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Diffstat (limited to 'ace/RB_Tree.h')
-rw-r--r-- | ace/RB_Tree.h | 798 |
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diff --git a/ace/RB_Tree.h b/ace/RB_Tree.h deleted file mode 100644 index 12e127f7a00..00000000000 --- a/ace/RB_Tree.h +++ /dev/null @@ -1,798 +0,0 @@ -/* -*- C++ -*- */ - -//============================================================================= -/** - * @file RB_Tree.h - * - * $Id$ - * - * @author Chris Gill - */ -//============================================================================= - - -#ifndef ACE_RB_TREE_H -#define ACE_RB_TREE_H -#include "ace/pre.h" - -#include "ace/OS.h" -#include "ace/Functor.h" - -#if !defined (ACE_LACKS_PRAGMA_ONCE) -# pragma once -#endif /* ACE_LACKS_PRAGMA_ONCE */ - -// Forward decl. -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree_Iterator_Base; - -// Forward decl. -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree_Iterator; - -// Forward decl. -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree_Reverse_Iterator; - -// Forward decl. -class ACE_Allocator; - -class ACE_RB_Tree_Node_Base -{ -public: - enum RB_Tree_Node_Color {RED, BLACK}; -}; - -/** - * @class ACE_RB_Tree_Node - * - * @brief Implements a node in a Red-Black Tree ADT. - */ -template <class EXT_ID, class INT_ID> -class ACE_RB_Tree_Node : public ACE_RB_Tree_Node_Base -{ -public: - // = Initialization and termination methods. - - /// Constructor. - ACE_RB_Tree_Node (const EXT_ID &k, const INT_ID &t); - - /// Destructor. - ~ACE_RB_Tree_Node (void); - - /// Key accessor. - EXT_ID &key (void); - - /// Item accessor. - INT_ID &item (void); - - /// Set color of the node. - void color (RB_Tree_Node_Color c); - - /// Get color of the node. - RB_Tree_Node_Color color (void); - - /// Accessor for node's parent pointer. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *parent (void); - - /// Mutator for node's parent pointer. - void parent (ACE_RB_Tree_Node<EXT_ID, INT_ID> * p); - - /// Accessor for node's left child pointer. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *left (void); - - /// Mutator for node's left child pointer. - void left (ACE_RB_Tree_Node<EXT_ID, INT_ID> *l); - - /// Accessor for node's right child pointer. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *right (void); - - /// Mutator for node's right child pointer - void right (ACE_RB_Tree_Node<EXT_ID, INT_ID> * r); - -private: - - /// The key. - EXT_ID k_; - - /// The item. - INT_ID t_; - - /// Color of the node. - RB_Tree_Node_Color color_; - - /// Pointer to node's parent. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *parent_; - - /// Pointer to node's left child. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *left_; - - /// Pointer to node's right child. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *right_; -}; - -class ACE_RB_Tree_Base -{ -public: - /// Search result enumeration. - enum RB_SearchResult {LEFT, EXACT, RIGHT}; -}; - -/** - * @class ACE_RB_Tree - * - * @brief Implements a Red-Black Tree ADT, according to T. H. Corman, - * C. E. Leiserson, and R. L. Rivest, "Introduction to Algorithms" - * 1990, MIT, chapter 14. - * - * A number of Changes have been made to this class template - * in order to conform to the ACE_Hash_Map_Manager_Ex - * interface. All previously supported public methods are - * still part of this class. However, these are marked as - * DEPRECATED and will be removed from this class in - * a future version of ACE. Please migrate your code - * to the appropriate public methods indicated in the - * method deprecation comments. - * This class uses an <ACE_Allocator> to allocate memory. The - * user can make this a persistent class by providing an - * <ACE_Allocator> with a persistable memory pool. - */ -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree : public ACE_RB_Tree_Base -{ - -public: - friend class ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK>; - friend class ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK>; - friend class ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK>; - - typedef EXT_ID KEY; - typedef INT_ID VALUE; - typedef ACE_RB_Tree_Node<EXT_ID, INT_ID> ENTRY; - - // = ACE-style iterator typedefs. - typedef ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> ITERATOR; - typedef ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> REVERSE_ITERATOR; - - // = STL-style iterator typedefs. - typedef ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> iterator; - typedef ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> reverse_iterator; - - // = Initialization and termination methods. - - /// Constructor. - ACE_RB_Tree (ACE_Allocator *alloc = 0); - - /// Copy constructor. - ACE_RB_Tree (const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &rbt); - - /// Initialize an RB Tree. - int open (ACE_Allocator *alloc = 0); - - /// Close down an RB_Tree and release dynamically allocated - /// resources. - int close (void); - - /// Destructor. - virtual ~ACE_RB_Tree (void); - - // = insertion, removal, and search methods. - - /** - * Associate <ext_id> with <int_id>. If <ext_id> is already in the - * tree then the <ACE_RB_Tree_Node> is not changed. Returns 0 if a - * new entry is bound successfully, returns 1 if an attempt is made - * to bind an existing entry, and returns -1 if failures occur. - */ - int bind (const EXT_ID &item, - const INT_ID &int_id); - - /** - * Same as a normal bind, except the tree entry is also passed back - * to the caller. The entry in this case will either be the newly - * created entry, or the existing one. - */ - int bind (const EXT_ID &ext_id, - const INT_ID &int_id, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - - /** - * Associate <ext_id> with <int_id> if and only if <ext_id> is not - * in the tree. If <ext_id> is already in the tree then the <int_id> - * parameter is assigned the existing value in the tree. Returns 0 - * if a new entry is bound successfully, returns 1 if an attempt is - * made to bind an existing entry, and returns -1 if failures occur. - */ - int trybind (const EXT_ID &ext_id, - INT_ID &int_id); - - /** - * Same as a normal trybind, except the tree entry is also passed - * back to the caller. The entry in this case will either be the - * newly created entry, or the existing one. - */ - int trybind (const EXT_ID &ext_id, - INT_ID &int_id, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - /** - * Reassociate <ext_id> with <int_id>. If <ext_id> is not in the - * tree then behaves just like <bind>. Returns 0 if a new entry is - * bound successfully, returns 1 if an existing entry was rebound, - * and returns -1 if failures occur. - */ - int rebind (const EXT_ID &ext_id, - const INT_ID &int_id); - - /** - * Same as a normal rebind, except the tree entry is also passed back - * to the caller. The entry in this case will either be the newly - * created entry, or the existing one. - */ - int rebind (const EXT_ID &ext_id, - const INT_ID &int_id, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - /** - * Associate <ext_id> with <int_id>. If <ext_id> is not in the tree - * then behaves just like <bind>. Otherwise, store the old value of - * <int_id> into the "out" parameter and rebind the new parameters. - * Returns 0 if a new entry is bound successfully, returns 1 if an - * existing entry was rebound, and returns -1 if failures occur. - */ - int rebind (const EXT_ID &ext_id, - const INT_ID &int_id, - INT_ID &old_int_id); - - /** - * Same as a normal rebind, except the tree entry is also passed back - * to the caller. The entry in this case will either be the newly - * created entry, or the existing one. - */ - int rebind (const EXT_ID &ext_id, - const INT_ID &int_id, - INT_ID &old_int_id, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - /** - * Associate <ext_id> with <int_id>. If <ext_id> is not in the tree - * then behaves just like <bind>. Otherwise, store the old values - * of <ext_id> and <int_id> into the "out" parameters and rebind the - * new parameters. This is very useful if you need to have an - * atomic way of updating <ACE_RB_Tree_Nodes> and you also need - * full control over memory allocation. Returns 0 if a new entry is - * bound successfully, returns 1 if an existing entry was rebound, - * and returns -1 if failures occur. - */ - int rebind (const EXT_ID &ext_id, - const INT_ID &int_id, - EXT_ID &old_ext_id, - INT_ID &old_int_id); - - /** - * Same as a normal rebind, except the tree entry is also passed back - * to the caller. The entry in this case will either be the newly - * created entry, or the existing one. - */ - int rebind (const EXT_ID &ext_id, - const INT_ID &int_id, - EXT_ID &old_ext_id, - INT_ID &old_int_id, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - /// Locate <ext_id> and pass out parameter via <int_id>. If found, - /// return 0, returns -1 if not found. - int find (const EXT_ID &ext_id, - INT_ID &int_id); - - /// Locate <ext_id> and pass out parameter via <entry>. If found, - /// return 0, returns -1 if not found. - int find (const EXT_ID &ext_id, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - /** - * Unbind (remove) the <ext_id> from the tree. Don't return the - * <int_id> to the caller (this is useful for collections where the - * <int_id>s are *not* dynamically allocated...) - */ - int unbind (const EXT_ID &ext_id); - - /// Break any association of <ext_id>. Returns the value of <int_id> - /// in case the caller needs to deallocate memory. - int unbind (const EXT_ID &ext_id, - INT_ID &int_id); - - /** - * Remove entry from tree. This method should be used with *extreme* - * caution, and only for optimization purposes. The node being passed - * in had better have been allocated by the tree that is unbinding it. - */ - int unbind (ACE_RB_Tree_Node<EXT_ID, INT_ID> *entry); - - // = Public helper methods. - - /// Returns the current number of nodes in the tree. - size_t current_size (void) const; - - /// Assignment operator. - void operator= (const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &rbt); - - /// Less than comparison function for keys, using comparison functor. - virtual int lessthan (const EXT_ID &k1, const EXT_ID &k2); - - /** - * Returns a reference to the underlying <ACE_LOCK>. This makes it - * possible to acquire the lock explicitly, which can be useful in - * some cases if you instantiate the <ACE_Atomic_Op> with an - * <ACE_Recursive_Mutex> or <ACE_Process_Mutex>, or if you need to - * guard the state of an iterator. NOTE: the right name would be - * <lock>, but HP/C++ will choke on that! - */ - ACE_LOCK &mutex (void); - - /// Dump the state of an object. - void dump (void) const; - - // = STL styled iterator factory functions. - - /// Return forward iterator positioned at first node in tree. - ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> begin (void); - - /// Return forward iterator positioned at last node in tree. - ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> end (void); - - /// Return reverse iterator positioned at last node in tree. - ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> rbegin (void); - - /// Return reverse iterator positioned at first node in tree. - ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> rend (void); - - /// Recursively tests the invariant red-black properties at each - /// node of the tree. Returns 0 if invariant holds, else -1. - /// This method is computationally expensive, and should only be - /// called for testing purposes, and not in code that depends on the - /// algorithmic complexity bounds provided by the other methods. - int test_invariant (void); - - // = DEPRECATED methods. - // Please migrate your code to use the new methods instead - - /** - * Returns a pointer to the item corresponding to the - * given key, or 0 if it cannot find the key in the tree. - * - * @deprecated signature will change to become - * int find (const EXT_ID &ext_id); which will return - * 0 if the <ext_id> is in the tree, otherwise -1. - */ - INT_ID* find (const EXT_ID &k); - - /** - * Inserts a *copy* of the key and the item into the tree: both the - * key type EXT_ID and the item type INT_ID must have well defined semantics - * for copy construction. The default implementation also requires that - * the key type support well defined < semantics. This method returns a - * pointer to the inserted item copy, or 0 if an error occurred. - * NOTE: if an identical key already exists in the tree, no new item - * is created, and the returned pointer addresses the existing item - * associated with the existing key. - * @deprecated - */ - INT_ID* insert (const EXT_ID &k, const INT_ID &t); - - /** - * Removes the item associated with the given key from the tree and - * destroys it. Returns 1 if it found the item and successfully - * destroyed it, 0 if it did not find the item, or -1 if an error - * occurred. - * @deprecated - */ - int remove (const EXT_ID &k); - - /// Destroys all nodes and sets the root pointer null. - /// @deprecated - void clear (void); - -protected: - - // = Protected methods. These should only be called with locks held. - - /// Recursively tests the invariant red-black properties at each - /// node of the tree. Returns 0 if invariant holds, else -1. - int test_invariant_recurse (ACE_RB_Tree_Node<EXT_ID, INT_ID> * x, - int & expected_black_height, - int measured_black_height); - - /// Method for right rotation of the tree about a given node. - void RB_rotate_right (ACE_RB_Tree_Node<EXT_ID, INT_ID> * x); - - /// Method for left rotation of the tree about a given node. - void RB_rotate_left (ACE_RB_Tree_Node<EXT_ID, INT_ID> * x); - - /// Method for restoring Red-Black properties after deletion. - void RB_delete_fixup (ACE_RB_Tree_Node<EXT_ID, INT_ID> * x, - ACE_RB_Tree_Node<EXT_ID, INT_ID> * parent); - - /// Method to find the successor node of the given node in the tree. - ACE_RB_Tree_Node<EXT_ID, INT_ID> * - RB_tree_successor (ACE_RB_Tree_Node<EXT_ID, INT_ID> *x) const; - - /// Method to find the predecessor node of the given node in the - /// tree. - ACE_RB_Tree_Node<EXT_ID, INT_ID> * - RB_tree_predecessor (ACE_RB_Tree_Node<EXT_ID, INT_ID> *x) const; - - /// Method to find the minimum node of the subtree rooted at the - /// given node. - ACE_RB_Tree_Node<EXT_ID, INT_ID> * - RB_tree_minimum (ACE_RB_Tree_Node<EXT_ID, INT_ID> *x) const; - - /// Method to find the maximum node of the subtree rooted at the - /// given node. - ACE_RB_Tree_Node<EXT_ID, INT_ID> * - RB_tree_maximum (ACE_RB_Tree_Node<EXT_ID, INT_ID> *x) const; - - /** - * Returns a pointer to a matching node if there is one, a pointer - * to the node under which to insert the item if the tree is not - * empty and there is no such match, or 0 if the tree is empty. - * It stores the result of the search in the result argument: - * LEFT if the node is to the left of the node to be inserted, - * RIGHT if the node is to the right of the node to be inserted, - * or EXACT if an exactly matching node already exists. - */ - ACE_RB_Tree_Node<EXT_ID, INT_ID> *find_node (const EXT_ID &k, - ACE_RB_Tree_Base::RB_SearchResult &result); - - /// Rebalance the tree after insertion of a node. - void RB_rebalance (ACE_RB_Tree_Node<EXT_ID, INT_ID> * x); - - /// Close down an RB_Tree. this method should - /// only be called with locks already held. - int close_i (void); - - /** - * Retrieves a pointer to the item corresponding to the - * given key. Returns 0 for success, or -1 if it cannot find the key - * in the tree. - */ - int find_i (const EXT_ID &ext_id, ACE_RB_Tree_Node<EXT_ID, INT_ID>* &entry); - - /** - * Inserts a *copy* of the key and the item into the tree: both the - * key type EXT_ID and the item type INT_ID must have well defined semantics - * for copy construction. The default implementation also requires that - * the key type support well defined < semantics. This method returns a - * pointer to the inserted item copy, or 0 if an error occurred. - * NOTE: if an identical key already exists in the tree, no new item - * is created, and the returned pointer addresses the existing item - * associated with the existing key. - */ - INT_ID* insert_i (const EXT_ID &k, const INT_ID &t); - - /** - * Inserts a *copy* of the key and the item into the tree: both the - * key type EXT_ID and the item type INT_ID must have well defined semantics - * for copy construction. The default implementation also requires that - * the key type support well defined < semantics. This method passes back - * a pointer to the inserted (or existing) node, and the search status. If - * the node already exists, the method returns 1. If the node does not - * exist, and a new one is successfully created, and the method returns 0. - * If there was an error, the method returns -1. - */ - int insert_i (const EXT_ID &k, const INT_ID &t, - ACE_RB_Tree_Node<EXT_ID, INT_ID> *&entry); - - /** - * Removes the item associated with the given key from the tree and - * destroys it. Returns 1 if it found the item and successfully - * destroyed it, 0 if it did not find the item, or -1 if an error - * occurred. Returns the stored internal id in the second argument. - */ - int remove_i (const EXT_ID &k, INT_ID &i); - - /// Removes the item associated with the given key from the tree and - /// destroys it. - int remove_i (ACE_RB_Tree_Node<EXT_ID, INT_ID> *z); - - /// Recursive function to dump the state of an object. - void dump_i (ACE_RB_Tree_Node<EXT_ID, INT_ID> *node) const; - - /// Function to dump node contents. Does nothing in its - /// basic form, but template specialization can be used to - /// provide definitions for various EXT_ID and INT_ID types. - void dump_node_i (ACE_RB_Tree_Node<EXT_ID, INT_ID> &node) const; - -private: - - // = Private members. - - /// Pointer to a memory allocator. - ACE_Allocator *allocator_; - - /// Synchronization variable for the MT_SAFE <ACE_RB_Tree>. - ACE_LOCK lock_; - - /// The root of the tree. - ACE_RB_Tree_Node<EXT_ID, INT_ID> *root_; - - /// Comparison functor for comparing nodes in the tree. - COMPARE_KEYS compare_keys_; - - /// The current number of nodes in the tree. - size_t current_size_; -}; - -/** - * @class ACE_RB_Tree_Iterator_Base - * - * @brief Implements a common base class for iterators for a Red-Black Tree ADT. - */ -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree_Iterator_Base -{ - -public: - - /// Assignment operator: copies both the tree reference and the position in the tree. - void operator= (const ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &iter); - - // = Iteration methods. - - /// Returns 1 when the iteration has completed, otherwise 0. - int done (void) const; - - /// STL-like iterator dereference operator: returns a reference - /// to the node underneath the iterator. - ACE_RB_Tree_Node<EXT_ID, INT_ID> & operator* (void) const; - - /// Returns a const reference to the tree over which we're iterating. - const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &tree (void); - - /// Comparison operator: returns 1 if both iterators point to the same position, otherwise 0. - int operator== (const ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &) const; - - /// Comparison operator: returns 1 if the iterators point to different positions, otherwise 0. - int operator!= (const ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &) const; - - /// Declare the dynamic allocation hooks. - ACE_ALLOC_HOOK_DECLARE; - -protected: - - // = Initialization and termination methods. - - /// Create the singular iterator. No valid iterator can be equal to - /// it, it is illegal to dereference a singular iterator, etc. etc. - ACE_RB_Tree_Iterator_Base (void); - - /** - * Constructor. Takes an ACE_RB_Tree over which to iterate, and - * an integer indicating (if non-zero) to position the iterator - * at the first element in the tree (if this integer is 0, the - * iterator is positioned at the last element in the tree). - */ - ACE_RB_Tree_Iterator_Base (const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &tree, - int set_first); - - /// Copy constructor. - ACE_RB_Tree_Iterator_Base (const ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &iter); - - /// Destructor. - ~ACE_RB_Tree_Iterator_Base (void); - - // = Internal methods - - /// Move forward by one element in the tree. Returns 0 when - /// there are no more elements in the tree, otherwise 1. - int forward_i (void); - - /// Move back by one element in the tree. Returns 0 when - /// there are no more elements in the tree, otherwise 1. - int reverse_i (void); - - /// Dump the state of an object. - void dump_i (void) const; - - // = Protected members. - - /// Reference to the ACE_RB_Tree over which we're iterating. - const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> *tree_; - - /// Pointer to the node currently under the iterator. - ACE_RB_Tree_Node <EXT_ID, INT_ID> *node_; - -}; - -/** - * @class ACE_RB_Tree_Iterator - * - * @brief Implements an iterator for a Red-Black Tree ADT. - */ -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree_Iterator : public ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> -{ - -public: - - // = Initialization and termination methods. - /** - * Create the singular iterator. - * It is illegal to deference the iterator, no valid iterator is - * equal to a singular iterator, etc. etc. - */ - ACE_RB_Tree_Iterator (void); - - /** - * Constructor. Takes an ACE_RB_Tree over which to iterate, and - * an integer indicating (if non-zero) to position the iterator - * at the first element in the tree (if this integer is 0, the - * iterator is positioned at the last element in the tree). - */ - ACE_RB_Tree_Iterator (const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &tree, - int set_first = 1); - - /// Destructor. - ~ACE_RB_Tree_Iterator (void); - - // = ACE-style iteration methods. - - /// Move forward by one element in the tree. Returns - /// 0 when all elements have been seen, else 1. - int advance (void); - - /// Dump the state of an object. - void dump (void) const; - - // = STL-style iteration methods. - - /// Prefix advance. - ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> & operator++ (void); - - /// Postfix advance. - ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> operator++ (int); - - /// Prefix reverse. - ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> & operator-- (void); - - /// Postfix reverse. - ACE_RB_Tree_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> operator-- (int); - - /// Declare the dynamic allocation hooks. - ACE_ALLOC_HOOK_DECLARE; - - /** - * Passes back the <entry> under the iterator. Returns 0 if - * the iteration has completed, otherwise 1. This method must - * be declared and defined in both the derived forward and - * reverse iterator classes rather than in the base iterator - * class because of a method signature resolution problem - * caused by the existence of the deprecated next (void) - * method in the derived forward iterator class. When that - * deprecated method is removed, this method should be removed - * from the derived classes and placed in the base class. - */ - int next (ACE_RB_Tree_Node<EXT_ID, INT_ID> *&next_entry) const; - - // = DEPRECATED methods. Please migrate your code to use the new methods instead - - /// Accessor for key of node under iterator (if any). - /// DEPRECATED - EXT_ID *key (void); - - /// Accessor for item of node under iterator (if any). - /// DEPRECATED - INT_ID *item (void); - - /// Move to the first item in the iteration (and in the tree). - /// DEPRECATED - int first (void); - - /// Move to the last item in the iteration (and in the tree). - /// DEPRECATED - int last (void); - - /// Move to the next item in the iteration (and in the tree). - /// DEPRECATED - int next (void); - - /// Move to the previous item in the iteration (and in the tree). - /// DEPRECATED - int previous (void); - - /** - * Returns 0 if the iterator is positioned over a valid ACE_RB_Tree - * node, returns 1 if not. - * DEPRECATED: use the base class <done> method instead. - */ - int is_done (void); - -}; - -/** - * @class ACE_RB_Tree_Reverse_Iterator - * - * @brief Implements a reverse iterator for a Red-Black Tree ADT. - */ -template <class EXT_ID, class INT_ID, class COMPARE_KEYS, class ACE_LOCK> -class ACE_RB_Tree_Reverse_Iterator : public ACE_RB_Tree_Iterator_Base<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> -{ - -public: - - // = Initialization and termination methods. - /** - * Create the singular iterator. - * It is illegal to deference the iterator, no valid iterator is - * equal to a singular iterator, etc. etc. - */ - ACE_RB_Tree_Reverse_Iterator (void); - - /** - * Constructor. Takes an ACE_RB_Tree over which to iterate, and - * an integer indicating (if non-zero) to position the iterator - * at the last element in the tree (if this integer is 0, the - * iterator is positioned at the first element in the tree). - */ - ACE_RB_Tree_Reverse_Iterator (const ACE_RB_Tree<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> &tree, - int set_last = 1); - - /// Destructor. - ~ACE_RB_Tree_Reverse_Iterator (void); - - // = ACE-style iteration methods. - - /// Move forward by one element in the tree. Returns - /// 0 when all elements have been seen, else 1. - int advance (void); - - /// Dump the state of an object. - void dump (void) const; - - // = STL-style iteration methods. - - /// Prefix advance. - ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> & operator++ (void); - - /// Postfix advance. - ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> operator++ (int); - - /// Prefix reverse. - ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> & operator-- (void); - - /// Postfix reverse. - ACE_RB_Tree_Reverse_Iterator<EXT_ID, INT_ID, COMPARE_KEYS, ACE_LOCK> operator-- (int); - - /// Declare the dynamic allocation hooks. - ACE_ALLOC_HOOK_DECLARE; - - /** - * Passes back the <entry> under the iterator. Returns 0 if - * the iteration has completed, otherwise 1. This method must - * be declared and defined in both the derived forward and - * reverse iterator classes rather than in the base iterator - * class because of a method signature resolution problem - * caused by the existence of the deprecated next (void) - * method in the derived forward iterator class. When that - * deprecated method is removed, this method should be removed - * from the derived classes and placed in the base class. - */ - int next (ACE_RB_Tree_Node<EXT_ID, INT_ID> *&next_entry) const; - -}; - -#if defined (__ACE_INLINE__) -#include "ace/RB_Tree.i" -#endif /* __ACE_INLINE__ */ - -#if defined (ACE_TEMPLATES_REQUIRE_SOURCE) -#include "ace/RB_Tree.cpp" -#endif /* ACE_TEMPLATES_REQUIRE_SOURCE */ - -#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA) -#pragma implementation ("RB_Tree.cpp") -#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */ - -#include "ace/post.h" -#endif /* ! defined (ACE_RB_TREE_H) */ |