/* -*- 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 "VLegend.hxx" #include "VButton.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 using namespace ::com::sun::star; using namespace ::com::sun::star::chart2; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Sequence; namespace chart { namespace { typedef std::pair< ::chart::tNameSequence, ::chart::tAnySequence > tPropertyValues; double lcl_CalcViewFontSize( const Reference< beans::XPropertySet > & xProp, const awt::Size & rReferenceSize ) { double fResult = 10.0; float fFontHeight( 0.0 ); if( xProp.is() && ( xProp->getPropertyValue( "CharHeight") >>= fFontHeight )) { fResult = fFontHeight; try { awt::Size aPropRefSize; if( (xProp->getPropertyValue( "ReferencePageSize") >>= aPropRefSize) && (aPropRefSize.Height > 0)) { fResult = ::chart::RelativeSizeHelper::calculate( fFontHeight, aPropRefSize, rReferenceSize ); } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return convertPointToMm100(fResult); } void lcl_getProperties( const Reference< beans::XPropertySet > & xLegendProp, tPropertyValues & rOutLineFillProperties, tPropertyValues & rOutTextProperties, const awt::Size & rReferenceSize ) { // Get Line- and FillProperties from model legend if( !xLegendProp.is()) return; // set rOutLineFillProperties ::chart::tPropertyNameValueMap aLineFillValueMap; ::chart::PropertyMapper::getValueMap( aLineFillValueMap, ::chart::PropertyMapper::getPropertyNameMapForFillAndLineProperties(), xLegendProp ); aLineFillValueMap[ "LineJoint" ] <<= drawing::LineJoint_ROUND; ::chart::PropertyMapper::getMultiPropertyListsFromValueMap( rOutLineFillProperties.first, rOutLineFillProperties.second, aLineFillValueMap ); // set rOutTextProperties ::chart::tPropertyNameValueMap aTextValueMap; ::chart::PropertyMapper::getValueMap( aTextValueMap, ::chart::PropertyMapper::getPropertyNameMapForCharacterProperties(), xLegendProp ); aTextValueMap[ "TextAutoGrowHeight" ] <<= true; aTextValueMap[ "TextAutoGrowWidth" ] <<= true; aTextValueMap[ "TextHorizontalAdjust" ] <<= drawing::TextHorizontalAdjust_LEFT; aTextValueMap[ "TextMaximumFrameWidth" ] <<= rReferenceSize.Width; //needs to be overwritten by actual available space in the legend // recalculate font size awt::Size aPropRefSize; float fFontHeight( 0.0 ); if( (xLegendProp->getPropertyValue( "ReferencePageSize") >>= aPropRefSize) && (aPropRefSize.Height > 0) && (aTextValueMap[ "CharHeight" ] >>= fFontHeight) ) { aTextValueMap[ "CharHeight" ] <<= static_cast< float >( ::chart::RelativeSizeHelper::calculate( fFontHeight, aPropRefSize, rReferenceSize )); if( aTextValueMap[ "CharHeightAsian" ] >>= fFontHeight ) { aTextValueMap[ "CharHeightAsian" ] <<= static_cast< float >( ::chart::RelativeSizeHelper::calculate( fFontHeight, aPropRefSize, rReferenceSize )); } if( aTextValueMap[ "CharHeightComplex" ] >>= fFontHeight ) { aTextValueMap[ "CharHeightComplex" ] <<= static_cast< float >( ::chart::RelativeSizeHelper::calculate( fFontHeight, aPropRefSize, rReferenceSize )); } } ::chart::PropertyMapper::getMultiPropertyListsFromValueMap( rOutTextProperties.first, rOutTextProperties.second, aTextValueMap ); } awt::Size lcl_createTextShapes( const std::vector & rEntries, const rtl::Reference & xTarget, std::vector< rtl::Reference > & rOutTextShapes, const tPropertyValues & rTextProperties ) { awt::Size aResult; for (ViewLegendEntry const & rEntry : rEntries) { try { OUString aLabelString; Sequence< Reference< XFormattedString2 > > aLabelSeq = rEntry.aLabel; for( sal_Int32 i = 0; i < aLabelSeq.getLength(); ++i ) { // todo: support more than one text range if( i == 1 ) break; aLabelString += aLabelSeq[i]->getString(); // workaround for Issue #i67540# if( aLabelString.isEmpty()) aLabelString = " "; } rtl::Reference xEntry = ShapeFactory::createText( xTarget, aLabelString, rTextProperties.first, rTextProperties.second, uno::Any() ); // adapt max-extent awt::Size aCurrSize( xEntry->getSize()); aResult.Width = std::max( aResult.Width, aCurrSize.Width ); aResult.Height = std::max( aResult.Height, aCurrSize.Height ); rOutTextShapes.push_back( xEntry ); } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } } return aResult; } void lcl_collectColumnWidths( std::vector< sal_Int32 >& rColumnWidths, const sal_Int32 nNumberOfRows, const sal_Int32 nNumberOfColumns, const std::vector< rtl::Reference >& rTextShapes, sal_Int32 nSymbolPlusDistanceWidth ) { rColumnWidths.clear(); sal_Int32 nNumberOfEntries = rTextShapes.size(); for (sal_Int32 nRow = 0; nRow < nNumberOfRows; ++nRow ) { for (sal_Int32 nColumn = 0; nColumn < nNumberOfColumns; ++nColumn ) { sal_Int32 nEntry = nColumn + nRow * nNumberOfColumns; if( nEntry < nNumberOfEntries ) { awt::Size aTextSize( rTextShapes[ nEntry ]->getSize() ); sal_Int32 nWidth = nSymbolPlusDistanceWidth + aTextSize.Width; if( nRow==0 ) rColumnWidths.push_back( nWidth ); else rColumnWidths[nColumn] = std::max( nWidth, rColumnWidths[nColumn] ); } } } } void lcl_collectRowHeighs( std::vector< sal_Int32 >& rRowHeights, const sal_Int32 nNumberOfRows, const sal_Int32 nNumberOfColumns, const std::vector< rtl::Reference >& rTextShapes ) { // calculate maximum height for each row // and collect column widths rRowHeights.clear(); sal_Int32 nNumberOfEntries = rTextShapes.size(); for (sal_Int32 nRow = 0; nRow < nNumberOfRows; ++nRow) { sal_Int32 nCurrentRowHeight = 0; for (sal_Int32 nColumn = 0; nColumn < nNumberOfColumns; ++nColumn) { sal_Int32 nEntry = nColumn + nRow * nNumberOfColumns; if( nEntry < nNumberOfEntries ) { awt::Size aTextSize( rTextShapes[ nEntry ]->getSize() ); nCurrentRowHeight = std::max( nCurrentRowHeight, aTextSize.Height ); } } rRowHeights.push_back( nCurrentRowHeight ); } } sal_Int32 lcl_getTextLineHeight( const std::vector< sal_Int32 >& aRowHeights, const sal_Int32 nNumberOfRows, double fViewFontSize ) { const sal_Int32 nFontHeight = static_cast< sal_Int32 >( fViewFontSize ); if (!nFontHeight) return 0; sal_Int32 nTextLineHeight = nFontHeight; for (sal_Int32 nRow = 0; nRow < nNumberOfRows; ++nRow) { sal_Int32 nFullTextHeight = aRowHeights[nRow]; if( ( nFullTextHeight / nFontHeight ) <= 1 ) { nTextLineHeight = nFullTextHeight;//found an entry with one line-> have real text height break; } } return nTextLineHeight; } //returns resulting legend size awt::Size lcl_placeLegendEntries( std::vector & rEntries, css::chart::ChartLegendExpansion eExpansion, bool bSymbolsLeftSide, double fViewFontSize, const awt::Size& rMaxSymbolExtent, tPropertyValues & rTextProperties, const rtl::Reference & xTarget, const awt::Size& rRemainingSpace, sal_Int32 nYStartPosition, const awt::Size& rPageSize, bool bIsPivotChart, awt::Size& rDefaultLegendSize) { bool bIsCustomSize = (eExpansion == css::chart::ChartLegendExpansion_CUSTOM); awt::Size aResultingLegendSize(0,0); // For Pivot charts set the *minimum* legend size as a function of page size. if ( bIsPivotChart ) aResultingLegendSize = awt::Size((rPageSize.Width * 13) / 80, (rPageSize.Height * 31) / 90); if( bIsCustomSize ) aResultingLegendSize = awt::Size(rRemainingSpace.Width, rRemainingSpace.Height + nYStartPosition); // #i109336# Improve auto positioning in chart sal_Int32 nXPadding = static_cast< sal_Int32 >( std::max( 100.0, fViewFontSize * 0.33 ) ); sal_Int32 nXOffset = static_cast< sal_Int32 >( std::max( 100.0, fViewFontSize * 0.66 ) ); sal_Int32 nYPadding = static_cast< sal_Int32 >( std::max( 100.0, fViewFontSize * 0.2 ) ); sal_Int32 nYOffset = static_cast< sal_Int32 >( std::max( 100.0, fViewFontSize * 0.2 ) ); const sal_Int32 nSymbolToTextDistance = static_cast< sal_Int32 >( std::max( 100.0, fViewFontSize * 0.22 ) );//minimum 1mm const sal_Int32 nSymbolPlusDistanceWidth = rMaxSymbolExtent.Width + nSymbolToTextDistance; sal_Int32 nMaxTextWidth = rRemainingSpace.Width - nSymbolPlusDistanceWidth; uno::Any* pFrameWidthAny = PropertyMapper::getValuePointer( rTextProperties.second, rTextProperties.first, u"TextMaximumFrameWidth"); if(pFrameWidthAny) { if( eExpansion == css::chart::ChartLegendExpansion_HIGH ) { // limit the width of texts to 30% of the total available width // #i109336# Improve auto positioning in chart nMaxTextWidth = rRemainingSpace.Width * 3 / 10; } *pFrameWidthAny <<= nMaxTextWidth; } std::vector< rtl::Reference > aTextShapes; awt::Size aMaxEntryExtent = lcl_createTextShapes( rEntries, xTarget, aTextShapes, rTextProperties ); OSL_ASSERT( aTextShapes.size() == rEntries.size()); sal_Int32 nMaxEntryWidth = nXOffset + nSymbolPlusDistanceWidth + aMaxEntryExtent.Width; sal_Int32 nMaxEntryHeight = nYOffset + aMaxEntryExtent.Height; sal_Int32 nNumberOfEntries = rEntries.size(); rDefaultLegendSize.Width = nMaxEntryWidth; rDefaultLegendSize.Height = nMaxEntryHeight + nYPadding; sal_Int32 nNumberOfColumns = 0, nNumberOfRows = 0; std::vector< sal_Int32 > aColumnWidths; std::vector< sal_Int32 > aRowHeights; sal_Int32 nTextLineHeight = static_cast< sal_Int32 >( fViewFontSize ); // determine layout depending on LegendExpansion if( eExpansion == css::chart::ChartLegendExpansion_CUSTOM ) { sal_Int32 nCurrentRow=0; sal_Int32 nCurrentColumn=-1; sal_Int32 nMaxColumnCount=-1; for( sal_Int32 nN=0; nN(aTextShapes.size()); nN++ ) { rtl::Reference xShape( aTextShapes[nN] ); if( !xShape.is() ) continue; awt::Size aSize( xShape->getSize() ); sal_Int32 nNewWidth = aSize.Width + nSymbolPlusDistanceWidth; sal_Int32 nCurrentColumnCount = aColumnWidths.size(); //are we allowed to add a new column? if( nMaxColumnCount==-1 || (nCurrentColumn+1) < nMaxColumnCount ) { //try add a new column nCurrentColumn++; if( nCurrentColumn < nCurrentColumnCount ) { //check whether the current column width is sufficient for the new entry if( aColumnWidths[nCurrentColumn]>=nNewWidth ) { //all good proceed with next entry continue; } aColumnWidths[nCurrentColumn] = std::max( nNewWidth, aColumnWidths[nCurrentColumn] ); } else aColumnWidths.push_back(nNewWidth); //do the columns still fit into the given size? nCurrentColumnCount = aColumnWidths.size();//update count sal_Int32 nSumWidth = 0; for (sal_Int32 nColumn = 0; nColumn < nCurrentColumnCount; nColumn++) nSumWidth += aColumnWidths[nColumn]; if( nSumWidth <= rRemainingSpace.Width || nCurrentColumnCount==1 ) { //all good proceed with next entry continue; } else { //not enough space for the current amount of columns //try again with less columns nMaxColumnCount = nCurrentColumnCount-1; nN=-1; nCurrentRow=0; nCurrentColumn=-1; aColumnWidths.clear(); } } else { //add a new row and try the same entry again nCurrentRow++; nCurrentColumn=-1; nN--; } } nNumberOfColumns = aColumnWidths.size(); nNumberOfRows = nCurrentRow+1; //check if there is not enough space so that some entries must be removed lcl_collectRowHeighs( aRowHeights, nNumberOfRows, nNumberOfColumns, aTextShapes ); nTextLineHeight = lcl_getTextLineHeight( aRowHeights, nNumberOfRows, fViewFontSize ); sal_Int32 nSumHeight = 0; for (sal_Int32 nRow=0; nRow < nNumberOfRows; nRow++) nSumHeight += aRowHeights[nRow]; sal_Int32 nRemainingSpace = rRemainingSpace.Height - nSumHeight; if( nRemainingSpace < -100 ) // 1mm tolerance for OOXML interop