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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sw.hxx" #include #include #include #include #include using namespace utl; using namespace rtl; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::beans; SwLabelConfig::SwLabelConfig() : ConfigItem(C2U("Office.Labels/Manufacturer")) { aNodeNames = GetNodeNames(OUString()); } SwLabelConfig::~SwLabelConfig() { } void SwLabelConfig::Commit() { // the config item is not writable yet } void SwLabelConfig::Notify( const ::com::sun::star::uno::Sequence< rtl::OUString >& ) {} Sequence lcl_CreatePropertyNames(const OUString& rPrefix) { Sequence aProperties(2); OUString* pProperties = aProperties.getArray(); for(sal_Int32 nProp = 0; nProp < 2; nProp++) pProperties[nProp] = rPrefix; pProperties[ 0] += C2U("Name"); pProperties[ 1] += C2U("Measure"); return aProperties; } SwLabRec* lcl_CreateSwLabRec(Sequence& rValues, const OUString& rManufacturer) { SwLabRec* pNewRec = new SwLabRec; const Any* pValues = rValues.getConstArray(); OUString sTmp; pNewRec->aMake = rManufacturer; for(sal_Int32 nProp = 0; nProp < rValues.getLength(); nProp++) { if(pValues[nProp].hasValue()) { switch(nProp) { case 0: pValues[nProp] >>= sTmp; pNewRec->aType = sTmp; break; case 1: { //all values are contained as colon-separated 1/100 mm values except for the //continuous flag ('C'/'S') pValues[nProp] >>= sTmp; String sMeasure(sTmp); USHORT nTokenCount = sMeasure.GetTokenCount(';'); for(USHORT i = 0; i < nTokenCount; i++) { String sToken(sMeasure.GetToken(i, ';' )); int nVal = sToken.ToInt32(); switch(i) { case 0 : pNewRec->bCont = sToken.GetChar(0) == 'C'; break; case 1 : pNewRec->lHDist = MM100_TO_TWIP(nVal);break; case 2 : pNewRec->lVDist = MM100_TO_TWIP(nVal);break; case 3 : pNewRec->lWidth = MM100_TO_TWIP(nVal);break; case 4 : pNewRec->lHeight = MM100_TO_TWIP(nVal); break; case 5 : pNewRec->lLeft = MM100_TO_TWIP(nVal);break; case 6 : pNewRec->lUpper = MM100_TO_TWIP(nVal);break; case 7 : pNewRec->nCols = nVal; break; case 8 : pNewRec->nRows = nVal; break; } } } break; } } } return pNewRec; } Sequence lcl_CreateProperties( Sequence& rPropNames, const SwLabRec& rRec) { const OUString* pNames = rPropNames.getConstArray(); Sequence aRet(rPropNames.getLength()); PropertyValue* pValues = aRet.getArray(); OUString sColon(C2U(";")); for(sal_Int32 nProp = 0; nProp < rPropNames.getLength(); nProp++) { pValues[nProp].Name = pNames[nProp]; switch(nProp) { case 0: pValues[nProp].Value <<= OUString(rRec.aType); break; case 1: { OUString sTmp; sTmp += C2U( rRec.bCont ? "C" : "S"); sTmp += sColon; sTmp += OUString::valueOf(TWIP_TO_MM100(rRec.lHDist) ); sTmp += sColon; sTmp += OUString::valueOf(TWIP_TO_MM100(rRec.lVDist)); sTmp += sColon; sTmp += OUString::valueOf(TWIP_TO_MM100(rRec.lWidth) ); sTmp += sColon; sTmp += OUString::valueOf(TWIP_TO_MM100(rRec.lHeight) ); sTmp += sColon; sTmp += OUString::valueOf(TWIP_TO_MM100(rRec.lLeft) ); sTmp += sColon; sTmp += OUString::valueOf(TWIP_TO_MM100(rRec.lUpper) ); sTmp += sColon; sTmp += OUString::valueOf(rRec.nCols );sTmp += sColon; sTmp += OUString::valueOf(rRec.nRows ); pValues[nProp].Value <<= sTmp; } break; } } return aRet; } void SwLabelConfig::FillLabels(const OUString& rManufacturer, SwLabRecs& rLabArr) { OUString sManufacturer(wrapConfigurationElementName(rManufacturer)); const Sequence aLabels = GetNodeNames(sManufacturer); const OUString* pLabels = aLabels.getConstArray(); for(sal_Int32 nLabel = 0; nLabel < aLabels.getLength(); nLabel++) { OUString sPrefix(sManufacturer); sPrefix += C2U("/"); sPrefix += pLabels[nLabel]; sPrefix += C2U("/"); Sequence aPropNames = lcl_CreatePropertyNames(sPrefix); Sequence aValues = GetProperties(aPropNames); SwLabRec* pNewRec = lcl_CreateSwLabRec(aValues, rManufacturer); rLabArr.C40_INSERT( SwLabRec, pNewRec, rLabArr.Count() ); } } sal_Bool SwLabelConfig::HasLabel(const rtl::OUString& rManufacturer, const rtl::OUString& rType) { const OUString* pNode = aNodeNames.getConstArray(); sal_Bool bFound = sal_False; for(sal_Int32 nNode = 0; nNode < aNodeNames.getLength() && !bFound; nNode++) { if(pNode[nNode] == rManufacturer) bFound = sal_True; } if(bFound) { OUString sManufacturer(wrapConfigurationElementName(rManufacturer)); const Sequence aLabels = GetNodeNames(sManufacturer); const OUString* pLabels = aLabels.getConstArray(); for(sal_Int32 nLabel = 0; nLabel < aLabels.getLength(); nLabel++) { OUString sPrefix(sManufacturer); sPrefix += C2U("/"); sPrefix += pLabels[nLabel]; sPrefix += C2U("/"); Sequence aProperties(1); aProperties.getArray()[0] = sPrefix; aProperties.getArray()[0] += C2U("Name"); Sequence aValues = GetProperties(aProperties); const Any* pValues = aValues.getConstArray(); if(pValues[0].hasValue()) { OUString sTmp; pValues[0] >>= sTmp; if(rType == sTmp) return sal_True; } } } return sal_False; } sal_Bool lcl_Exists(const OUString& rNode, const Sequence& rLabels) { const OUString* pLabels = rLabels.getConstArray(); for(sal_Int32 i = 0; i < rLabels.getLength(); i++) if(pLabels[i] == rNode) return sal_True; return sal_False; } void SwLabelConfig::SaveLabel( const rtl::OUString& rManufacturer, const rtl::OUString& rType, const SwLabRec& rRec) { const OUString* pNode = aNodeNames.getConstArray(); sal_Bool bFound = sal_False; for(sal_Int32 nNode = 0; nNode < aNodeNames.getLength() && !bFound; nNode++) { if(pNode[nNode] == rManufacturer) bFound = sal_True; } if(!bFound) { if(!AddNode(OUString(), rManufacturer)) { DBG_ERROR("New configuration node could not be created"); return ; } else { aNodeNames = GetNodeNames(OUString()); } } OUString sManufacturer(wrapConfigurationElementName(rManufacturer)); const Sequence aLabels = GetNodeNames(sManufacturer); const OUString* pLabels = aLabels.getConstArray(); OUString sFoundNode; for(sal_Int32 nLabel = 0; nLabel < aLabels.getLength(); nLabel++) { OUString sPrefix(sManufacturer); sPrefix += C2U("/"); sPrefix += pLabels[nLabel]; sPrefix += C2U("/"); Sequence aProperties(1); aProperties.getArray()[0] = sPrefix; aProperties.getArray()[0] += C2U("Name"); Sequence aValues = GetProperties(aProperties); const Any* pValues = aValues.getConstArray(); if(pValues[0].hasValue()) { OUString sTmp; pValues[0] >>= sTmp; if(rType == sTmp) { sFoundNode = pLabels[nLabel]; break; } } } // if not found - generate a unique node name if(!sFoundNode.getLength()) { sal_Int32 nIndex = aLabels.getLength(); OUString sPrefix(C2U("Label")); sFoundNode = sPrefix; sFoundNode += OUString::valueOf(nIndex); while(lcl_Exists(sFoundNode, aLabels)) { sFoundNode = sPrefix; sFoundNode += OUString::valueOf(nIndex++); } } OUString sPrefix(wrapConfigurationElementName(rManufacturer)); sPrefix += C2U("/"); sPrefix += sFoundNode; sPrefix += C2U("/"); Sequence aPropNames = lcl_CreatePropertyNames(sPrefix); Sequence aPropValues = lcl_CreateProperties(aPropNames, rRec); SetSetProperties(wrapConfigurationElementName(rManufacturer), aPropValues); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */