/*************************************************************************
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* Copyright 2000, 2010 Oracle and/or its affiliates.
*
* OpenOffice.org - a multi-platform office productivity suite
*
* This file is part of OpenOffice.org.
*
* OpenOffice.org is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License version 3
* only, as published by the Free Software Foundation.
*
* OpenOffice.org is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License version 3 for more details
* (a copy is included in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU Lesser General Public License
* version 3 along with OpenOffice.org. If not, see
* <http://www.openoffice.org/license.html>
* for a copy of the LGPLv3 License.
*
************************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_idl.hxx"
/****************** I N C L U D E S **************************************/
// C and C++ Includes.
#include <stdlib.h>
#include <stdio.h>
#include <ctype.h>
// Programmabh�ngige Includes.
#include <hash.hxx>
#include <tools/debug.hxx>
/****************** C O D E **********************************************/
/*************************************************************************
|*
|* SvStringHashEntry::~SvStringHashEntry()
|*
|* Beschreibung
|*
*************************************************************************/
SvStringHashEntry::~SvStringHashEntry() { };
/*************************************************************************
|*
|* SvHashTable::SvHashTable()
|*
|* Beschreibung
|*
*************************************************************************/
SvHashTable::SvHashTable( UINT32 nMaxEntries )
{
nMax = nMaxEntries; // set max entries
nFill = 0; // no entries
lTry = 0;
lAsk = 0;
}
/*************************************************************************
|*
|* SvHashTable::~SvHashTable()
|*
|* Beschreibung
|*
*************************************************************************/
SvHashTable::~SvHashTable()
{
#ifdef DOS_NIE
printf( "Maximum: %ld, F�llung: %ld\n", (ULONG)nMax, (ULONG)nFill );
printf( "Anfragen: %ld, Versuche: %ld", (ULONG)lAsk, (ULONG)lTry );
if( lTry != 0 )
printf( ", V/E = %ld\n", lTry / lAsk );
#endif
}
/*************************************************************************
|*
|* SvHashTable::Test_Insert()
|*
|* Beschreibung
|*
*************************************************************************/
BOOL SvHashTable::Test_Insert( const void * pElement, BOOL bInsert,
UINT32 * pInsertPos )
{
UINT32 nHash;
UINT32 nIndex;
UINT32 nLoop;
lAsk++;
lTry++;
nHash = HashFunc( pElement );
nIndex = nHash % nMax;
// const char* s = ((ByteString*) pElement)->GetStr();
// fprintf(stderr,"### Hash: %lu , Name: %s\n",nIndex,s );
nLoop = 0; // divide to range
while( (nMax != nLoop) && IsEntry( nIndex ) )
{ // is place occupied
if( COMPARE_EQUAL == Compare( pElement, nIndex ) )
{
if( pInsertPos )
*pInsertPos = nIndex; // place of Element
return TRUE;
}
nLoop++;
lTry++;
nIndex = (USHORT)(nIndex + nHash + 7) % nMax;
}
if( bInsert )
{
DBG_ASSERT( nMax != nLoop, "Hash table full" );
if( nMax != nLoop )
{
nFill++;
*pInsertPos = nIndex; // return free place
return TRUE;
}
}
return( FALSE );
}
/************************************************************************/
/*************************************************************************
|*
|* SvStringHashTable::SvStringHashTable()
|*
|* Beschreibung
|*
*************************************************************************/
SvStringHashTable::SvStringHashTable( UINT32 nMaxEntries )
: SvHashTable( nMaxEntries )
{
pEntries = new SvStringHashEntry[ nMaxEntries ];
// RefCount auf eins setzen
SvStringHashEntry * pPos, *pEnd;
pPos = pEntries;
pEnd = pEntries + nMaxEntries;
while( pPos != pEnd )
{
pPos->AddRef();
pPos++;
}
}
/*************************************************************************
|*
|* ~SvStringHashTable::SvStringHashTable()
|*
|* Beschreibung
|*
*************************************************************************/
SvStringHashTable::~SvStringHashTable()
{
// RefCount auf eins setzen
SvStringHashEntry * pPos, *pEnd;
pPos = pEntries;
pEnd = pEntries + GetMax();
#ifdef DBG_UTIL
while( pPos != pEnd )
{
DBG_ASSERT( pPos->GetRefCount() == 1, "Reference count != 1" );
pPos++;
}
#endif
#ifdef MPW
// der MPW-Compiler ruft sonst keine Dtoren!
