/************************************************************** * * 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_svx.hxx" #include #include #include // fuer Broadcasting #include "svx/svdglob.hxx" // StringCache #include "svx/svdstr.hrc" // Namen aus der Resource //////////////////////////////////////////////////////////////////////////////////////////////////// // SetOfByte //////////////////////////////////////////////////////////////////////////////////////////////////// sal_Bool SetOfByte::IsEmpty() const { for(sal_uInt16 i(0); i < 32; i++) { if(aData[i] != 0) return sal_False; } return sal_True; } sal_Bool SetOfByte::IsFull() const { for(sal_uInt16 i(0); i < 32; i++) { if(aData[i] != 0xFF) return sal_False; } return sal_True; } sal_uInt16 SetOfByte::GetSetCount() const { sal_uInt16 nRet(0); for(sal_uInt16 i(0); i < 32; i++) { sal_uInt8 a(aData[i]); if(a != 0) { if(a & 0x80) nRet++; if(a & 0x40) nRet++; if(a & 0x20) nRet++; if(a & 0x10) nRet++; if(a & 0x08) nRet++; if(a & 0x04) nRet++; if(a & 0x02) nRet++; if(a & 0x01) nRet++; } } return nRet; } sal_uInt8 SetOfByte::GetSetBit(sal_uInt16 nNum) const { nNum++; sal_uInt16 i(0), j(0); sal_uInt16 nRet(0); while(j < nNum && i < 256) { if(IsSet(sal_uInt8(i))) j++; i++; } if(j == nNum) nRet = i - 1; return sal_uInt8(nRet); } sal_uInt16 SetOfByte::GetClearCount() const { return sal_uInt16(256 - GetSetCount()); } sal_uInt8 SetOfByte::GetClearBit(sal_uInt16 nNum) const { nNum++; sal_uInt16 i(0), j(0); sal_uInt16 nRet(0); while(j < nNum && i < 256) { if(!IsSet(sal_uInt8(i))) j++; i++; } if(j == nNum) nRet = i - 1; return sal_uInt8(nRet); } void SetOfByte::operator&=(const SetOfByte& r2ndSet) { for(sal_uInt16 i(0); i < 32; i++) { aData[i] &= r2ndSet.aData[i]; } } void SetOfByte::operator|=(const SetOfByte& r2ndSet) { for(sal_uInt16 i(0); i < 32; i++) { aData[i] |= r2ndSet.aData[i]; } } /** initialize this set with a uno sequence of sal_Int8 */ void SetOfByte::PutValue( const com::sun::star::uno::Any & rAny ) { com::sun::star::uno::Sequence< sal_Int8 > aSeq; if( rAny >>= aSeq ) { sal_Int16 nCount = (sal_Int16)aSeq.getLength(); if( nCount > 32 ) nCount = 32; sal_Int16 nIndex; for( nIndex = 0; nIndex < nCount; nIndex++ ) { aData[nIndex] = static_cast(aSeq[nIndex]); } for( ; nIndex < 32; nIndex++ ) { aData[nIndex] = 0; } } } /** returns a uno sequence of sal_Int8 */ void SetOfByte::QueryValue( com::sun::star::uno::Any & rAny ) const { sal_Int16 nNumBytesSet = 0; sal_Int16 nIndex; for( nIndex = 31; nIndex >= 00; nIndex-- ) { if( 0 != aData[nIndex] ) { nNumBytesSet = nIndex + 1; break; } } com::sun::star::uno::Sequence< sal_Int8 > aSeq( nNumBytesSet ); for( nIndex = 0; nIndex < nNumBytesSet; nIndex++ ) { aSeq[nIndex] = static_cast(aData[nIndex]); } rAny <<= aSeq; } //////////////////////////////////////////////////////////////////////////////////////////////////// // SdrLayer //////////////////////////////////////////////////////////////////////////////////////////////////// void SdrLayer::SetStandardLayer(FASTBOOL bStd) { nType=(sal_uInt16)bStd; if (bStd) { aName=ImpGetResStr(STR_StandardLayerName); } if (pModel!=NULL) { SdrHint aHint(HINT_LAYERCHG); pModel->Broadcast(aHint); pModel->SetChanged(); } } void SdrLayer::SetName(const XubString& rNewName) { if(!rNewName.Equals(aName)) { aName = rNewName; nType = 0; // Userdefined if(pModel) { SdrHint aHint(HINT_LAYERCHG); pModel->Broadcast(aHint); pModel->SetChanged(); } } } bool SdrLayer::operator==(const SdrLayer& rCmpLayer) const { return (nID == rCmpLayer.nID && nType == rCmpLayer.nType && aName.Equals(rCmpLayer.aName)); } //////////////////////////////////////////////////////////////////////////////////////////////////// // SdrLayerAdmin //////////////////////////////////////////////////////////////////////////////////////////////////// SdrLayerAdmin::SdrLayerAdmin(SdrLayerAdmin* pNewParent): aLayer(1024,16,16), aLSets(1024,16,16), pModel(NULL) { sal_Char aTextControls[] = "Controls"; aControlLayerName = String(aTextControls, sizeof(aTextControls-1)); pParent=pNewParent; } SdrLayerAdmin::SdrLayerAdmin(const SdrLayerAdmin& rSrcLayerAdmin): aLayer(1024,16,16), aLSets(1024,16,16), pParent(NULL), pModel(NULL) { sal_Char aTextControls[] = "Controls"; aControlLayerName = String(aTextControls, sizeof(aTextControls-1)); *this = rSrcLayerAdmin; } SdrLayerAdmin::~SdrLayerAdmin() { ClearLayer(); } void SdrLayerAdmin::ClearLayer() { SdrLayer* pL; pL=(SdrLayer*)aLayer.First(); while (pL!=NULL) { delete pL; pL=(SdrLayer*)aLayer.Next(); } aLayer.Clear(); } const SdrLayerAdmin& SdrLayerAdmin::operator=(const SdrLayerAdmin& rSrcLayerAdmin) { ClearLayer(); pParent=rSrcLayerAdmin.pParent; sal_uInt16 i; sal_uInt16 nAnz=rSrcLayerAdmin.GetLayerCount(); for (i=0; iSetModel(pNewModel); } } } void SdrLayerAdmin::Broadcast() const { if (pModel!=NULL) { SdrHint aHint(HINT_LAYERORDERCHG); pModel->Broadcast(aHint); pModel->SetChanged(); } } SdrLayer* SdrLayerAdmin::RemoveLayer(sal_uInt16 nPos) { SdrLayer* pRetLayer=(SdrLayer*)(aLayer.Remove(nPos)); Broadcast(); return pRetLayer; } SdrLayer* SdrLayerAdmin::NewLayer(const XubString& rName, sal_uInt16 nPos) { SdrLayerID nID=GetUniqueLayerID(); SdrLayer* pLay=new SdrLayer(nID,rName); pLay->SetModel(pModel); aLayer.Insert(pLay,nPos); Broadcast(); return pLay; } SdrLayer* SdrLayerAdmin::NewStandardLayer(sal_uInt16 nPos) { SdrLayerID nID=GetUniqueLayerID(); SdrLayer* pLay=new SdrLayer(nID,String()); pLay->SetStandardLayer(); pLay->SetModel(pModel); aLayer.Insert(pLay,nPos); Broadcast(); return pLay; } SdrLayer* SdrLayerAdmin::MoveLayer(sal_uInt16 nPos, sal_uInt16 nNewPos) { SdrLayer* pLayer=(SdrLayer*)(aLayer.Remove(nPos)); if (pLayer!=NULL) { aLayer.Insert(pLayer,nNewPos); } Broadcast(); return pLayer; } void SdrLayerAdmin::MoveLayer(SdrLayer* pLayer, sal_uInt16 nNewPos) { sal_uIntPtr nPos=aLayer.GetPos(pLayer); if (nPos!=CONTAINER_ENTRY_NOTFOUND) { aLayer.Remove(nPos); aLayer.Insert(pLayer,nNewPos); Broadcast(); } } sal_uInt16 SdrLayerAdmin::GetLayerPos(SdrLayer* pLayer) const { sal_uIntPtr nRet=SDRLAYER_NOTFOUND; if (pLayer!=NULL) { nRet=aLayer.GetPos(pLayer); if (nRet==CONTAINER_ENTRY_NOTFOUND) { nRet=SDRLAYER_NOTFOUND; } } return sal_uInt16(nRet); } const SdrLayer* SdrLayerAdmin::GetLayer(const XubString& rName, FASTBOOL /*bInherited*/) const { sal_uInt16 i(0); const SdrLayer* pLay = NULL; while(i < GetLayerCount() && !pLay) { if(rName.Equals(GetLayer(i)->GetName())) pLay = GetLayer(i); else i++; } if(!pLay && pParent) { pLay = pParent->GetLayer(rName, sal_True); } return pLay; } SdrLayerID SdrLayerAdmin::GetLayerID(const XubString& rName, FASTBOOL bInherited) const { SdrLayerID nRet=SDRLAYER_NOTFOUND; const SdrLayer* pLay=GetLayer(rName,bInherited); if (pLay!=NULL) nRet=pLay->GetID(); return nRet; } const SdrLayer* SdrLayerAdmin::GetLayerPerID(sal_uInt16 nID) const { sal_uInt16 i=0; const SdrLayer* pLay=NULL; while (iGetID()) pLay=GetLayer(i); else i++; } return pLay; } // Globale LayerID's beginnen mit 0 aufsteigend. // Lokale LayerID's beginnen mit 254 absteigend. // 255 ist reserviert fuer SDRLAYER_NOTFOUND SdrLayerID SdrLayerAdmin::GetUniqueLayerID() const { SetOfByte aSet; sal_Bool bDown = (pParent == NULL); sal_uInt16 j; for (j=0; jGetID()); } SdrLayerID i; if (!bDown) { i=254; while (i && aSet.IsSet(sal_uInt8(i))) --i; if (i == 0) i=254; } else { i=0; while (i<=254 && aSet.IsSet(sal_uInt8(i))) i++; if (i>254) i=0; } return i; }