/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_basic.hxx" #include #include #include "runtime.hxx" #include using namespace std; struct SbxDim { // eine Array-Dimension: SbxDim* pNext; // Link sal_Int32 nLbound, nUbound; // Begrenzungen sal_Int32 nSize; // Anzahl Elemente }; class SbxVarEntry : public SbxVariableRef { public: XubString* pAlias; SbxVarEntry() : SbxVariableRef(), pAlias( NULL ) {} ~SbxVarEntry() { delete pAlias; } }; typedef SbxVarEntry* SbxVarEntryPtr; typedef vector< SbxVarEntryPtr > SbxVarEntryPtrVector; class SbxVarRefs : public SbxVarEntryPtrVector { public: SbxVarRefs( void ) {} }; TYPEINIT1(SbxArray,SbxBase) TYPEINIT1(SbxDimArray,SbxArray) ////////////////////////////////////////////////////////////////////////// // // SbxArray // ////////////////////////////////////////////////////////////////////////// SbxArray::SbxArray( SbxDataType t ) : SbxBase() { pData = new SbxVarRefs; eType = t; if( t != SbxVARIANT ) SetFlag( SBX_FIXED ); } SbxArray::SbxArray( const SbxArray& rArray ) : SvRefBase( rArray ), SbxBase() { pData = new SbxVarRefs; if( rArray.eType != SbxVARIANT ) SetFlag( SBX_FIXED ); *this = rArray; } SbxArray& SbxArray::operator=( const SbxArray& rArray ) { if( &rArray != this ) { eType = rArray.eType; Clear(); SbxVarRefs* pSrc = rArray.pData; for( sal_uInt32 i = 0; i < pSrc->size(); i++ ) { SbxVarEntryPtr pSrcRef = (*pSrc)[i]; const SbxVariable* pSrc_ = *pSrcRef; if( !pSrc_ ) continue; SbxVarEntryPtr pDstRef = new SbxVarEntry; *((SbxVariableRef*) pDstRef) = *((SbxVariableRef*) pSrcRef); if( pSrcRef->pAlias ) pDstRef->pAlias = new XubString( *pSrcRef->pAlias ); if( eType != SbxVARIANT ) // Keine Objekte konvertieren if( eType != SbxOBJECT || pSrc_->GetClass() != SbxCLASS_OBJECT ) ((SbxVariable*) pSrc_)->Convert( eType ); pData->push_back( pDstRef ); } } return *this; } SbxArray::~SbxArray() { Clear(); delete pData; } SbxDataType SbxArray::GetType() const { return (SbxDataType) ( eType | SbxARRAY ); } SbxClassType SbxArray::GetClass() const { return SbxCLASS_ARRAY; } void SbxArray::Clear() { sal_uInt32 nSize = pData->size(); for( sal_uInt32 i = 0 ; i < nSize ; i++ ) { SbxVarEntry* pEntry = (*pData)[i]; delete pEntry; } pData->clear(); } sal_uInt32 SbxArray::Count32() const { return pData->size(); } sal_uInt16 SbxArray::Count() const { sal_uInt32 nCount = pData->size(); DBG_ASSERT( nCount <= SBX_MAXINDEX, "SBX: Array-Index > SBX_MAXINDEX" ); return (sal_uInt16)nCount; } SbxVariableRef& SbxArray::GetRef32( sal_uInt32 nIdx ) { // Array ggf. vergroessern DBG_ASSERT( nIdx <= SBX_MAXINDEX32, "SBX: Array-Index > SBX_MAXINDEX32" ); // Very Hot Fix if( nIdx > SBX_MAXINDEX32 ) { SetError( SbxERR_BOUNDS ); nIdx = 0; } while( pData->size() <= nIdx ) { const SbxVarEntryPtr p = new SbxVarEntry; pData->push_back( p ); } return *((*pData)[nIdx]); } SbxVariableRef& SbxArray::GetRef( sal_uInt16 nIdx ) { // Array ggf. vergroessern DBG_ASSERT( nIdx <= SBX_MAXINDEX, "SBX: Array-Index > SBX_MAXINDEX" ); // Very Hot Fix if( nIdx > SBX_MAXINDEX ) { SetError( SbxERR_BOUNDS ); nIdx = 0; } while( pData->size() <= nIdx ) { const SbxVarEntryPtr p = new SbxVarEntry; pData->push_back( p ); } return *((*pData)[nIdx]); } SbxVariable* SbxArray::Get32( sal_uInt32 nIdx ) { if( !CanRead() ) { SetError( SbxERR_PROP_WRITEONLY ); return NULL; } SbxVariableRef& rRef = GetRef32( nIdx ); if ( !rRef.Is() ) rRef = new SbxVariable( eType ); #ifdef DBG_UTIL else DBG_CHKOBJ( rRef, SbxBase, 0 ); #endif return rRef; } SbxVariable* SbxArray::Get( sal_uInt16 nIdx ) { if( !CanRead() ) { SetError( SbxERR_PROP_WRITEONLY ); return NULL; } SbxVariableRef& rRef = GetRef( nIdx ); if ( !rRef.Is() ) rRef = new SbxVariable( eType ); #ifdef DBG_UTIL else DBG_CHKOBJ( rRef, SbxBase, 0 ); #endif return rRef; } void SbxArray::Put32( SbxVariable* pVar, sal_uInt32 nIdx ) { if( !CanWrite() ) SetError( SbxERR_PROP_READONLY ); else { if( pVar ) if( eType != SbxVARIANT ) // Keine Objekte konvertieren if( eType != SbxOBJECT || pVar->GetClass() != SbxCLASS_OBJECT ) pVar->Convert( eType ); SbxVariableRef& rRef = GetRef32( nIdx ); if( (SbxVariable*) rRef != pVar ) { rRef = pVar; SetFlag( SBX_MODIFIED ); } } } void SbxArray::Put( SbxVariable* pVar, sal_uInt16 nIdx ) { if( !CanWrite() ) SetError( SbxERR_PROP_READONLY ); else { if( pVar ) if( eType != SbxVARIANT ) // Keine Objekte konvertieren if( eType != SbxOBJECT || pVar->GetClass() != SbxCLASS_OBJECT ) pVar->Convert( eType ); SbxVariableRef& rRef = GetRef( nIdx ); if( (SbxVariable*) rRef != pVar ) { rRef = pVar; SetFlag( SBX_MODIFIED ); } } } const XubString& SbxArray::GetAlias( sal_uInt16 nIdx ) { if( !CanRead() ) { SetError( SbxERR_PROP_WRITEONLY ); return String::EmptyString(); } SbxVarEntry& rRef = (SbxVarEntry&) GetRef( nIdx ); if ( !rRef.pAlias ) return String::EmptyString(); #ifdef DBG_UTIL else DBG_CHKOBJ( rRef, SbxBase, 0 ); #endif return *rRef.pAlias; } void SbxArray::PutAlias( const XubString& rAlias, sal_uInt16 nIdx ) { if( !CanWrite() ) SetError( SbxERR_PROP_READONLY ); else { SbxVarEntry& rRef = (SbxVarEntry&) GetRef( nIdx ); if( !rRef.pAlias ) rRef.pAlias = new XubString( rAlias ); else *rRef.pAlias = rAlias; } } void SbxArray::Insert32( SbxVariable* pVar, sal_uInt32 nIdx ) { DBG_ASSERT( pData->size() <= SBX_MAXINDEX32, "SBX: Array wird zu gross" ); if( pData->size() > SBX_MAXINDEX32 ) return; SbxVarEntryPtr p = new SbxVarEntry; *((SbxVariableRef*) p) = pVar; SbxVarEntryPtrVector::size_type nSize = pData->size(); if( nIdx > nSize ) nIdx = nSize; if( eType != SbxVARIANT && pVar ) (*p)->Convert( eType ); if( nIdx == nSize ) { pData->push_back( p ); } else { pData->insert( pData->begin() + nIdx, p ); } SetFlag( SBX_MODIFIED ); } void SbxArray::Insert( SbxVariable* pVar, sal_uInt16 nIdx ) { DBG_ASSERT( pData->size() <= 0x3FF0, "SBX: Array wird zu gross" ); if( pData->size() > 0x3FF0 ) return; Insert32( pVar, nIdx ); } void SbxArray::Remove32( sal_uInt32 nIdx ) { if( nIdx < pData->size() ) { SbxVariableRef* pRef = (*pData)[nIdx]; pData->erase( pData->begin() + nIdx ); delete pRef; SetFlag( SBX_MODIFIED ); } } void SbxArray::Remove( sal_uInt16 nIdx ) { if( nIdx < pData->size() ) { SbxVariableRef* pRef = (*pData)[nIdx]; pData->erase( pData->begin() + nIdx ); delete pRef; SetFlag( SBX_MODIFIED ); } } void SbxArray::Remove( SbxVariable* pVar ) { if( pVar ) { for( sal_uInt32 i = 0; i < pData->size(); i++ ) { SbxVariableRef* pRef = (*pData)[i]; // SbxVariableRef* pRef = pData->GetObject( i ); if( *pRef == pVar ) { Remove32( i ); break; } } } } // Uebernahme der Daten aus dem uebergebenen Array, wobei // gleichnamige Variable ueberschrieben werden. void SbxArray::Merge( SbxArray* p ) { if( p ) { sal_uInt32 nSize = p->Count(); for( sal_uInt32 i = 0; i < nSize; i++ ) { SbxVarEntryPtr pRef1 = (*(p->pData))[i]; // Ist das Element by name schon drin? // Dann ueberschreiben! SbxVariable* pVar = *pRef1; if( pVar ) { XubString aName = pVar->GetName(); sal_uInt16 nHash = pVar->GetHashCode(); for( sal_uInt32 j = 0; j < pData->size(); j++ ) { SbxVariableRef* pRef2 = (*pData)[j]; if( (*pRef2)->GetHashCode() == nHash && (*pRef2)->GetName().EqualsIgnoreCaseAscii( aName ) ) { *pRef2 = pVar; pRef1 = NULL; break; } } if( pRef1 ) { SbxVarEntryPtr pRef = new SbxVarEntry; const SbxVarEntryPtr pTemp = pRef; pData->push_back( pTemp ); *((SbxVariableRef*) pRef) = *((SbxVariableRef*) pRef1); if( pRef1->pAlias ) pRef->pAlias = new XubString( *pRef1->pAlias ); } } } } } // Suchen eines Elements ueber die Userdaten. Falls ein Element // ein Objekt ist, wird dieses ebenfalls durchsucht. SbxVariable* SbxArray::FindUserData( sal_uInt32 nData ) { SbxVariable* p = NULL; for( sal_uInt32 i = 0; i < pData->size(); i++ ) { SbxVariableRef* pRef = (*pData)[i]; SbxVariable* pVar = *pRef; if( pVar ) { if( pVar->IsVisible() && pVar->GetUserData() == nData ) { p = pVar; p->ResetFlag( SBX_EXTFOUND ); break; // JSM 06.10.95 } // Haben wir ein Array/Objekt mit Extended Search? else if( pVar->IsSet( SBX_EXTSEARCH ) ) { switch( pVar->GetClass() ) { case SbxCLASS_OBJECT: { // Objekte duerfen ihren Parent nicht durchsuchen sal_uInt16 nOld = pVar->GetFlags(); pVar->ResetFlag( SBX_GBLSEARCH ); p = ((SbxObject*) pVar)->FindUserData( nData ); pVar->SetFlags( nOld ); break; } case SbxCLASS_ARRAY: p = ((SbxArray*) pVar)->FindUserData( nData ); break; default: break; } if( p ) { p->SetFlag( SBX_EXTFOUND ); break; } } } } return p; } // Suchen eines Elements ueber den Namen und den Typ. Falls ein Element // ein Objekt ist, wird dieses ebenfalls durchsucht. SbxVariable* SbxArray::Find( const XubString& rName, SbxClassType t ) { SbxVariable* p = NULL; sal_uInt32 nCount = pData->size(); if( !nCount ) return NULL; sal_Bool bExtSearch = IsSet( SBX_EXTSEARCH ); sal_uInt16 nHash = SbxVariable::MakeHashCode( rName ); for( sal_uInt32 i = 0; i < nCount; i++ ) { SbxVariableRef* pRef = (*pData)[i]; SbxVariable* pVar = *pRef; if( pVar && pVar->IsVisible() ) { // Die ganz sichere Suche klappt auch, wenn es // keinen Hascode gibt! sal_uInt16 nVarHash = pVar->GetHashCode(); if( ( !nVarHash || nVarHash == nHash ) && ( t == SbxCLASS_DONTCARE || pVar->GetClass() == t ) && ( pVar->GetName().EqualsIgnoreCaseAscii( rName ) ) ) { p = pVar; p->ResetFlag( SBX_EXTFOUND ); break; } // Haben wir ein Array/Objekt mit Extended Search? else if( bExtSearch && pVar->IsSet( SBX_EXTSEARCH ) ) { switch( pVar->GetClass() ) { case SbxCLASS_OBJECT: { // Objekte duerfen ihren Parent nicht durchsuchen sal_uInt16 nOld = pVar->GetFlags(); pVar->ResetFlag( SBX_GBLSEARCH ); p = ((SbxObject*) pVar)->Find( rName, t ); pVar->SetFlags( nOld ); break; } case SbxCLASS_ARRAY: p = ((SbxArray*) pVar)->Find( rName, t ); break; default: break; } if( p ) { p->SetFlag( SBX_EXTFOUND ); break; } } } } return p; } sal_Bool SbxArray::LoadData( SvStream& rStrm, sal_uInt16 nVer ) { sal_uInt16 nElem; Clear(); sal_Bool bRes = sal_True; sal_uInt16 f = nFlags; nFlags |= SBX_WRITE; rStrm >> nElem; nElem &= 0x7FFF; for( sal_uInt32 n = 0; n < nElem; n++ ) { sal_uInt16 nIdx; rStrm >> nIdx; SbxVariable* pVar = (SbxVariable*) Load( rStrm ); if( pVar ) { SbxVariableRef& rRef = GetRef( nIdx ); rRef = pVar; } else { bRes = sal_False; break; } } if( bRes ) bRes = LoadPrivateData( rStrm, nVer ); nFlags = f; return bRes; } sal_Bool SbxArray::StoreData( SvStream& rStrm ) const { sal_uInt32 nElem = 0; sal_uInt32 n; // Welche Elemente sind ueberhaupt definiert? for( n = 0; n < pData->size(); n++ ) { SbxVariableRef* pRef = (*pData)[n]; SbxVariable* p = *pRef; if( p && !( p->GetFlags() & SBX_DONTSTORE ) ) nElem++; } rStrm << (sal_uInt16) nElem; for( n = 0; n < pData->size(); n++ ) { SbxVariableRef* pRef = (*pData)[n]; SbxVariable* p = *pRef; if( p && !( p->GetFlags() & SBX_DONTSTORE ) ) { rStrm << (sal_uInt16) n; if( !p->Store( rStrm ) ) return sal_False; } } return StorePrivateData( rStrm ); } // #100883 Method to set method directly to parameter array void SbxArray::PutDirect( SbxVariable* pVar, sal_uInt32 nIdx ) { SbxVariableRef& rRef = GetRef32( nIdx ); rRef = pVar; } ////////////////////////////////////////////////////////////////////////// // // SbxArray // ////////////////////////////////////////////////////////////////////////// SbxDimArray::SbxDimArray( SbxDataType t ) : SbxArray( t ), mbHasFixedSize( false ) { pFirst = pLast = NULL; nDim = 0; } SbxDimArray::SbxDimArray( const SbxDimArray& rArray ) : SvRefBase( rArray ), SbxArray( rArray.eType ) { pFirst = pLast = NULL; nDim = 0; *this = rArray; } SbxDimArray& SbxDimArray::operator=( const SbxDimArray& rArray ) { if( &rArray != this ) { SbxArray::operator=( (const SbxArray&) rArray ); SbxDim* p = rArray.pFirst; while( p ) { AddDim32( p->nLbound, p->nUbound ); p = p->pNext; } this->mbHasFixedSize = rArray.mbHasFixedSize; } return *this; } SbxDimArray::~SbxDimArray() { Clear(); } void SbxDimArray::Clear() { SbxDim* p = pFirst; while( p ) { SbxDim* q = p->pNext; delete p; p = q; } pFirst = pLast = NULL; nDim = 0; } // Dimension hinzufuegen void SbxDimArray::AddDimImpl32( sal_Int32 lb, sal_Int32 ub, sal_Bool bAllowSize0 ) { SbxError eRes = SbxERR_OK; if( ub < lb && !bAllowSize0 ) { eRes = SbxERR_BOUNDS; ub = lb; } SbxDim* p = new SbxDim; p->nLbound = lb; p->nUbound = ub; p->nSize = ub - lb + 1; p->pNext = NULL; if( !pFirst ) pFirst = pLast = p; else pLast->pNext = p, pLast = p; nDim++; if( eRes ) SetError( eRes ); } void SbxDimArray::AddDim( short lb, short ub ) { AddDimImpl32( lb, ub, sal_False ); } void SbxDimArray::unoAddDim( short lb, short ub ) { AddDimImpl32( lb, ub, sal_True ); } void SbxDimArray::AddDim32( sal_Int32 lb, sal_Int32 ub ) { AddDimImpl32( lb, ub, sal_False ); } void SbxDimArray::unoAddDim32( sal_Int32 lb, sal_Int32 ub ) { AddDimImpl32( lb, ub, sal_True ); } // Dimensionsdaten auslesen sal_Bool SbxDimArray::GetDim32( sal_Int32 n, sal_Int32& rlb, sal_Int32& rub ) const { if( n < 1 || n > nDim ) { SetError( SbxERR_BOUNDS ); rub = rlb = 0; return sal_False; } SbxDim* p = pFirst; while( --n ) p = p->pNext; rub = p->nUbound; rlb = p->nLbound; return sal_True; } sal_Bool SbxDimArray::GetDim( short n, short& rlb, short& rub ) const { sal_Int32 rlb32, rub32; sal_Bool bRet = GetDim32( n, rlb32, rub32 ); if( bRet ) { if( rlb32 < -SBX_MAXINDEX || rub32 > SBX_MAXINDEX ) { SetError( SbxERR_BOUNDS ); return sal_False; } rub = (short)rub32; rlb = (short)rlb32; } return bRet; } // Element-Ptr anhand einer Index-Liste sal_uInt32 SbxDimArray::Offset32( const sal_Int32* pIdx ) { sal_uInt32 nPos = 0; for( SbxDim* p = pFirst; p; p = p->pNext ) { sal_Int32 nIdx = *pIdx++; if( nIdx < p->nLbound || nIdx > p->nUbound ) { nPos = (sal_uInt32)SBX_MAXINDEX32 + 1; break; } nPos = nPos * p->nSize + nIdx - p->nLbound; } if( nDim == 0 || nPos > SBX_MAXINDEX32 ) { SetError( SbxERR_BOUNDS ); nPos = 0; } return nPos; } sal_uInt16 SbxDimArray::Offset( const short* pIdx ) { long nPos = 0; for( SbxDim* p = pFirst; p; p = p->pNext ) { short nIdx = *pIdx++; if( nIdx < p->nLbound || nIdx > p->nUbound ) { nPos = SBX_MAXINDEX + 1; break; } nPos = nPos * p->nSize + nIdx - p->nLbound; } if( nDim == 0 || nPos > SBX_MAXINDEX ) { SetError( SbxERR_BOUNDS ); nPos = 0; } return (sal_uInt16) nPos; } SbxVariableRef& SbxDimArray::GetRef( const short* pIdx ) { return SbxArray::GetRef( Offset( pIdx ) ); } SbxVariable* SbxDimArray::Get( const short* pIdx ) { return SbxArray::Get( Offset( pIdx ) ); } void SbxDimArray::Put( SbxVariable* p, const short* pIdx ) { SbxArray::Put( p, Offset( pIdx ) ); } SbxVariableRef& SbxDimArray::GetRef32( const sal_Int32* pIdx ) { return SbxArray::GetRef32( Offset32( pIdx ) ); } SbxVariable* SbxDimArray::Get32( const sal_Int32* pIdx ) { return SbxArray::Get32( Offset32( pIdx ) ); } void SbxDimArray::Put32( SbxVariable* p, const sal_Int32* pIdx ) { SbxArray::Put32( p, Offset32( pIdx ) ); } // Element-Nr anhand eines Parameter-Arrays sal_uInt32 SbxDimArray::Offset32( SbxArray* pPar ) { if( nDim == 0 || !pPar || ( ( nDim != ( pPar->Count() - 1 ) ) && SbiRuntime::isVBAEnabled() ) ) { SetError( SbxERR_BOUNDS ); return 0; } sal_uInt32 nPos = 0; sal_uInt16 nOff = 1; // Nicht Element 0! for( SbxDim* p = pFirst; p && !IsError(); p = p->pNext ) { sal_Int32 nIdx = pPar->Get( nOff++ )->GetLong(); if( nIdx < p->nLbound || nIdx > p->nUbound ) { nPos = (sal_uInt32) SBX_MAXINDEX32+1; break; } nPos = nPos * p->nSize + nIdx - p->nLbound; } if( nPos > (sal_uInt32) SBX_MAXINDEX32 ) { SetError( SbxERR_BOUNDS ); nPos = 0; } return nPos; } sal_uInt16 SbxDimArray::Offset( SbxArray* pPar ) { sal_uInt32 nPos = Offset32( pPar ); if( nPos > (long) SBX_MAXINDEX ) { SetError( SbxERR_BOUNDS ); nPos = 0; } return (sal_uInt16) nPos; } SbxVariableRef& SbxDimArray::GetRef( SbxArray* pPar ) { return SbxArray::GetRef32( Offset32( pPar ) ); } SbxVariable* SbxDimArray::Get( SbxArray* pPar ) { return SbxArray::Get32( Offset32( pPar ) ); } void SbxDimArray::Put( SbxVariable* p, SbxArray* pPar ) { SbxArray::Put32( p, Offset32( pPar ) ); } sal_Bool SbxDimArray::LoadData( SvStream& rStrm, sal_uInt16 nVer ) { short nDimension; rStrm >> nDimension; for( short i = 0; i < nDimension && rStrm.GetError() == SVSTREAM_OK; i++ ) { sal_Int16 lb, ub; rStrm >> lb >> ub; AddDim( lb, ub ); } return SbxArray::LoadData( rStrm, nVer ); } sal_Bool SbxDimArray::StoreData( SvStream& rStrm ) const { rStrm << (sal_Int16) nDim; for( short i = 0; i < nDim; i++ ) { short lb, ub; GetDim( i, lb, ub ); rStrm << (sal_Int16) lb << (sal_Int16) ub; } return SbxArray::StoreData( rStrm ); }