tdf#90404 { //remove entries that are too big for (sal_Int32 nRow = nNumberOfRows; nRow--; ) { for (sal_Int32 nColumn = nNumberOfColumns; nColumn--; ) { sal_Int32 nEntry = nColumn + nRow * nNumberOfColumns; if( nEntry < static_cast(aTextShapes.size()) ) { DrawModelWrapper::removeShape( aTextShapes[nEntry] ); aTextShapes.pop_back(); } if( nEntry < nNumberOfEntries && ( nEntry != 0 || nNumberOfColumns != 1 ) ) { DrawModelWrapper::removeShape( rEntries[ nEntry ].xSymbol ); rEntries.pop_back(); nNumberOfEntries--; } } if (nRow == 0 && nNumberOfColumns == 1) { try { OUString aLabelString = rEntries[0].aLabel[0]->getString(); static const OUStringLiteral sDots = u"..."; for (sal_Int32 nNewLen = aLabelString.getLength() - sDots.getLength(); nNewLen > 0; nNewLen--) { OUString aNewLabel = aLabelString.subView(0, nNewLen) + sDots; rtl::Reference xEntry = ShapeFactory::createText( xTarget, aNewLabel, rTextProperties.first, rTextProperties.second, uno::Any()); nSumHeight = xEntry->getSize().Height; nRemainingSpace = rRemainingSpace.Height - nSumHeight; if (nRemainingSpace >= 0) { sal_Int32 nWidth = xEntry->getSize().Width + nSymbolPlusDistanceWidth; if (rRemainingSpace.Width - nWidth >= 0) { aTextShapes.push_back(xEntry); rEntries[0].aLabel[0]->setString(aNewLabel); aRowHeights[0] = nSumHeight; aColumnWidths[0] = nWidth; break; } } DrawModelWrapper::removeShape(xEntry); } if (aTextShapes.size() == 0) { DrawModelWrapper::removeShape(rEntries[0].xSymbol); rEntries.pop_back(); nNumberOfEntries--; aRowHeights.pop_back(); } } catch (const uno::Exception&) { DBG_UNHANDLED_EXCEPTION("chart2"); } } else { nSumHeight -= aRowHeights[nRow]; aRowHeights.pop_back(); nRemainingSpace = rRemainingSpace.Height - nSumHeight; if (nRemainingSpace >= 0) break; } } nNumberOfRows = static_cast(aRowHeights.size()); } if( nRemainingSpace >= -100 ) // 1mm tolerance for OOXML interop tdf#90404 { sal_Int32 nNormalSpacingHeight = 2*nYPadding+(nNumberOfRows-1)*nYOffset; if( nRemainingSpace < nNormalSpacingHeight ) { //reduce spacing between the entries nYPadding = nYOffset = nRemainingSpace/(nNumberOfRows+1); } else { //we have some space left that should be spread equally between all rows sal_Int32 nRemainingSingleSpace = (nRemainingSpace-nNormalSpacingHeight)/(nNumberOfRows+1); nYPadding += nRemainingSingleSpace; nYOffset += nRemainingSingleSpace; } } //check spacing between columns sal_Int32 nSumWidth = 0; for (sal_Int32 nColumn = 0; nColumn < nNumberOfColumns; nColumn++) nSumWidth += aColumnWidths[nColumn]; nRemainingSpace = rRemainingSpace.Width - nSumWidth; if( nRemainingSpace>=0 ) { sal_Int32 nNormalSpacingWidth = 2*nXPadding+(nNumberOfColumns-1)*nXOffset; if( nRemainingSpace < nNormalSpacingWidth ) { //reduce spacing between the entries nXPadding = nXOffset = nRemainingSpace/(nNumberOfColumns+1); } else { //we have some space left that should be spread equally between all columns sal_Int32 nRemainingSingleSpace = (nRemainingSpace-nNormalSpacingWidth)/(nNumberOfColumns+1); nXPadding += nRemainingSingleSpace; nXOffset += nRemainingSingleSpace; } } } else if( eExpansion == css::chart::ChartLegendExpansion_HIGH ) { sal_Int32 nMaxNumberOfRows = nMaxEntryHeight ? (rRemainingSpace.Height - 2*nYPadding ) / nMaxEntryHeight : 0; nNumberOfColumns = nMaxNumberOfRows ? static_cast< sal_Int32 >( ceil( static_cast< double >( nNumberOfEntries ) / static_cast< double >( nMaxNumberOfRows ) )) : 0; nNumberOfRows = nNumberOfColumns ? static_cast< sal_Int32 >( ceil( static_cast< double >( nNumberOfEntries ) / static_cast< double >( nNumberOfColumns ) )) : 0; } else if( eExpansion == css::chart::ChartLegendExpansion_WIDE ) { sal_Int32 nMaxNumberOfColumns = nMaxEntryWidth ? (rRemainingSpace.Width - 2*nXPadding ) / nMaxEntryWidth : 0; nNumberOfRows = nMaxNumberOfColumns ? static_cast< sal_Int32 >( ceil( static_cast< double >( nNumberOfEntries ) / static_cast< double >( nMaxNumberOfColumns ) )) : 0; nNumberOfColumns = nNumberOfRows ? static_cast< sal_Int32 >( ceil( static_cast< double >( nNumberOfEntries ) / static_cast< double >( nNumberOfRows ) )) : 0; } else // css::chart::ChartLegendExpansion_BALANCED { double fAspect = nMaxEntryHeight ? static_cast< double >( nMaxEntryWidth ) / static_cast< double >( nMaxEntryHeight ) : 0.0; nNumberOfRows = static_cast< sal_Int32 >( ceil( sqrt( static_cast< double >( nNumberOfEntries ) * fAspect ))); nNumberOfColumns = nNumberOfRows ? static_cast< sal_Int32 >( ceil( static_cast< double >( nNumberOfEntries ) / static_cast< double >( nNumberOfRows ) )) : 0; } if(nNumberOfRows<=0) return aResultingLegendSize; if( eExpansion != css::chart::ChartLegendExpansion_CUSTOM ) { lcl_collectColumnWidths( aColumnWidths, nNumberOfRows, nNumberOfColumns, aTextShapes, nSymbolPlusDistanceWidth ); lcl_collectRowHeighs( aRowHeights, nNumberOfRows, nNumberOfColumns, aTextShapes ); nTextLineHeight = lcl_getTextLineHeight( aRowHeights, nNumberOfRows, fViewFontSize ); } sal_Int32 nCurrentXPos = bSymbolsLeftSide ? nXPadding : -nXPadding; // place entries into column and rows sal_Int32 nMaxYPos = 0; for (sal_Int32 nColumn = 0; nColumn < nNumberOfColumns; ++nColumn) { sal_Int32 nCurrentYPos = nYPadding + nYStartPosition; for (sal_Int32 nRow = 0; nRow < nNumberOfRows; ++nRow) { sal_Int32 nEntry = nColumn + nRow * nNumberOfColumns; if( nEntry >= nNumberOfEntries ) break; // text shape rtl::Reference xTextShape( aTextShapes[nEntry] ); if( xTextShape.is() ) { awt::Size aTextSize( xTextShape->getSize() ); sal_Int32 nTextXPos = nCurrentXPos + nSymbolPlusDistanceWidth; if( !bSymbolsLeftSide ) nTextXPos = nCurrentXPos - nSymbolPlusDistanceWidth - aTextSize.Width; xTextShape->setPosition( awt::Point( nTextXPos, nCurrentYPos )); } // symbol rtl::Reference & xSymbol( rEntries[ nEntry ].xSymbol ); if( xSymbol.is() ) { awt::Size aSymbolSize( rMaxSymbolExtent ); sal_Int32 nSymbolXPos = nCurrentXPos; if( !bSymbolsLeftSide ) nSymbolXPos = nCurrentXPos - rMaxSymbolExtent.Width; sal_Int32 nSymbolYPos = nCurrentYPos + ( ( nTextLineHeight - aSymbolSize.Height ) / 2 ); xSymbol->setPosition( awt::Point( nSymbolXPos, nSymbolYPos ) ); } nCurrentYPos += aRowHeights[ nRow ]; if( nRow+1 < nNumberOfRows ) nCurrentYPos += nYOffset; nMaxYPos = std::max( nMaxYPos, nCurrentYPos ); } if( bSymbolsLeftSide ) { nCurrentXPos += aColumnWidths[nColumn]; if( nColumn+1 < nNumberOfColumns ) nCurrentXPos += nXOffset; } else { nCurrentXPos -= aColumnWidths[nColumn]; if( nColumn+1 < nNumberOfColumns ) nCurrentXPos -= nXOffset; } } if( !bIsCustomSize ) { if( bSymbolsLeftSide ) aResultingLegendSize.Width = std::max( aResultingLegendSize.Width, nCurrentXPos + nXPadding ); else { sal_Int32 nLegendWidth = -(nCurrentXPos-nXPadding); aResultingLegendSize.Width = std::max( aResultingLegendSize.Width, nLegendWidth ); } aResultingLegendSize.Height = std::max( aResultingLegendSize.Height, nMaxYPos + nYPadding ); } if( !bSymbolsLeftSide ) { sal_Int32 nLegendWidth = aResultingLegendSize.Width; awt::Point aPos(0,0); for( sal_Int32 nEntry=0; nEntry & xSymbol( rEntries[ nEntry ].xSymbol ); aPos = xSymbol->getPosition(); aPos.X += nLegendWidth; xSymbol->setPosition( aPos ); rtl::Reference & xText( aTextShapes[ nEntry ] ); aPos = xText->getPosition(); aPos.X += nLegendWidth; xText->setPosition( aPos ); } } return aResultingLegendSize; } // #i109336# Improve auto positioning in chart sal_Int32 lcl_getLegendLeftRightMargin() { return 210; // 1/100 mm } // #i109336# Improve auto positioning in chart sal_Int32 lcl_getLegendTopBottomMargin() { return 185; // 1/100 mm } chart2::RelativePosition lcl_getDefaultPosition( LegendPosition ePos, const awt::Rectangle& rOutAvailableSpace, const awt::Size & rPageSize ) { chart2::RelativePosition aResult; switch( ePos ) { case LegendPosition_LINE_START: { // #i109336# Improve auto positioning in chart const double fDefaultDistance = static_cast< double >( lcl_getLegendLeftRightMargin() ) / static_cast< double >( rPageSize.Width ); aResult = chart2::RelativePosition( fDefaultDistance, 0.5, drawing::Alignment_LEFT ); } break; case LegendPosition_LINE_END: { // #i109336# Improve auto positioning in chart const double fDefaultDistance = static_cast< double >( lcl_getLegendLeftRightMargin() ) / static_cast< double >( rPageSize.Width ); aResult = chart2::RelativePosition( 1.0 - fDefaultDistance, 0.5, drawing::Alignment_RIGHT ); } break; case LegendPosition_PAGE_START: { // #i109336# Improve auto positioning in chart const double fDefaultDistance = static_cast< double >( lcl_getLegendTopBottomMargin() ) / static_cast< double >( rPageSize.Height ); double fDistance = (static_cast(rOutAvailableSpace.Y)/static_cast(rPageSize.Height)) + fDefaultDistance; aResult = chart2::RelativePosition( 0.5, fDistance, drawing::Alignment_TOP ); } break; case LegendPosition_PAGE_END: { // #i109336# Improve auto positioning in chart const double fDefaultDistance = static_cast< double >( lcl_getLegendTopBottomMargin() ) / static_cast< double >( rPageSize.Height ); double fDistance = double(rPageSize.Height - (rOutAvailableSpace.Y + rOutAvailableSpace.Height)); fDistance += fDefaultDistance; fDistance /= double(rPageSize.Height); aResult = chart2::RelativePosition( 0.5, 1.0 - fDistance, drawing::Alignment_BOTTOM ); } break; case LegendPosition::LegendPosition_MAKE_FIXED_SIZE: default: // nothing to be set break; } return aResult; } /** @return a point relative to the upper left corner that can be used for XShape::setPosition() */ awt::Point lcl_calculatePositionAndRemainingSpace( awt::Rectangle & rRemainingSpace, const awt::Size & rPageSize, const chart2::RelativePosition& rRelPos, LegendPosition ePos, const awt::Size& aLegendSize, bool bOverlay ) { // calculate position awt::Point aResult( static_cast< sal_Int32 >( rRelPos.Primary * rPageSize.Width ), static_cast< sal_Int32 >( rRelPos.Secondary * rPageSize.Height )); aResult = RelativePositionHelper::getUpperLeftCornerOfAnchoredObject( aResult, aLegendSize, rRelPos.Anchor ); // adapt rRemainingSpace if LegendPosition is not CUSTOM // #i109336# Improve auto positioning in chart sal_Int32 nXDistance = lcl_getLegendLeftRightMargin(); sal_Int32 nYDistance = lcl_getLegendTopBottomMargin(); if (!bOverlay) switch( ePos ) { case LegendPosition_LINE_START: { sal_Int32 nExtent = aLegendSize.Width; rRemainingSpace.Width -= ( nExtent + nXDistance ); rRemainingSpace.X += ( nExtent + nXDistance ); } break; case LegendPosition_LINE_END: { rRemainingSpace.Width -= ( aLegendSize.Width + nXDistance ); } break; case LegendPosition_PAGE_START: { sal_Int32 nExtent = aLegendSize.Height; rRemainingSpace.Height -= ( nExtent + nYDistance ); rRemainingSpace.Y += ( nExtent + nYDistance ); } break; case LegendPosition_PAGE_END: { rRemainingSpace.Height -= ( aLegendSize.Height + nYDistance ); } break; default: // nothing break; } // adjust the legend position. Esp. for old files that had slightly smaller legends const sal_Int32 nEdgeDistance( 30 ); if( aResult.X + aLegendSize.Width > rPageSize.Width ) { sal_Int32 nNewX( (rPageSize.Width - aLegendSize.Width) - nEdgeDistance ); if( nNewX > rPageSize.Width / 4 ) aResult.X = nNewX; } if( aResult.Y + aLegendSize.Height > rPageSize.Height ) { sal_Int32 nNewY( (rPageSize.Height - aLegendSize.Height) - nEdgeDistance ); if( nNewY > rPageSize.Height / 4 ) aResult.Y = nNewY; } return aResult; } bool lcl_shouldSymbolsBePlacedOnTheLeftSide( const Reference< beans::XPropertySet >& xLegendProp, sal_Int16 nDefaultWritingMode ) { bool bSymbolsLeftSide = true; try { if( SvtCTLOptions().IsCTLFontEnabled() ) { if(xLegendProp.is()) { sal_Int16 nWritingMode=-1; if( xLegendProp->getPropertyValue( "WritingMode" ) >>= nWritingMode ) { if( nWritingMode == text::WritingMode2::PAGE ) nWritingMode = nDefaultWritingMode; if( nWritingMode == text::WritingMode2::RL_TB ) bSymbolsLeftSide=false; } } } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return bSymbolsLeftSide; } std::vector> lcl_createButtons( rtl::Reference const & xLegendContainer, ChartModel& rModel, bool bPlaceButtonsVertically, tools::Long & nUsedHeight) { std::vector> aButtons; uno::Reference xPivotTableDataProvider(rModel.getDataProvider(), uno::UNO_QUERY); if (!xPivotTableDataProvider.is()) return aButtons; if (!xPivotTableDataProvider->getColumnFields().hasElements()) return aButtons; awt::Size aSize(2000, 700); int x = 100; int y = 100; const css::uno::Sequence aPivotFieldEntries = xPivotTableDataProvider->getColumnFields(); for (chart2::data::PivotTableFieldEntry const & sColumnFieldEntry : aPivotFieldEntries) { auto pButton = std::make_shared(); aButtons.push_back(pButton); pButton->init(xLegendContainer); awt::Point aNewPosition(x, y); pButton->setLabel(sColumnFieldEntry.Name); pButton->setCID("FieldButton.Column." + OUString::number(sColumnFieldEntry.DimensionIndex)); pButton->setPosition(aNewPosition); pButton->setSize(aSize); if (sColumnFieldEntry.Name == "Data") { pButton->showArrow(false); pButton->setBGColor(Color(0x00F6F6F6)); } if (sColumnFieldEntry.HasHiddenMembers) pButton->setArrowColor(Color(0x0000FF)); if (bPlaceButtonsVertically) y += aSize.Height + 100; else x += aSize.Width + 100; } if (bPlaceButtonsVertically) nUsedHeight += y + 100; else nUsedHeight += aSize.Height + 100; return aButtons; } } // anonymous namespace VLegend::VLegend( const rtl::Reference< Legend > & xLegend, const Reference< uno::XComponentContext > & xContext, std::vector< LegendEntryProvider* >&& rLegendEntryProviderList, const rtl::Reference& xTargetPage, ChartModel& rModel ) : m_xTarget(xTargetPage) , m_xLegend(xLegend) , mrModel(rModel) , m_xContext(xContext) , m_aLegendEntryProviderList(std::move(rLegendEntryProviderList)) , m_nDefaultWritingMode(text::WritingMode2::LR_TB) { } void VLegend::setDefaultWritingMode( sal_Int16 nDefaultWritingMode ) { m_nDefaultWritingMode = nDefaultWritingMode; } bool VLegend::isVisible( const rtl::Reference< Legend > & xLegend ) { if( ! xLegend.is()) return false; bool bShow = false; try { xLegend->getPropertyValue( "Show") >>= bShow; } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2"); } return bShow; } void VLegend::createShapes( const awt::Size & rAvailableSpace, const awt::Size & rPageSize, awt::Size & rDefaultLegendSize ) { if(! (m_xLegend.is() && m_xTarget.is())) return; try { //create shape and add to page OUString aLegendParticle( ObjectIdentifier::createParticleForLegend( &mrModel ) ); m_xShape = ShapeFactory::createGroup2D( m_xTarget, ObjectIdentifier::createClassifiedIdentifierForParticle( aLegendParticle ) ); // create and insert sub-shapes rtl::Reference xLegendContainer = m_xShape; if( xLegendContainer.is() ) { // for quickly setting properties tPropertyValues aLineFillProperties; tPropertyValues aTextProperties; css::chart::ChartLegendExpansion eExpansion = css::chart::ChartLegendExpansion_HIGH; awt::Size