зеркало из https://github.com/mozilla/gecko-dev.git
265 строки
7.5 KiB
C++
265 строки
7.5 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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*
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* The contents of this file are subject to the Netscape Public
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* License Version 1.1 (the "License"); you may not use this file
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* except in compliance with the License. You may obtain a copy of
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* the License at http://www.mozilla.org/NPL/
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*
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* Software distributed under the License is distributed on an "AS
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* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
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* implied. See the License for the specific language governing
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* rights and limitations under the License.
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*
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* The Original Code is mozilla.org code.
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*
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* The Initial Developer of the Original Code is Netscape
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* Communications Corporation. Portions created by Netscape are
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* Copyright (C) 1998 Netscape Communications Corporation. All
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* Rights Reserved.
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*
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* Contributor(s):
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*/
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#ifndef _HASH_TABLE_
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#define _HASH_TABLE_
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#include <string.h> // for strdup, strcmp
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#include "Fundamentals.h"
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#include "DoublyLinkedList.h"
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#include "Pool.h"
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#include "Vector.h"
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#define _NBUCKETS_ 128
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/* Operations on HashTable keys, when the keys are (non-interned) strings */
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struct StringKeyOps {
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static bool equals(const char * userKey, const char * hashTableKey) {
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return (strcmp(userKey, hashTableKey) == 0);
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}
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static char *copyKey(Pool &pool, const char * userKey) {
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char *hashTableKey = new (pool) char[strlen(userKey)+1];
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strcpy(hashTableKey, userKey);
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return hashTableKey;
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}
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static Uint32 hashCode(const char * userKey) {
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const char *ptr;
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Uint32 hashCode;
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for (hashCode = 0, ptr = userKey; *ptr != '\0'; ptr++) {
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hashCode = (hashCode * 7) + *ptr;
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}
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return hashCode;
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}
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};
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typedef const char * DefaultKeyClass;
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template <class N, class KEY = DefaultKeyClass>
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struct HashTableEntry : public DoublyLinkedEntry<HashTableEntry<N, KEY> > {
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HashTableEntry(KEY k, N val):key(k),value(val) {};
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KEY key;
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N value;
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};
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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class HashTable {
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protected:
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/* Adds key and returns pointer to interned version of the key */
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KEY add(KEY key, const N &value, int hashIndex);
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/* if found, returns the interned version of the key, NULL otherwise.
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* Returns hash index of bucket(key) via hashIndex, and
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* if value is non-null, returns matched value on success
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*/
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KEY get(KEY key, N *value, int &hashIndex) const;
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/* If found, sets the value corresponding to given key to N. Does
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* nothing if an entry corresponding to key was not found.
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*/
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void set(KEY key, N *value, int hashIndex);
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/* Function that will compare user's key to key in hash-table.
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* equals returns true if the userKey is "equal" to hashTableKey,
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* false otherwise.
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*/
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Uint32 hashIndexOf(KEY key) const;
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DoublyLinkedList<HashTableEntry<N, KEY> > buckets[_NBUCKETS_];
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Pool &pool; /* Pool used to allocate hash-table entries */
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private:
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HashTable(const HashTable<N, KEY, KEYOPS>&); // Copying forbidden
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void operator=(const HashTable<N, KEY, KEYOPS>&); // Copying forbidden
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public:
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explicit HashTable(Pool &p): pool(p) {}
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void add(KEY key, const N &value) {
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(void) add(key, value, hashIndexOf(key));
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}
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bool exists(KEY key) {
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int hashIndex;
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return (get(key, (N *) 0, hashIndex) != 0);
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}
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/* return true if key is valid, and corresponding data;
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* else return false
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*/
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bool get(KEY key, N *data) {
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int hashIndex;
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return (get(key, data, hashIndex) != 0);
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}
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N &operator[](KEY key) const;
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// Vector<N>& operator ()();
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operator Vector<N>& () const;
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// Get all entries matching given key and append them into vector.
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// Return number of matching entries found.
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Int32 getAll(KEY key, Vector<N> &vector) const;
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void remove(KEY key);
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};
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// Implementation
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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Uint32 HashTable<N, KEY, KEYOPS>::hashIndexOf(KEY key) const
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{
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Uint32 hashCode = KEYOPS::hashCode(key);
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hashCode = hashCode ^ (hashCode >> 16);
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hashCode = hashCode ^ (hashCode >> 8);
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return (hashCode % _NBUCKETS_);
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}
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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KEY HashTable<N, KEY, KEYOPS>::add(KEY key,
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const N& value,
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int hashIndex)
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{
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HashTableEntry<N, KEY> *newEntry =
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new (pool) HashTableEntry<N, KEY>(KEYOPS::copyKey(pool, key), value);
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buckets[hashIndex].addLast(*newEntry);
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return newEntry->key;
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}
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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KEY HashTable<N, KEY, KEYOPS>::get(KEY key,
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N *data,
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int &hashIndex) const
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{
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hashIndex = hashIndexOf(key);
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const DoublyLinkedList<HashTableEntry<N, KEY> >& list = buckets[hashIndex];
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for (DoublyLinkedNode *i = list.begin(); !list.done(i);
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i = list.advance(i)) {
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KEY candidateKey = list.get(i).key;
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if (KEYOPS::equals(candidateKey, key)) {
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if (data)
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*data = list.get(i).value;
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return candidateKey;
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}
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}
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return 0;
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}
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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void HashTable<N, KEY, KEYOPS>::set(KEY key,
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N *data,
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int hashIndex)
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{
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hashIndex = hashIndexOf(key);
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DoublyLinkedList<HashTableEntry<N, KEY> >& list = buckets[hashIndex];
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for (DoublyLinkedNode *i = list.begin(); !list.done(i);
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i = list.advance(i)) {
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KEY candidateKey = list.get(i).key;
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if (KEYOPS::equals(candidateKey, key)) {
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if (data)
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list.get(i).value = *data;
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break;
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}
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}
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}
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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Int32 HashTable<N, KEY, KEYOPS>::getAll(KEY key,
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Vector<N> &vector) const
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{
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Int32 hashIndex = hashIndexOf(key);
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Int32 numMatches = 0;
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const DoublyLinkedList<HashTableEntry<N, KEY> >& list = buckets[hashIndex];
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for (DoublyLinkedNode *i = list.begin(); !list.done(i);
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i = list.advance(i)) {
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KEY candidateKey = list.get(i).key;
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if (KEYOPS::equals(candidateKey, key)) {
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vector.append(list.get(i).value);
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numMatches++;
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}
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}
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return numMatches;
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}
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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N& HashTable<N, KEY, KEYOPS>::operator[](KEY key) const
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{
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const DoublyLinkedList<HashTableEntry<N, KEY> >& list = buckets[hashIndexOf(key)];
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for (DoublyLinkedNode *i = list.begin(); !list.done(i);
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i = list.advance(i)) {
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if (KEYOPS::equals(list.get(i).key, key))
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return list.get(i).value;
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}
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// should never get here.
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return list.get(list.begin()).value;
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}
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//template<class N> Vector<N> &HashTable<N>::operator()()
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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HashTable<N, KEY, KEYOPS>::operator Vector<N>& () const
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{
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Vector<N> *vector = new Vector<N>;
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for (Uint32 i = 0; i < _NBUCKETS_; i++) {
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const DoublyLinkedList<HashTableEntry<N, KEY> >& list = buckets[i];
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if (!list.empty())
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for (DoublyLinkedNode *j = list.begin(); !list.done(j);
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j = list.advance(j)) {
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vector->append(list.get(j).value);
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}
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}
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return *vector;
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}
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template <class N, class KEY = DefaultKeyClass, class KEYOPS = StringKeyOps>
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void HashTable<N, KEY, KEYOPS>::remove(KEY key)
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{
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DoublyLinkedList<HashTableEntry<N, KEY> >& list = buckets[hashIndexOf(key)];
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for (DoublyLinkedNode *i = list.begin(); !list.done(i);
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i = list.advance(i)) {
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if (KEYOPS::equals(list.get(i).key, key)) {
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list.get(i).remove();;
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return;
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}
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}
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}
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#endif
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