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

 // Copyright 2016 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_list_iterator.h"

 #include "cc/layers/layer.h"

 namespace cc {

 LayerListIterator::LayerListIterator(Layer* root_layer)
     : current_layer_(root_layer) {
   DCHECK(!root_layer || !root_layer->parent());
   list_indices_.push_back(0);
 }

 LayerListIterator::LayerListIterator(const LayerListIterator& other) = default;

 LayerListIterator& LayerListIterator::operator++() {
   // case 0: done
   if (!current_layer_)
     return *this;

   // case 1: descend.
   if (!current_layer_->children().empty()) {
     current_layer_ = current_layer_->children()[0].get();
     list_indices_.push_back(0);
     return *this;
   }

   for (Layer* parent = current_layer_->mutable_parent(); parent;
        parent = parent->mutable_parent()) {
     // We now try and advance in some list of siblings.
     // case 2: Advance to a sibling.
     if (list_indices_.back() + 1 < parent->children().size()) {
       ++list_indices_.back();
       current_layer_ = parent->children()[list_indices_.back()].get();
       return *this;
     }

     // We need to ascend. We will pop an index off the stack.
     list_indices_.pop_back();
   }

   current_layer_ = nullptr;
   return *this;
 }

 LayerListIterator::~LayerListIterator() = default;

 LayerListConstIterator::LayerListConstIterator(const Layer* root_layer)
     : current_layer_(root_layer) {
   DCHECK(!root_layer || !root_layer->parent());
   list_indices_.push_back(0);
 }

 LayerListConstIterator::LayerListConstIterator(
     const LayerListConstIterator& other) = default;

 LayerListConstIterator& LayerListConstIterator::operator++() {
   // case 0: done
   if (!current_layer_)
     return *this;

   // case 1: descend.
   if (!current_layer_->children().empty()) {
     current_layer_ = current_layer_->children()[0].get();
     list_indices_.push_back(0);
     return *this;
   }

   for (const Layer* parent = current_layer_->parent(); parent;
        parent = parent->parent()) {
     // We now try and advance in some list of siblings.
     // case 2: Advance to a sibling.
     if (list_indices_.back() + 1 < parent->children().size()) {
       ++list_indices_.back();
       current_layer_ = parent->children()[list_indices_.back()].get();
       return *this;
     }

     // We need to ascend. We will pop an index off the stack.
     list_indices_.pop_back();
   }

   current_layer_ = nullptr;
   return *this;
 }

 LayerListConstIterator::~LayerListConstIterator() = default;

 LayerListReverseIterator::LayerListReverseIterator(Layer* root_layer)
     : current_layer_(root_layer) {
   DCHECK(!root_layer || !root_layer->parent());
   list_indices_.push_back(0);
   DescendToRightmostInSubtree();
 }

 LayerListReverseIterator::LayerListReverseIterator(
     const LayerListReverseIterator& other) = default;

 // We will only support prefix increment.
 LayerListReverseIterator& LayerListReverseIterator::operator++() {
   // case 0: done
   if (!current_layer_)
     return *this;

   // case 1: we're the leftmost sibling.
   if (!list_indices_.back()) {
     list_indices_.pop_back();
     current_layer_ = current_layer_->mutable_parent();
     return *this;
   }

   // case 2: we're not the leftmost sibling. In this case, we want to move one
   // sibling over, and then descend to the rightmost descendant in that subtree.
   CHECK(current_layer_->parent());
   --list_indices_.back();
   this->current_layer_ =
       current_layer_->mutable_parent()->children()[list_indices_.back()].get();
   DescendToRightmostInSubtree();
   return *this;
 }

 void LayerListReverseIterator::DescendToRightmostInSubtree() {
   if (!current_layer_)
     return;

   if (current_layer_->children().empty())
     return;

   size_t last_index = current_layer_->children().size() - 1;
   this->current_layer_ = current_layer_->children()[last_index].get();
   list_indices_.push_back(last_index);
   DescendToRightmostInSubtree();
 }

 LayerListReverseIterator::~LayerListReverseIterator() = default;

 LayerListReverseConstIterator::LayerListReverseConstIterator(
     const LayerListReverseConstIterator& other) = default;

 LayerListReverseConstIterator::LayerListReverseConstIterator(
     const Layer* root_layer)
     : current_layer_(root_layer) {
   DCHECK(!root_layer || !root_layer->parent());
   list_indices_.push_back(0);
   DescendToRightmostInSubtree();
 }

 LayerListReverseConstIterator& LayerListReverseConstIterator::operator++() {
   // case 0: done
   if (!current_layer_)
     return *this;

   // case 1: we're the leftmost sibling.
   if (!list_indices_.back()) {
     list_indices_.pop_back();
     current_layer_ = current_layer_->parent();
     return *this;
   }

   // case 2: we're not the leftmost sibling. In this case, we want to move one
   // sibling over, and then descend to the rightmost descendant in that subtree.
   CHECK(current_layer_->parent());
   --list_indices_.back();
   this->current_layer_ =
       current_layer_->parent()->children()[list_indices_.back()].get();
   DescendToRightmostInSubtree();
   return *this;
 }

 void LayerListReverseConstIterator::DescendToRightmostInSubtree() {
   if (!current_layer_)
     return;

   if (current_layer_->children().empty())
     return;

   size_t last_index = current_layer_->children().size() - 1;
   this->current_layer_ = current_layer_->children()[last_index].get();
   list_indices_.push_back(last_index);
   DescendToRightmostInSubtree();
 }

 LayerListReverseConstIterator::~LayerListReverseConstIterator() = default;

 }  // namespace cc
	// Copyright 2016 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_list_iterator.h"

	#include "cc/layers/layer.h"

	namespace cc {

	LayerListIterator::LayerListIterator(Layer* root_layer)
	: current_layer_(root_layer) {
	DCHECK(!root_layer \|\| !root_layer->parent());
	list_indices_.push_back(0);
	}

	LayerListIterator::LayerListIterator(const LayerListIterator& other) = default;

	LayerListIterator& LayerListIterator::operator++() {
	// case 0: done
	if (!current_layer_)
	return *this;

	// case 1: descend.
	if (!current_layer_->children().empty()) {
	current_layer_ = current_layer_->children()[0].get();
	list_indices_.push_back(0);
	return *this;
	}

	for (Layer* parent = current_layer_->mutable_parent(); parent;
	parent = parent->mutable_parent()) {
	// We now try and advance in some list of siblings.
	// case 2: Advance to a sibling.
	if (list_indices_.back() + 1 < parent->children().size()) {
	++list_indices_.back();
	current_layer_ = parent->children()[list_indices_.back()].get();
	return *this;
	}

	// We need to ascend. We will pop an index off the stack.
	list_indices_.pop_back();
	}

	current_layer_ = nullptr;
	return *this;
	}

	LayerListIterator::~LayerListIterator() = default;

	LayerListConstIterator::LayerListConstIterator(const Layer* root_layer)
	: current_layer_(root_layer) {
	DCHECK(!root_layer \|\| !root_layer->parent());
	list_indices_.push_back(0);
	}

	LayerListConstIterator::LayerListConstIterator(
	const LayerListConstIterator& other) = default;

	LayerListConstIterator& LayerListConstIterator::operator++() {
	// case 0: done
	if (!current_layer_)
	return *this;

	// case 1: descend.
	if (!current_layer_->children().empty()) {
	current_layer_ = current_layer_->children()[0].get();
	list_indices_.push_back(0);
	return *this;
	}

	for (const Layer* parent = current_layer_->parent(); parent;
	parent = parent->parent()) {
	// We now try and advance in some list of siblings.
	// case 2: Advance to a sibling.
	if (list_indices_.back() + 1 < parent->children().size()) {
	++list_indices_.back();
	current_layer_ = parent->children()[list_indices_.back()].get();
	return *this;
	}

	// We need to ascend. We will pop an index off the stack.
	list_indices_.pop_back();
	}

	current_layer_ = nullptr;
	return *this;
	}

	LayerListConstIterator::~LayerListConstIterator() = default;

	LayerListReverseIterator::LayerListReverseIterator(Layer* root_layer)
	: current_layer_(root_layer) {
	DCHECK(!root_layer \|\| !root_layer->parent());
	list_indices_.push_back(0);
	DescendToRightmostInSubtree();
	}

	LayerListReverseIterator::LayerListReverseIterator(
	const LayerListReverseIterator& other) = default;

	// We will only support prefix increment.
	LayerListReverseIterator& LayerListReverseIterator::operator++() {
	// case 0: done
	if (!current_layer_)
	return *this;

	// case 1: we're the leftmost sibling.
	if (!list_indices_.back()) {
	list_indices_.pop_back();
	current_layer_ = current_layer_->mutable_parent();
	return *this;
	}

	// case 2: we're not the leftmost sibling. In this case, we want to move one
	// sibling over, and then descend to the rightmost descendant in that subtree.
	CHECK(current_layer_->parent());
	--list_indices_.back();
	this->current_layer_ =
	current_layer_->mutable_parent()->children()[list_indices_.back()].get();
	DescendToRightmostInSubtree();
	return *this;
	}

	void LayerListReverseIterator::DescendToRightmostInSubtree() {
	if (!current_layer_)
	return;

	if (current_layer_->children().empty())
	return;

	size_t last_index = current_layer_->children().size() - 1;
	this->current_layer_ = current_layer_->children()[last_index].get();
	list_indices_.push_back(last_index);
	DescendToRightmostInSubtree();
	}

	LayerListReverseIterator::~LayerListReverseIterator() = default;

	LayerListReverseConstIterator::LayerListReverseConstIterator(
	const LayerListReverseConstIterator& other) = default;

	LayerListReverseConstIterator::LayerListReverseConstIterator(
	const Layer* root_layer)
	: current_layer_(root_layer) {
	DCHECK(!root_layer \|\| !root_layer->parent());
	list_indices_.push_back(0);
	DescendToRightmostInSubtree();
	}

	LayerListReverseConstIterator& LayerListReverseConstIterator::operator++() {
	// case 0: done
	if (!current_layer_)
	return *this;

	// case 1: we're the leftmost sibling.
	if (!list_indices_.back()) {
	list_indices_.pop_back();
	current_layer_ = current_layer_->parent();
	return *this;
	}

	// case 2: we're not the leftmost sibling. In this case, we want to move one
	// sibling over, and then descend to the rightmost descendant in that subtree.
	CHECK(current_layer_->parent());
	--list_indices_.back();
	this->current_layer_ =
	current_layer_->parent()->children()[list_indices_.back()].get();
	DescendToRightmostInSubtree();
	return *this;
	}

	void LayerListReverseConstIterator::DescendToRightmostInSubtree() {
	if (!current_layer_)
	return;

	if (current_layer_->children().empty())
	return;

	size_t last_index = current_layer_->children().size() - 1;
	this->current_layer_ = current_layer_->children()[last_index].get();
	list_indices_.push_back(last_index);
	DescendToRightmostInSubtree();
	}

	LayerListReverseConstIterator::~LayerListReverseConstIterator() = default;

	} // namespace cc