/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include RscRange::RscRange( Atom nId, sal_uInt32 nTypeId ) : RscTop( nId, nTypeId ) { nMin = nMax = 0; nSize = ALIGNED_SIZE( sizeof( RscRangeInst ) ); } RSCCLASS_TYPE RscRange::GetClassType() const { return RSCCLASS_NUMBER; } ERRTYPE RscRange::SetRange( sal_Int32 nMinimum, sal_Int32 nMaximum ) { if( nMinimum > nMaximum ) { nMin = nMaximum; nMax = nMinimum; } else { nMax = nMaximum; nMin = nMinimum; }; return( ERR_OK ); } sal_Bool RscRange::IsValueDefault( const RSCINST & rInst, CLASS_DATA pDef ) { if( pDef ) { if( ((RscRangeInst*)rInst.pData)->nValue == ((RscRangeInst*)pDef)->nValue ) { return sal_True; } } return sal_False; } ERRTYPE RscRange::SetNumber( const RSCINST & rInst, sal_Int32 nValue ) { if( nMax < nValue || nMin > nValue ) return( ERR_RSCRANGE_OUTDEFSET ); ((RscRangeInst *)rInst.pData)->nValue = (sal_uInt16)( nValue - nMin ); ((RscRangeInst *)rInst.pData)->bDflt = sal_False; return( ERR_OK ); } ERRTYPE RscRange::GetNumber( const RSCINST & rInst, sal_Int32 * pN ) { *pN = ((RscRangeInst *)rInst.pData)->nValue + nMin; return( ERR_OK ); } RSCINST RscRange::Create( RSCINST * pInst, const RSCINST & rDflt, sal_Bool bOwnClass ) { RSCINST aInst; if( !pInst ) { aInst.pClass = this; aInst.pData = (CLASS_DATA) rtl_allocateMemory( sizeof( RscRangeInst ) ); } else aInst = *pInst; if( !bOwnClass && rDflt.IsInst() ) bOwnClass = rDflt.pClass->InHierarchy( this ); if( bOwnClass ) memmove( aInst.pData, rDflt.pData, sizeof( RscRangeInst ) ); else { if( 0L >= nMin && 0L <= nMax ) ((RscRangeInst *)aInst.pData)->nValue = (sal_uInt16)(0L - nMin); else ((RscRangeInst *)aInst.pData)->nValue = 0; ((RscRangeInst *)aInst.pData)->bDflt = sal_True; } return( aInst ); } void RscRange::WriteSrc( const RSCINST & rInst, FILE * fOutput, RscTypCont *, sal_uInt32, const char * ) { fprintf( fOutput, "%ld", long( ((RscRangeInst *)rInst.pData)->nValue + nMin ) ); } ERRTYPE RscRange::WriteRc( const RSCINST & rInst, RscWriteRc & aMem, RscTypCont *, sal_uInt32, sal_Bool ) { if( nMin >= 0 ) { sal_uInt16 n; n = (sal_uInt16)(((RscRangeInst *)rInst.pData)->nValue + nMin); aMem.Put( n ); } else { sal_Int16 n; n = (sal_Int16)(((RscRangeInst *)rInst.pData)->nValue + nMin); aMem.Put( n ); } return( ERR_OK ); } RscLongRange::RscLongRange( Atom nId, sal_uInt32 nTypeId ) : RscTop( nId, nTypeId ) { nMin = nMax = 0; nSize = ALIGNED_SIZE( sizeof( RscLongRangeInst ) ); } RSCCLASS_TYPE RscLongRange::GetClassType() const { return RSCCLASS_NUMBER; } ERRTYPE RscLongRange::SetRange( sal_Int32 nMinimum, sal_Int32 nMaximum ) { if( nMinimum > nMaximum ) { nMin = nMaximum; nMax = nMinimum; } else { nMax = nMaximum; nMin = nMinimum; }; return( ERR_OK ); } sal_Bool RscLongRange::IsValueDefault( const RSCINST & rInst, CLASS_DATA pDef ) { if( pDef ) return 0 == memcmp( &((RscLongRangeInst*)rInst.pData)->nValue, &((RscLongRangeInst*)pDef)->nValue, sizeof( sal_Int32 ) ); return sal_False; } ERRTYPE RscLongRange::SetNumber( const RSCINST & rInst, sal_Int32 nValue ) { if( nMax < nValue || nMin > nValue ) return( ERR_RSCRANGE_OUTDEFSET ); void * pData = &((RscLongRangeInst*)rInst.pData)->nValue; memcpy( pData, &nValue, sizeof( sal_Int32 ) ); ((RscLongRangeInst *)rInst.pData)->bDflt = sal_False; return( ERR_OK ); } ERRTYPE RscLongRange::GetNumber( const RSCINST & rInst, sal_Int32 * pN ) { memmove( pN, &((RscLongRangeInst*)rInst.pData)->nValue, sizeof( sal_Int32 ) ); return( ERR_OK ); } RSCINST RscLongRange::Create( RSCINST * pInst, const RSCINST & rDflt, sal_Bool bOwnClass ) { RSCINST aInst; if( !pInst ) { aInst.pClass = this; aInst.pData = (CLASS_DATA) rtl_allocateMemory( sizeof( RscLongRangeInst ) ); } else aInst = *pInst; if( !bOwnClass && rDflt.IsInst() ) bOwnClass = rDflt.pClass->InHierarchy( this ); if( bOwnClass ) memmove( aInst.pData, rDflt.pData, sizeof( RscLongRangeInst ) ); else { sal_Int32 lDflt; if( 0L >= nMin && 0L <= nMax ) lDflt = 0; else lDflt = nMin; void * pData = &((RscLongRangeInst*)aInst.pData)->nValue; memcpy( pData, &lDflt, sizeof( sal_Int32 ) ); ((RscLongRangeInst *)aInst.pData)->bDflt = sal_True; } return( aInst ); } void RscLongRange::WriteSrc( const RSCINST & rInst, FILE * fOutput, RscTypCont *, sal_uInt32, const char * ) { sal_Int32 lVal; GetNumber( rInst, &lVal ); fprintf( fOutput, "%d", static_cast(lVal) ); } ERRTYPE RscLongRange::WriteRc( const RSCINST & rInst, RscWriteRc & aMem, RscTypCont *, sal_uInt32, sal_Bool ) { sal_Int32 lVal; GetNumber( rInst, &lVal ); aMem.Put( (sal_Int32)lVal ); return( ERR_OK ); } RscLongEnumRange::RscLongEnumRange( Atom nId, sal_uInt32 nTypeId ) : RscLongRange( nId, nTypeId ) { } ERRTYPE RscLongEnumRange::SetConst( const RSCINST & rInst, Atom /*nConst*/, sal_Int32 nValue ) { return SetNumber( rInst, nValue ); } RscIdRange::RscIdRange( Atom nId, sal_uInt32 nTypeId ) : RscTop( nId, nTypeId ) { nSize = ALIGNED_SIZE( sizeof( RscId ) ); nMin = nMax = 0; } RSCCLASS_TYPE RscIdRange::GetClassType() const { return RSCCLASS_NUMBER; } RSCINST RscIdRange::Create( RSCINST * pInst, const RSCINST & rDflt, sal_Bool bOwnClass ){ RSCINST aInst; RscId * pClassData; if( !pInst ){ aInst.pClass = this; aInst.pData = (CLASS_DATA)rtl_allocateMemory( sizeof( RscId ) ); } else aInst = *pInst; if( !bOwnClass && rDflt.IsInst() ) bOwnClass = rDflt.pClass->InHierarchy( this ); pClassData = (RscId *)aInst.pData; pClassData->Create(); if( bOwnClass ) *pClassData = *(RscId *)rDflt.pData; else{ *pClassData = RscId(); if( 0 >= nMin && 0 <= nMax ) *pClassData = RscId( (sal_Int32)0 ); else *pClassData = RscId( nMin ); //cUnused wird fuer Defaultkennung verwendet ((RscId *)aInst.pData)->aExp.cUnused = sal_True; } return( aInst ); } void RscIdRange :: Destroy( const RSCINST & rInst ){ ((RscId *)rInst.pData)->Destroy(); } sal_Bool RscIdRange::IsValueDefault( const RSCINST & rInst, CLASS_DATA pDef ){ if( pDef ){ if( ((RscId*)rInst.pData)->aExp.IsNumber() && ((RscId*)pDef)->aExp.IsNumber() ) { if( ((RscId*)rInst.pData)->GetNumber() == ((RscId*)pDef)->GetNumber() ) { return sal_True; } } } return sal_False; } ERRTYPE RscIdRange::SetNumber( const RSCINST & rInst, sal_Int32 nValue ) { if( nMax < nValue || nMin > nValue ) return( ERR_RSCRANGE_OUTDEFSET ); *(RscId *)rInst.pData = RscId( nValue ); ((RscId *)rInst.pData)->aExp.cUnused = sal_False; return( ERR_OK ); } ERRTYPE RscIdRange::GetNumber( const RSCINST & rInst, sal_Int32 * plValue ){ *plValue = ((RscId *)rInst.pData)->GetNumber(); return( ERR_OK ); } ERRTYPE RscIdRange::SetRef( const RSCINST & rInst, const RscId & rRscId ){ ERRTYPE aError; if( rRscId.IsId() ){ aError = SetNumber( rInst, rRscId ); if( aError.IsOk() ){ *(RscId *)rInst.pData = rRscId; ((RscId *)rInst.pData)->aExp.cUnused = sal_False; } } else aError = ERR_RSCRANGE_OUTDEFSET; return( aError ); } ERRTYPE RscIdRange::GetRef( const RSCINST & rInst, RscId * pRscId ){ *pRscId = *(RscId *)rInst.pData; return( ERR_OK ); } void RscIdRange::WriteSrc( const RSCINST & rInst, FILE * fOutput, RscTypCont *, sal_uInt32, const char * ) { fprintf( fOutput, "%s", ((RscId *)rInst.pData)->GetName().getStr() ); } ERRTYPE RscIdRange::WriteRc( const RSCINST & rInst, RscWriteRc & aMem, RscTypCont *, sal_uInt32, sal_Bool ) { sal_Int32 lVal = ((RscId*)rInst.pData)->GetNumber(); aMem.Put( (sal_Int32)lVal ); return( ERR_OK ); } sal_Bool RscIdRange::IsConsistent( const RSCINST & rInst ) { long nValue = ((RscId *)rInst.pData)->GetNumber(); if( (nMax >= nValue) && (nMin <= nValue) ) return sal_True; else { return sal_False; } } RscBool::RscBool( Atom nId, sal_uInt32 nTypeId ) : RscRange( nId, nTypeId ) { RscRange::SetRange( 0, 1 ); } RSCCLASS_TYPE RscBool::GetClassType() const { return RSCCLASS_BOOL; } void RscBool::WriteSrc( const RSCINST & rInst, FILE * fOutput, RscTypCont *, sal_uInt32, const char * ) { sal_Int32 l; GetNumber( rInst, &l ); if( l ) fprintf( fOutput, "TRUE" ); else fprintf( fOutput, "FALSE" ); } RscBreakRange :: RscBreakRange( Atom nId, sal_uInt32 nTypeId ) : RscRange( nId, nTypeId ) { nOutRange = 0xFFFFFFFF; } ERRTYPE RscBreakRange::SetNumber( const RSCINST & rInst, sal_Int32 nValue ){ if( nValue == nOutRange ) return( ERR_RSCRANGE_OUTDEFSET ); else return( RscRange::SetNumber( rInst, nValue ) ); } RSCINST RscBreakRange::Create( RSCINST * pInst, const RSCINST & rDflt, sal_Bool bOwnClass ) { RSCINST aInst; sal_Int32 l; aInst = RscRange::Create( pInst, rDflt, bOwnClass ); GetNumber( aInst, &l ); if( l == nOutRange ) ((RscRangeInst *)aInst.pData)->nValue++; return( aInst ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */