/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * 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 * * for a copy of the LGPLv3 License. * ************************************************************************/ // no include "precompiled_tools.hxx" because this is included in other cxx files. // ======================================================================= static sal_Int32 ImplStringCompare( const STRCODE* pStr1, const STRCODE* pStr2 ) { sal_Int32 nRet; while ( ((nRet = ((sal_Int32)((STRCODEU)*pStr1))-((sal_Int32)((STRCODEU)*pStr2))) == 0) && *pStr2 ) { ++pStr1, ++pStr2; } return nRet; } // ----------------------------------------------------------------------- static sal_Int32 ImplStringCompare( const STRCODE* pStr1, const STRCODE* pStr2, xub_StrLen nCount ) { sal_Int32 nRet = 0; while ( nCount && ((nRet = ((sal_Int32)((STRCODEU)*pStr1))-((sal_Int32)((STRCODEU)*pStr2))) == 0) && *pStr2 ) { ++pStr1, ++pStr2, --nCount; } return nRet; } // ----------------------------------------------------------------------- static sal_Int32 ImplStringCompareWithoutZero( const STRCODE* pStr1, const STRCODE* pStr2, sal_Int32 nCount ) { sal_Int32 nRet = 0; while ( nCount && ((nRet = ((sal_Int32)((STRCODEU)*pStr1))-((sal_Int32)((STRCODEU)*pStr2))) == 0) ) { ++pStr1, ++pStr2, --nCount; } return nRet; } // ----------------------------------------------------------------------- static sal_Int32 ImplStringICompare( const STRCODE* pStr1, const STRCODE* pStr2 ) { sal_Int32 nRet; STRCODE c1; STRCODE c2; do { // Ist das Zeichen zwischen 'A' und 'Z' dann umwandeln c1 = *pStr1; c2 = *pStr2; if ( (c1 >= 65) && (c1 <= 90) ) c1 += 32; if ( (c2 >= 65) && (c2 <= 90) ) c2 += 32; nRet = ((sal_Int32)((STRCODEU)c1))-((sal_Int32)((STRCODEU)c2)); if ( nRet != 0 ) break; ++pStr1, ++pStr2; } while ( c2 ); return nRet; } // ----------------------------------------------------------------------- static sal_Int32 ImplStringICompare( const STRCODE* pStr1, const STRCODE* pStr2, xub_StrLen nCount ) { sal_Int32 nRet = 0; STRCODE c1; STRCODE c2; do { if ( !nCount ) break; // Ist das Zeichen zwischen 'A' und 'Z' dann umwandeln c1 = *pStr1; c2 = *pStr2; if ( (c1 >= 65) && (c1 <= 90) ) c1 += 32; if ( (c2 >= 65) && (c2 <= 90) ) c2 += 32; nRet = ((sal_Int32)((STRCODEU)c1))-((sal_Int32)((STRCODEU)c2)); if ( nRet != 0 ) break; ++pStr1, ++pStr2, --nCount; } while ( c2 ); return nRet; } // ----------------------------------------------------------------------- static sal_Int32 ImplStringICompareWithoutZero( const STRCODE* pStr1, const STRCODE* pStr2, sal_Int32 nCount ) { sal_Int32 nRet = 0; STRCODE c1; STRCODE c2; do { if ( !nCount ) break; // Ist das Zeichen zwischen 'A' und 'Z' dann umwandeln c1 = *pStr1; c2 = *pStr2; if ( (c1 >= 65) && (c1 <= 90) ) c1 += 32; if ( (c2 >= 65) && (c2 <= 90) ) c2 += 32; nRet = ((sal_Int32)((STRCODEU)c1))-((sal_Int32)((STRCODEU)c2)); ++pStr1, ++pStr2, --nCount; } while ( nRet == 0 ); return nRet; } // ======================================================================= #ifdef DBG_UTIL const char* DBGCHECKSTRING( const void* pString ) { STRING* p = (STRING*)pString; if ( p->GetBuffer()[p->Len()] != 0 ) return "String damaged: aStr[nLen] != 0"; return NULL; } #endif // ======================================================================= static STRINGDATA* ImplAllocData( sal_Int32 nLen ) { // Dann kopiere die Daten STRINGDATA* pData = (STRINGDATA*)rtl_allocateMemory( sizeof(STRINGDATA)+(nLen*sizeof( STRCODE )) ); pData->mnRefCount = 1; pData->mnLen = nLen; pData->maStr[nLen] = 0; return pData; } // ----------------------------------------------------------------------- static STRINGDATA* _ImplCopyData( STRINGDATA* pData ) { unsigned int nSize = sizeof(STRINGDATA)+(pData->mnLen*sizeof( STRCODE )); STRINGDATA* pNewData = (STRINGDATA*)rtl_allocateMemory( nSize ); memcpy( pNewData, pData, nSize ); pNewData->mnRefCount = 1; STRING_RELEASE((STRING_TYPE *)pData); return pNewData; } // ----------------------------------------------------------------------- inline void STRING::ImplCopyData() { DBG_ASSERT( (mpData->mnRefCount != 0), "String::ImplCopyData() - RefCount == 0" ); // ist es ein referenzierter String, dann die Daten abkoppeln if ( mpData->mnRefCount != 1 ) mpData = _ImplCopyData( mpData ); } // ----------------------------------------------------------------------- inline STRCODE* STRING::ImplCopyStringData( STRCODE* pStr ) { // Ist der Referenzzaehler groesser 0 if ( mpData->mnRefCount != 1 ) { DBG_ASSERT( (pStr >= mpData->maStr) && ((pStr-mpData->maStr) < mpData->mnLen), "ImplCopyStringData - pStr from other String-Instanz" ); unsigned int nIndex = (unsigned int)(pStr-mpData->maStr); mpData = _ImplCopyData( mpData ); pStr = mpData->maStr + nIndex; } return pStr; } // ----------------------------------------------------------------------- inline sal_Int32 ImplGetCopyLen( sal_Int32 nStrLen, sal_Int32 nCopyLen ) { OSL_ASSERT(nStrLen <= STRING_MAXLEN && nCopyLen <= STRING_MAXLEN); if ( nCopyLen > STRING_MAXLEN-nStrLen ) nCopyLen = STRING_MAXLEN-nStrLen; return nCopyLen; } // ======================================================================= STRING::STRING() : mpData(NULL) { DBG_CTOR( STRING, DBGCHECKSTRING ); STRING_NEW((STRING_TYPE **)&mpData); } // ----------------------------------------------------------------------- STRING::STRING( const STRING& rStr ) { DBG_CTOR( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Pointer auf die Daten des uebergebenen Strings setzen und // Referenzzaehler erhoehen STRING_ACQUIRE((STRING_TYPE *)rStr.mpData); mpData = rStr.mpData; } // ----------------------------------------------------------------------- STRING::STRING( const STRING& rStr, xub_StrLen nPos, xub_StrLen nLen ) : mpData( NULL ) { DBG_CTOR( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Stringlaenge ermitteln if ( nPos > rStr.mpData->mnLen ) nLen = 0; else { // Laenge korrigieren, wenn noetig sal_Int32 nMaxLen = rStr.mpData->mnLen-nPos; if ( nLen > nMaxLen ) nLen = static_cast< xub_StrLen >(nMaxLen); } // Ist es kein leerer String if ( nLen ) { // Reicht ein einfaches erhoehen des Referenzcounters if ( (nPos == 0) && (nLen == rStr.mpData->mnLen) ) { STRING_ACQUIRE((STRING_TYPE *)rStr.mpData); mpData = rStr.mpData; } else { // Verwaltungsdaten anlegen und String kopieren mpData = ImplAllocData( nLen ); memcpy( mpData->maStr, rStr.mpData->maStr+nPos, nLen*sizeof( STRCODE ) ); } } else { STRING_NEW((STRING_TYPE **)&mpData); } } // ----------------------------------------------------------------------- STRING::STRING( const STRCODE* pCharStr ) : mpData(NULL) { DBG_CTOR( STRING, DBGCHECKSTRING ); // Stringlaenge ermitteln // Bei diesem Ctor darf NULL uebergeben werden xub_StrLen nLen; if ( pCharStr ) nLen = ImplStringLen( pCharStr ); else nLen = 0; // Ist es kein leerer String if ( nLen ) { // Verwaltungsdaten anlegen und String kopieren mpData = ImplAllocData( nLen ); memcpy( mpData->maStr, pCharStr, nLen*sizeof( STRCODE ) ); } else { STRING_NEW((STRING_TYPE **)&mpData); } } // ----------------------------------------------------------------------- STRING::STRING( const STRCODE* pCharStr, xub_StrLen nLen ) : mpData(NULL) { DBG_CTOR( STRING, DBGCHECKSTRING ); DBG_ASSERT( pCharStr, "String::String() - pCharStr is NULL" ); if ( nLen == STRING_LEN ) nLen = ImplStringLen( pCharStr ); #ifdef DBG_UTIL if ( DbgIsAssert() ) { for ( xub_StrLen i = 0; i < nLen; i++ ) { if ( !pCharStr[i] ) { OSL_FAIL( "String::String() : nLen is wrong" ); } } } #endif // Ist es kein leerer String if ( nLen ) { // Verwaltungsdaten anlegen und String kopieren mpData = ImplAllocData( nLen ); memcpy( mpData->maStr, pCharStr, nLen*sizeof( STRCODE ) ); } else { STRING_NEW((STRING_TYPE **)&mpData); } } // ----------------------------------------------------------------------- STRING::STRING( STRCODE c ) { DBG_CTOR( STRING, DBGCHECKSTRING ); DBG_ASSERT( c, "String::String() - c is 0" ); // Verwaltungsdaten anlegen und initialisieren mpData = ImplAllocData( 1 ); mpData->maStr[0] = c; } // ----------------------------------------------------------------------- STRING::~STRING() { DBG_DTOR( STRING, DBGCHECKSTRING ); // Daten loeschen STRING_RELEASE((STRING_TYPE *)mpData); } // ----------------------------------------------------------------------- STRING& STRING::Assign( const STRING& rStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); STRING_ACQUIRE((STRING_TYPE *)rStr.mpData); STRING_RELEASE((STRING_TYPE *)mpData); mpData = rStr.mpData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Assign( const STRCODE* pCharStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( pCharStr, "String::Assign() - pCharStr is NULL" ); // Stringlaenge ermitteln xub_StrLen nLen = ImplStringLen( pCharStr ); if ( !nLen ) { STRING_NEW((STRING_TYPE **)&mpData); } else { // Wenn String genauso lang ist, wie der String, dann direkt kopieren if ( (nLen == mpData->mnLen) && (mpData->mnRefCount == 1) ) memcpy( mpData->maStr, pCharStr, nLen*sizeof( STRCODE ) ); else { // Alte Daten loeschen STRING_RELEASE((STRING_TYPE *)mpData); // Daten initialisieren und String kopieren mpData = ImplAllocData( nLen ); memcpy( mpData->maStr, pCharStr, nLen*sizeof( STRCODE ) ); } } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Assign( const STRCODE* pCharStr, xub_StrLen nLen ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( pCharStr, "String::Assign() - pCharStr is NULL" ); if ( nLen == STRING_LEN ) nLen = ImplStringLen( pCharStr ); #ifdef DBG_UTIL if ( DbgIsAssert() ) { for ( xub_StrLen i = 0; i < nLen; i++ ) { if ( !pCharStr[i] ) { OSL_FAIL( "String::Assign() : nLen is wrong" ); } } } #endif if ( !nLen ) { STRING_NEW((STRING_TYPE **)&mpData); } else { // Wenn String genauso lang ist, wie der String, dann direkt kopieren if ( (nLen == mpData->mnLen) && (mpData->mnRefCount == 1) ) memcpy( mpData->maStr, pCharStr, nLen*sizeof( STRCODE ) ); else { // Alte Daten loeschen STRING_RELEASE((STRING_TYPE *)mpData); // Daten initialisieren und String kopieren mpData = ImplAllocData( nLen ); memcpy( mpData->maStr, pCharStr, nLen*sizeof( STRCODE ) ); } } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Assign( STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( c, "String::Assign() - c is 0" ); // Verwaltungsdaten anlegen und initialisieren STRING_RELEASE((STRING_TYPE *)mpData); mpData = ImplAllocData( 1 ); mpData->maStr[0] = c; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Append( const STRING& rStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Wenn String leer, dann reicht eine Zuweisung sal_Int32 nLen = mpData->mnLen; if ( !nLen ) { STRING_ACQUIRE((STRING_TYPE *)rStr.mpData); STRING_RELEASE((STRING_TYPE *)mpData); mpData = rStr.mpData; } else { // Ueberlauf abfangen sal_Int32 nCopyLen = ImplGetCopyLen( nLen, rStr.mpData->mnLen ); // Ist der uebergebene String kein Leerstring if ( nCopyLen ) { // Neue Datenstruktur und neuen String erzeugen STRINGDATA* pNewData = ImplAllocData( nLen+nCopyLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nLen, rStr.mpData->maStr, nCopyLen*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Append( const STRCODE* pCharStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( pCharStr, "String::Append() - pCharStr is NULL" ); // Stringlaenge ermitteln sal_Int32 nLen = mpData->mnLen; sal_Int32 nCopyLen = ImplStringLen( pCharStr ); // Ueberlauf abfangen nCopyLen = ImplGetCopyLen( nLen, nCopyLen ); // Ist es kein leerer String if ( nCopyLen ) { // Neue Datenstruktur und neuen String erzeugen STRINGDATA* pNewData = ImplAllocData( nLen+nCopyLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nLen, pCharStr, nCopyLen*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Append( const STRCODE* pCharStr, xub_StrLen nCharLen ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( pCharStr, "String::Append() - pCharStr is NULL" ); if ( nCharLen == STRING_LEN ) nCharLen = ImplStringLen( pCharStr ); #ifdef DBG_UTIL if ( DbgIsAssert() ) { for ( xub_StrLen i = 0; i < nCharLen; i++ ) { if ( !pCharStr[i] ) { OSL_FAIL( "String::Append() : nLen is wrong" ); } } } #endif // Ueberlauf abfangen sal_Int32 nLen = mpData->mnLen; sal_Int32 nCopyLen = ImplGetCopyLen( nLen, nCharLen ); // Ist es kein leerer String if ( nCopyLen ) { // Neue Datenstruktur und neuen String erzeugen STRINGDATA* pNewData = ImplAllocData( nLen+nCopyLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nLen, pCharStr, nCopyLen*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Append( STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // kein 0-Character und maximale Stringlaenge nicht ueberschreiten sal_Int32 nLen = mpData->mnLen; if ( c && (nLen < STRING_MAXLEN) ) { // Neue Datenstruktur und neuen String erzeugen STRINGDATA* pNewData = ImplAllocData( nLen+1 ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nLen*sizeof( STRCODE ) ); pNewData->maStr[nLen] = c; // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } return *this; } // ----------------------------------------------------------------------- void STRING::SetChar( xub_StrLen nIndex, STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( nIndex < mpData->mnLen, "String::SetChar() - nIndex > String.Len()" ); // Daten kopieren, wenn noetig und Character zuweisen ImplCopyData(); mpData->maStr[nIndex] = c; } // ----------------------------------------------------------------------- STRING& STRING::Insert( const STRING& rStr, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Ueberlauf abfangen sal_Int32 nCopyLen = ImplGetCopyLen( mpData->mnLen, rStr.mpData->mnLen ); // Ist der einzufuegende String ein Leerstring if ( !nCopyLen ) return *this; // Index groesser als Laenge if ( nIndex > mpData->mnLen ) nIndex = static_cast< xub_StrLen >(mpData->mnLen); // Neue Laenge ermitteln und neuen String anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen+nCopyLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nIndex*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex, rStr.mpData->maStr, nCopyLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex+nCopyLen, mpData->maStr+nIndex, (mpData->mnLen-nIndex)*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Insert( const STRING& rStr, xub_StrLen nPos, xub_StrLen nLen, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Stringlaenge ermitteln if ( nPos > rStr.mpData->mnLen ) nLen = 0; else { // Laenge korrigieren, wenn noetig sal_Int32 nMaxLen = rStr.mpData->mnLen-nPos; if ( nLen > nMaxLen ) nLen = static_cast< xub_StrLen >(nMaxLen); } // Ueberlauf abfangen sal_Int32 nCopyLen = ImplGetCopyLen( mpData->mnLen, nLen ); // Ist der einzufuegende String ein Leerstring if ( !nCopyLen ) return *this; // Index groesser als Laenge if ( nIndex > mpData->mnLen ) nIndex = static_cast< xub_StrLen >(mpData->mnLen); // Neue Laenge ermitteln und neuen String anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen+nCopyLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nIndex*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex, rStr.mpData->maStr+nPos, nCopyLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex+nCopyLen, mpData->maStr+nIndex, (mpData->mnLen-nIndex)*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Insert( const STRCODE* pCharStr, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_ASSERT( pCharStr, "String::Insert() - pCharStr is NULL" ); // Stringlaenge ermitteln sal_Int32 nCopyLen = ImplStringLen( pCharStr ); // Ueberlauf abfangen nCopyLen = ImplGetCopyLen( mpData->mnLen, nCopyLen ); // Ist der einzufuegende String ein Leerstring if ( !nCopyLen ) return *this; // Index groesser als Laenge if ( nIndex > mpData->mnLen ) nIndex = static_cast< xub_StrLen >(mpData->mnLen); // Neue Laenge ermitteln und neuen String anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen+nCopyLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nIndex*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex, pCharStr, nCopyLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex+nCopyLen, mpData->maStr+nIndex, (mpData->mnLen-nIndex)*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Insert( STRCODE c, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Ist es kein 0-Character if ( !c || (mpData->mnLen == STRING_MAXLEN) ) return *this; // Index groesser als Laenge if ( nIndex > mpData->mnLen ) nIndex = static_cast< xub_StrLen >(mpData->mnLen); // Neue Laenge ermitteln und neuen String anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen+1 ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nIndex*sizeof( STRCODE ) ); pNewData->maStr[nIndex] = c; memcpy( pNewData->maStr+nIndex+1, mpData->maStr+nIndex, (mpData->mnLen-nIndex)*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Replace( xub_StrLen nIndex, xub_StrLen nCount, const STRING& rStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Wenn Index groessergleich Laenge ist, dann ist es ein Append if ( nIndex >= mpData->mnLen ) { Append( rStr ); return *this; } // Ist es eine Zuweisung if ( (nIndex == 0) && (nCount >= mpData->mnLen) ) { Assign( rStr ); return *this; } // Reicht ein Erase sal_Int32 nStrLen = rStr.mpData->mnLen; if ( !nStrLen ) return Erase( nIndex, nCount ); // nCount darf nicht ueber das Stringende hinnausgehen if ( nCount > mpData->mnLen - nIndex ) nCount = static_cast< xub_StrLen >(mpData->mnLen-nIndex); // Reicht ein Insert if ( !nCount ) return Insert( rStr, nIndex ); // Reicht eine zeichenweise Zuweisung if ( nCount == nStrLen ) { ImplCopyData(); memcpy( mpData->maStr+nIndex, rStr.mpData->maStr, nCount*sizeof( STRCODE ) ); return *this; } // Ueberlauf abfangen nStrLen = ImplGetCopyLen( mpData->mnLen-nCount, nStrLen ); // Neue Daten anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen-nCount+nStrLen ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nIndex*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex, rStr.mpData->maStr, nStrLen*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex+nStrLen, mpData->maStr+nIndex+nCount, (mpData->mnLen-nIndex-nCount+1)*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::Erase( xub_StrLen nIndex, xub_StrLen nCount ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Ist der Index ausserhalb des Strings oder ist nCount == 0 if ( (nIndex >= mpData->mnLen) || !nCount ) return *this; // nCount darf nicht ueber das Stringende hinnausgehen if ( nCount > mpData->mnLen - nIndex ) nCount = static_cast< xub_StrLen >(mpData->mnLen-nIndex); // Ist das Ergebnis kein Leerstring if ( mpData->mnLen - nCount ) { // Neue Daten anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen-nCount ); // String kopieren memcpy( pNewData->maStr, mpData->maStr, nIndex*sizeof( STRCODE ) ); memcpy( pNewData->maStr+nIndex, mpData->maStr+nIndex+nCount, (mpData->mnLen-nIndex-nCount+1)*sizeof( STRCODE ) ); // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } else { STRING_NEW((STRING_TYPE **)&mpData); } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Fill( xub_StrLen nCount, STRCODE cFillChar ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); if ( !nCount ) return *this; // Ist nCount groesser wie der jetzige String, dann verlaengern if ( nCount > mpData->mnLen ) { // dann neuen String mit der neuen Laenge anlegen STRINGDATA* pNewData = ImplAllocData( nCount ); STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } else ImplCopyData(); STRCODE* pStr = mpData->maStr; do { *pStr = cFillChar; ++pStr, --nCount; } while ( nCount ); return *this; } // ----------------------------------------------------------------------- STRING& STRING::Expand( xub_StrLen nCount, STRCODE cExpandChar ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Muss der String erweitert werden sal_Int32 nLen = mpData->mnLen; if ( nCount <= nLen ) return *this; // Neuen String anlegen STRINGDATA* pNewData = ImplAllocData( nCount ); // Alten String kopieren memcpy( pNewData->maStr, mpData->maStr, nLen*sizeof( STRCODE ) ); // und initialisieren STRCODE* pStr = pNewData->maStr; pStr += nLen; for (sal_Int32 i = nCount - nLen; i > 0; --i) { *pStr++ = cExpandChar; } // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; return *this; } // ----------------------------------------------------------------------- STRING& STRING::EraseLeadingChars( STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); if ( mpData->maStr[0] != c ) return *this; xub_StrLen nStart = 0; while ( mpData->maStr[nStart] == c ) ++nStart; return Erase( 0, nStart ); } // ----------------------------------------------------------------------- STRING& STRING::EraseTrailingChars( STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nEnd = mpData->mnLen; while ( nEnd && (mpData->maStr[nEnd-1] == c) ) nEnd--; if ( nEnd != mpData->mnLen ) Erase( static_cast< xub_StrLen >(nEnd) ); return *this; } // ----------------------------------------------------------------------- STRING& STRING::EraseLeadingAndTrailingChars( STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); xub_StrLen nStart = 0; while ( mpData->maStr[nStart] == c ) ++nStart; if ( nStart ) Erase( 0, nStart ); sal_Int32 nEnd = mpData->mnLen; while ( nEnd && (mpData->maStr[nEnd-1] == c) ) nEnd--; if ( nEnd != mpData->mnLen ) Erase( static_cast< xub_StrLen >(nEnd) ); return *this; } // ----------------------------------------------------------------------- STRING& STRING::EraseAllChars( STRCODE c ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nCount = 0; for (sal_Int32 i = 0; i < mpData->mnLen; ++i) { if ( mpData->maStr[i] == c ) ++nCount; } if ( nCount ) { if ( nCount == mpData->mnLen ) { STRING_NEW((STRING_TYPE **)&mpData); } else { // Neuen String anlegen STRINGDATA* pNewData = ImplAllocData( mpData->mnLen-nCount ); // Alten String kopieren und initialisieren nCount = 0; for( xub_StrLen j = 0; j < mpData->mnLen; ++j ) { if ( mpData->maStr[j] != c ) { pNewData->maStr[nCount] = mpData->maStr[j]; ++nCount; } } // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } } return *this; } // ----------------------------------------------------------------------- STRING& STRING::Reverse() { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); if ( !mpData->mnLen ) return *this; // Daten kopieren, wenn noetig ImplCopyData(); // Reverse sal_Int32 nCount = mpData->mnLen / 2; for ( sal_Int32 i = 0; i < nCount; ++i ) { STRCODE cTemp = mpData->maStr[i]; mpData->maStr[i] = mpData->maStr[mpData->mnLen-i-1]; mpData->maStr[mpData->mnLen-i-1] = cTemp; } return *this; } // ----------------------------------------------------------------------- STRING& STRING::ToLowerAscii() { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nIndex = 0; sal_Int32 nLen = mpData->mnLen; STRCODE* pStr = mpData->maStr; while ( nIndex < nLen ) { // Ist das Zeichen zwischen 'A' und 'Z' dann umwandeln if ( (*pStr >= 65) && (*pStr <= 90) ) { // Daten kopieren, wenn noetig pStr = ImplCopyStringData( pStr ); *pStr += 32; } ++pStr, ++nIndex; } return *this; } // ----------------------------------------------------------------------- STRING& STRING::ToUpperAscii() { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nIndex = 0; sal_Int32 nLen = mpData->mnLen; STRCODE* pStr = mpData->maStr; while ( nIndex < nLen ) { // Ist das Zeichen zwischen 'a' und 'z' dann umwandeln if ( (*pStr >= 97) && (*pStr <= 122) ) { // Daten kopieren, wenn noetig pStr = ImplCopyStringData( pStr ); *pStr -= 32; } ++pStr, ++nIndex; } return *this; } // ----------------------------------------------------------------------- STRING& STRING::ConvertLineEnd( LineEnd eLineEnd ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Zeilenumbrueche ermitteln und neue Laenge berechnen sal_Bool bConvert = sal_False; // Muss konvertiert werden const STRCODE* pStr = mpData->maStr; // damit es schneller geht xub_StrLen nLineEndLen = (eLineEnd == LINEEND_CRLF) ? 2 : 1; xub_StrLen nLen = 0; // Ziel-Laenge xub_StrLen i = 0; // Source-Zaehler while ( i < mpData->mnLen ) { // Bei \r oder \n gibt es neuen Zeilenumbruch if ( (pStr[i] == _CR) || (pStr[i] == _LF) ) { nLen = nLen + nLineEndLen; // Wenn schon gesetzt, dann brauchen wir keine aufwendige Abfrage if ( !bConvert ) { // Muessen wir Konvertieren if ( ((eLineEnd != LINEEND_LF) && (pStr[i] == _LF)) || ((eLineEnd == LINEEND_CRLF) && (pStr[i+1] != _LF)) || ((eLineEnd == LINEEND_LF) && ((pStr[i] == _CR) || (pStr[i+1] == _CR))) || ((eLineEnd == LINEEND_CR) && ((pStr[i] == _LF) || (pStr[i+1] == _LF))) ) bConvert = sal_True; } // \r\n oder \n\r, dann Zeichen ueberspringen if ( ((pStr[i+1] == _CR) || (pStr[i+1] == _LF)) && (pStr[i] != pStr[i+1]) ) ++i; } else ++nLen; ++i; // Wenn String zu lang, dann konvertieren wir nicht if ( nLen >= STRING_MAXLEN ) return *this; } // Zeilenumbrueche konvertieren if ( bConvert ) { // Neuen String anlegen STRINGDATA* pNewData = ImplAllocData( nLen ); xub_StrLen j = 0; i = 0; while ( i < mpData->mnLen ) { // Bei \r oder \n gibt es neuen Zeilenumbruch if ( (pStr[i] == _CR) || (pStr[i] == _LF) ) { if ( eLineEnd == LINEEND_CRLF ) { pNewData->maStr[j] = _CR; pNewData->maStr[j+1] = _LF; j += 2; } else { if ( eLineEnd == LINEEND_CR ) pNewData->maStr[j] = _CR; else pNewData->maStr[j] = _LF; ++j; } if ( ((pStr[i+1] == _CR) || (pStr[i+1] == _LF)) && (pStr[i] != pStr[i+1]) ) ++i; } else { pNewData->maStr[j] = mpData->maStr[i]; ++j; } ++i; } // Alte Daten loeschen und Neue zuweisen STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } return *this; } // ----------------------------------------------------------------------- StringCompare STRING::CompareTo( const STRING& rStr, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Auf Gleichheit der Pointer testen if ( mpData == rStr.mpData ) return COMPARE_EQUAL; // Maximale Laenge ermitteln if ( mpData->mnLen < nLen ) nLen = static_cast< xub_StrLen >(mpData->mnLen+1); if ( rStr.mpData->mnLen < nLen ) nLen = static_cast< xub_StrLen >(rStr.mpData->mnLen+1); // String vergleichen sal_Int32 nCompare = ImplStringCompareWithoutZero( mpData->maStr, rStr.mpData->maStr, nLen ); // Rueckgabewert anpassen if ( nCompare == 0 ) return COMPARE_EQUAL; else if ( nCompare < 0 ) return COMPARE_LESS; else return COMPARE_GREATER; } // ----------------------------------------------------------------------- StringCompare STRING::CompareTo( const STRCODE* pCharStr, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // String vergleichen sal_Int32 nCompare = ImplStringCompare( mpData->maStr, pCharStr, nLen ); // Rueckgabewert anpassen if ( nCompare == 0 ) return COMPARE_EQUAL; else if ( nCompare < 0 ) return COMPARE_LESS; else return COMPARE_GREATER; } // ----------------------------------------------------------------------- StringCompare STRING::CompareIgnoreCaseToAscii( const STRING& rStr, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Auf Gleichheit der Pointer testen if ( mpData == rStr.mpData ) return COMPARE_EQUAL; // Maximale Laenge ermitteln if ( mpData->mnLen < nLen ) nLen = static_cast< xub_StrLen >(mpData->mnLen+1); if ( rStr.mpData->mnLen < nLen ) nLen = static_cast< xub_StrLen >(rStr.mpData->mnLen+1); // String vergleichen sal_Int32 nCompare = ImplStringICompareWithoutZero( mpData->maStr, rStr.mpData->maStr, nLen ); // Rueckgabewert anpassen if ( nCompare == 0 ) return COMPARE_EQUAL; else if ( nCompare < 0 ) return COMPARE_LESS; else return COMPARE_GREATER; } // ----------------------------------------------------------------------- StringCompare STRING::CompareIgnoreCaseToAscii( const STRCODE* pCharStr, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // String vergleichen sal_Int32 nCompare = ImplStringICompare( mpData->maStr, pCharStr, nLen ); // Rueckgabewert anpassen if ( nCompare == 0 ) return COMPARE_EQUAL; else if ( nCompare < 0 ) return COMPARE_LESS; else return COMPARE_GREATER; } // ----------------------------------------------------------------------- sal_Bool STRING::Equals( const STRING& rStr ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Sind die Daten gleich if ( mpData == rStr.mpData ) return sal_True; // Gleiche Laenge if ( mpData->mnLen != rStr.mpData->mnLen ) return sal_False; // String vergleichen return (ImplStringCompareWithoutZero( mpData->maStr, rStr.mpData->maStr, mpData->mnLen ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::Equals( const STRCODE* pCharStr ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); return (ImplStringCompare( mpData->maStr, pCharStr ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::EqualsIgnoreCaseAscii( const STRING& rStr ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Sind die Daten gleich if ( mpData == rStr.mpData ) return sal_True; // Gleiche Laenge if ( mpData->mnLen != rStr.mpData->mnLen ) return sal_False; // String vergleichen return (ImplStringICompareWithoutZero( mpData->maStr, rStr.mpData->maStr, mpData->mnLen ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::EqualsIgnoreCaseAscii( const STRCODE* pCharStr ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); return (ImplStringICompare( mpData->maStr, pCharStr ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::Equals( const STRING& rStr, xub_StrLen nIndex, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Are there enough codes for comparing? if ( nIndex > mpData->mnLen ) return (rStr.mpData->mnLen == 0); sal_Int32 nMaxLen = mpData->mnLen-nIndex; if ( nMaxLen < nLen ) { if ( rStr.mpData->mnLen != nMaxLen ) return sal_False; nLen = static_cast< xub_StrLen >(nMaxLen); } // String vergleichen return (ImplStringCompareWithoutZero( mpData->maStr+nIndex, rStr.mpData->maStr, nLen ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::Equals( const STRCODE* pCharStr, xub_StrLen nIndex, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Are there enough codes for comparing? if ( nIndex > mpData->mnLen ) return (*pCharStr == 0); return (ImplStringCompare( mpData->maStr+nIndex, pCharStr, nLen ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::EqualsIgnoreCaseAscii( const STRING& rStr, xub_StrLen nIndex, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Are there enough codes for comparing? if ( nIndex > mpData->mnLen ) return (rStr.mpData->mnLen == 0); sal_Int32 nMaxLen = mpData->mnLen-nIndex; if ( nMaxLen < nLen ) { if ( rStr.mpData->mnLen != nMaxLen ) return sal_False; nLen = static_cast< xub_StrLen >(nMaxLen); } // String vergleichen return (ImplStringICompareWithoutZero( mpData->maStr+nIndex, rStr.mpData->maStr, nLen ) == 0); } // ----------------------------------------------------------------------- sal_Bool STRING::EqualsIgnoreCaseAscii( const STRCODE* pCharStr, xub_StrLen nIndex, xub_StrLen nLen ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Are there enough codes for comparing? if ( nIndex > mpData->mnLen ) return (*pCharStr == 0); return (ImplStringICompare( mpData->maStr+nIndex, pCharStr, nLen ) == 0); } // ----------------------------------------------------------------------- xub_StrLen STRING::Match( const STRING& rStr ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); // Ist dieser String leer if ( !mpData->mnLen ) return STRING_MATCH; // Suche bis Stringende nach dem ersten nicht uebereinstimmenden Zeichen const STRCODE* pStr1 = mpData->maStr; const STRCODE* pStr2 = rStr.mpData->maStr; xub_StrLen i = 0; while ( i < mpData->mnLen ) { // Stimmt das Zeichen nicht ueberein, dann abbrechen if ( *pStr1 != *pStr2 ) return i; ++pStr1, ++pStr2, ++i; } return STRING_MATCH; } // ----------------------------------------------------------------------- xub_StrLen STRING::Match( const STRCODE* pCharStr ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Ist dieser String leer if ( !mpData->mnLen ) return STRING_MATCH; // Suche bis Stringende nach dem ersten nicht uebereinstimmenden Zeichen const STRCODE* pStr = mpData->maStr; xub_StrLen i = 0; while ( i < mpData->mnLen ) { // Stimmt das Zeichen nicht ueberein, dann abbrechen if ( *pStr != *pCharStr ) return i; ++pStr, ++pCharStr, ++i; } return STRING_MATCH; } // ----------------------------------------------------------------------- xub_StrLen STRING::Search( STRCODE c, xub_StrLen nIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nLen = mpData->mnLen; const STRCODE* pStr = mpData->maStr; pStr += nIndex; while ( nIndex < nLen ) { if ( *pStr == c ) return nIndex; ++pStr, ++nIndex; } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::Search( const STRING& rStr, xub_StrLen nIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); sal_Int32 nLen = mpData->mnLen; sal_Int32 nStrLen = rStr.mpData->mnLen; // Falls die Laenge des uebergebenen Strings 0 ist oder der Index // hinter dem String liegt, dann wurde der String nicht gefunden if ( !nStrLen || (nIndex >= nLen) ) return STRING_NOTFOUND; const STRCODE* pStr1 = mpData->maStr; pStr1 += nIndex; if ( nStrLen == 1 ) { STRCODE cSearch = rStr.mpData->maStr[0]; while ( nIndex < nLen ) { if ( *pStr1 == cSearch ) return nIndex; ++pStr1, ++nIndex; } } else { const STRCODE* pStr2 = rStr.mpData->maStr; // Nur innerhalb des Strings suchen while ( nLen - nIndex >= nStrLen ) { // Stimmt der String ueberein if ( ImplStringCompareWithoutZero( pStr1, pStr2, nStrLen ) == 0 ) return nIndex; ++pStr1, ++nIndex; } } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::Search( const STRCODE* pCharStr, xub_StrLen nIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nLen = mpData->mnLen; xub_StrLen nStrLen = ImplStringLen( pCharStr ); // Falls die Laenge des uebergebenen Strings 0 ist oder der Index // hinter dem String liegt, dann wurde der String nicht gefunden if ( !nStrLen || (nIndex >= nLen) ) return STRING_NOTFOUND; const STRCODE* pStr = mpData->maStr; pStr += nIndex; if ( nStrLen == 1 ) { STRCODE cSearch = *pCharStr; while ( nIndex < nLen ) { if ( *pStr == cSearch ) return nIndex; ++pStr, ++nIndex; } } else { // Nur innerhalb des Strings suchen while ( nLen - nIndex >= nStrLen ) { // Stimmt der String ueberein if ( ImplStringCompareWithoutZero( pStr, pCharStr, nStrLen ) == 0 ) return nIndex; ++pStr, ++nIndex; } } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::SearchBackward( STRCODE c, xub_StrLen nIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); if ( nIndex > mpData->mnLen ) nIndex = (xub_StrLen)mpData->mnLen; const STRCODE* pStr = mpData->maStr; pStr += nIndex; while ( nIndex ) { nIndex--; pStr--; if ( *pStr == c ) return nIndex; } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::SearchChar( const STRCODE* pChars, xub_StrLen nIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nLen = mpData->mnLen; const STRCODE* pStr = mpData->maStr; pStr += nIndex; while ( nIndex < nLen ) { STRCODE c = *pStr; const STRCODE* pCompStr = pChars; while ( *pCompStr ) { if ( *pCompStr == c ) return nIndex; ++pCompStr; } ++pStr, ++nIndex; } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::SearchCharBackward( const STRCODE* pChars, xub_StrLen nIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); if ( nIndex > mpData->mnLen ) nIndex = (xub_StrLen)mpData->mnLen; const STRCODE* pStr = mpData->maStr; pStr += nIndex; while ( nIndex ) { nIndex--; pStr--; STRCODE c =*pStr; const STRCODE* pCompStr = pChars; while ( *pCompStr ) { if ( *pCompStr == c ) return nIndex; ++pCompStr; } } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::SearchAndReplace( STRCODE c, STRCODE cRep, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nLen = mpData->mnLen; const STRCODE* pStr = mpData->maStr; pStr += nIndex; while ( nIndex < nLen ) { if ( *pStr == c ) { ImplCopyData(); mpData->maStr[nIndex] = cRep; return nIndex; } ++pStr, ++nIndex; } return STRING_NOTFOUND; } // ----------------------------------------------------------------------- xub_StrLen STRING::SearchAndReplace( const STRING& rStr, const STRING& rRepStr, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rRepStr, STRING, DBGCHECKSTRING ); xub_StrLen nSPos = Search( rStr, nIndex ); if ( nSPos != STRING_NOTFOUND ) Replace( nSPos, rStr.Len(), rRepStr ); return nSPos; } // ----------------------------------------------------------------------- xub_StrLen STRING::SearchAndReplace( const STRCODE* pCharStr, const STRING& rRepStr, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rRepStr, STRING, DBGCHECKSTRING ); xub_StrLen nSPos = Search( pCharStr, nIndex ); if ( nSPos != STRING_NOTFOUND ) Replace( nSPos, ImplStringLen( pCharStr ), rRepStr ); return nSPos; } // ----------------------------------------------------------------------- void STRING::SearchAndReplaceAll( STRCODE c, STRCODE cRep ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); sal_Int32 nLen = mpData->mnLen; const STRCODE* pStr = mpData->maStr; sal_Int32 nIndex = 0; while ( nIndex < nLen ) { if ( *pStr == c ) { ImplCopyData(); mpData->maStr[nIndex] = cRep; } ++pStr, ++nIndex; } } // ----------------------------------------------------------------------- void STRING::SearchAndReplaceAll( const STRCODE* pCharStr, const STRING& rRepStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rRepStr, STRING, DBGCHECKSTRING ); xub_StrLen nCharLen = ImplStringLen( pCharStr ); xub_StrLen nSPos = Search( pCharStr, 0 ); while ( nSPos != STRING_NOTFOUND ) { Replace( nSPos, nCharLen, rRepStr ); nSPos = nSPos + rRepStr.Len(); nSPos = Search( pCharStr, nSPos ); } } // ----------------------------------------------------------------------- void STRING::SearchAndReplaceAll( const STRING& rStr, const STRING& rRepStr ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rRepStr, STRING, DBGCHECKSTRING ); xub_StrLen nSPos = Search( rStr, 0 ); while ( nSPos != STRING_NOTFOUND ) { Replace( nSPos, rStr.Len(), rRepStr ); nSPos = nSPos + rRepStr.Len(); nSPos = Search( rStr, nSPos ); } } // ----------------------------------------------------------------------- xub_StrLen STRING::GetTokenCount( STRCODE cTok ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Leerer String: TokenCount per Definition 0 if ( !mpData->mnLen ) return 0; xub_StrLen nTokCount = 1; sal_Int32 nLen = mpData->mnLen; const STRCODE* pStr = mpData->maStr; sal_Int32 nIndex = 0; while ( nIndex < nLen ) { // Stimmt das Tokenzeichen ueberein, dann erhoehe TokCount if ( *pStr == cTok ) ++nTokCount; ++pStr, ++nIndex; } return nTokCount; } // ----------------------------------------------------------------------- void STRING::SetToken( xub_StrLen nToken, STRCODE cTok, const STRING& rStr, xub_StrLen nIndex ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rStr, STRING, DBGCHECKSTRING ); const STRCODE* pStr = mpData->maStr; xub_StrLen nLen = (xub_StrLen)mpData->mnLen; xub_StrLen nTok = 0; xub_StrLen nFirstChar = nIndex; xub_StrLen i = nFirstChar; // Bestimme die Token-Position und Laenge pStr += i; while ( i < nLen ) { // Stimmt das Tokenzeichen ueberein, dann erhoehe TokCount if ( *pStr == cTok ) { ++nTok; if ( nTok == nToken ) nFirstChar = i+1; else { if ( nTok > nToken ) break; } } ++pStr, ++i; } if ( nTok >= nToken ) Replace( nFirstChar, i-nFirstChar, rStr ); } // ----------------------------------------------------------------------- STRING STRING::GetToken( xub_StrLen nToken, STRCODE cTok, xub_StrLen& rIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); const STRCODE* pStr = mpData->maStr; xub_StrLen nLen = (xub_StrLen)mpData->mnLen; xub_StrLen nTok = 0; xub_StrLen nFirstChar = rIndex; xub_StrLen i = nFirstChar; // Bestimme die Token-Position und Laenge pStr += i; while ( i < nLen ) { // Stimmt das Tokenzeichen ueberein, dann erhoehe TokCount if ( *pStr == cTok ) { ++nTok; if ( nTok == nToken ) nFirstChar = i+1; else { if ( nTok > nToken ) break; } } ++pStr, ++i; } if ( nTok >= nToken ) { if ( i < nLen ) rIndex = i+1; else rIndex = STRING_NOTFOUND; return Copy( nFirstChar, i-nFirstChar ); } else { rIndex = STRING_NOTFOUND; return STRING(); } } // ----------------------------------------------------------------------- xub_StrLen STRING::GetQuotedTokenCount( const STRING& rQuotedPairs, STRCODE cTok ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rQuotedPairs, STRING, DBGCHECKSTRING ); DBG_ASSERT( !(rQuotedPairs.Len()%2), "String::GetQuotedTokenCount() - QuotedString%2 != 0" ); DBG_ASSERT( rQuotedPairs.Search(cTok) == STRING_NOTFOUND, "String::GetQuotedTokenCount() - cTok in QuotedString" ); // Leerer String: TokenCount per Definition 0 if ( !mpData->mnLen ) return 0; xub_StrLen nTokCount = 1; sal_Int32 nLen = mpData->mnLen; xub_StrLen nQuotedLen = rQuotedPairs.Len(); STRCODE cQuotedEndChar = 0; const STRCODE* pQuotedStr = rQuotedPairs.mpData->maStr; const STRCODE* pStr = mpData->maStr; sal_Int32 nIndex = 0; while ( nIndex < nLen ) { STRCODE c = *pStr; if ( cQuotedEndChar ) { // Ende des Quotes erreicht ? if ( c == cQuotedEndChar ) cQuotedEndChar = 0; } else { // Ist das Zeichen ein Quote-Anfang-Zeichen ? xub_StrLen nQuoteIndex = 0; while ( nQuoteIndex < nQuotedLen ) { if ( pQuotedStr[nQuoteIndex] == c ) { cQuotedEndChar = pQuotedStr[nQuoteIndex+1]; break; } else nQuoteIndex += 2; } // Stimmt das Tokenzeichen ueberein, dann erhoehe TokCount if ( c == cTok ) ++nTokCount; } ++pStr, ++nIndex; } return nTokCount; } // ----------------------------------------------------------------------- STRING STRING::GetQuotedToken( xub_StrLen nToken, const STRING& rQuotedPairs, STRCODE cTok, xub_StrLen& rIndex ) const { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); DBG_CHKOBJ( &rQuotedPairs, STRING, DBGCHECKSTRING ); DBG_ASSERT( !(rQuotedPairs.Len()%2), "String::GetQuotedToken() - QuotedString%2 != 0" ); DBG_ASSERT( rQuotedPairs.Search(cTok) == STRING_NOTFOUND, "String::GetQuotedToken() - cTok in QuotedString" ); const STRCODE* pStr = mpData->maStr; const STRCODE* pQuotedStr = rQuotedPairs.mpData->maStr; STRCODE cQuotedEndChar = 0; xub_StrLen nQuotedLen = rQuotedPairs.Len(); xub_StrLen nLen = (xub_StrLen)mpData->mnLen; xub_StrLen nTok = 0; xub_StrLen nFirstChar = rIndex; xub_StrLen i = nFirstChar; // Bestimme die Token-Position und Laenge pStr += i; while ( i < nLen ) { STRCODE c = *pStr; if ( cQuotedEndChar ) { // Ende des Quotes erreicht ? if ( c == cQuotedEndChar ) cQuotedEndChar = 0; } else { // Ist das Zeichen ein Quote-Anfang-Zeichen ? xub_StrLen nQuoteIndex = 0; while ( nQuoteIndex < nQuotedLen ) { if ( pQuotedStr[nQuoteIndex] == c ) { cQuotedEndChar = pQuotedStr[nQuoteIndex+1]; break; } else nQuoteIndex += 2; } // Stimmt das Tokenzeichen ueberein, dann erhoehe TokCount if ( c == cTok ) { ++nTok; if ( nTok == nToken ) nFirstChar = i+1; else { if ( nTok > nToken ) break; } } } ++pStr, ++i; } if ( nTok >= nToken ) { if ( i < nLen ) rIndex = i+1; else rIndex = STRING_NOTFOUND; return Copy( nFirstChar, i-nFirstChar ); } else { rIndex = STRING_NOTFOUND; return STRING(); } } // ----------------------------------------------------------------------- STRCODE* STRING::GetBufferAccess() { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); // Daten kopieren, wenn noetig if ( mpData->mnLen ) ImplCopyData(); // Pointer auf den String zurueckgeben return mpData->maStr; } // ----------------------------------------------------------------------- void STRING::ReleaseBufferAccess( xub_StrLen nLen ) { // Hier ohne Funktionstest, da String nicht konsistent DBG_CHKTHIS( STRING, NULL ); DBG_ASSERT( mpData->mnRefCount == 1, "String::ReleaseCharStr() called for String with RefCount" ); if ( nLen > mpData->mnLen ) nLen = ImplStringLen( mpData->maStr ); OSL_ASSERT(nLen <= mpData->mnLen); if ( !nLen ) { STRING_NEW((STRING_TYPE **)&mpData); } // Bei mehr als 8 Zeichen unterschied, kuerzen wir den Buffer else if ( mpData->mnLen - nLen > 8 ) { STRINGDATA* pNewData = ImplAllocData( nLen ); memcpy( pNewData->maStr, mpData->maStr, nLen*sizeof( STRCODE ) ); STRING_RELEASE((STRING_TYPE *)mpData); mpData = pNewData; } else mpData->mnLen = nLen; } // ----------------------------------------------------------------------- STRCODE* STRING::AllocBuffer( xub_StrLen nLen ) { DBG_CHKTHIS( STRING, DBGCHECKSTRING ); STRING_RELEASE((STRING_TYPE *)mpData); if ( nLen ) mpData = ImplAllocData( nLen ); else { mpData = NULL; STRING_NEW((STRING_TYPE **)&mpData); } return mpData->maStr; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */