fdbc8d1374
Change-Id: Ie1aff54bbc2d9dad0298636bf680ac7790f70a72 Reviewed-on: https://gerrit.libreoffice.org/c/core/+/166941 Tested-by: Jenkins Reviewed-by: Caolán McNamara <caolan.mcnamara@collabora.com>
412 lines
11 KiB
C++
412 lines
11 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/*
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* This file is part of the LibreOffice project.
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/.
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*
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* This file incorporates work covered by the following license notice:
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*
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* Licensed to the Apache Software Foundation (ASF) under one or more
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* contributor license agreements. See the NOTICE file distributed
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* with this work for additional information regarding copyright
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* ownership. The ASF licenses this file to you under the Apache
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* License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 .
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*/
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#include <osl/diagnose.h>
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#include "stgavl.hxx"
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#include <assert.h>
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StgAvlNode::StgAvlNode()
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{
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m_pLeft = m_pRight = nullptr;
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m_nBalance = m_nId = 0;
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}
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StgAvlNode::~StgAvlNode()
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{
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delete m_pLeft;
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delete m_pRight;
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}
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StgAvlNode* StgAvlNode::Find( StgAvlNode const * pFind )
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{
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if ( pFind )
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{
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StgAvlNode* p = this;
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while( p )
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{
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sal_Int32 nRes = p->Compare( pFind );
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if( !nRes )
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return p;
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else p = ( nRes < 0 ) ? p->m_pLeft : p->m_pRight;
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}
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}
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return nullptr;
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}
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// find point to add node to AVL tree and returns
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// +/0/- for >/=/< previous
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sal_Int32 StgAvlNode::Locate
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( StgAvlNode const * pFind,
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StgAvlNode** pPivot, StgAvlNode **pParent, StgAvlNode** pPrev )
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{
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sal_Int32 nRes = 0;
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StgAvlNode* pCur = this;
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assert(pPivot && pParent && pPrev && "The pointers may not be NULL!");
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*pParent = *pPrev = nullptr;
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*pPivot = this;
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// search tree for insertion point
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if ( pFind )
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{
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while( pCur != nullptr )
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{
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// check for pPivot
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if( pCur->m_nBalance != 0 )
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{
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*pPivot = pCur;
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*pParent = *pPrev;
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}
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// save pPrev location and see what direction to go
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*pPrev = pCur;
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nRes = pCur->Compare( pFind );
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if( nRes == 0 )
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break;
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else pCur = ( nRes < 0 ) ? pCur->m_pLeft : pCur->m_pRight;
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}
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}
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return nRes;
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}
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// adjust balance factors in AVL tree from pivot down.
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// Returns delta balance.
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short StgAvlNode::Adjust( StgAvlNode** pHeavy, StgAvlNode const * pNew )
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{
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StgAvlNode* pCur = this;
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short nDelta;
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// no traversing
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if( pCur == pNew || !pNew )
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return m_nBalance;
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assert(pHeavy && pNew && "The pointers is not allowed to be NULL!");
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sal_Int32 nRes = Compare( pNew );
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if( nRes > 0 )
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{
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*pHeavy = pCur = m_pRight;
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nDelta = -1;
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}
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else
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{
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*pHeavy = pCur = m_pLeft;
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nDelta = 1;
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}
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m_nBalance = 0;
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while( pCur != pNew )
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{
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nRes = pCur->Compare( pNew );
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if( nRes > 0 )
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{
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// height of right increases by 1
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pCur->m_nBalance = -1;
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pCur = pCur->m_pRight;
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}
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else
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{
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// height of left increases by 1
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pCur->m_nBalance = 1;
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pCur = pCur->m_pLeft;
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}
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}
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m_nBalance = m_nBalance + nDelta;
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return nDelta;
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}
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// perform LL rotation and return new root
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StgAvlNode* StgAvlNode::RotLL()
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{
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assert(m_pLeft && "The pointer is not allowed to be NULL!");
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StgAvlNode *pHeavy = m_pLeft;
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m_pLeft = pHeavy->m_pRight;
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pHeavy->m_pRight = this;
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pHeavy->m_nBalance = m_nBalance = 0;
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return pHeavy;
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}
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// perform LR rotation and return new root
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StgAvlNode* StgAvlNode::RotLR()
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{
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assert(m_pLeft && m_pLeft->m_pRight && "The pointer is not allowed to be NULL!");
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StgAvlNode* pHeavy = m_pLeft;
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StgAvlNode* pNewRoot = pHeavy->m_pRight;
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pHeavy->m_pRight = pNewRoot->m_pLeft;
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m_pLeft = pNewRoot->m_pRight;
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pNewRoot->m_pLeft = pHeavy;
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pNewRoot->m_pRight = this;
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switch( pNewRoot->m_nBalance )
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{
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case 1: // LR( b )
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m_nBalance = -1;
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pHeavy->m_nBalance = 0;
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break;
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case -1: // LR( c )
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pHeavy->m_nBalance = 1;
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m_nBalance = 0;
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break;
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case 0: // LR( a )
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m_nBalance = 0;
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pHeavy->m_nBalance = 0;
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break;
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}
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pNewRoot->m_nBalance = 0;
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return pNewRoot;
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}
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// perform RR rotation and return new root
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StgAvlNode* StgAvlNode::RotRR()
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{
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assert(m_pRight && "The pointer is not allowed to be NULL!" );
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StgAvlNode* pHeavy = m_pRight;
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m_pRight = pHeavy->m_pLeft;
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pHeavy->m_pLeft = this;
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m_nBalance = pHeavy->m_nBalance = 0;
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return pHeavy;
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}
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// perform the RL rotation and return the new root
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StgAvlNode* StgAvlNode::RotRL()
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{
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assert(m_pRight && m_pRight->m_pLeft && "The pointer is not allowed to be NULL!");
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StgAvlNode* pHeavy = m_pRight;
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StgAvlNode* pNewRoot = pHeavy->m_pLeft;
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pHeavy->m_pLeft = pNewRoot->m_pRight;
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m_pRight = pNewRoot->m_pLeft;
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pNewRoot->m_pRight = pHeavy;
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pNewRoot->m_pLeft = this;
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switch( pNewRoot->m_nBalance )
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{
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case -1: // RL( b )
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m_nBalance = 1;
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pHeavy->m_nBalance = 0;
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break;
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case 1: // RL( c )
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pHeavy->m_nBalance = -1;
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m_nBalance = 0;
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break;
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case 0: // RL( a )
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m_nBalance = 0;
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pHeavy->m_nBalance = 0;
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break;
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}
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pNewRoot->m_nBalance = 0;
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return pNewRoot;
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}
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// Remove a tree element. Return the removed element or NULL.
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StgAvlNode* StgAvlNode::Rem( StgAvlNode** p, StgAvlNode* pDel, bool bPtrs )
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{
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if( p && *p && pDel )
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{
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StgAvlNode* pCur = *p;
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sal_Int32 nRes = bPtrs ? sal_Int32( pCur == pDel ) : pCur->Compare( pDel );
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if( !nRes )
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{
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// Element found: remove
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if( !pCur->m_pRight )
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{
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*p = pCur->m_pLeft; pCur->m_pLeft = nullptr;
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}
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else if( !pCur->m_pLeft )
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{
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*p = pCur->m_pRight; pCur->m_pRight = nullptr;
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}
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else
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{
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// The damn element has two leaves. Get the
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// rightmost element of the left subtree (which
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// is lexically before this element) and replace
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// this element with the element found.
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StgAvlNode* last = pCur;
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StgAvlNode* l;
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for( l = pCur->m_pLeft;
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l->m_pRight; last = l, l = l->m_pRight ) {}
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// remove the element from chain
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if( l == last->m_pRight )
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last->m_pRight = l->m_pLeft;
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else
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last->m_pLeft = l->m_pLeft;
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// perform the replacement
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l->m_pLeft = pCur->m_pLeft;
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l->m_pRight = pCur->m_pRight;
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*p = l;
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// delete the element
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pCur->m_pLeft = pCur->m_pRight = nullptr;
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}
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return pCur;
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}
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else
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{
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if( nRes < 0 )
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return Rem( &pCur->m_pLeft, pDel, bPtrs );
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else
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return Rem( &pCur->m_pRight, pDel, bPtrs );
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}
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}
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return nullptr;
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}
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// Enumerate the tree for later iteration
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void StgAvlNode::StgEnum( short& n )
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{
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if( m_pLeft )
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m_pLeft->StgEnum( n );
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m_nId = n++;
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if( m_pRight )
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m_pRight->StgEnum( n );
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}
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// Add node to AVL tree.
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// Return false if the element already exists.
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bool StgAvlNode::Insert( StgAvlNode** pRoot, StgAvlNode* pIns )
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{
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StgAvlNode* pPivot, *pHeavy, *pParent, *pPrev;
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if ( !pRoot )
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return false;
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// special case - empty tree
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if( *pRoot == nullptr )
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{
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*pRoot = pIns;
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return true;
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}
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// find insertion point and return if already present
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sal_Int32 nRes = (*pRoot)->Locate( pIns, &pPivot, &pParent, &pPrev );
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if( !nRes )
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return false;
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assert(pPivot && pPrev && "The pointers may not be NULL!");
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// add new node
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if( nRes < 0 )
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pPrev->m_pLeft = pIns;
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else
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pPrev->m_pRight = pIns;
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// rebalance tree
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short nDelta = pPivot->Adjust( &pHeavy, pIns );
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if( pPivot->m_nBalance >= 2 || pPivot->m_nBalance <= -2 )
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{
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StgAvlNode* pNewRoot;
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pHeavy = ( nDelta < 0 ) ? pPivot->m_pRight : pPivot->m_pLeft;
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// left imbalance
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if( nDelta > 0 )
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if( pHeavy->m_nBalance == 1 )
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pNewRoot = pPivot->RotLL();
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else
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pNewRoot = pPivot->RotLR();
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// right imbalance
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else if( pHeavy->m_nBalance == -1 )
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pNewRoot = pPivot->RotRR();
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else
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pNewRoot = pPivot->RotRL();
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// relink balanced subtree
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if( pParent == nullptr )
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*pRoot = pNewRoot;
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else if( pPivot == pParent->m_pLeft )
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pParent->m_pLeft = pNewRoot;
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else if( pPivot == pParent->m_pRight )
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pParent->m_pRight = pNewRoot;
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}
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return true;
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}
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// Remove node from tree. Returns true is found and removed.
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// Actually delete if bDel
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bool StgAvlNode::Remove( StgAvlNode** pRoot, StgAvlNode* pDel, bool bDel )
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{
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if ( !pRoot )
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return false;
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// special case - empty tree
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if( *pRoot == nullptr )
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return false;
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// delete the element
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pDel = Rem( pRoot, pDel, false );
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if( pDel )
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{
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if( bDel )
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delete pDel;
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// Rebalance the tree the hard way
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// OS 22.09.95: On MD's request commented out due to crash
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/* StgAvlNode* pNew = NULL;
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while( *pRoot )
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{
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StgAvlNode* p = Rem( pRoot, *pRoot, false );
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Insert( &pNew, p );
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}
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*pRoot = pNew;*/
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return true;
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}
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else
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return false;
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}
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// Move node to a different tree. Returns true is found and moved. This routine
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// may be called when the key has changed.
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////////////////////////// class AvlIterator
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// The iterator walks through a tree one entry by one.
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StgAvlIterator::StgAvlIterator( StgAvlNode* p )
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{
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m_pRoot = p;
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m_nCur = 0;
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if( p )
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{
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short nCount = 0; // tree size
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p->StgEnum( nCount );
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}
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}
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StgAvlNode* StgAvlIterator::Find( short n )
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{
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StgAvlNode* p = m_pRoot;
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while( p )
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{
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if( n == p->m_nId )
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break;
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else p = ( n < p->m_nId ) ? p->m_pLeft : p->m_pRight;
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}
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return p;
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}
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StgAvlNode* StgAvlIterator::First()
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{
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m_nCur = -1;
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return Next();
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}
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StgAvlNode* StgAvlIterator::Next()
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{
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return Find( ++m_nCur );
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}
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/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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