/************************************************************************* * * 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. * ************************************************************************/ #include "oox/xls/condformatbuffer.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "oox/helper/attributelist.hxx" #include "oox/helper/containerhelper.hxx" #include "oox/helper/propertyset.hxx" #include "oox/xls/addressconverter.hxx" #include "oox/xls/biffinputstream.hxx" #include "oox/xls/stylesbuffer.hxx" namespace oox { namespace xls { // ============================================================================ using namespace ::com::sun::star::beans; using namespace ::com::sun::star::container; using namespace ::com::sun::star::sheet; using namespace ::com::sun::star::style; using namespace ::com::sun::star::table; using namespace ::com::sun::star::uno; using ::rtl::OUString; using ::rtl::OUStringBuffer; // ============================================================================ namespace { const sal_Int32 BIFF12_CFRULE_TYPE_CELLIS = 1; const sal_Int32 BIFF12_CFRULE_TYPE_EXPRESSION = 2; const sal_Int32 BIFF12_CFRULE_TYPE_COLORSCALE = 3; const sal_Int32 BIFF12_CFRULE_TYPE_DATABAR = 4; const sal_Int32 BIFF12_CFRULE_TYPE_TOPTEN = 5; const sal_Int32 BIFF12_CFRULE_TYPE_ICONSET = 6; const sal_Int32 BIFF12_CFRULE_SUB_CELLIS = 0; const sal_Int32 BIFF12_CFRULE_SUB_EXPRESSION = 1; const sal_Int32 BIFF12_CFRULE_SUB_COLORSCALE = 2; const sal_Int32 BIFF12_CFRULE_SUB_DATABAR = 3; const sal_Int32 BIFF12_CFRULE_SUB_ICONSET = 4; const sal_Int32 BIFF12_CFRULE_SUB_TOPTEN = 5; const sal_Int32 BIFF12_CFRULE_SUB_UNIQUE = 7; const sal_Int32 BIFF12_CFRULE_SUB_TEXT = 8; const sal_Int32 BIFF12_CFRULE_SUB_BLANK = 9; const sal_Int32 BIFF12_CFRULE_SUB_NOTBLANK = 10; const sal_Int32 BIFF12_CFRULE_SUB_ERROR = 11; const sal_Int32 BIFF12_CFRULE_SUB_NOTERROR = 12; const sal_Int32 BIFF12_CFRULE_SUB_TODAY = 15; const sal_Int32 BIFF12_CFRULE_SUB_TOMORROW = 16; const sal_Int32 BIFF12_CFRULE_SUB_YESTERDAY = 17; const sal_Int32 BIFF12_CFRULE_SUB_LAST7DAYS = 18; const sal_Int32 BIFF12_CFRULE_SUB_LASTMONTH = 19; const sal_Int32 BIFF12_CFRULE_SUB_NEXTMONTH = 20; const sal_Int32 BIFF12_CFRULE_SUB_THISWEEK = 21; const sal_Int32 BIFF12_CFRULE_SUB_NEXTWEEK = 22; const sal_Int32 BIFF12_CFRULE_SUB_LASTWEEK = 23; const sal_Int32 BIFF12_CFRULE_SUB_THISMONTH = 24; const sal_Int32 BIFF12_CFRULE_SUB_ABOVEAVERAGE = 25; const sal_Int32 BIFF12_CFRULE_SUB_BELOWAVERAGE = 26; const sal_Int32 BIFF12_CFRULE_SUB_DUPLICATE = 27; const sal_Int32 BIFF12_CFRULE_SUB_EQABOVEAVERAGE = 29; const sal_Int32 BIFF12_CFRULE_SUB_EQBELOWAVERAGE = 30; const sal_Int32 BIFF12_CFRULE_TIMEOP_TODAY = 0; const sal_Int32 BIFF12_CFRULE_TIMEOP_YESTERDAY = 1; const sal_Int32 BIFF12_CFRULE_TIMEOP_LAST7DAYS = 2; const sal_Int32 BIFF12_CFRULE_TIMEOP_THISWEEK = 3; const sal_Int32 BIFF12_CFRULE_TIMEOP_LASTWEEK = 4; const sal_Int32 BIFF12_CFRULE_TIMEOP_LASTMONTH = 5; const sal_Int32 BIFF12_CFRULE_TIMEOP_TOMORROW = 6; const sal_Int32 BIFF12_CFRULE_TIMEOP_NEXTWEEK = 7; const sal_Int32 BIFF12_CFRULE_TIMEOP_NEXTMONTH = 8; const sal_Int32 BIFF12_CFRULE_TIMEOP_THISMONTH = 9; const sal_uInt16 BIFF12_CFRULE_STOPIFTRUE = 0x0002; const sal_uInt16 BIFF12_CFRULE_ABOVEAVERAGE = 0x0004; const sal_uInt16 BIFF12_CFRULE_BOTTOM = 0x0008; const sal_uInt16 BIFF12_CFRULE_PERCENT = 0x0010; // ---------------------------------------------------------------------------- template< typename Type > void lclAppendProperty( ::std::vector< PropertyValue >& orProps, const OUString& rPropName, const Type& rValue ) { orProps.push_back( PropertyValue() ); orProps.back().Name = rPropName; orProps.back().Value <<= rValue; } } // namespace // ============================================================================ CondFormatRuleModel::CondFormatRuleModel() : mnPriority( -1 ), mnType( XML_TOKEN_INVALID ), mnOperator( XML_TOKEN_INVALID ), mnTimePeriod( XML_TOKEN_INVALID ), mnRank( 0 ), mnStdDev( 0 ), mnDxfId( -1 ), mbStopIfTrue( false ), mbBottom( false ), mbPercent( false ), mbAboveAverage( true ), mbEqualAverage( false ) { } void CondFormatRuleModel::setBiffOperator( sal_Int32 nOperator ) { static const sal_Int32 spnOperators[] = { XML_TOKEN_INVALID, XML_between, XML_notBetween, XML_equal, XML_notEqual, XML_greaterThan, XML_lessThan, XML_greaterThanOrEqual, XML_lessThanOrEqual }; mnOperator = STATIC_ARRAY_SELECT( spnOperators, nOperator, XML_TOKEN_INVALID ); } void CondFormatRuleModel::setBiff12TextType( sal_Int32 nOperator ) { // note: type XML_notContainsText vs. operator XML_notContains static const sal_Int32 spnTypes[] = { XML_containsText, XML_notContainsText, XML_beginsWith, XML_endsWith }; mnType = STATIC_ARRAY_SELECT( spnTypes, nOperator, XML_TOKEN_INVALID ); static const sal_Int32 spnOperators[] = { XML_containsText, XML_notContains, XML_beginsWith, XML_endsWith }; mnOperator = STATIC_ARRAY_SELECT( spnOperators, nOperator, XML_TOKEN_INVALID ); } // ============================================================================ CondFormatRule::CondFormatRule( const CondFormat& rCondFormat ) : WorksheetHelper( rCondFormat ), mrCondFormat( rCondFormat ) { } void CondFormatRule::importCfRule( const AttributeList& rAttribs ) { maModel.maText = rAttribs.getString( XML_text, OUString() ); maModel.mnPriority = rAttribs.getInteger( XML_priority, -1 ); maModel.mnType = rAttribs.getToken( XML_type, XML_TOKEN_INVALID ); maModel.mnOperator = rAttribs.getToken( XML_operator, XML_TOKEN_INVALID ); maModel.mnTimePeriod = rAttribs.getToken( XML_timePeriod, XML_TOKEN_INVALID ); maModel.mnRank = rAttribs.getInteger( XML_rank, 0 ); maModel.mnStdDev = rAttribs.getInteger( XML_stdDev, 0 ); maModel.mnDxfId = rAttribs.getInteger( XML_dxfId, -1 ); maModel.mbStopIfTrue = rAttribs.getBool( XML_stopIfTrue, false ); maModel.mbBottom = rAttribs.getBool( XML_bottom, false ); maModel.mbPercent = rAttribs.getBool( XML_percent, false ); maModel.mbAboveAverage = rAttribs.getBool( XML_aboveAverage, true ); maModel.mbEqualAverage = rAttribs.getBool( XML_equalAverage, false ); } void CondFormatRule::appendFormula( const OUString& rFormula ) { CellAddress aBaseAddr = mrCondFormat.getRanges().getBaseAddress(); ApiTokenSequence aTokens = getFormulaParser().importFormula( aBaseAddr, rFormula ); maModel.maFormulas.push_back( aTokens ); } void CondFormatRule::importCfRule( SequenceInputStream& rStrm ) { sal_Int32 nType, nSubType, nOperator, nFmla1Size, nFmla2Size, nFmla3Size; sal_uInt16 nFlags; rStrm >> nType >> nSubType >> maModel.mnDxfId >> maModel.mnPriority >> nOperator; rStrm.skip( 8 ); rStrm >> nFlags >> nFmla1Size >> nFmla2Size >> nFmla3Size >> maModel.maText; /* Import the formulas. For no obvious reason, the sizes of the formulas are already stored before. Nevertheless the following formulas contain their own sizes. */ // first formula OSL_ENSURE( (nFmla1Size >= 0) || ((nFmla2Size == 0) && (nFmla3Size == 0)), "CondFormatRule::importCfRule - missing first formula" ); OSL_ENSURE( (nFmla1Size > 0) == (rStrm.getRemaining() >= 8), "CondFormatRule::importCfRule - formula size mismatch" ); if( rStrm.getRemaining() >= 8 ) { CellAddress aBaseAddr = mrCondFormat.getRanges().getBaseAddress(); ApiTokenSequence aTokens = getFormulaParser().importFormula( aBaseAddr, FORMULATYPE_CONDFORMAT, rStrm ); maModel.maFormulas.push_back( aTokens ); // second formula OSL_ENSURE( (nFmla2Size >= 0) || (nFmla3Size == 0), "CondFormatRule::importCfRule - missing second formula" ); OSL_ENSURE( (nFmla2Size > 0) == (rStrm.getRemaining() >= 8), "CondFormatRule::importCfRule - formula size mismatch" ); if( rStrm.getRemaining() >= 8 ) { aTokens = getFormulaParser().importFormula( aBaseAddr, FORMULATYPE_CONDFORMAT, rStrm ); maModel.maFormulas.push_back( aTokens ); // third formula OSL_ENSURE( (nFmla3Size > 0) == (rStrm.getRemaining() >= 8), "CondFormatRule::importCfRule - formula size mismatch" ); if( rStrm.getRemaining() >= 8 ) { aTokens = getFormulaParser().importFormula( aBaseAddr, FORMULATYPE_CONDFORMAT, rStrm ); maModel.maFormulas.push_back( aTokens ); } } } // flags maModel.mbStopIfTrue = getFlag( nFlags, BIFF12_CFRULE_STOPIFTRUE ); maModel.mbBottom = getFlag( nFlags, BIFF12_CFRULE_BOTTOM ); maModel.mbPercent = getFlag( nFlags, BIFF12_CFRULE_PERCENT ); maModel.mbAboveAverage = getFlag( nFlags, BIFF12_CFRULE_ABOVEAVERAGE ); // no flag for equalAverage, must be determined from subtype below... // Convert the type/operator settings. This is a real mess... switch( nType ) { case BIFF12_CFRULE_TYPE_CELLIS: OSL_ENSURE( nSubType == BIFF12_CFRULE_SUB_CELLIS, "CondFormatRule::importCfRule - rule type/subtype mismatch" ); maModel.mnType = XML_cellIs; maModel.setBiffOperator( nOperator ); OSL_ENSURE( maModel.mnOperator != XML_TOKEN_INVALID, "CondFormatRule::importCfRule - unknown operator" ); break; case BIFF12_CFRULE_TYPE_EXPRESSION: // here we have to look at the subtype to find the real type... switch( nSubType ) { case BIFF12_CFRULE_SUB_EXPRESSION: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_expression; break; case BIFF12_CFRULE_SUB_UNIQUE: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_uniqueValues; break; case BIFF12_CFRULE_SUB_TEXT: maModel.setBiff12TextType( nOperator ); OSL_ENSURE( maModel.mnType != XML_TOKEN_INVALID, "CondFormatRule::importCfRule - unexpected operator value" ); break; case BIFF12_CFRULE_SUB_BLANK: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_containsBlanks; break; case BIFF12_CFRULE_SUB_NOTBLANK: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_notContainsBlanks; break; case BIFF12_CFRULE_SUB_ERROR: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_containsErrors; break; case BIFF12_CFRULE_SUB_NOTERROR: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_notContainsErrors; break; case BIFF12_CFRULE_SUB_TODAY: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_TODAY, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_today; break; case BIFF12_CFRULE_SUB_TOMORROW: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_TOMORROW, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_tomorrow; break; case BIFF12_CFRULE_SUB_YESTERDAY: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_YESTERDAY, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_yesterday; break; case BIFF12_CFRULE_SUB_LAST7DAYS: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_LAST7DAYS, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_last7Days; break; case BIFF12_CFRULE_SUB_LASTMONTH: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_LASTMONTH, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_lastMonth; break; case BIFF12_CFRULE_SUB_NEXTMONTH: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_NEXTMONTH, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_nextMonth; break; case BIFF12_CFRULE_SUB_THISWEEK: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_THISWEEK, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_thisWeek; break; case BIFF12_CFRULE_SUB_NEXTWEEK: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_NEXTWEEK, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_nextWeek; break; case BIFF12_CFRULE_SUB_LASTWEEK: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_LASTWEEK, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_lastWeek; break; case BIFF12_CFRULE_SUB_THISMONTH: OSL_ENSURE( nOperator == BIFF12_CFRULE_TIMEOP_THISMONTH, "CondFormatRule::importCfRule - unexpected time operator value" ); maModel.mnType = XML_timePeriod; maModel.mnTimePeriod = XML_thisMonth; break; case BIFF12_CFRULE_SUB_ABOVEAVERAGE: OSL_ENSURE( maModel.mbAboveAverage, "CondFormatRule::importCfRule - wrong above-average flag" ); maModel.mnType = XML_aboveAverage; maModel.mnStdDev = nOperator; // operator field used for standard deviation maModel.mbAboveAverage = true; maModel.mbEqualAverage = false; // does not exist as real flag... break; case BIFF12_CFRULE_SUB_BELOWAVERAGE: OSL_ENSURE( !maModel.mbAboveAverage, "CondFormatRule::importCfRule - wrong above-average flag" ); maModel.mnType = XML_aboveAverage; maModel.mnStdDev = nOperator; // operator field used for standard deviation maModel.mbAboveAverage = false; maModel.mbEqualAverage = false; // does not exist as real flag... break; case BIFF12_CFRULE_SUB_DUPLICATE: OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_duplicateValues; break; case BIFF12_CFRULE_SUB_EQABOVEAVERAGE: OSL_ENSURE( maModel.mbAboveAverage, "CondFormatRule::importCfRule - wrong above-average flag" ); maModel.mnType = XML_aboveAverage; maModel.mnStdDev = nOperator; // operator field used for standard deviation maModel.mbAboveAverage = true; maModel.mbEqualAverage = true; // does not exist as real flag... break; case BIFF12_CFRULE_SUB_EQBELOWAVERAGE: OSL_ENSURE( !maModel.mbAboveAverage, "CondFormatRule::importCfRule - wrong above-average flag" ); maModel.mnType = XML_aboveAverage; maModel.mnStdDev = nOperator; // operator field used for standard deviation maModel.mbAboveAverage = false; maModel.mbEqualAverage = true; // does not exist as real flag... break; } break; case BIFF12_CFRULE_TYPE_COLORSCALE: OSL_ENSURE( nSubType == BIFF12_CFRULE_SUB_COLORSCALE, "CondFormatRule::importCfRule - rule type/subtype mismatch" ); OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_colorScale; break; case BIFF12_CFRULE_TYPE_DATABAR: OSL_ENSURE( nSubType == BIFF12_CFRULE_SUB_DATABAR, "CondFormatRule::importCfRule - rule type/subtype mismatch" ); OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_dataBar; break; case BIFF12_CFRULE_TYPE_TOPTEN: OSL_ENSURE( nSubType == BIFF12_CFRULE_SUB_TOPTEN, "CondFormatRule::importCfRule - rule type/subtype mismatch" ); maModel.mnType = XML_top10; maModel.mnRank = nOperator; // operator field used for rank value break; case BIFF12_CFRULE_TYPE_ICONSET: OSL_ENSURE( nSubType == BIFF12_CFRULE_SUB_ICONSET, "CondFormatRule::importCfRule - rule type/subtype mismatch" ); OSL_ENSURE( nOperator == 0, "CondFormatRule::importCfRule - unexpected operator value" ); maModel.mnType = XML_iconSet; break; default: OSL_ENSURE( false, "CondFormatRule::importCfRule - unknown rule type" ); } } void CondFormatRule::importCfRule( BiffInputStream& rStrm, sal_Int32 nPriority ) { sal_uInt8 nType, nOperator; sal_uInt16 nFmla1Size, nFmla2Size; sal_uInt32 nFlags; rStrm >> nType >> nOperator >> nFmla1Size >> nFmla2Size >> nFlags; rStrm.skip( 2 ); static const sal_Int32 spnTypeIds[] = { XML_TOKEN_INVALID, XML_cellIs, XML_expression }; maModel.mnType = STATIC_ARRAY_SELECT( spnTypeIds, nType, XML_TOKEN_INVALID ); maModel.setBiffOperator( nOperator ); maModel.mnPriority = nPriority; maModel.mbStopIfTrue = true; DxfRef xDxf = getStyles().createDxf( &maModel.mnDxfId ); xDxf->importCfRule( rStrm, nFlags ); xDxf->finalizeImport(); // import the formulas OSL_ENSURE( (nFmla1Size > 0) || (nFmla2Size == 0), "CondFormatRule::importCfRule - missing first formula" ); if( nFmla1Size > 0 ) { CellAddress aBaseAddr = mrCondFormat.getRanges().getBaseAddress(); ApiTokenSequence aTokens = getFormulaParser().importFormula( aBaseAddr, FORMULATYPE_CONDFORMAT, rStrm, &nFmla1Size ); maModel.maFormulas.push_back( aTokens ); if( nFmla2Size > 0 ) { aTokens = getFormulaParser().importFormula( aBaseAddr, FORMULATYPE_CONDFORMAT, rStrm, &nFmla2Size ); maModel.maFormulas.push_back( aTokens ); } } } void CondFormatRule::finalizeImport( const Reference< XSheetConditionalEntries >& rxEntries ) { ConditionOperator eOperator = ConditionOperator_NONE; /* Replacement formula for unsupported rule types (text comparison rules, time period rules, cell type rules). The replacement formulas below may contain several placeholders: - '#B' will be replaced by the current relative base address (may occur several times). - '#R' will be replaced by the entire range list of the conditional formatting (absolute addresses). - '#T' will be replaced by the quoted comparison text. - '#L' will be replaced by the length of the comparison text (from the 'text' attribute) used in text comparison rules. - '#K' will be replaced by the rank (from the 'rank' attribute) used in top-10 rules. - '#M' will be replaced by the top/bottom flag (from the 'bottom' attribute) used in the RANK function in top-10 rules. - '#C' will be replaced by one of the comparison operators <, >, <=, or >=, according to the 'aboveAverage' and 'equalAverage' flags. */ OUString aReplaceFormula; switch( maModel.mnType ) { case XML_cellIs: eOperator = CondFormatBuffer::convertToApiOperator( maModel.mnOperator ); break; case XML_expression: eOperator = ConditionOperator_FORMULA; break; case XML_containsText: OSL_ENSURE( maModel.mnOperator == XML_containsText, "CondFormatRule::finalizeImport - unexpected operator" ); aReplaceFormula = CREATE_OUSTRING( "NOT(ISERROR(SEARCH(#T,#B)))" ); break; case XML_notContainsText: // note: type XML_notContainsText vs. operator XML_notContains OSL_ENSURE( maModel.mnOperator == XML_notContains, "CondFormatRule::finalizeImport - unexpected operator" ); aReplaceFormula = CREATE_OUSTRING( "ISERROR(SEARCH(#T,#B))" ); break; case XML_beginsWith: OSL_ENSURE( maModel.mnOperator == XML_beginsWith, "CondFormatRule::finalizeImport - unexpected operator" ); aReplaceFormula = CREATE_OUSTRING( "LEFT(#B,#L)=#T" ); break; case XML_endsWith: OSL_ENSURE( maModel.mnOperator == XML_endsWith, "CondFormatRule::finalizeImport - unexpected operator" ); aReplaceFormula = CREATE_OUSTRING( "RIGHT(#B,#L)=#T" ); break; case XML_timePeriod: switch( maModel.mnTimePeriod ) { case XML_yesterday: aReplaceFormula = CREATE_OUSTRING( "FLOOR(#B,1)=TODAY()-1" ); break; case XML_today: aReplaceFormula = CREATE_OUSTRING( "FLOOR(#B,1)=TODAY()" ); break; case XML_tomorrow: aReplaceFormula = CREATE_OUSTRING( "FLOOR(#B,1)=TODAY()+1" ); break; case XML_last7Days: aReplaceFormula = CREATE_OUSTRING( "AND(TODAY()-70" ); break; case XML_containsErrors: aReplaceFormula = CREATE_OUSTRING( "ISERROR(#B)" ); break; case XML_notContainsErrors: aReplaceFormula = CREATE_OUSTRING( "NOT(ISERROR(#B))" ); break; case XML_top10: if( maModel.mbPercent ) aReplaceFormula = CREATE_OUSTRING( "RANK(#B,#R,#M)/COUNT(#R)<=#K%" ); else aReplaceFormula = CREATE_OUSTRING( "RANK(#B,#R,#M)<=#K" ); break; case XML_aboveAverage: if( maModel.mnStdDev == 0 ) aReplaceFormula = CREATE_OUSTRING( "#B#CAVERAGE(#R)" ); break; } if( aReplaceFormula.getLength() > 0 ) { OUString aAddress, aRanges, aText, aComp; sal_Int32 nStrPos = aReplaceFormula.getLength(); while( (nStrPos = aReplaceFormula.lastIndexOf( '#', nStrPos )) >= 0 ) { switch( aReplaceFormula[ nStrPos + 1 ] ) { case 'B': // current base address if( aAddress.getLength() == 0 ) aAddress = FormulaProcessorBase::generateAddress2dString( mrCondFormat.getRanges().getBaseAddress(), false ); aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, aAddress ); break; case 'R': // range list of conditional formatting if( aRanges.getLength() == 0 ) aRanges = FormulaProcessorBase::generateRangeList2dString( mrCondFormat.getRanges(), true, ',', true ); aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, aRanges ); break; case 'T': // comparison text if( aText.getLength() == 0 ) // quote the comparison text, and handle embedded quote characters aText = FormulaProcessorBase::generateApiString( maModel.maText ); aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, aText ); break; case 'L': // length of comparison text aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, OUString::valueOf( maModel.maText.getLength() ) ); break; case 'K': // top-10 rank aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, OUString::valueOf( maModel.mnRank ) ); break; case 'M': // top-10 top/bottom flag aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, OUString::valueOf( static_cast< sal_Int32 >( maModel.mbBottom ? 1 : 0 ) ) ); break; case 'C': // average comparison operator if( aComp.getLength() == 0 ) aComp = maModel.mbAboveAverage ? (maModel.mbEqualAverage ? CREATE_OUSTRING( ">=" ) : CREATE_OUSTRING( ">" )) : (maModel.mbEqualAverage ? CREATE_OUSTRING( "<=" ) : CREATE_OUSTRING( "<" )); aReplaceFormula = aReplaceFormula.replaceAt( nStrPos, 2, aComp ); break; default: OSL_ENSURE( false, "CondFormatRule::finalizeImport - unknown placeholder" ); } } // set the replacement formula maModel.maFormulas.clear(); appendFormula( aReplaceFormula ); eOperator = ConditionOperator_FORMULA; } if( rxEntries.is() && (eOperator != ConditionOperator_NONE) && !maModel.maFormulas.empty() ) { ::std::vector< PropertyValue > aProps; // create condition properties lclAppendProperty( aProps, CREATE_OUSTRING( "Operator" ), eOperator ); lclAppendProperty( aProps, CREATE_OUSTRING( "Formula1" ), maModel.maFormulas[ 0 ] ); if( maModel.maFormulas.size() >= 2 ) lclAppendProperty( aProps, CREATE_OUSTRING( "Formula2" ), maModel.maFormulas[ 1 ] ); // style name for the formatting attributes OUString aStyleName = getStyles().createDxfStyle( maModel.mnDxfId ); if( aStyleName.getLength() > 0 ) lclAppendProperty( aProps, CREATE_OUSTRING( "StyleName" ), aStyleName ); // append the new rule try { rxEntries->addNew( ContainerHelper::vectorToSequence( aProps ) ); } catch( Exception& ) { } } } // ============================================================================ CondFormatModel::CondFormatModel() : mbPivot( false ) { } // ============================================================================ CondFormat::CondFormat( const WorksheetHelper& rHelper ) : WorksheetHelper( rHelper ) { } void CondFormat::importConditionalFormatting( const AttributeList& rAttribs ) { getAddressConverter().convertToCellRangeList( maModel.maRanges, rAttribs.getString( XML_sqref, OUString() ), getSheetIndex(), true ); maModel.mbPivot = rAttribs.getBool( XML_pivot, false ); } CondFormatRuleRef CondFormat::importCfRule( const AttributeList& rAttribs ) { CondFormatRuleRef xRule = createRule(); xRule->importCfRule( rAttribs ); insertRule( xRule ); return xRule; } void CondFormat::importCondFormatting( SequenceInputStream& rStrm ) { BinRangeList aRanges; rStrm.skip( 8 ); rStrm >> aRanges; getAddressConverter().convertToCellRangeList( maModel.maRanges, aRanges, getSheetIndex(), true ); } void CondFormat::importCfRule( SequenceInputStream& rStrm ) { CondFormatRuleRef xRule = createRule(); xRule->importCfRule( rStrm ); insertRule( xRule ); } void CondFormat::importCfHeader( BiffInputStream& rStrm ) { // import the CFHEADER record sal_uInt16 nRuleCount; BinRangeList aRanges; rStrm >> nRuleCount; rStrm.skip( 10 ); rStrm >> aRanges; getAddressConverter().convertToCellRangeList( maModel.maRanges, aRanges, getSheetIndex(), true ); // import following list of CFRULE records for( sal_uInt16 nRule = 0; (nRule < nRuleCount) && (rStrm.getNextRecId() == BIFF_ID_CFRULE) && rStrm.startNextRecord(); ++nRule ) { CondFormatRuleRef xRule = createRule(); xRule->importCfRule( rStrm, nRule + 1 ); insertRule( xRule ); } } void CondFormat::finalizeImport() { try { Reference< XSheetCellRanges > xRanges( getCellRangeList( maModel.maRanges ), UNO_SET_THROW ); PropertySet aPropSet( xRanges ); Reference< XSheetConditionalEntries > xEntries( aPropSet.getAnyProperty( PROP_ConditionalFormat ), UNO_QUERY_THROW ); // maRules is sorted by rule priority maRules.forEachMem( &CondFormatRule::finalizeImport, ::boost::cref( xEntries ) ); aPropSet.setProperty( PROP_ConditionalFormat, xEntries ); } catch( Exception& ) { } } CondFormatRuleRef CondFormat::createRule() { return CondFormatRuleRef( new CondFormatRule( *this ) ); } void CondFormat::insertRule( CondFormatRuleRef xRule ) { if( xRule.get() && (xRule->getPriority() > 0) ) { OSL_ENSURE( maRules.find( xRule->getPriority() ) == maRules.end(), "CondFormat::insertRule - multiple rules with equal priority" ); maRules[ xRule->getPriority() ] = xRule; } } // ============================================================================ CondFormatBuffer::CondFormatBuffer( const WorksheetHelper& rHelper ) : WorksheetHelper( rHelper ) { } CondFormatRef CondFormatBuffer::importConditionalFormatting( const AttributeList& rAttribs ) { CondFormatRef xCondFmt = createCondFormat(); xCondFmt->importConditionalFormatting( rAttribs ); return xCondFmt; } CondFormatRef CondFormatBuffer::importCondFormatting( SequenceInputStream& rStrm ) { CondFormatRef xCondFmt = createCondFormat(); xCondFmt->importCondFormatting( rStrm ); return xCondFmt; } void CondFormatBuffer::importCfHeader( BiffInputStream& rStrm ) { createCondFormat()->importCfHeader( rStrm ); } void CondFormatBuffer::finalizeImport() { maCondFormats.forEachMem( &CondFormat::finalizeImport ); } ConditionOperator CondFormatBuffer::convertToApiOperator( sal_Int32 nToken ) { switch( nToken ) { case XML_between: return ConditionOperator_BETWEEN; case XML_equal: return ConditionOperator_EQUAL; case XML_greaterThan: return ConditionOperator_GREATER; case XML_greaterThanOrEqual: return ConditionOperator_GREATER_EQUAL; case XML_lessThan: return ConditionOperator_LESS; case XML_lessThanOrEqual: return ConditionOperator_LESS_EQUAL; case XML_notBetween: return ConditionOperator_NOT_BETWEEN; case XML_notEqual: return ConditionOperator_NOT_EQUAL; } return ConditionOperator_NONE; } // private -------------------------------------------------------------------- CondFormatRef CondFormatBuffer::createCondFormat() { CondFormatRef xCondFmt( new CondFormat( *this ) ); maCondFormats.push_back( xCondFmt ); return xCondFmt; } // ============================================================================ } // namespace xls } // namespace oox