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455 lines
11 KiB
455 lines
11 KiB
/* This file is part of the KDE libraries
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* Copyright (C) 1999 Waldo Bastian <bastian@kde.org>
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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 Library General Public
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* License version 2 as published by the Free Software Foundation;
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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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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public License
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* along with this library; see the file COPYING.LIB. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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**/
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#include "tdesycocadict.h"
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#include "tdesycocaentry.h"
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#include "tdesycoca.h"
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#include <tqptrlist.h>
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#include <tqvaluelist.h>
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#include <kdebug.h>
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#include <stdlib.h>
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namespace
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{
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struct string_entry {
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string_entry(TQString _key, KSycocaEntry *_payload)
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{ keyStr = _key; key = keyStr.unicode(); length = keyStr.length(); payload = _payload; hash = 0; }
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uint hash;
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int length;
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const TQChar *key;
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TQString keyStr;
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KSycocaEntry *payload;
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};
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}
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template class TQPtrList<string_entry>;
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class KSycocaDictStringList : public TQPtrList<string_entry>
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{
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public:
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KSycocaDictStringList();
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};
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KSycocaDictStringList::KSycocaDictStringList()
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{
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setAutoDelete(true);
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}
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KSycocaDict::KSycocaDict()
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: d(0), mStr(0), mOffset(0)
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{
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}
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KSycocaDict::KSycocaDict(TQDataStream *str, int offset)
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: d(0), mStr(str), mOffset(offset)
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{
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TQ_UINT32 test1, test2;
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str->device()->at(offset);
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(*str) >> test1 >> test2;
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if ((test1 > 0x000fffff) || (test2 > 1024))
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{
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KSycoca::flagError();
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mHashTableSize = 0;
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mOffset = 0;
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return;
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}
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str->device()->at(offset);
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(*str) >> mHashTableSize;
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(*str) >> mHashList;
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mOffset = str->device()->at(); // Start of hashtable
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}
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KSycocaDict::~KSycocaDict()
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{
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delete d;
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}
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void
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KSycocaDict::add(const TQString &key, KSycocaEntry *payload)
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{
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if (key.isEmpty()) return; // Not allowed (should never happen)
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if (!payload) return; // Not allowed!
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if (!d)
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{
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d = new KSycocaDictStringList();
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}
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string_entry *entry= new string_entry(key, payload);
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d->append(entry);
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}
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void
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KSycocaDict::remove(const TQString &key)
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{
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if (d)
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{
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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if (entry->keyStr == key)
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{
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d->remove();
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break;
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}
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}
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}
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}
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int
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KSycocaDict::find_string(const TQString &key )
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{
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//kdDebug(7011) << TQString("KSycocaDict::find_string(%1)").arg(key) << endl;
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if (!mStr || !mOffset)
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{
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kdError(7011) << "No database available!" << endl;
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return 0;
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}
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if (mHashTableSize == 0)
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return 0; // Unlikely to find anything :-]
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// Read hash-table data
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uint hash = hashKey(key) % mHashTableSize;
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//kdDebug(7011) << TQString("hash is %1").arg(hash) << endl;
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uint off = mOffset+sizeof(TQ_INT32)*hash;
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//kdDebug(7011) << TQString("off is %1").arg(off,8,16) << endl;
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mStr->device()->at( off );
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TQ_INT32 offset;
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(*mStr) >> offset;
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//kdDebug(7011) << TQString("offset is %1").arg(offset,8,16) << endl;
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if (offset == 0)
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return 0;
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if (offset > 0)
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return offset; // Positive ID
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// Lookup duplicate list.
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offset = -offset;
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mStr->device()->at(offset);
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//kdDebug(7011) << TQString("Looking up duplicate list at %1").arg(offset,8,16) << endl;
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while(true)
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{
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(*mStr) >> offset;
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if (offset == 0) break;
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TQString dupkey;
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(*mStr) >> dupkey;
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//kdDebug(7011) << TQString(">> %1 %2").arg(offset,8,16).arg(dupkey) << endl;
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if (dupkey == key) return offset;
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}
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//kdWarning(7011) << "Not found!" << endl;
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return 0;
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}
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uint
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KSycocaDict::count()
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{
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if (!d) return 0;
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return d->count();
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}
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void
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KSycocaDict::clear()
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{
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delete d;
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d = 0;
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}
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uint
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KSycocaDict::hashKey( const TQString &key)
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{
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int l = key.length();
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uint h = 0;
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for(uint i = 0; i < mHashList.count(); i++)
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{
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int pos = mHashList[i];
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if (pos < 0)
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{
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pos = -pos-1;
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if (pos < l)
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h = ((h * 13) + (key[l-pos].cell() % 29)) & 0x3ffffff;
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}
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else
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{
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pos = pos-1;
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if (pos < l)
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h = ((h * 13) + (key[pos].cell() % 29)) & 0x3ffffff;
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}
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}
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return h;
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}
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//
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// Calculate the diversity of the strings at position 'pos'
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static int
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calcDiversity(KSycocaDictStringList *d, int pos, int sz)
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{
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if (pos == 0) return 0;
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bool *matrix = (bool *) calloc(sz, sizeof(bool));
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uint usz = sz;
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if (pos < 0)
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{
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pos = -pos-1;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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int l = entry->length;
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if (pos < l && pos != 0)
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{
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uint hash = ((entry->hash * 13) + (entry->key[l-pos].cell() % 29)) & 0x3ffffff;
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matrix[ hash % usz ] = true;
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}
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}
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}
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else
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{
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pos = pos-1;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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if (pos < entry->length)
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{
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uint hash = ((entry->hash * 13) + (entry->key[pos].cell() % 29)) & 0x3ffffff;
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matrix[ hash % usz ] = true;
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}
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}
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}
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int diversity = 0;
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for(int i=0;i< sz;i++)
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if (matrix[i]) diversity++;
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free((void *) matrix);
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return diversity;
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}
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//
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// Add the diversity of the strings at position 'pos'
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static void
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addDiversity(KSycocaDictStringList *d, int pos)
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{
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if (pos == 0) return;
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if (pos < 0)
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{
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pos = -pos-1;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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int l = entry->length;
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if (pos < l)
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entry->hash = ((entry->hash * 13) + (entry->key[l-pos].cell() % 29)) & 0x3fffffff;
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}
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}
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else
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{
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pos = pos - 1;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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if (pos < entry->length)
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entry->hash = ((entry->hash * 13) + (entry->key[pos].cell() % 29)) & 0x3fffffff;
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}
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}
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}
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void
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KSycocaDict::save(TQDataStream &str)
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{
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if (count() == 0)
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{
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mHashTableSize = 0;
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mHashList.clear();
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str << mHashTableSize;
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str << mHashList;
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return;
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}
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mOffset = str.device()->at();
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//kdDebug(7011) << TQString("KSycocaDict: %1 entries.").arg(count()) << endl;
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//kdDebug(7011) << "Calculating hash keys.." << endl;
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int maxLength = 0;
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//kdDebug(7011) << "Finding maximum string length" << endl;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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entry->hash = 0;
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if (entry->length > maxLength)
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maxLength = entry->length;
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}
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//kdDebug(7011) << TQString("Max string length = %1").arg(maxLength) << endl;
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// use "almost prime" number for sz (to calculate diversity) and later
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// for the table size of big tables
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// int sz = d->count()*5-1;
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unsigned int sz = count()*4 + 1;
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while(!(((sz % 3) && (sz % 5) && (sz % 7) && (sz % 11) && (sz % 13)))) sz+=2;
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int maxDiv = 0;
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int maxPos = 0;
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int lastDiv = 0;
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mHashList.clear();
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// try to limit diversity scan by "predicting" positions
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// with high diversity
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int *oldvec=new int[maxLength*2+1];
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for (int i=0; i<(maxLength*2+1); i++) oldvec[i]=0;
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int mindiv=0;
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while(true)
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{
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int divsum=0,divnum=0;
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maxDiv = 0;
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maxPos = 0;
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for(int pos=-maxLength; pos <= maxLength; pos++)
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{
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// cut off
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if (oldvec[pos+maxLength]<mindiv)
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{ oldvec[pos+maxLength]=0; continue; }
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int diversity = calcDiversity(d, pos, sz);
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if (diversity > maxDiv)
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{
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maxDiv = diversity;
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maxPos = pos;
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}
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oldvec[pos+maxLength]=diversity;
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divsum+=diversity; divnum++;
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}
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// arbitrary cut-off value 3/4 of average seems to work
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if (divnum)
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mindiv=(3*divsum)/(4*divnum);
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if (maxDiv <= lastDiv)
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break;
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// tqWarning("Max Div = %d at pos %d", maxDiv, maxPos);
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lastDiv = maxDiv;
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addDiversity(d, maxPos);
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mHashList.append(maxPos);
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}
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delete [] oldvec;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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entry->hash = hashKey(entry->keyStr);
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}
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// fprintf(stderr, "Calculating minimum table size..\n");
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mHashTableSize = sz;
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struct hashtable_entry {
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string_entry *entry;
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TQPtrList<string_entry> *duplicates;
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int duplicate_offset;
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};
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hashtable_entry *hashTable = new hashtable_entry[ sz ];
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//kdDebug(7011) << "Clearing hashtable..." << endl;
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for (unsigned int i=0; i < sz; i++)
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{
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hashTable[i].entry = 0;
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hashTable[i].duplicates = 0;
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}
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//kdDebug(7011) << "Filling hashtable..." << endl;
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for(string_entry *entry=d->first(); entry; entry = d->next())
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{
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int hash = entry->hash % sz;
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if (!hashTable[hash].entry)
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{ // First entry
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hashTable[hash].entry = entry;
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}
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else
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{
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if (!hashTable[hash].duplicates)
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{ // Second entry, build duplicate list.
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hashTable[hash].duplicates = new TQPtrList<string_entry>();
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hashTable[hash].duplicates->append(hashTable[hash].entry);
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hashTable[hash].duplicate_offset = 0;
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}
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hashTable[hash].duplicates->append(entry);
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}
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}
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str << mHashTableSize;
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str << mHashList;
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mOffset = str.device()->at(); // mOffset points to start of hashTable
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//kdDebug(7011) << TQString("Start of Hash Table, offset = %1").arg(mOffset,8,16) << endl;
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for(int pass = 1; pass <= 2; pass++)
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{
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str.device()->at(mOffset);
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//kdDebug(7011) << TQString("Writing hash table (pass #%1)").arg(pass) << endl;
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for(uint i=0; i < mHashTableSize; i++)
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{
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TQ_INT32 tmpid;
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if (!hashTable[i].entry)
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tmpid = (TQ_INT32) 0;
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else if (!hashTable[i].duplicates)
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tmpid = (TQ_INT32) hashTable[i].entry->payload->offset(); // Positive ID
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else
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tmpid = (TQ_INT32) -hashTable[i].duplicate_offset; // Negative ID
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str << tmpid;
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//kdDebug(7011) << TQString("Hash table : %1").arg(tmpid,8,16) << endl;
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}
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//kdDebug(7011) << TQString("End of Hash Table, offset = %1").arg(str.device()->at(),8,16) << endl;
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//kdDebug(7011) << TQString("Writing duplicate lists (pass #%1)").arg(pass) << endl;
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for(uint i=0; i < mHashTableSize; i++)
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{
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if (hashTable[i].duplicates)
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{
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TQPtrList<string_entry> *dups = hashTable[i].duplicates;
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hashTable[i].duplicate_offset = str.device()->at();
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/*kdDebug(7011) << TQString("Duplicate lists: Offset = %1 list_size = %2") .arg(hashTable[i].duplicate_offset,8,16).arg(dups->count()) << endl;
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*/
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for(string_entry *dup = dups->first(); dup; dup=dups->next())
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{
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str << (TQ_INT32) dup->payload->offset(); // Positive ID
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str << dup->keyStr; // Key (TQString)
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}
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str << (TQ_INT32) 0; // End of list marker (0)
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}
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}
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//kdDebug(7011) << TQString("End of Dict, offset = %1").arg(str.device()->at(),8,16) << endl;
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}
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//kdDebug(7011) << "Cleaning up hash table." << endl;
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for(uint i=0; i < mHashTableSize; i++)
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{
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delete hashTable[i].duplicates;
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}
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delete [] hashTable;
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}
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