// 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. #ifndef UI_BASE_MODELS_TREE_NODE_MODEL_H_ #define UI_BASE_MODELS_TREE_NODE_MODEL_H_ #include <algorithm> #include <vector> #include "base/basictypes.h" #include "base/compiler_specific.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/memory/scoped_vector.h" #include "base/observer_list.h" #include "base/strings/string16.h" #include "ui/base/models/tree_model.h" namespace ui { // TreeNodeModel and TreeNodes provide an implementation of TreeModel around // TreeNodes. // // TreeNodes own their children, so that deleting a node deletes all // descendants. // // TreeNodes do NOT maintain a pointer back to the model. As such, if you // are using TreeNodes with a TreeNodeModel you will need to notify the observer // yourself any time you make any change directly to the TreeNodes. For example, // if you directly invoke set_title on a node it does not notify the observer, // you will need to do it yourself. This includes the following methods: Add, // Remove and set_title. TreeNodeModel provides cover methods that mutate the // TreeNodes and notify the observer. If you are using TreeNodes with a // TreeNodeModel use the cover methods to save yourself the headache. // // The following example creates a TreeNode with two children and then // creates a TreeNodeModel from it: // // TreeNodeWithValue<int>* root = new TreeNodeWithValue<int>(); // root->Add(new TreeNodeWithValue<int>(ASCIIToUTF16("child 1"), 0)); // root->Add(new TreeNodeWithValue<int>(ASCIIToUTF16("child 2"), 1)); // TreeNodeModel<TreeNodeWithValue<int> > model(root); // // Two variants of TreeNode are provided here: // // . TreeNode itself is intended for subclassing. It has one type parameter // that corresponds to the type of the node. When subclassing use your class // name as the type parameter, eg: // class MyTreeNode : public TreeNode<MyTreeNode> . // . TreeNodeWithValue is a trivial subclass of TreeNode that has one type // type parameter: a value type that is associated with the node. // // Which you use depends upon the situation. If you want to subclass and add // methods, then use TreeNode. If you don't need any extra methods and just // want to associate a value with each node, then use TreeNodeWithValue. // // Regardless of which TreeNode you use, if you are using the nodes with a // TreeView take care to notify the observer when mutating the nodes. // TreeNode ------------------------------------------------------------------- template <class NodeType> class TreeNode : public TreeModelNode { public: TreeNode() : parent_(NULL) {} explicit TreeNode(const base::string16& title) : title_(title), parent_(NULL) {} virtual ~TreeNode() {} // Adds |node| as a child of this node, at |index|. virtual void Add(NodeType* node, int index) { DCHECK(node); DCHECK_GE(index, 0); DCHECK_LE(index, child_count()); // If |node| has a parent, remove it from its parent. NodeType* parent = node->parent_; if (parent) parent->Remove(node); node->parent_ = static_cast<NodeType*>(this); children_.insert(children_.begin() + index, node); } // Removes |node| from this node and returns it. It's up to the caller to // delete it. virtual NodeType* Remove(NodeType* node) { typename std::vector<NodeType*>::iterator i = std::find(children_.begin(), children_.end(), node); DCHECK(i != children_.end()); node->parent_ = NULL; children_.weak_erase(i); return node; } // Removes all the children from this node. This does NOT delete the nodes. void RemoveAll() { for (size_t i = 0; i < children_.size(); ++i) children_[i]->parent_ = NULL; children_.weak_clear(); } // Removes all existing children without deleting the nodes and adds all nodes // contained in |children| into this node as children. void SetChildren(const std::vector<NodeType*>& children) { RemoveAll(); for (size_t i = 0; i < children.size(); ++i) Add(children[i], static_cast<int>(i)); } // Returns the parent node, or NULL if this is the root node. const NodeType* parent() const { return parent_; } NodeType* parent() { return parent_; } // Returns true if this is the root node. bool is_root() const { return parent_ == NULL; } // Returns the number of children. int child_count() const { return static_cast<int>(children_.size()); } // Returns true if this node has no children. bool empty() const { return children_.empty(); } // Returns the number of all nodes in the subtree rooted at this node, // including this node. int GetTotalNodeCount() const { int count = 1; // Start with one to include the node itself. for (size_t i = 0; i < children_.size(); ++i) count += children_[i]->GetTotalNodeCount(); return count; } // Returns the node at |index|. const NodeType* GetChild(int index) const { DCHECK_GE(index, 0); DCHECK_LT(index, child_count()); return children_[index]; } NodeType* GetChild(int index) { return const_cast<NodeType*>( static_cast<const NodeType&>(*this).GetChild(index)); } // Returns the index of |node|, or -1 if |node| is not a child of this. int GetIndexOf(const NodeType* node) const { DCHECK(node); typename std::vector<NodeType*>::const_iterator i = std::find(children_.begin(), children_.end(), node); return i != children_.end() ? static_cast<int>(i - children_.begin()) : -1; } // Sets the title of the node. virtual void SetTitle(const base::string16& title) { title_ = title; } // TreeModelNode: virtual const base::string16& GetTitle() const OVERRIDE { return title_; } // Returns true if this == ancestor, or one of this nodes parents is // ancestor. bool HasAncestor(const NodeType* ancestor) const { if (ancestor == this) return true; if (!ancestor) return false; return parent_ ? parent_->HasAncestor(ancestor) : false; } protected: std::vector<NodeType*>& children() { return children_.get(); } private: // Title displayed in the tree. base::string16 title_; // This node's parent. NodeType* parent_; // This node's children. ScopedVector<NodeType> children_; DISALLOW_COPY_AND_ASSIGN(TreeNode); }; // TreeNodeWithValue ---------------------------------------------------------- template <class ValueType> class TreeNodeWithValue : public TreeNode< TreeNodeWithValue<ValueType> > { public: TreeNodeWithValue() {} explicit TreeNodeWithValue(const ValueType& value) : ParentType(base::string16()), value(value) {} TreeNodeWithValue(const base::string16& title, const ValueType& value) : ParentType(title), value(value) {} ValueType value; private: typedef TreeNode< TreeNodeWithValue<ValueType> > ParentType; DISALLOW_COPY_AND_ASSIGN(TreeNodeWithValue); }; // TreeNodeModel -------------------------------------------------------------- // TreeModel implementation intended to be used with TreeNodes. template <class NodeType> class TreeNodeModel : public TreeModel { public: // Creates a TreeNodeModel with the specified root node. The root is owned // by the TreeNodeModel. explicit TreeNodeModel(NodeType* root) : root_(root) {} virtual ~TreeNodeModel() {} NodeType* AsNode(TreeModelNode* model_node) { return static_cast<NodeType*>(model_node); } void Add(NodeType* parent, NodeType* node, int index) { DCHECK(parent && node); parent->Add(node, index); NotifyObserverTreeNodesAdded(parent, index, 1); } NodeType* Remove(NodeType* parent, NodeType* node) { DCHECK(parent); int index = parent->GetIndexOf(node); NodeType* delete_node = parent->Remove(node); NotifyObserverTreeNodesRemoved(parent, index, 1); return delete_node; } void NotifyObserverTreeNodesAdded(NodeType* parent, int start, int count) { FOR_EACH_OBSERVER(TreeModelObserver, observer_list_, TreeNodesAdded(this, parent, start, count)); } void NotifyObserverTreeNodesRemoved(NodeType* parent, int start, int count) { FOR_EACH_OBSERVER(TreeModelObserver, observer_list_, TreeNodesRemoved(this, parent, start, count)); } void NotifyObserverTreeNodeChanged(TreeModelNode* node) { FOR_EACH_OBSERVER(TreeModelObserver, observer_list_, TreeNodeChanged(this, node)); } // TreeModel: virtual NodeType* GetRoot() OVERRIDE { return root_.get(); } virtual int GetChildCount(TreeModelNode* parent) OVERRIDE { DCHECK(parent); return AsNode(parent)->child_count(); } virtual NodeType* GetChild(TreeModelNode* parent, int index) OVERRIDE { DCHECK(parent); return AsNode(parent)->GetChild(index); } virtual int GetIndexOf(TreeModelNode* parent, TreeModelNode* child) OVERRIDE { DCHECK(parent); return AsNode(parent)->GetIndexOf(AsNode(child)); } virtual TreeModelNode* GetParent(TreeModelNode* node) OVERRIDE { DCHECK(node); return AsNode(node)->parent(); } virtual void AddObserver(TreeModelObserver* observer) OVERRIDE { observer_list_.AddObserver(observer); } virtual void RemoveObserver(TreeModelObserver* observer) OVERRIDE { observer_list_.RemoveObserver(observer); } virtual void SetTitle(TreeModelNode* node, const base::string16& title) OVERRIDE { DCHECK(node); AsNode(node)->SetTitle(title); NotifyObserverTreeNodeChanged(node); } private: // The observers. ObserverList<TreeModelObserver> observer_list_; // The root. scoped_ptr<NodeType> root_; DISALLOW_COPY_AND_ASSIGN(TreeNodeModel); }; } // namespace ui #endif // UI_BASE_MODELS_TREE_NODE_MODEL_H_