for ( USHORT n = 0; n < GetMax(); ++n )
(pEntries+n)->SvStringHashEntry::~SvStringHashEntry();
delete (void*) pEntries;
#else
delete [] pEntries;
#endif
}
/*************************************************************************
|*
|* SvStringHashTable::HashFunc()
|*
|* Beschreibung
|*
*************************************************************************/
UINT32 SvStringHashTable::HashFunc( const void * pElement ) const
{
UINT32 nHash = 0; // hash value
const char * pStr = ((const ByteString * )pElement)->GetBuffer();
int nShift = 0;
while( *pStr )
{
if( isupper( *pStr ) )
nHash ^= UINT32(*pStr - 'A' + 26) << nShift;
else
nHash ^= UINT32(*pStr - 'a') << nShift;
if( nShift == 28 )
nShift = 0;
else
nShift += 4;
pStr++;
}
return( nHash );
}
/*************************************************************************
|*
|* SvStringHashTable::GetNearString()
|*
|* Beschreibung
|*
*************************************************************************/
ByteString SvStringHashTable::GetNearString( const ByteString & rName ) const
{
for( UINT32 i = 0; i < GetMax(); i++ )
{
SvStringHashEntry * pE = Get( i );
if( pE )
{
if( pE->GetName().EqualsIgnoreCaseAscii( rName ) && !pE->GetName().Equals( rName ) )
return pE->GetName();
}
}
return ByteString();
}
/*************************************************************************
|*
|* SvStringHashTable::IsEntry()
|*
|* Beschreibung
|*
*************************************************************************/
BOOL SvStringHashTable::IsEntry( UINT32 nIndex ) const
{
if( nIndex >= GetMax() )
return FALSE;
return pEntries[ nIndex ].HasId();
}
/*************************************************************************
|*
|* SvStringHashTable::Insert()
|*
|* Beschreibung
|*
*************************************************************************/
BOOL SvStringHashTable::Insert( const ByteString & rName, UINT32 * pIndex )
{
UINT32 nIndex;
if( !pIndex ) pIndex = &nIndex;
if( !SvHashTable::Test_Insert( &rName, TRUE, pIndex ) )
return FALSE;
if( !IsEntry( *pIndex ) )
pEntries[ *pIndex ] = SvStringHashEntry( rName, *pIndex );
return TRUE;
}
/*************************************************************************
|*
|* SvStringHashTable::Test()
|*
|* Beschreibung
|*
*************************************************************************/
BOOL SvStringHashTable::Test( const ByteString & rName, UINT32 * pPos ) const
{
return ((SvStringHashTable *)this)->SvHashTable::
Test_Insert( &rName, FALSE, pPos );
}
/*************************************************************************
|*
|* SvStringHashTable::Get()
|*
|* Beschreibung
|*
*************************************************************************/
SvStringHashEntry * SvStringHashTable::Get( UINT32 nIndex ) const
{
if( IsEntry( nIndex ) )
return pEntries + nIndex;
return( NULL );
}
/*************************************************************************
|*
|* SvStringHashTable::Get()
|*
|* Beschreibung
|*
*************************************************************************/
StringCompare SvStringHashTable::Compare( const void * pElement,
UINT32 nIndex ) const
{
return ((const ByteString *)pElement)->CompareTo( pEntries[ nIndex ].GetName() );
}
/*************************************************************************
|*
|* SvStringHashTable::FillHashList()
|*
|* Beschreibung
|*
*************************************************************************/
void SvStringHashTable::FillHashList( SvStringHashList * pList ) const
{
for( UINT32 n = 0; n < GetMax(); n++ )
{
if( IsEntry( n ) )
pList->Insert( Get( n ), LIST_APPEND );
}
// Hash Reihenfolge, jetzt sortieren
}