/* -*- 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 "xlchart.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "global.hxx" #include "xlroot.hxx" #include "xlstyle.hxx" using namespace com::sun::star; using ::com::sun::star::uno::Any; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::UNO_QUERY; using ::com::sun::star::uno::Exception; using ::com::sun::star::lang::XMultiServiceFactory; using ::com::sun::star::chart2::XChartDocument; using ::com::sun::star::drawing::XShape; namespace cssc = ::com::sun::star::chart; // Common ===================================================================== XclChRectangle::XclChRectangle() : mnX( 0 ), mnY( 0 ), mnWidth( 0 ), mnHeight( 0 ) { } XclChDataPointPos::XclChDataPointPos( sal_uInt16 nSeriesIdx, sal_uInt16 nPointIdx ) : mnSeriesIdx( nSeriesIdx ), mnPointIdx( nPointIdx ) { } bool operator<( const XclChDataPointPos& rL, const XclChDataPointPos& rR ) { return (rL.mnSeriesIdx < rR.mnSeriesIdx) || ((rL.mnSeriesIdx == rR.mnSeriesIdx) && (rL.mnPointIdx < rR.mnPointIdx)); } XclChFrBlock::XclChFrBlock( sal_uInt16 nType ) : mnType( nType ), mnContext( 0 ), mnValue1( 0 ), mnValue2( 0 ) { } // Frame formatting =========================================================== XclChFramePos::XclChFramePos() : mnTLMode( EXC_CHFRAMEPOS_PARENT ), mnBRMode( EXC_CHFRAMEPOS_PARENT ) { } XclChLineFormat::XclChLineFormat() : maColor( COL_BLACK ), mnPattern( EXC_CHLINEFORMAT_SOLID ), mnWeight( EXC_CHLINEFORMAT_SINGLE ), mnFlags( EXC_CHLINEFORMAT_AUTO ) { } XclChAreaFormat::XclChAreaFormat() : maPattColor( COL_WHITE ), maBackColor( COL_BLACK ), mnPattern( EXC_PATT_SOLID ), mnFlags( EXC_CHAREAFORMAT_AUTO ) { } XclChEscherFormat::XclChEscherFormat() { } XclChEscherFormat::~XclChEscherFormat() { } XclChPicFormat::XclChPicFormat() : mnBmpMode( EXC_CHPICFORMAT_NONE ), mnFlags( EXC_CHPICFORMAT_TOPBOTTOM | EXC_CHPICFORMAT_FRONTBACK | EXC_CHPICFORMAT_LEFTRIGHT ), mfScale( 0.5 ) { } XclChFrame::XclChFrame() : mnFormat( EXC_CHFRAME_STANDARD ), mnFlags( EXC_CHFRAME_AUTOSIZE | EXC_CHFRAME_AUTOPOS ) { } // Source links =============================================================== XclChSourceLink::XclChSourceLink() : mnDestType( EXC_CHSRCLINK_TITLE ), mnLinkType( EXC_CHSRCLINK_DEFAULT ), mnFlags( 0 ), mnNumFmtIdx( 0 ) { } // Text ======================================================================= XclChObjectLink::XclChObjectLink() : mnTarget( EXC_CHOBJLINK_NONE ) { } XclChFrLabelProps::XclChFrLabelProps() : mnFlags( 0 ) { } XclChText::XclChText() : maTextColor( COL_BLACK ), mnHAlign( EXC_CHTEXT_ALIGN_CENTER ), mnVAlign( EXC_CHTEXT_ALIGN_CENTER ), mnBackMode( EXC_CHTEXT_TRANSPARENT ), mnFlags( EXC_CHTEXT_AUTOCOLOR | EXC_CHTEXT_AUTOFILL ), mnFlags2( EXC_CHTEXT_POS_DEFAULT ), mnRotation( EXC_ROT_NONE ) { } // Data series ================================================================ XclChMarkerFormat::XclChMarkerFormat() : maLineColor( COL_BLACK ), maFillColor( COL_WHITE ), mnMarkerSize( EXC_CHMARKERFORMAT_SINGLESIZE ), mnMarkerType( EXC_CHMARKERFORMAT_NOSYMBOL ), mnFlags( EXC_CHMARKERFORMAT_AUTO ) { }; XclCh3dDataFormat::XclCh3dDataFormat() : mnBase( EXC_CH3DDATAFORMAT_RECT ), mnTop( EXC_CH3DDATAFORMAT_STRAIGHT ) { } XclChDataFormat::XclChDataFormat() : mnFormatIdx( EXC_CHDATAFORMAT_DEFAULT ), mnFlags( 0 ) { } XclChSerTrendLine::XclChSerTrendLine() : mfForecastFor( 0.0 ), mfForecastBack( 0.0 ), mnLineType( EXC_CHSERTREND_POLYNOMIAL ), mnOrder( 1 ), mnShowEquation( 0 ), mnShowRSquared( 0 ) { /* Set all bits in mfIntercept to 1 (that is -1.#NAN) to indicate that there is no interception point. Cannot use ::rtl::math::setNan() here cause it misses the sign bit. */ sal_math_Double* pDouble = reinterpret_cast< sal_math_Double* >( &mfIntercept ); pDouble->w32_parts.msw = pDouble->w32_parts.lsw = 0xFFFFFFFF; } XclChSerErrorBar::XclChSerErrorBar() : mfValue( 0.0 ), mnValueCount( 1 ), mnBarType( EXC_CHSERERR_NONE ), mnSourceType( EXC_CHSERERR_FIXED ), mnLineEnd( EXC_CHSERERR_END_TSHAPE ) { } XclChSeries::XclChSeries() : mnCategType( EXC_CHSERIES_NUMERIC ), mnValueType( EXC_CHSERIES_NUMERIC ), mnBubbleType( EXC_CHSERIES_NUMERIC ), mnCategCount( 0 ), mnValueCount( 0 ), mnBubbleCount( 0 ) { } // Chart type groups ========================================================== XclChType::XclChType() : mnOverlap( 0 ), mnGap( 150 ), mnRotation( 0 ), mnPieHole( 0 ), mnBubbleSize( 100 ), mnBubbleType( EXC_CHSCATTER_AREA ), mnFlags( 0 ) { } XclChChart3d::XclChChart3d() : mnRotation( 20 ), mnElevation( 15 ), mnEyeDist( 30 ), mnRelHeight( 100 ), mnRelDepth( 100 ), mnDepthGap( 150 ), mnFlags( EXC_CHCHART3D_AUTOHEIGHT ) { } XclChLegend::XclChLegend() : mnDockMode( EXC_CHLEGEND_RIGHT ), mnSpacing( EXC_CHLEGEND_MEDIUM ), mnFlags( EXC_CHLEGEND_DOCKED | EXC_CHLEGEND_AUTOSERIES | EXC_CHLEGEND_AUTOPOSX | EXC_CHLEGEND_AUTOPOSY | EXC_CHLEGEND_STACKED ) { } XclChTypeGroup::XclChTypeGroup() : mnFlags( 0 ), mnGroupIdx( EXC_CHSERGROUP_NONE ) { } XclChProperties::XclChProperties() : mnFlags( 0 ), mnEmptyMode( EXC_CHPROPS_EMPTY_SKIP ) { } // Axes ======================================================================= XclChLabelRange::XclChLabelRange() : mnCross( 1 ), mnLabelFreq( 1 ), mnTickFreq( 1 ), mnFlags( 0 ) { } XclChDateRange::XclChDateRange() : mnMinDate( 0 ), mnMaxDate( 0 ), mnMajorStep( 0 ), mnMajorUnit( EXC_CHDATERANGE_DAYS ), mnMinorStep( 0 ), mnMinorUnit( EXC_CHDATERANGE_DAYS ), mnBaseUnit( EXC_CHDATERANGE_DAYS ), mnCross( 0 ), mnFlags( EXC_CHDATERANGE_AUTOMIN | EXC_CHDATERANGE_AUTOMAX | EXC_CHDATERANGE_AUTOMAJOR | EXC_CHDATERANGE_AUTOMINOR | EXC_CHDATERANGE_AUTOBASE | EXC_CHDATERANGE_AUTOCROSS | EXC_CHDATERANGE_AUTODATE ) { } XclChValueRange::XclChValueRange() : mfMin( 0.0 ), mfMax( 0.0 ), mfMajorStep( 0.0 ), mfMinorStep( 