaxScrollOffset(max_scroll_offset_); scroll_offset_delegate_->SetTotalScrollOffset(total_offset); } } bool LayerImpl::IsExternalFlingActive() const { return scroll_offset_delegate_ && scroll_offset_delegate_->IsExternalFlingActive(); } void LayerImpl::SetScrollOffset(gfx::Vector2d scroll_offset) { SetScrollOffsetAndDelta(scroll_offset, ScrollDelta()); } void LayerImpl::SetScrollOffsetAndDelta(gfx::Vector2d scroll_offset, gfx::Vector2dF scroll_delta) { bool changed = false; if (scroll_offset_ != scroll_offset) { changed = true; scroll_offset_ = scroll_offset; if (scroll_offset_delegate_) scroll_offset_delegate_->SetTotalScrollOffset(TotalScrollOffset()); } if (ScrollDelta() != scroll_delta) { changed = true; if (layer_tree_impl()->IsActiveTree()) { LayerImpl* pending_twin = layer_tree_impl()->FindPendingTreeLayerById(id()); if (pending_twin) { // The pending twin can't mirror the scroll delta of the active // layer. Although the delta - sent scroll delta difference is // identical for both twins, the sent scroll delta for the pending // layer is zero, as anything that has been sent has been baked // into the layer's position/scroll offset as a part of commit. DCHECK(pending_twin->sent_scroll_delta().IsZero()); pending_twin->SetScrollDelta(scroll_delta - sent_scroll_delta()); } } if (scroll_offset_delegate_) { scroll_offset_delegate_->SetTotalScrollOffset(scroll_offset_ + scroll_delta); } else { scroll_delta_ = scroll_delta; } } if (changed) { NoteLayerPropertyChangedForSubtree(); UpdateScrollbarPositions(); } } gfx::Vector2dF LayerImpl::ScrollDelta() const { if (scroll_offset_delegate_) return scroll_offset_delegate_->GetTotalScrollOffset() - scroll_offset_; return scroll_delta_; } void LayerImpl::SetScrollDelta(gfx::Vector2dF scroll_delta) { SetScrollOffsetAndDelta(scroll_offset_, scroll_delta); } gfx::Vector2dF LayerImpl::TotalScrollOffset() const { return scroll_offset_ + ScrollDelta(); } void LayerImpl::SetDoubleSided(bool double_sided) { if (double_sided_ == double_sided) return; double_sided_ = double_sided; NoteLayerPropertyChangedForSubtree(); } Region LayerImpl::VisibleContentOpaqueRegion() const { if (contents_opaque()) return visible_content_rect(); return Region(); } void LayerImpl::DidBeginTracing() {} void LayerImpl::DidLoseOutputSurface() {} void LayerImpl::SetMaxScrollOffset(gfx::Vector2d max_scroll_offset) { if (max_scroll_offset_ == max_scroll_offset) return; max_scroll_offset_ = max_scroll_offset; if (scroll_offset_delegate_) scroll_offset_delegate_->SetMaxScrollOffset(max_scroll_offset_); layer_tree_impl()->set_needs_update_draw_properties(); UpdateScrollbarPositions(); } void LayerImpl::DidBecomeActive() { if (layer_tree_impl_->settings().scrollbar_animator == LayerTreeSettings::NoAnimator) { return; } bool need_scrollbar_animation_controller = horizontal_scrollbar_layer_ || vertical_scrollbar_layer_; if (!need_scrollbar_animation_controller) { scrollbar_animation_controller_.reset(); return; } if (scrollbar_animation_controller_) return; switch (layer_tree_impl_->settings().scrollbar_animator) { case LayerTreeSettings::LinearFade: { base::TimeDelta fadeout_delay = base::TimeDelta::FromMilliseconds( layer_tree_impl_->settings().scrollbar_linear_fade_delay_ms); base::TimeDelta fadeout_length = base::TimeDelta::FromMilliseconds( layer_tree_impl_->settings().scrollbar_linear_fade_length_ms); scrollbar_animation_controller_ = ScrollbarAnimationControllerLinearFade::Create( this, fadeout_delay, fadeout_length) .PassAs<ScrollbarAnimationController>(); break; } case LayerTreeSettings::Thinning: { scrollbar_animation_controller_ = ScrollbarAnimationControllerThinning::Create(this) .PassAs<ScrollbarAnimationController>(); break; } case LayerTreeSettings::NoAnimator: NOTREACHED(); break; } } void LayerImpl::SetHorizontalScrollbarLayer( ScrollbarLayerImplBase* scrollbar_layer) { horizontal_scrollbar_layer_ = scrollbar_layer; if (horizontal_scrollbar_layer_) horizontal_scrollbar_layer_->set_scroll_layer_id(id()); } void LayerImpl::SetVerticalScrollbarLayer( ScrollbarLayerImplBase* scrollbar_layer) { vertical_scrollbar_layer_ = scrollbar_layer; if (vertical_scrollbar_layer_) vertical_scrollbar_layer_->set_scroll_layer_id(id()); } static scoped_ptr<base::Value> CompositingReasonsAsValue(CompositingReasons reasons) { scoped_ptr<base::ListValue> reason_list(new base::ListValue()); if (reasons == kCompositingReasonUnknown) { reason_list->AppendString("No reasons given"); return reason_list.PassAs<base::Value>(); } if (reasons & kCompositingReason3DTransform) reason_list->AppendString("Has a 3d Transform"); if (reasons & kCompositingReasonVideo) reason_list->AppendString("Is accelerated video"); if (reasons & kCompositingReasonCanvas) reason_list->AppendString("Is accelerated canvas"); if (reasons & kCompositingReasonPlugin) reason_list->AppendString("Is accelerated plugin"); if (reasons & kCompositingReasonIFrame) reason_list->AppendString("Is accelerated iframe"); if (reasons & kCompositingReasonBackfaceVisibilityHidden) reason_list->AppendString("Has backface-visibility: hidden"); if (reasons & kCompositingReasonAnimation) reason_list->AppendString("Has accelerated animation or transition"); if (reasons & kCompositingReasonFilters) reason_list->AppendString("Has accelerated filters"); if (reasons & kCompositingReasonPositionFixed) reason_list->AppendString("Is fixed position"); if (reasons & kCompositingReasonPositionSticky) reason_list->AppendString("Is sticky position"); if (reasons & kCompositingReasonOverflowScrollingTouch) reason_list->AppendString("Is a scrollable overflow element"); if (reasons & kCompositingReasonAssumedOverlap) reason_list->AppendString("Might overlap a composited animation"); if (reasons & kCompositingReasonOverlap) reason_list->AppendString("Overlaps other composited content"); if (reasons & kCompositingReasonNegativeZIndexChildren) { reason_list->AppendString("Might overlap negative z-index " "composited content"); } if (reasons & kCompositingReasonTransformWithCompositedDescendants) { reason_list->AppendString("Has transform needed by a " "composited descendant"); } if (reasons & kCompositingReasonOpacityWithCompositedDescendants) reason_list->AppendString("Has opacity needed by a composited descendant"); if (reasons & kCompositingReasonMaskWithCompositedDescendants) reason_list->AppendString("Has a mask needed by a composited descendant"); if (reasons & kCompositingReasonReflectionWithCompositedDescendants) reason_list->AppendString("Has a reflection with a composited descendant"); if (reasons & kCompositingReasonFilterWithCompositedDescendants) reason_list->AppendString("Has filter effect with a composited descendant"); if (reasons & kCompositingReasonBlendingWithCompositedDescendants) reason_list->AppendString("Has a blend mode with a composited descendant"); if (reasons & kCompositingReasonClipsCompositingDescendants) reason_list->AppendString("Clips a composited descendant"); if (reasons & kCompositingReasonPerspective) { reason_list->AppendString("Has a perspective transform needed by a " "composited 3d descendant"); } if (reasons & kCompositingReasonPreserve3D) { reason_list->AppendString("Has preserves-3d style with composited " "3d descendant"); } if (reasons & kCompositingReasonReflectionOfCompositedParent) reason_list->AppendString("Is the reflection of a composited layer"); if (reasons & kCompositingReasonRoot) reason_list->AppendString("Is the root"); if (reasons & kCompositingReasonLayerForClip) reason_list->AppendString("Convenience layer, to clip subtree"); if (reasons & kCompositingReasonLayerForScrollbar) reason_list->AppendString("Convenience layer for rendering scrollbar"); if (reasons & kCompositingReasonLayerForScrollingContainer) reason_list->AppendString("Convenience layer, the scrolling container"); if (reasons & kCompositingReasonLayerForForeground) { reason_list->AppendString("Convenience layer, foreground when main layer " "has negative z-index composited content"); } if (reasons & kCompositingReasonLayerForBackground) { reason_list->AppendString("Convenience layer, background when main layer " "has a composited background"); } if (reasons & kCompositingReasonLayerForMask) reason_list->AppendString("Is a mask layer"); if (reasons & kCompositingReasonOverflowScrollingParent) reason_list->AppendString("Scroll parent is not an ancestor"); if (reasons & kCompositingReasonOutOfFlowClipping) reason_list->AppendString("Has clipping ancestor"); if (reasons & kCompositingReasonIsolateCompositedDescendants) reason_list->AppendString("Should isolate composited descendants"); return reason_list.PassAs<base::Value>(); } void LayerImpl::AsValueInto(base::DictionaryValue* state) const { TracedValue::MakeDictIntoImplicitSnapshot(state, LayerTypeAsString(), this); state->SetInteger("layer_id", id()); state->SetString("layer_name", debug_name()); state->Set("bounds", MathUtil::AsValue(bounds()).release()); state->SetInteger("draws_content", DrawsContent()); state->SetInteger("gpu_memory_usage", GPUMemoryUsageInBytes()); state->Set("compositing_reasons", CompositingReasonsAsValue(compositing_reasons_).release()); bool clipped; gfx::QuadF layer_quad = MathUtil::MapQuad( screen_space_transform(), gfx::QuadF(gfx::Rect(content_bounds())), &clipped); state->Set("layer_quad", MathUtil::AsValue(layer_quad).release()); if (!touch_event_handler_region_.IsEmpty()) { state->Set("touch_event_handler_region", touch_event_handler_region_.AsValue().release()); } if (have_wheel_event_handlers_) { gfx::Rect wheel_rect(content_bounds()); Region wheel_region(wheel_rect); state->Set("wheel_event_handler_region", wheel_region.AsValue().release()); } if (!non_fast_scrollable_region_.IsEmpty()) { state->Set("non_fast_scrollable_region", non_fast_scrollable_region_.AsValue().release()); } scoped_ptr<base::ListValue> children_list(new base::ListValue()); for (size_t i = 0; i < children_.size(); ++i) children_list->Append(children_[i]->AsValue().release()); state->Set("children", children_list.release()); if (mask_layer_) state->Set("mask_layer", mask_layer_->AsValue().release()); if (replica_layer_) state->Set("replica_layer", replica_layer_->AsValue().release()); if (scroll_parent_) state->SetInteger("scroll_parent", scroll_parent_->id()); if (clip_parent_) state->SetInteger("clip_parent", clip_parent_->id()); state->SetBoolean("can_use_lcd_text", can_use_lcd_text()); state->SetBoolean("contents_opaque", contents_opaque()); if (layer_animation_controller_->IsAnimatingProperty(Animation::Transform) || layer_animation_controller_->IsAnimatingProperty(Animation::Filter)) { gfx::BoxF box(bounds().width(), bounds().height(), 0.f); gfx::BoxF inflated; if (layer_animation_controller_->AnimatedBoundsForBox(box, &inflated)) state->Set("animated_bounds", MathUtil::AsValue(inflated).release()); } if (debug_info_.get()) { std::string str; debug_info_->AppendAsTraceFormat(&str); base::JSONReader json_reader; // Parsing the JSON and re-encoding it is not very efficient, // but it's the simplest way to achieve the desired effect, which // is to output: // {..., layout_rects: [{geometry_rect: ...}, ...], ...} // rather than: // {layout_rects: "[{geometry_rect: ...}, ...]", ...} state->Set("layout_rects", json_reader.ReadToValue(str)); } } size_t LayerImpl::GPUMemoryUsageInBytes() const { return 0; } scoped_ptr<base::Value> LayerImpl::AsValue() const { scoped_ptr<base::DictionaryValue> state(new base::DictionaryValue()); AsValueInto(state.get()); return state.PassAs<base::Value>(); } void LayerImpl::RunMicroBenchmark(MicroBenchmarkImpl* benchmark) { benchmark->RunOnLayer(this); } } // namespace cc