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359 lines
12 KiB
C++
359 lines
12 KiB
C++
////////////////////////////////////////////////////////////////////////////////
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// $Id: map.h,v 1.10 2006/11/18 03:12:34 dmouldin Exp $
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//
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// Visual Leak Detector - Lightweight STL-like Map Template
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// Copyright (c) 2006 Dan Moulding
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2.1 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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//
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// See COPYING.txt for the full terms of the GNU Lesser General Public License.
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//
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////////////////////////////////////////////////////////////////////////////////
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#pragma once
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#ifndef VLDBUILD
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#error \
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"This header should only be included by Visual Leak Detector when building it from source. \
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Applications should never include this header."
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#endif
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#include "tree.h" // Provides access to the Tree template class.
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////////////////////////////////////////////////////////////////////////////////
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//
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// The Pair Template Class
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//
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// This is a lightweight STL-like pair template, for use with the lightweight
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// Map class template.
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//
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// Note that while this is a STL-like class, it is not a full STL-compliant
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// implementation of the STL pair utility class. It provides just the bare
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// minimum functionality required by the Visual Leak Detector Map template
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// class below.
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//
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template <typename Tf, typename Ts>
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class Pair {
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public:
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// Constructor
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Pair ()
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{
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first = Tf();
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second = Ts();
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}
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// Constructor with initializers.
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Pair (const Tf &f, const Ts &s)
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{
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first = f;
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second = s;
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}
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// Less-than operator - Compares this Pair with another Pair to determine
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// if this Pair is less than the other Pair. The Pair with the smallest
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// "first" value is the lesser Pair.
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//
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// - other (IN): The other pair to compare against.
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//
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// Return Value:
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//
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// Returns true if this Pair is less than the other Pair. Otherwise
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// returns false.
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//
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BOOL operator < (const Pair &other) const
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{
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return (first < other.first);
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}
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// Public data.
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Tf first; // The first value of the pair.
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Ts second; // The second value of the pair.
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};
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////////////////////////////////////////////////////////////////////////////////
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//
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// The Map Template Class
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//
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// This is a lightweidht STL-like map template. It makes use of the Tree class
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// template to enable fast insert, find, and erase operations.
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//
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// Note that while this is a STL-like class, it is not a full STL-compliant
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// implementation of the STL map container. It contains just the bare minimum
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// functionality required by Visual Leak Detector. Because of its "lightweight"
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// nature, this map class has a noticeable performance advantage over some
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// other standard STL map implementations.
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//
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template <typename Tk, typename Tv>
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class Map {
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public:
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class Iterator {
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public:
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// Constructor
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Iterator ()
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{
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// Plainly constructed iterators don't reference anything.
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m_node = NULL;
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m_tree = NULL;
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}
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// operator != - Inequality operator for Map Iterators. Two Map
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// Iterators are considered equal if and only if they both reference
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// the same key/value pair in the same Map.
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//
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// - other (IN): The other Map Iterator to compare against.
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//
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// Return Value:
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//
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// Returns true if the specified Map Iterator is not equal to this
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// Map Iterator; otherwise, returns false.
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//
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BOOL operator != (const Iterator &other) const
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{
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return ((m_tree != other.m_tree) || (m_node != other.m_node));
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}
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// operator * - Dereference operator for Map Iterators.
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//
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// Note: The reference returned by this function is "const", so the
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// value referenced by the Iterator may not be modified through the
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// Iterator. This is a departure from STL iterator behavior.
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//
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// Also, dereferencing an Iterator which does not reference a valid
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// value in the Map is undefined and will almost certainly cause a
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// crash.
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//
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// Return Value:
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//
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// Returns a const reference to the key/value pair in the Map
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// referenced by the Iterator.
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//
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const Pair<Tk, Tv>& operator * () const
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{
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return m_node->key;
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}
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// operator ++ - Prefix increment operator for Map Iterators. Causes the
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// Iterator to reference the in-oder successor of the key/value pair
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// currently referenced by the Iterator. If the Iterator is currently
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// referencing the largest key/value pair in the Map, then the
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// resulting Iterator will reference the Map's end (the NULL pair).
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//
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// Note: Incrementing an Iterator which does not reference a valid
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// key/value pair in the Map is undefined and will almost certainly
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// cause a crash.
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//
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// Return Value:
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//
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// Returns the Iterator after it has been incremented.
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//
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Iterator& operator ++ (int)
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{
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m_node = m_tree->next(m_node);
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return *this;
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}
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// operator ++ - Postfix increment operator for Map Iterators. Causes
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// the Iterator to reference the in-order successor of the key/value
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// pair currently referenced by the Iterator. If the Iterator is
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// currently referencing the largest key/value pair in the Map, then
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// the resulting Iterator will reference the Map's end (the NULL
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// pair).
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//
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// Note: Incrementing an Iterator which does not reference a valid
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// key/value pair in the Map is undefined and will almost certainly
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// cause a crash.
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//
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// Return Value:
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//
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// Returns the Iterator before it has been incremented.
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//
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Iterator operator ++ ()
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{
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typename Tree<Pair<Tk, Tv> >::node_t *cur = m_node;
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m_node = m_tree->next(m_node);
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return Iterator(m_tree, cur);
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}
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// operator - - Subtraction operator for Map Iterators. Causes the
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// the Iterator to reference a key/value pair that is an in-order
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// predecessor of the currently refereced key/value pair.
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//
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// - num (IN): Number indicating the number of preceding key/value
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// pairs to decrement the iterator.
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//
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// Return Value:
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//
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// Returns an Iterator referencing the key/value pair that precedes
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// the original Iterator by "num" pairs.
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//
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Iterator operator - (SIZE_T num) const
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{
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SIZE_T count;
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typename Tree<Pair<Tk, Tv> >::node_t *cur = m_node;
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cur = m_tree->prev(m_node);
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for (count = 0; count < num; count++) {
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cur = m_tree->prev(m_node);
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if (cur == NULL) {
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return Iterator(m_tree, NULL);
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}
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}
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return Iterator(m_tree, cur);
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}
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// operator == - Equality operator for Map Iterators. Map Iterators are
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// considered equal if and only if they both refernce the same
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// key/value pair in the same Map.
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//
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// - other (IN): The other Map Iterator to compare against.
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//
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// Return Value:
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//
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// Returns true if the specified Map Iterator is equal to this Map
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// Iterator; otherwise returns false.
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//
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BOOL operator == (const Iterator &other) const
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{
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return ((m_tree == other.m_tree) && (m_node == other.m_node));
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}
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private:
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// Private constructor. Only the Map class itself may use this
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// constructor. It is used for constructing Iterators which reference
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// specific nodes in the internal tree's structure.
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Iterator (const Tree<Pair<Tk, Tv> > *tree, typename Tree<Pair<Tk, Tv> >::node_t *node)
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{
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m_node = node;
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m_tree = tree;
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}
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typename Tree<Pair<Tk, Tv> >::node_t *m_node; // Pointer to the node referenced by the Map Iterator.
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const Tree<Pair<Tk, Tv> > *m_tree; // Pointer to the tree containing the referenced node.
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// The Map class is a friend of Map Iterators.
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friend class Map<Tk, Tv>;
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};
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// begin - Obtains an Iterator referencing the beginning of the Map (i.e.
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// the lowest key/value pair currently stored in the Map).
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//
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// Return Value:
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//
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// Returns an Iterator referencing the first key/value pair in the Map.
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// If no key/value pairs are currenly stored in the map, returns the
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// "NULL" Iterator.
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//
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Iterator begin () const
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{
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return Iterator(&m_tree, m_tree.begin());
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}
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// end - Obtains an Iterator referencing the end of the Map. The end of
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// the map does not reference an actual key/value pair. Instead it
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// represents a "null" key/value pair which signifies the end (i.e. just
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// beyond largest key/value pair currently stored in the Map). Also
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// known as the "NULL" Iterator.
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//
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// Return Value:
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//
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// Returns the "NULL" Iterator, signifying the end of the Map.
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//
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Iterator end () const
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{
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return Iterator(&m_tree, NULL);
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}
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// erase - Erases a key/value pair from the map.
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//
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// - it (IN): Iterator referencing the key/value pair to be erased from
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// the map.
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//
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// Return Value:
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//
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// None.
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//
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VOID erase (Iterator& it)
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{
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m_tree.erase(it.m_node);
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}
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// erase - Erases a key/value pair from the map.
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//
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// - key (IN): The key corresponding to the key/value pair to be erased
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// from the map.
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//
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// Return Value:
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//
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// None.
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//
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VOID erase (const Tk &key)
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{
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m_tree.erase(Pair<Tk, Tv>(key, Tv()));
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}
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// find - Finds a key/value pair in the map.
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//
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// - key (IN): The key corresponding to the key/value pair to be found.
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//
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// Return Value:
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//
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// Returns an Iterator referencing the found key/value pair. If no
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// key/value pair with the specified key could be found, then the "NULL"
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// Iterator is returned.
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//
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Iterator find (const Tk &key) const
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{
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return Iterator(&m_tree, m_tree.find(Pair<Tk, Tv>(key, Tv())));
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}
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// insert - Inserts a key/value pair into the map.
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//
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// - key (IN): The key of the key/value pair to be inserted.
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//
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// - data (IN): The value of the key/value pair to be inserted.
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//
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// Return Value:
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//
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// Returns an Iterator referencing the resulting key/value pair after
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// if has been inserted into the map.
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//
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Iterator insert (const Tk &key, const Tv &data)
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{
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return Iterator(&m_tree, m_tree.insert(Pair<Tk, Tv>(key, data)));
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}
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// reserve - Sets the reserve size of the map. The reserve size is the
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// number of key/value pairs for which space should be pre-allocated
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// to avoid frequent heap hits when inserting new key/value pairs into
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// the map.
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//
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// - count (IN): The number of key/value pairs for which to reserve space
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// in advance.
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//
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// Return Value:
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//
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// Returns the reserve size previously in use by the map.
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//
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size_t reserve (size_t count)
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{
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return m_tree.reserve(count);
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}
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private:
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// Private data
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Tree<Pair<Tk, Tv> > m_tree; // The key/value pairs are actually stored in a tree.
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};
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