0.0 ), mfCross( 0.0 ), mnFlags( EXC_CHVALUERANGE_AUTOMIN | EXC_CHVALUERANGE_AUTOMAX | EXC_CHVALUERANGE_AUTOMAJOR | EXC_CHVALUERANGE_AUTOMINOR | EXC_CHVALUERANGE_AUTOCROSS | EXC_CHVALUERANGE_BIT8 ) { } XclChTick::XclChTick() : maTextColor( COL_BLACK ), mnMajor( EXC_CHTICK_INSIDE | EXC_CHTICK_OUTSIDE ), mnMinor( 0 ), mnLabelPos( EXC_CHTICK_NEXT ), mnBackMode( EXC_CHTICK_TRANSPARENT ), mnFlags( EXC_CHTICK_AUTOCOLOR | EXC_CHTICK_AUTOROT ), mnRotation( EXC_ROT_NONE ) { } XclChAxis::XclChAxis() : mnType( EXC_CHAXIS_NONE ) { } sal_Int32 XclChAxis::GetApiAxisDimension() const { sal_Int32 nApiAxisDim = EXC_CHART_AXIS_NONE; switch( mnType ) { case EXC_CHAXIS_X: nApiAxisDim = EXC_CHART_AXIS_X; break; case EXC_CHAXIS_Y: nApiAxisDim = EXC_CHART_AXIS_Y; break; case EXC_CHAXIS_Z: nApiAxisDim = EXC_CHART_AXIS_Z; break; } return nApiAxisDim; } XclChAxesSet::XclChAxesSet() : mnAxesSetId( EXC_CHAXESSET_PRIMARY ) { } sal_Int32 XclChAxesSet::GetApiAxesSetIndex() const { sal_Int32 nApiAxesSetIdx = EXC_CHART_AXESSET_NONE; switch( mnAxesSetId ) { case EXC_CHAXESSET_PRIMARY: nApiAxesSetIdx = EXC_CHART_AXESSET_PRIMARY; break; case EXC_CHAXESSET_SECONDARY: nApiAxesSetIdx = EXC_CHART_AXESSET_SECONDARY; break; } return nApiAxesSetIdx; } // Static helper functions ==================================================== sal_uInt16 XclChartHelper::GetSeriesLineAutoColorIdx( sal_uInt16 nFormatIdx ) { static const sal_uInt16 spnLineColors[] = { 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 63 }; return spnLineColors[ nFormatIdx % SAL_N_ELEMENTS( spnLineColors ) ]; } sal_uInt16 XclChartHelper::GetSeriesFillAutoColorIdx( sal_uInt16 nFormatIdx ) { static const sal_uInt16 spnFillColors[] = { 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23 }; return spnFillColors[ nFormatIdx % SAL_N_ELEMENTS( spnFillColors ) ]; } sal_uInt8 XclChartHelper::GetSeriesFillAutoTransp( sal_uInt16 nFormatIdx ) { static const sal_uInt8 spnTrans[] = { 0x00, 0x40, 0x20, 0x60, 0x70 }; return spnTrans[ (nFormatIdx / 56) % SAL_N_ELEMENTS( spnTrans ) ]; } sal_uInt16 XclChartHelper::GetAutoMarkerType( sal_uInt16 nFormatIdx ) { static const sal_uInt16 spnSymbols[] = { EXC_CHMARKERFORMAT_DIAMOND, EXC_CHMARKERFORMAT_SQUARE, EXC_CHMARKERFORMAT_TRIANGLE, EXC_CHMARKERFORMAT_CROSS, EXC_CHMARKERFORMAT_STAR, EXC_CHMARKERFORMAT_CIRCLE, EXC_CHMARKERFORMAT_PLUS, EXC_CHMARKERFORMAT_DOWJ, EXC_CHMARKERFORMAT_STDDEV }; return spnSymbols[ nFormatIdx % SAL_N_ELEMENTS( spnSymbols ) ]; } bool XclChartHelper::HasMarkerFillColor( sal_uInt16 nMarkerType ) { static const bool spbFilled[] = { false, true, true, true, false, false, false, false, true, false }; return (nMarkerType < SAL_N_ELEMENTS( spbFilled )) && spbFilled[ nMarkerType ]; } OUString XclChartHelper::GetErrorBarValuesRole( sal_uInt8 nBarType ) { switch( nBarType ) { case EXC_CHSERERR_XPLUS: return OUString( EXC_CHPROP_ROLE_ERRORBARS_POSX ); case EXC_CHSERERR_XMINUS: return OUString( EXC_CHPROP_ROLE_ERRORBARS_NEGX ); case EXC_CHSERERR_YPLUS: return OUString( EXC_CHPROP_ROLE_ERRORBARS_POSY ); case EXC_CHSERERR_YMINUS: return OUString( EXC_CHPROP_ROLE_ERRORBARS_NEGY ); default: OSL_FAIL( "XclChartHelper::GetErrorBarValuesRole - unknown bar type" ); } return OUString(); } // Chart formatting info provider ============================================= namespace { static const XclChFormatInfo spFmtInfos[] = { // object type property mode auto line color auto line weight auto pattern color missing frame type create delete isframe { EXC_CHOBJTYPE_BACKGROUND, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, true, true, true }, { EXC_CHOBJTYPE_PLOTFRAME, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, true, true, true }, { EXC_CHOBJTYPE_WALL3D, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_AUTO, true, false, true }, { EXC_CHOBJTYPE_FLOOR3D, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, 23, EXC_CHFRAMETYPE_AUTO, true, false, true }, { EXC_CHOBJTYPE_TEXT, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, true, true }, { EXC_CHOBJTYPE_LEGEND, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_AUTO, true, true, true }, { EXC_CHOBJTYPE_LINEARSERIES, EXC_CHPROPMODE_LINEARSERIES, 0xFFFF, EXC_CHLINEFORMAT_SINGLE, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_AUTO, false, false, false }, { EXC_CHOBJTYPE_FILLEDSERIES, EXC_CHPROPMODE_FILLEDSERIES, EXC_COLOR_CHBORDERAUTO, EXC_CHLINEFORMAT_SINGLE, 0xFFFF, EXC_CHFRAMETYPE_AUTO, false, false, true }, { EXC_CHOBJTYPE_AXISLINE, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_AUTO, false, false, false }, { EXC_CHOBJTYPE_GRIDLINE, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, true, false }, { EXC_CHOBJTYPE_TRENDLINE, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_DOUBLE, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, false, false }, { EXC_CHOBJTYPE_ERRORBAR, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_SINGLE, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, false, false }, { EXC_CHOBJTYPE_CONNECTLINE, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, false, false }, { EXC_CHOBJTYPE_HILOLINE, EXC_CHPROPMODE_LINEARSERIES, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, false, false }, { EXC_CHOBJTYPE_WHITEDROPBAR, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWBACK, EXC_CHFRAMETYPE_INVISIBLE, false, false, true }, { EXC_CHOBJTYPE_BLACKDROPBAR, EXC_CHPROPMODE_COMMON, EXC_COLOR_CHWINDOWTEXT, EXC_CHLINEFORMAT_HAIR, EXC_COLOR_CHWINDOWTEXT, EXC_CHFRAMETYPE_INVISIBLE, false, false, true } }; } XclChFormatInfoProvider::XclChFormatInfoProvider() { const XclChFormatInfo* pEnd = STATIC_ARRAY_END( spFmtInfos ); for( const XclChFormatInfo* pIt = spFmtInfos; pIt != pEnd; ++pIt ) maInfoMap[ pIt->meObjType ] = pIt; } const XclChFormatInfo& XclChFormatInfoProvider::GetFormatInfo( XclChObjectType eObjType ) const { XclFmtInfoMap::const_iterator aIt = maInfoMap.find( eObjType ); OSL_ENSURE( aIt != maInfoMap.end(), "XclChFormatInfoProvider::GetFormatInfo - unknown object type" ); return (aIt == maInfoMap.end()) ? *spFmtInfos : *aIt->second; } // Chart type info provider =================================================== namespace { // chart type service names const sal_Char SERVICE_CHART2_AREA[] = "com.sun.star.chart2.AreaChartType"; const sal_Char SERVICE_CHART2_CANDLE[] = "com.sun.star.chart2.CandleStickChartType"; const sal_Char SERVICE_CHART2_COLUMN[] = "com.sun.star.chart2.ColumnChartType"; const sal_Char SERVICE_CHART2_LINE[] = "com.sun.star.chart2.LineChartType"; const sal_Char SERVICE_CHART2_NET[] = "com.sun.star.chart2.NetChartType"; const sal_Char SERVICE_CHART2_FILLEDNET[] = "com.sun.star.chart2.FilledNetChartType"; const sal_Char SERVICE_CHART2_PIE[] = "com.sun.star.chart2.PieChartType"; const sal_Char SERVICE_CHART2_SCATTER[] = "com.sun.star.chart2.ScatterChartType"; const sal_Char SERVICE_CHART2_BUBBLE[] = "com.sun.star.chart2.BubbleChartType"; const sal_Char SERVICE_CHART2_SURFACE[] = "com.sun.star.chart2.ColumnChartType"; // Todo namespace csscd = cssc::DataLabelPlacement; static const XclChTypeInfo spTypeInfos[] = { // chart type chart type category record id service varied point color def label pos comb2d 3d polar area2d area3d 1stvis xcateg swap stack revers betw { EXC_CHTYPEID_BAR, EXC_CHTYPECATEG_BAR, EXC_ID_CHBAR, SERVICE_CHART2_COLUMN, EXC_CHVARPOINT_SINGLE, csscd::OUTSIDE, true, true, false, true, true, false, true, false, true, false, true }, { EXC_CHTYPEID_HORBAR, EXC_CHTYPECATEG_BAR, EXC_ID_CHBAR, SERVICE_CHART2_COLUMN, EXC_CHVARPOINT_SINGLE, csscd::OUTSIDE, false, true, false, true, true, false, true, true, true, false, true }, { EXC_CHTYPEID_LINE, EXC_CHTYPECATEG_LINE, EXC_ID_CHLINE, SERVICE_CHART2_LINE, EXC_CHVARPOINT_SINGLE, csscd::RIGHT, true, true, false, false, true, false, true, false, true, false, false }, { EXC_CHTYPEID_AREA, EXC_CHTYPECATEG_LINE, EXC_ID_CHAREA, SERVICE_CHART2_AREA, EXC_CHVARPOINT_NONE, csscd::CENTER, true, true, false, true, true, false, true, false, true, true, false }, { EXC_CHTYPEID_STOCK, EXC_CHTYPECATEG_LINE, EXC_ID_CHLINE, SERVICE_CHART2_CANDLE, EXC_CHVARPOINT_NONE, csscd::RIGHT, true, false, false, false, false, false, true, false, true, false, false }, { EXC_CHTYPEID_RADARLINE, EXC_CHTYPECATEG_RADAR, EXC_ID_CHRADARLINE, SERVICE_CHART2_NET, EXC_CHVARPOINT_SINGLE, csscd::TOP, false, false, true, false, true, false, true, false, false, false, false }, { EXC_CHTYPEID_RADARAREA, EXC_CHTYPECATEG_RADAR, EXC_ID_CHRADARAREA, SERVICE_CHART2_FILLEDNET, EXC_CHVARPOINT_NONE, csscd::TOP, false, false, true, true, true, false, true, false, false, true, false }, { EXC_CHTYPEID_PIE, EXC_CHTYPECATEG_PIE, EXC_ID_CHPIE, SERVICE_CHART2_PIE, EXC_CHVARPOINT_MULTI, csscd::AVOID_OVERLAP, false, true, true, true, true, true, true, false, false, false, false }, { EXC_CHTYPEID_DONUT, EXC_CHTYPECATEG_PIE, EXC_ID_CHPIE, SERVICE_CHART2_PIE, EXC_CHVARPOINT_MULTI, csscd::AVOID_OVERLAP, false, true, true, true, true, false, true, false, false, false, false }, { EXC_CHTYPEID_PIEEXT, EXC_CHTYPECATEG_PIE, EXC_ID_CHPIEEXT, SERVICE_CHART2_PIE, EXC_CHVARPOINT_MULTI, csscd::AVOID_OVERLAP, false, false, true, true, true, true, true, false, false, false, false }, { EXC_CHTYPEID_SCATTER, EXC_CHTYPECATEG_SCATTER, EXC_ID_CHSCATTER, SERVICE_CHART2_SCATTER, EXC_CHVARPOINT_SINGLE, csscd::RIGHT, true, false, false, false, true, false, false, false, false, false, false }, { EXC_CHTYPEID_BUBBLES, EXC_CHTYPECATEG_SCATTER, EXC_ID_CHSCATTER, SERVICE_CHART2_BUBBLE, EXC_CHVARPOINT_SINGLE, csscd::RIGHT, false, false, false, true, true, false, false, false, false, false, false }, { EXC_CHTYPEID_SURFACE, EXC_CHTYPECATEG_SURFACE, EXC_ID_CHSURFACE, SERVICE_CHART2_SURFACE, EXC_CHVARPOINT_NONE, csscd::RIGHT, false, true, false, true, true, false, true, false, false, false, false }, { EXC_CHTYPEID_UNKNOWN, EXC_CHTYPECATEG_BAR, EXC_ID_CHBAR, SERVICE_CHART2_COLUMN, EXC_CHVARPOINT_SINGLE, csscd::OUTSIDE, true, true, false, true, true, false, true, false, true, false, true } }; } // namespace XclChExtTypeInfo::XclChExtTypeInfo( const XclChTypeInfo& rTypeInfo ) : XclChTypeInfo( rTypeInfo ), mb3dChart( false ), mbSpline( false ) { } void XclChExtTypeInfo::Set( const XclChTypeInfo& rTypeInfo, bool b3dChart, bool bSpline ) { static_cast< XclChTypeInfo& >( *this ) = rTypeInfo; mb3dChart = mbSupports3d && b3dChart; mbSpline = bSpline; } XclChTypeInfoProvider::XclChTypeInfoProvider() { const XclChTypeInfo* pEnd = STATIC_ARRAY_END( spTypeInfos ); for( const XclChTypeInfo* pIt = spTypeInfos; pIt != pEnd; ++pIt ) maInfoMap[ pIt->meTypeId ] = pIt; } const XclChTypeInfo& XclChTypeInfoProvider::GetTypeInfo( XclChTypeId eTypeId ) const { XclChTypeInfoMap::const_iterator aIt = maInfoMap.find( eTypeId ); OSL_ENSURE( aIt != maInfoMap.end(), "XclChTypeInfoProvider::GetTypeInfo - unknown chart type" ); return (aIt == maInfoMap.end()) ? *maInfoMap.rbegin()->second : *aIt->second; } const XclChTypeInfo& XclChTypeInfoProvider::GetTypeInfoFromRecId( sal_uInt16 nRecId ) const { const XclChTypeInfo* pEnd = STATIC_ARRAY_END( spTypeInfos ); for( const XclChTypeInfo* pIt = spTypeInfos; pIt != pEnd; ++pIt ) if( pIt->mnRecId == nRecId ) return *pIt; OSL_FAIL( "XclChTypeInfoProvider::GetTypeInfoFromRecId - unknown record id" ); return GetTypeInfo( EXC_CHTYPEID_UNKNOWN ); } const XclChTypeInfo& XclChTypeInfoProvider::GetTypeInfoFromService( const OUString& rServiceName ) const { const XclChTypeInfo* pEnd = STATIC_ARRAY_END( spTypeInfos ); for( const XclChTypeInfo* pIt = spTypeInfos; pIt != pEnd; ++pIt ) if( rServiceName.equalsAscii( pIt->mpcServiceName ) ) return *pIt; OSL_FAIL( "XclChTypeInfoProvider::GetTypeInfoFromService - unknown service name" ); return GetTypeInfo( EXC_CHTYPEID_UNKNOWN ); } // Property helpers =========================================================== XclChObjectTable::XclChObjectTable( Reference< XMultiServiceFactory > xFactory, const OUString& rServiceName, const OUString& rObjNameBase ) : mxFactory( xFactory ), maServiceName( rServiceName ), maObjNameBase( rObjNameBase ), mnIndex( 0 ) { } Any XclChObjectTable::GetObject( const OUString& rObjName ) { // get object table if( !mxContainer.is() ) mxContainer.set( ScfApiHelper::CreateInstance( mxFactory, maServiceName ), UNO_QUERY ); OSL_ENSURE( mxContainer.is(), "XclChObjectTable::GetObject - container not found" ); Any aObj; if( mxContainer.is() ) { // get object from container try { aObj = mxContainer->getByName( rObjName ); } catch( Exception& ) { OSL_FAIL( "XclChObjectTable::GetObject - object not found" ); } } return aObj; } OUString XclChObjectTable::InsertObject( const Any& rObj ) { // create object table if( !mxContainer.is() ) mxContainer.set( ScfApiHelper::CreateInstance( mxFactory, maServiceName ), UNO_QUERY ); OSL_ENSURE( mxContainer.is(), "XclChObjectTable::InsertObject - container not found" ); OUString aObjName; if( mxContainer.is() ) { // create new unused identifier do { aObjName = maObjNameBase + OUString::number( ++mnIndex ); } while( mxContainer->hasByName( aObjName ) ); // insert object try { mxContainer->insertByName( aObjName, rObj ); } catch( Exception& ) { OSL_FAIL( "XclChObjectTable::InsertObject - cannot insert object" ); aObjName.clear(); } } return aObjName; } // Property names ------------------------------------------------------------- namespace { /** Property names for line style in common objects. */ const sal_Char* const sppcLineNamesCommon[] = { "LineStyle", "LineWidth", "LineColor", "LineTransparence", "LineDashName", 0 }; /** Property names for line style in linear series objects. */ const sal_Char* const sppcLineNamesLinear[] = { "LineStyle", "LineWidth", "Color", "Transparency", "LineDashName", 0 }; /** Property names for line style in filled series objects. */ const sal_Char* const sppcLineNamesFilled[] = { "BorderStyle", "BorderWidth", "BorderColor", "BorderTransparency", "BorderDashName", 0 }; /** Property names for solid area style in common objects. */ const sal_Char* const sppcAreaNamesCommon[] = { "FillStyle", "FillColor", "FillTransparence", 0 }; /** Property names for solid area style in filled series objects. */ const sal_Char* const sppcAreaNamesFilled[] = { "FillStyle", "Color", "Transparency", 0 }; /** Property names for gradient area style in common objects. */ const sal_Char* const sppcGradNamesCommon[] = { "FillStyle", "FillGradientName", 0 }; /** Property names for gradient area style in filled series objects. */ const sal_Char* const sppcGradNamesFilled[] = { "FillStyle", "GradientName", 0 }; /** Property names for hatch area style in common objects. */ const sal_Char* const sppcHatchNamesCommon[] = { "FillStyle", "FillHatchName", "FillColor", "FillBackground", 0 }; /** Property names for hatch area style in filled series objects. */ const sal_Char* const sppcHatchNamesFilled[] = { "FillStyle", "HatchName", "Color", "FillBackground", 0 }; /** Property names for bitmap area style. */ const sal_Char* const sppcBitmapNames[] = { "FillStyle", "FillBitmapName", "FillBitmapMode", 0 }; } // namespace XclChPropSetHelper::XclChPropSetHelper() : maLineHlpCommon( sppcLineNamesCommon ), maLineHlpLinear( sppcLineNamesLinear ), maLineHlpFilled( sppcLineNamesFilled ), maAreaHlpCommon( sppcAreaNamesCommon ), maAreaHlpFilled( sppcAreaNamesFilled ), maGradHlpCommon( sppcGradNamesCommon ), maGradHlpFilled( sppcGradNamesFilled ), maHatchHlpCommon( sppcHatchNamesCommon ), maHatchHlpFilled( sppcHatchNamesFilled ), maBitmapHlp( sppcBitmapNames ) { } // read properties ------------------------------------------------------------ void XclChPropSetHelper::ReadLineProperties( XclChLineFormat& rLineFmt, XclChObjectTable& rDashTable, const ScfPropertySet& rPropSet, XclChPropertyMode ePropMode ) { namespace cssd = ::com::sun::star::drawing; // read properties from property set cssd::LineStyle eApiStyle = cssd::LineStyle_NONE; sal_Int32 nApiWidth = 0; sal_Int16 nApiTrans = 0; Any aDashNameAny; ScfPropSetHelper& rLineHlp = GetLineHelper( ePropMode ); rLineHlp.ReadFromPropertySet( rPropSet ); rLineHlp >> eApiStyle >> nApiWidth >> rLineFmt.maColor >> nApiTrans >> aDashNameAny; // clear automatic flag ::set_flag( rLineFmt.mnFlags, EXC_CHLINEFORMAT_AUTO, false ); // line width if( nApiWidth <= 0 ) rLineFmt.mnWeight = EXC_CHLINEFORMAT_HAIR; else if( nApiWidth <= 35 ) rLineFmt.mnWeight = EXC_CHLINEFORMAT_SINGLE; else if( nApiWidth <= 70 ) rLineFmt.mnWeight = EXC_CHLINEFORMAT_DOUBLE; else rLineFmt.mnWeight = EXC_CHLINEFORMAT_TRIPLE; // line style switch( eApiStyle ) { case cssd::LineStyle_NONE: rLineFmt.mnPattern = EXC_CHLINEFORMAT_NONE; break; case cssd::LineStyle_SOLID: { if( nApiTrans < 13 ) rLineFmt.mnPattern = EXC_CHLINEFORMAT_SOLID; else if( nApiTrans < 38 ) rLineFmt.mnPattern = EXC_CHLINEFORMAT_DARKTRANS; else if( nApiTrans < 63 ) rLineFmt.mnPattern = EXC_CHLINEFORMAT_MEDTRANS; else if( nApiTrans < 100 ) rLineFmt.mnPattern = EXC_CHLINEFORMAT_LIGHTTRANS; else rLineFmt.mnPattern = EXC_CHLINEFORMAT_NONE; } break; case cssd::LineStyle_DASH: { rLineFmt.mnPattern = EXC_CHLINEFORMAT_SOLID; OUString aDashName; cssd::LineDash aApiDash; if( (aDashNameAny >>= aDashName) && (rDashTable.GetObject( aDashName ) >>= aApiDash) ) { // reorder dashes that are shorter than dots if( (aApiDash.Dashes == 0) || (aApiDash.DashLen < aApiDash.DotLen) ) { ::std::swap( aApiDash.Dashes, aApiDash.Dots ); ::std::swap( aApiDash.DashLen, aApiDash.DotLen ); } // ignore dots that are nearly equal to dashes if( aApiDash.DotLen * 3 > aApiDash.DashLen * 2 ) aApiDash.Dots = 0; // convert line dash to predefined Excel dash types if( (aApiDash.Dashes == 1) && (aApiDash.Dots >= 1) ) // one dash and one or more dots rLineFmt.mnPattern = (aApiDash.Dots == 1) ? EXC_CHLINEFORMAT_DASHDOT : EXC_CHLINEFORMAT_DASHDOTDOT; else if( aApiDash.Dashes >= 1 ) // one or more dashes and no dots (also: dash-dash-dot) rLineFmt.mnPattern = (aApiDash.DashLen < 250) ? EXC_CHLINEFORMAT_DOT : EXC_CHLINEFORMAT_DASH; } } break; default: OSL_FAIL( "XclChPropSetHelper::ReadLineProperties - unknown line style" ); rLineFmt.mnPattern = EXC_CHLINEFORMAT_SOLID; } } bool XclChPropSetHelper::ReadAreaProperties( XclChAreaFormat& rAreaFmt, const ScfPropertySet& rPropSet, XclChPropertyMode ePropMode ) { namespace cssd = ::com::sun::star::drawing; // read properties from property set cssd::FillStyle eApiStyle = cssd::FillStyle_NONE; sal_Int16 nTransparency = 0; ScfPropSetHelper& rAreaHlp = GetAreaHelper( ePropMode ); rAreaHlp.ReadFromPropertySet( rPropSet ); rAreaHlp >> eApiStyle >> rAreaFmt.maPattColor >> nTransparency; // clear automatic flag ::set_flag( rAreaFmt.mnFlags, EXC_CHAREAFORMAT_AUTO, false ); // set fill style transparent or solid (set solid for anything but transparent) rAreaFmt.mnPattern = (eApiStyle == cssd::FillStyle_NONE) ? EXC_PATT_NONE : EXC_PATT_SOLID; // return true to indicate complex fill (gradient, bitmap, solid transparency) return (eApiStyle != cssd::FillStyle_NONE) && ((eApiStyle != cssd::FillStyle_SOLID) || (nTransparency > 0)); } void XclChPropSetHelper::ReadEscherProperties( XclChEscherFormat& rEscherFmt, XclChPicFormat& rPicFmt, XclChObjectTable& rGradientTable, XclChObjectTable& rHatchTable, XclChObjectTable& rBitmapTable, const ScfPropertySet& rPropSet, XclChPropertyMode ePropMode ) { namespace cssd = ::com::sun::star::drawing; namespace cssa = ::com::sun::star::awt; // read style and transparency properties from property set cssd::FillStyle eApiStyle = cssd::FillStyle_NONE; Color aColor; sal_Int16 nTransparency = 0; ScfPropSetHelper& rAreaHlp = GetAreaHelper( ePropMode ); rAreaHlp.ReadFromPropertySet( rPropSet ); rAreaHlp >> eApiStyle >> aColor >> nTransparency; switch( eApiStyle ) { case cssd::FillStyle_SOLID: { OSL_ENSURE( nTransparency > 0, "XclChPropSetHelper::ReadEscherProperties - unexpected solid area without transparency" ); if( (0 < nTransparency) && (nTransparency <= 100) ) { // convert to Escher properties sal_uInt32 nEscherColor = 0x02000000; ::insert_value( nEscherColor, aColor.GetBlue(), 16, 8 ); ::insert_value( nEscherColor, aColor.GetGreen(), 8, 8 ); ::insert_value( nEscherColor, aColor.GetRed(), 0, 8 ); sal_uInt32 nEscherOpacity = static_cast< sal_uInt32 >( (100 - nTransparency) * 655.36 ); rEscherFmt.mxEscherSet.reset( new EscherPropertyContainer ); rEscherFmt.mxEscherSet->AddOpt( ESCHER_Prop_fillType, ESCHER_FillSolid ); rEscherFmt.mxEscherSet->AddOpt( ESCHER_Prop_fillColor, nEscherColor ); rEscherFmt.mxEscherSet->AddOpt( ESCHER_Prop_fillOpacity, nEscherOpacity ); rEscherFmt.mxEscherSet->AddOpt( ESCHER_Prop_fillBackColor, 0x02FFFFFF ); rEscherFmt.mxEscherSet->AddOpt( ESCHER_Prop_fillBackOpacity, 0x00010000 ); rEscherFmt.mxEscherSet->AddOpt( ESCHER_Prop_fNoFillHitTest, 0x001F001C ); } } break; case cssd::FillStyle_GRADIENT: { // extract gradient from global gradient table OUString aGradientName; ScfPropSetHelper& rGradHlp = GetGradientHelper( ePropMode ); rGradHlp.ReadFromPropertySet( rPropSet ); rGradHlp >> eApiStyle >> aGradientName; cssa::Gradient aGradient; if( rGradientTable.GetObject( aGradientName ) >>= aGradient ) { // convert to Escher properties rEscherFmt.mxEscherSet.reset( new EscherPropertyContainer ); rEscherFmt.mxEscherSet->CreateGradientProperties( aGradient ); } } break; case cssd::FillStyle_HATCH: { // extract hatch from global hatch table OUString aHatchName; bool bFillBackground; ScfPropSetHelper& rHatchHlp = GetHatchHelper( ePropMode ); rHatchHlp.ReadFromPropertySet( rPropSet ); rHatchHlp >> eApiStyle >> aHatchName >> aColor >> bFillBackground; cssd::Hatch aHatch; if( rHatchTable.GetObject( aHatchName ) >>= aHatch ) { // convert to Escher properties rEscherFmt.mxEscherSet.reset( new EscherPropertyContainer ); rEscherFmt.mxEscherSet->CreateEmbeddedHatchProperties( aHatch, aColor, bFillBackground ); rPicFmt.mnBmpMode = EXC_CHPICFORMAT_STACK; } } break; case cssd::FillStyle_BITMAP: { // extract bitmap URL from global bitmap table OUString aBitmapName; cssd::BitmapMode eApiBmpMode; maBitmapHlp.ReadFromPropertySet( rPropSet ); maBitmapHlp >> eApiStyle >> aBitmapName >> eApiBmpMode; OUString aBitmapUrl; if( rBitmapTable.GetObject( aBitmapName ) >>= aBitmapUrl ) { // convert to Escher properties rEscherFmt.mxEscherSet.reset( new EscherPropertyContainer ); rEscherFmt.mxEscherSet->CreateEmbeddedBitmapProperties( aBitmapUrl, eApiBmpMode ); rPicFmt.mnBmpMode = (eApiBmpMode == cssd::BitmapMode_REPEAT) ? EXC_CHPICFORMAT_STACK : EXC_CHPICFORMAT_STRETCH; } } break; default: OSL_FAIL( "XclChPropSetHelper::ReadEscherProperties - unknown fill style" ); } } void XclChPropSetHelper::ReadMarkerProperties( XclChMarkerFormat& rMarkerFmt, const ScfPropertySet& rPropSet, sal_uInt16 nFormatIdx ) { namespace cssc = ::com::sun::star::chart2; namespace cssa = ::com::sun::star::awt; cssc::Symbol aApiSymbol; if( rPropSet.GetProperty( aApiSymbol, EXC_CHPROP_SYMBOL ) ) { // clear automatic flag ::set_flag( rMarkerFmt.mnFlags, EXC_CHMARKERFORMAT_AUTO, false ); // symbol style switch( aApiSymbol.Style ) { case cssc::SymbolStyle_NONE: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_NOSYMBOL; break; case cssc::SymbolStyle_STANDARD: switch( aApiSymbol.StandardSymbol ) { case 0: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_SQUARE; break; // square case 1: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_DIAMOND; break; // diamond case 2: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_STDDEV; break; // arrow down case 3: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_TRIANGLE; break; // arrow up case 4: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_DOWJ; break; // arrow right, same as import case 5: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_PLUS; break; // arrow left case 6: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_CROSS; break; // bow tie case 7: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_STAR; break; // sand glass case 8: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_CIRCLE; break; // circle new in LibO3.5 case 9: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_DIAMOND; break; // star new in LibO3.5 case 10: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_CROSS; break; // X new in LibO3.5 case 11: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_PLUS; break; // plus new in LibO3.5 case 12: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_STAR; break; // asterisk new in LibO3.5 case 13: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_STDDEV; break; // horizontal bar new in LibO3.5 case 14: rMarkerFmt.mnMarkerType = EXC_CHMARKERFORMAT_STAR; break; // vertical bar new in LibO3.5 default: rMarkerFmt.mnMarkerType = XclChartHelper::GetAutoMarkerType( nFormatIdx ); } break; default: rMarkerFmt.mnMarkerType = XclChartHelper::GetAutoMarkerType( nFormatIdx ); } bool bHasFillColor = XclChartHelper::HasMarkerFillColor( rMarkerFmt.mnMarkerType ); ::set_flag( rMarkerFmt.mnFlags, EXC_CHMARKERFORMAT_NOFILL, !bHasFillColor ); // symbol size sal_Int32 nApiSize = (aApiSymbol.Size.Width + aApiSymbol.Size.Height + 1) / 2; rMarkerFmt.mnMarkerSize = XclTools::GetTwipsFromHmm( nApiSize ); // symbol colors rMarkerFmt.maLineColor = ScfApiHelper::ConvertFromApiColor( aApiSymbol.BorderColor ); rMarkerFmt.maFillColor = ScfApiHelper::ConvertFromApiColor( aApiSymbol.FillColor ); } } sal_uInt16 XclChPropSetHelper::ReadRotationProperties( const ScfPropertySet& rPropSet, bool bSupportsStacked ) { // chart2 handles rotation as double in the range [0,360) double fAngle = 0.0; rPropSet.GetProperty( fAngle, EXC_CHPROP_TEXTROTATION ); bool bStacked = bSupportsStacked && rPropSet.GetBoolProperty( EXC_CHPROP_STACKCHARACTERS ); return bStacked ? EXC_ROT_STACKED : XclTools::GetXclRotation( static_cast< sal_Int32 >( fAngle * 100.0 + 0.5 ) ); } // write properties ----------------------------------------------------------- void XclChPropSetHelper::WriteLineProperties( ScfPropertySet& rPropSet, XclChObjectTable& rDashTable, const XclChLineFormat& rLineFmt, XclChPropertyMode ePropMode ) { namespace cssd = ::com::sun::star::drawing; // line width sal_Int32 nApiWidth = 0; // 0 is the width of a hair line switch( rLineFmt.mnWeight ) { case EXC_CHLINEFORMAT_SINGLE: nApiWidth = 35; break; case EXC_CHLINEFORMAT_DOUBLE: nApiWidth = 70; break; case EXC_CHLINEFORMAT_TRIPLE: nApiWidth = 105; break; } // line style cssd::LineStyle eApiStyle = cssd::LineStyle_NONE; sal_Int16 nApiTrans = 0; sal_Int32 nDotLen = ::std::min< sal_Int32 >( rLineFmt.mnWeight + 105, 210 ); cssd::LineDash aApiDash( cssd::DashStyle_RECT, 0, nDotLen, 0, 4 * nDotLen, nDotLen ); switch( rLineFmt.mnPattern ) { case EXC_CHLINEFORMAT_SOLID: eApiStyle = cssd::LineStyle_SOLID; break; case EXC_CHLINEFORMAT_DARKTRANS: eApiStyle = cssd::LineStyle_SOLID; nApiTrans = 25; break; case EXC_CHLINEFORMAT_MEDTRANS: eApiStyle = cssd::LineStyle_SOLID; nApiTrans = 50; break; case EXC_CHLINEFORMAT_LIGHTTRANS: eApiStyle = cssd::LineStyle_SOLID; nApiTrans = 75; break; case EXC_CHLINEFORMAT_DASH: eApiStyle = cssd::LineStyle_DASH; aApiDash.Dashes = 1; break; case EXC_CHLINEFORMAT_DOT: eApiStyle = cssd::LineStyle_DASH; aApiDash.Dots = 1; break; case EXC_CHLINEFORMAT_DASHDOT: eApiStyle = cssd::LineStyle_DASH; aApiDash.Dashes = aApiDash.Dots = 1; break; case EXC_CHLINEFORMAT_DASHDOTDOT: eApiStyle = cssd::LineStyle_DASH; aApiDash.Dashes = 1; aApiDash.Dots = 2; break; } // line color sal_Int32 nApiColor = ScfApiHelper::ConvertToApiColor( rLineFmt.maColor ); // try to insert the dash style and receive its name Any aDashNameAny; if( eApiStyle == cssd::LineStyle_DASH ) { OUString aDashName = rDashTable.InsertObject( ::com::sun::star::uno::makeAny( aApiDash ) ); if( !aDashName.isEmpty() ) aDashNameAny <<= aDashName; } // write the properties ScfPropSetHelper& rLineHlp = GetLineHelper( ePropMode ); rLineHlp.InitializeWrite(); rLineHlp << eApiStyle << nApiWidth << nApiColor << nApiTrans << aDashNameAny; rLineHlp.WriteToPropertySet( rPropSet ); } void XclChPropSetHelper::WriteAreaProperties( ScfPropertySet& rPropSet, const XclChAreaFormat& rAreaFmt, XclChPropertyMode ePropMode ) { namespace cssd = ::com::sun::star::drawing; cssd::FillStyle eFillStyle = cssd::FillStyle_NONE; Color aColor; sal_Int16 nTransparency = 0; // fill color if( rAreaFmt.mnPattern != EXC_PATT_NONE ) { eFillStyle = cssd::FillStyle_SOLID; aColor = XclTools::GetPatternColor( rAreaFmt.maPattColor, rAreaFmt.maBackColor, rAreaFmt.mnPattern ); } // write the properties ScfPropSetHelper& rAreaHlp = GetAreaHelper( ePropMode ); rAreaHlp.InitializeWrite(); rAreaHlp << eFillStyle << aColor << nTransparency; rAreaHlp.WriteToPropertySet( rPropSet ); } void XclChPropSetHelper::WriteEscherProperties( ScfPropertySet& rPropSet, XclChObjectTable& rGradientTable, XclChObjectTable& /*rHatchTable*/, XclChObjectTable& rBitmapTable, const XclChEscherFormat& rEscherFmt, const XclChPicFormat* pPicFmt, sal_uInt32 nDffFillType, XclChPropertyMode ePropMode ) { if( rEscherFmt.mxItemSet ) { if( const XFillStyleItem* pStyleItem = static_cast< const XFillStyleItem* >( rEscherFmt.mxItemSet->GetItem( XATTR_FILLSTYLE, false ) ) ) { switch( pStyleItem->GetValue() ) { case drawing::FillStyle_SOLID: // #i84812# Excel 2007 writes Escher properties for solid fill if( const XFillColorItem* pColorItem = static_cast< const XFillColorItem* >( rEscherFmt.mxItemSet->GetItem( XATTR_FILLCOLOR, false ) ) ) { namespace cssd = ::com::sun::star::drawing; // get solid transparence too const XFillTransparenceItem* pTranspItem = static_cast< const XFillTransparenceItem* >( rEscherFmt.mxItemSet->GetItem( XATTR_FILLTRANSPARENCE, false ) ); sal_uInt16 nTransp = pTranspItem ? pTranspItem->GetValue() : 0; ScfPropSetHelper& rAreaHlp = GetAreaHelper( ePropMode ); rAreaHlp.InitializeWrite(); rAreaHlp << cssd::FillStyle_SOLID << pColorItem->GetColorValue() << static_cast< sal_Int16 >( nTransp ); rAreaHlp.WriteToPropertySet( rPropSet ); } break; case drawing::FillStyle_GRADIENT: if( const XFillGradientItem* pGradItem = static_cast< const XFillGradientItem* >( rEscherFmt.mxItemSet->GetItem( XATTR_FILLGRADIENT, false ) ) ) { Any aGradientAny; if( pGradItem->QueryValue( aGradientAny, MID_FILLGRADIENT ) ) { OUString aGradName = rGradientTable.InsertObject( aGradientAny ); if( !aGradName.isEmpty() ) { namespace cssd = ::com::sun::star::drawing; ScfPropSetHelper& rGradHlp = GetGradientHelper( ePropMode ); rGradHlp.InitializeWrite(); rGradHlp << cssd::FillStyle_GRADIENT << aGradName; rGradHlp.WriteToPropertySet( rPropSet ); } } } break; case drawing::FillStyle_BITMAP: if( const XFillBitmapItem* pBmpItem = static_cast< const XFillBitmapItem* >( rEscherFmt.mxItemSet->GetItem( XATTR_FILLBITMAP, false ) ) ) { Any aBitmapAny; if( pBmpItem->QueryValue( aBitmapAny, MID_GRAFURL ) ) { OUString aBmpName = rBitmapTable.InsertObject( aBitmapAny ); if( !aBmpName.isEmpty() ) { namespace cssd = ::com::sun::star::drawing; /* #i71810# Caller decides whether to use a CHPICFORMAT record for bitmap mode. If not passed, detect fill mode from the DFF property 'fill-type'. */ bool bStretch = pPicFmt ? (pPicFmt->mnBmpMode == EXC_CHPICFORMAT_STRETCH) : (nDffFillType == mso_fillPicture); cssd::BitmapMode eApiBmpMode = bStretch ? cssd::BitmapMode_STRETCH : cssd::BitmapMode_REPEAT; maBitmapHlp.InitializeWrite(); maBitmapHlp << cssd::FillStyle_BITMAP << aBmpName << eApiBmpMode; maBitmapHlp.WriteToPropertySet( rPropSet ); } } } break; default: OSL_FAIL( "XclChPropSetHelper::WriteEscherProperties - unknown fill mode" ); } } } } void XclChPropSetHelper::WriteMarkerProperties( ScfPropertySet& rPropSet, const XclChMarkerFormat& rMarkerFmt ) { namespace cssc = ::com::sun::star::chart2; namespace cssa = ::com::sun::star::awt; // symbol style cssc::Symbol aApiSymbol; aApiSymbol.Style = cssc::SymbolStyle_STANDARD; switch( rMarkerFmt.mnMarkerType ) { case EXC_CHMARKERFORMAT_NOSYMBOL: aApiSymbol.Style = cssc::SymbolStyle_NONE; break; case EXC_CHMARKERFORMAT_SQUARE: aApiSymbol.StandardSymbol = 0; break; // square case EXC_CHMARKERFORMAT_DIAMOND: aApiSymbol.StandardSymbol = 1; break; // diamond case EXC_CHMARKERFORMAT_TRIANGLE: aApiSymbol.StandardSymbol = 3; break; // arrow up case EXC_CHMARKERFORMAT_CROSS: aApiSymbol.StandardSymbol = 10; break; // X, legacy bow tie case EXC_CHMARKERFORMAT_STAR: aApiSymbol.StandardSymbol = 12; break; // asterisk, legacy sand glass case EXC_CHMARKERFORMAT_DOWJ: aApiSymbol.StandardSymbol = 4; break; // arrow right, same as export case EXC_CHMARKERFORMAT_STDDEV: aApiSymbol.StandardSymbol = 13; break; // horizontal bar, legacy arrow down case EXC_CHMARKERFORMAT_CIRCLE: aApiSymbol.StandardSymbol = 8; break; // circle, legacy arrow right case EXC_CHMARKERFORMAT_PLUS: aApiSymbol.StandardSymbol = 11; break; // plus, legacy arrow left default: break; } // symbol size sal_Int32 nApiSize = XclTools::GetHmmFromTwips( rMarkerFmt.mnMarkerSize ); aApiSymbol.Size = cssa::Size( nApiSize, nApiSize ); // symbol colors aApiSymbol.FillColor = ScfApiHelper::ConvertToApiColor( rMarkerFmt.maFillColor ); aApiSymbol.BorderColor = ::get_flag( rMarkerFmt.mnFlags, EXC_CHMARKERFORMAT_NOLINE ) ? aApiSymbol.FillColor : ScfApiHelper::ConvertToApiColor( rMarkerFmt.maLineColor ); // set the property rPropSet.SetProperty( EXC_CHPROP_SYMBOL, aApiSymbol ); } void XclChPropSetHelper::WriteRotationProperties( ScfPropertySet& rPropSet, sal_uInt16 nRotation, bool bSupportsStacked ) { if( nRotation != EXC_CHART_AUTOROTATION ) { // chart2 handles rotation as double in the range [0,360) double fAngle = XclTools::GetScRotation( nRotation, 0 ) / 100.0; rPropSet.SetProperty( EXC_CHPROP_TEXTROTATION, fAngle ); if( bSupportsStacked ) rPropSet.SetProperty( EXC_CHPROP_STACKCHARACTERS, nRotation == EXC_ROT_STACKED ); } } // private -------------------------------------------------------------------- ScfPropSetHelper& XclChPropSetHelper::GetLineHelper( XclChPropertyMode ePropMode ) { switch( ePropMode ) { case EXC_CHPROPMODE_COMMON: return maLineHlpCommon; case EXC_CHPROPMODE_LINEARSERIES: return maLineHlpLinear; case EXC_CHPROPMODE_FILLEDSERIES: return maLineHlpFilled; default: OSL_FAIL( "XclChPropSetHelper::GetLineHelper - unknown property mode" ); } return maLineHlpCommon; } ScfPropSetHelper& XclChPropSetHelper::GetAreaHelper( XclChPropertyMode ePropMode ) { switch( ePropMode ) { case EXC_CHPROPMODE_COMMON: return maAreaHlpCommon; case EXC_CHPROPMODE_FILLEDSERIES: return maAreaHlpFilled; default: OSL_FAIL( "XclChPropSetHelper::GetAreaHelper - unknown property mode" ); } return maAreaHlpCommon; } ScfPropSetHelper& XclChPropSetHelper::GetGradientHelper( XclChPropertyMode ePropMode ) { switch( ePropMode ) { case EXC_CHPROPMODE_COMMON: return maGradHlpCommon; case EXC_CHPROPMODE_FILLEDSERIES: return maGradHlpFilled; default: OSL_FAIL( "XclChPropSetHelper::GetGradientHelper - unknown property mode" ); } return maGradHlpCommon; } ScfPropSetHelper& XclChPropSetHelper::GetHatchHelper( XclChPropertyMode ePropMode ) { switch( ePropMode ) { case EXC_CHPROPMODE_COMMON: return maHatchHlpCommon; case EXC_CHPROPMODE_FILLEDSERIES: return maHatchHlpFilled; default: OSL_FAIL( "XclChPropSetHelper::GetHatchHelper - unknown property mode" ); } return maHatchHlpCommon; } namespace { /* The following local functions implement getting the XShape interface of all supported title objects (chart and axes). This needs some effort due to the design of the old Chart1 API used to access these objects. */ /** A code fragment that returns a shape object from the passed shape supplier using the specified interface function. Checks a boolean property first. */ #define EXC_FRAGMENT_GETTITLESHAPE( shape_supplier, supplier_func, property_name ) \ ScfPropertySet aPropSet( shape_supplier ); \ if( shape_supplier.is() && aPropSet.GetBoolProperty( #property_name ) ) \ return shape_supplier->supplier_func(); \ return Reference< XShape >(); \ /** Implements a function returning the drawing shape of an axis title, if existing, using the specified API interface and its function. */ #define EXC_DEFINEFUNC_GETAXISTITLESHAPE( func_name, interface_type, supplier_func, property_name ) \ Reference< XShape > func_name( const Reference< cssc::XChartDocument >& rxChart1Doc ) \ { \ Reference< cssc::interface_type > xAxisSupp( rxChart1Doc->getDiagram(), UNO_QUERY ); \ EXC_FRAGMENT_GETTITLESHAPE( xAxisSupp, supplier_func, property_name ) \ } /** Returns the drawing shape of the main title, if existing. */ Reference< XShape > lclGetMainTitleShape( const Reference< cssc::XChartDocument >& rxChart1Doc ) { EXC_FRAGMENT_GETTITLESHAPE( rxChart1Doc, getTitle, HasMainTitle ) } EXC_DEFINEFUNC_GETAXISTITLESHAPE( lclGetXAxisTitleShape, XAxisXSupplier, getXAxisTitle, HasXAxisTitle ) EXC_DEFINEFUNC_GETAXISTITLESHAPE( lclGetYAxisTitleShape, XAxisYSupplier, getYAxisTitle, HasYAxisTitle ) EXC_DEFINEFUNC_GETAXISTITLESHAPE( lclGetZAxisTitleShape, XAxisZSupplier, getZAxisTitle, HasZAxisTitle ) EXC_DEFINEFUNC_GETAXISTITLESHAPE( lclGetSecXAxisTitleShape, XSecondAxisTitleSupplier, getSecondXAxisTitle, HasSecondaryXAxisTitle ) EXC_DEFINEFUNC_GETAXISTITLESHAPE( lclGetSecYAxisTitleShape, XSecondAxisTitleSupplier, getSecondYAxisTitle, HasSecondaryYAxisTitle ) #undef EXC_DEFINEFUNC_GETAXISTITLESHAPE #undef EXC_IMPLEMENT_GETTITLESHAPE } // namespace XclChRootData::XclChRootData() : mxTypeInfoProv(new XclChTypeInfoProvider) , mxFmtInfoProv(new XclChFormatInfoProvider) , mnBorderGapX(0) , mnBorderGapY(0) , mfUnitSizeX(0.0) , mfUnitSizeY(0.0) { // remember some title shape getter functions maGetShapeFuncs[ XclChTextKey( EXC_CHTEXTTYPE_TITLE ) ] = lclGetMainTitleShape; maGetShapeFuncs[ XclChTextKey( EXC_CHTEXTTYPE_AXISTITLE, EXC_CHAXESSET_PRIMARY, EXC_CHAXIS_X ) ] = lclGetXAxisTitleShape; maGetShapeFuncs[ XclChTextKey( EXC_CHTEXTTYPE_AXISTITLE, EXC_CHAXESSET_PRIMARY, EXC_CHAXIS_Y ) ] = lclGetYAxisTitleShape; maGetShapeFuncs[ XclChTextKey( EXC_CHTEXTTYPE_AXISTITLE, EXC_CHAXESSET_PRIMARY, EXC_CHAXIS_Z ) ] = lclGetZAxisTitleShape; maGetShapeFuncs[ XclChTextKey( EXC_CHTEXTTYPE_AXISTITLE, EXC_CHAXESSET_SECONDARY, EXC_CHAXIS_X ) ] = lclGetSecXAxisTitleShape; maGetShapeFuncs[ XclChTextKey( EXC_CHTEXTTYPE_AXISTITLE, EXC_CHAXESSET_SECONDARY, EXC_CHAXIS_Y ) ] = lclGetSecYAxisTitleShape; } XclChRootData::~XclChRootData() { } void XclChRootData::InitConversion( const XclRoot& rRoot, const Reference< XChartDocument >& rxChartDoc, const Rectangle& rChartRect ) { // remember chart document reference and chart shape position/size OSL_ENSURE( rxChartDoc.is(), "XclChRootData::InitConversion - missing chart document" ); mxChartDoc = rxChartDoc; maChartRect = rChartRect; // Excel excludes a border of 5 pixels in each direction from chart area mnBorderGapX = rRoot.GetHmmFromPixelX( 5.0 ); mnBorderGapY = rRoot.GetHmmFromPixelY( 5.0 ); // size of a chart unit in 1/100 mm mfUnitSizeX = ::std::max< double >( maChartRect.GetWidth() - 2 * mnBorderGapX, mnBorderGapX ) / EXC_CHART_TOTALUNITS; mfUnitSizeY = ::std::max< double >( maChartRect.GetHeight() - 2 * mnBorderGapY, mnBorderGapY ) / EXC_CHART_TOTALUNITS; // create object tables Reference< XMultiServiceFactory > xFactory( mxChartDoc, UNO_QUERY ); mxLineDashTable.reset( new XclChObjectTable( xFactory, SERVICE_DRAWING_DASHTABLE, "Excel line dash " ) ); mxGradientTable.reset( new XclChObjectTable( xFactory, SERVICE_DRAWING_GRADIENTTABLE, "Excel gradient " ) ); mxHatchTable.reset( new XclChObjectTable( xFactory, SERVICE_DRAWING_HATCHTABLE, "Excel hatch " ) ); mxBitmapTable.reset( new XclChObjectTable( xFactory, SERVICE_DRAWING_BITMAPTABLE, "Excel bitmap " ) ); } void XclChRootData::FinishConversion() { // forget formatting object tables mxBitmapTable.reset(); mxHatchTable.reset(); mxGradientTable.reset(); mxLineDashTable.reset(); // forget chart document reference mxChartDoc.clear(); } Reference< XShape > XclChRootData::GetTitleShape( const XclChTextKey& rTitleKey ) const { XclChGetShapeFuncMap::const_iterator aIt = maGetShapeFuncs.find( rTitleKey ); OSL_ENSURE( aIt != maGetShapeFuncs.end(), "XclChRootData::GetTitleShape - invalid title key" ); Reference< cssc::XChartDocument > xChart1Doc( mxChartDoc, UNO_QUERY ); Reference< XShape > xTitleShape; if( xChart1Doc.is() && (aIt != maGetShapeFuncs.end()) ) xTitleShape = (aIt->second)( xChart1Doc ); return xTitleShape; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */