// Copyright 2011 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/trees/tree_synchronizer.h" #include "base/containers/hash_tables.h" #include "base/containers/scoped_ptr_hash_map.h" #include "base/debug/trace_event.h" #include "base/logging.h" #include "cc/animation/scrollbar_animation_controller.h" #include "cc/input/scrollbar.h" #include "cc/layers/layer.h" #include "cc/layers/layer_impl.h" #include "cc/layers/scrollbar_layer_impl_base.h" #include "cc/layers/scrollbar_layer_interface.h" namespace cc { typedef base::ScopedPtrHashMap ScopedPtrLayerImplMap; typedef base::hash_map RawPtrLayerImplMap; void CollectExistingLayerImplRecursive(ScopedPtrLayerImplMap* old_layers, scoped_ptr layer_impl) { if (!layer_impl) return; layer_impl->ClearScrollbars(); if (ScrollbarLayerImplBase* scrollbar_layer = layer_impl->ToScrollbarLayer()) { scrollbar_layer->ClearClipLayer(); scrollbar_layer->ClearScrollLayer(); } OwnedLayerImplList& children = layer_impl->children(); for (OwnedLayerImplList::iterator it = children.begin(); it != children.end(); ++it) CollectExistingLayerImplRecursive(old_layers, children.take(it)); CollectExistingLayerImplRecursive(old_layers, layer_impl->TakeMaskLayer()); CollectExistingLayerImplRecursive(old_layers, layer_impl->TakeReplicaLayer()); int id = layer_impl->id(); old_layers->set(id, layer_impl.Pass()); } template scoped_ptr SynchronizeTreesInternal( LayerType* layer_root, scoped_ptr old_layer_impl_root, LayerTreeImpl* tree_impl) { DCHECK(tree_impl); TRACE_EVENT0("cc", "TreeSynchronizer::SynchronizeTrees"); ScopedPtrLayerImplMap old_layers; RawPtrLayerImplMap new_layers; CollectExistingLayerImplRecursive(&old_layers, old_layer_impl_root.Pass()); scoped_ptr new_tree = SynchronizeTreesRecursive( &new_layers, &old_layers, layer_root, tree_impl); UpdateScrollbarLayerPointersRecursive(&new_layers, layer_root); return new_tree.Pass(); } scoped_ptr TreeSynchronizer::SynchronizeTrees( Layer* layer_root, scoped_ptr old_layer_impl_root, LayerTreeImpl* tree_impl) { return SynchronizeTreesInternal( layer_root, old_layer_impl_root.Pass(), tree_impl); } scoped_ptr TreeSynchronizer::SynchronizeTrees( LayerImpl* layer_root, scoped_ptr old_layer_impl_root, LayerTreeImpl* tree_impl) { return SynchronizeTreesInternal( layer_root, old_layer_impl_root.Pass(), tree_impl); } template scoped_ptr ReuseOrCreateLayerImpl(RawPtrLayerImplMap* new_layers, ScopedPtrLayerImplMap* old_layers, LayerType* layer, LayerTreeImpl* tree_impl) { scoped_ptr layer_impl = old_layers->take(layer->id()); if (!layer_impl) layer_impl = layer->CreateLayerImpl(tree_impl); (*new_layers)[layer->id()] = layer_impl.get(); return layer_impl.Pass(); } template scoped_ptr SynchronizeTreesRecursiveInternal( RawPtrLayerImplMap* new_layers, ScopedPtrLayerImplMap* old_layers, LayerType* layer, LayerTreeImpl* tree_impl) { if (!layer) return scoped_ptr(); scoped_ptr layer_impl = ReuseOrCreateLayerImpl(new_layers, old_layers, layer, tree_impl); layer_impl->ClearChildList(); for (size_t i = 0; i < layer->children().size(); ++i) { layer_impl->AddChild(SynchronizeTreesRecursiveInternal( new_layers, old_layers, layer->child_at(i), tree_impl)); } layer_impl->SetMaskLayer(SynchronizeTreesRecursiveInternal( new_layers, old_layers, layer->mask_layer(), tree_impl)); layer_impl->SetReplicaLayer(SynchronizeTreesRecursiveInternal( new_layers, old_layers, layer->replica_layer(), tree_impl)); return layer_impl.Pass(); } scoped_ptr SynchronizeTreesRecursive( RawPtrLayerImplMap* new_layers, ScopedPtrLayerImplMap* old_layers, Layer* layer, LayerTreeImpl* tree_impl) { return SynchronizeTreesRecursiveInternal( new_layers, old_layers, layer, tree_impl); } scoped_ptr SynchronizeTreesRecursive( RawPtrLayerImplMap* new_layers, ScopedPtrLayerImplMap* old_layers, LayerImpl* layer, LayerTreeImpl* tree_impl) { return SynchronizeTreesRecursiveInternal( new_layers, old_layers, layer, tree_impl); } template void UpdateScrollbarLayerPointersRecursiveInternal( const RawPtrLayerImplMap* new_layers, LayerType* layer) { if (!layer) return; for (size_t i = 0; i < layer->children().size(); ++i) { UpdateScrollbarLayerPointersRecursiveInternal< LayerType, ScrollbarLayerType>(new_layers, layer->child_at(i)); } ScrollbarLayerType* scrollbar_layer = layer->ToScrollbarLayer(); if (!scrollbar_layer) return; RawPtrLayerImplMap::const_iterator iter = new_layers->find(layer->id()); ScrollbarLayerImplBase* scrollbar_layer_impl = iter != new_layers->end() ? static_cast(iter->second) : NULL; DCHECK(scrollbar_layer_impl); scrollbar_layer->PushScrollClipPropertiesTo(scrollbar_layer_impl); } void UpdateScrollbarLayerPointersRecursive(const RawPtrLayerImplMap* new_layers, Layer* layer) { UpdateScrollbarLayerPointersRecursiveInternal( new_layers, layer); } void UpdateScrollbarLayerPointersRecursive(const RawPtrLayerImplMap* new_layers, LayerImpl* layer) { UpdateScrollbarLayerPointersRecursiveInternal< LayerImpl, ScrollbarLayerImplBase>(new_layers, layer); } // static template void TreeSynchronizer::PushPropertiesInternal( LayerType* layer, LayerImpl* layer_impl, size_t* num_dependents_need_push_properties_for_parent) { if (!layer) { DCHECK(!layer_impl); return; } DCHECK_EQ(layer->id(), layer_impl->id()); bool push_layer = layer->needs_push_properties(); bool recurse_on_children_and_dependents = layer->descendant_needs_push_properties(); if (push_layer) layer->PushPropertiesTo(layer_impl); else if (layer->ToScrollbarLayer()) layer->ToScrollbarLayer()->PushScrollClipPropertiesTo(layer_impl); size_t num_dependents_need_push_properties = 0; if (recurse_on_children_and_dependents) { PushPropertiesInternal(layer->mask_layer(), layer_impl->mask_layer(), &num_dependents_need_push_properties); PushPropertiesInternal(layer->replica_layer(), layer_impl->replica_layer(), &num_dependents_need_push_properties); const OwnedLayerImplList& impl_children = layer_impl->children(); DCHECK_EQ(layer->children().size(), impl_children.size()); for (size_t i = 0; i < layer->children().size(); ++i) { PushPropertiesInternal(layer->child_at(i), impl_children[i], &num_dependents_need_push_properties); } // When PushPropertiesTo completes for a layer, it may still keep // its needs_push_properties() state if the layer must push itself // every PushProperties tree walk. Here we keep track of those layers, and // ensure that their ancestors know about them for the next PushProperties // tree walk. layer->num_dependents_need_push_properties_ = num_dependents_need_push_properties; } bool add_self_to_parent = num_dependents_need_push_properties > 0 || layer->needs_push_properties(); *num_dependents_need_push_properties_for_parent += add_self_to_parent ? 1 : 0; } void TreeSynchronizer::PushProperties(Layer* layer, LayerImpl* layer_impl) { size_t num_dependents_need_push_properties = 0; PushPropertiesInternal( layer, layer_impl, &num_dependents_need_push_properties); } void TreeSynchronizer::PushProperties(LayerImpl* layer, LayerImpl* layer_impl) { size_t num_dependents_need_push_properties = 0; PushPropertiesInternal( layer, layer_impl, &num_dependents_need_push_properties); } } // namespace cc