aLegendSize( rAvailableSpace ); bool bCustom = false; LegendPosition eLegendPosition = LegendPosition_LINE_END; // get Expansion property m_xLegend->getPropertyValue("Expansion") >>= eExpansion; if( eExpansion == css::chart::ChartLegendExpansion_CUSTOM ) { RelativeSize aRelativeSize; if (m_xLegend->getPropertyValue("RelativeSize") >>= aRelativeSize) { aLegendSize.Width = static_cast(::rtl::math::approxCeil( aRelativeSize.Primary * rPageSize.Width )); aLegendSize.Height = static_cast(::rtl::math::approxCeil( aRelativeSize.Secondary * rPageSize.Height )); bCustom = true; } else { eExpansion = css::chart::ChartLegendExpansion_HIGH; } } m_xLegend->getPropertyValue("AnchorPosition") >>= eLegendPosition; lcl_getProperties( m_xLegend, aLineFillProperties, aTextProperties, rPageSize ); // create entries double fViewFontSize = lcl_CalcViewFontSize( m_xLegend, rPageSize );//todo // #i109336# Improve auto positioning in chart sal_Int32 nSymbolHeight = static_cast< sal_Int32 >( fViewFontSize * 0.6 ); sal_Int32 nSymbolWidth = nSymbolHeight; for (LegendEntryProvider* pLegendEntryProvider : m_aLegendEntryProviderList) { if (pLegendEntryProvider) { awt::Size aCurrentRatio = pLegendEntryProvider->getPreferredLegendKeyAspectRatio(); sal_Int32 nCurrentWidth = aCurrentRatio.Width; if( aCurrentRatio.Height > 0 ) { nCurrentWidth = nSymbolHeight* aCurrentRatio.Width/aCurrentRatio.Height; } nSymbolWidth = std::max( nSymbolWidth, nCurrentWidth ); } } awt::Size aMaxSymbolExtent( nSymbolWidth, nSymbolHeight ); std::vector aViewEntries; for(LegendEntryProvider* pLegendEntryProvider : m_aLegendEntryProviderList) { if (pLegendEntryProvider) { std::vector aNewEntries = pLegendEntryProvider->createLegendEntries( aMaxSymbolExtent, eLegendPosition, m_xLegend, xLegendContainer, m_xContext, mrModel); aViewEntries.insert( aViewEntries.end(), aNewEntries.begin(), aNewEntries.end() ); } } bool bSymbolsLeftSide = lcl_shouldSymbolsBePlacedOnTheLeftSide( m_xLegend, m_nDefaultWritingMode ); uno::Reference xPivotTableDataProvider( mrModel.getDataProvider(), uno::UNO_QUERY ); bool bIsPivotChart = xPivotTableDataProvider.is(); if ( !aViewEntries.empty() || bIsPivotChart ) { // create buttons tools::Long nUsedButtonHeight = 0; bool bPlaceButtonsVertically = (eLegendPosition != LegendPosition_PAGE_START && eLegendPosition != LegendPosition_PAGE_END && eExpansion != css::chart::ChartLegendExpansion_WIDE); std::vector> aButtons = lcl_createButtons(xLegendContainer, mrModel, bPlaceButtonsVertically, nUsedButtonHeight); // A custom size includes the size we used for buttons already, so we need to // subtract that from the size that is available for the legend if (bCustom) aLegendSize.Height -= nUsedButtonHeight; // place the legend entries aLegendSize = lcl_placeLegendEntries(aViewEntries, eExpansion, bSymbolsLeftSide, fViewFontSize, aMaxSymbolExtent, aTextProperties, xLegendContainer, aLegendSize, nUsedButtonHeight, rPageSize, bIsPivotChart, rDefaultLegendSize); uno::Reference xModelPage(mrModel.getPageBackground()); for (std::shared_ptr const & pButton : aButtons) { // adjust the width of the buttons if we place them vertically if (bPlaceButtonsVertically) pButton->setSize({aLegendSize.Width - 200, pButton->getSize().Height}); // create the buttons pButton->createShapes(xModelPage); } rtl::Reference xBorder = ShapeFactory::createRectangle( xLegendContainer, aLegendSize, awt::Point(0, 0), aLineFillProperties.first, aLineFillProperties.second, ShapeFactory::StackPosition::Bottom); //because of this name this border will be used for marking the legend ShapeFactory::setShapeName(xBorder, "MarkHandles"); } } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2" ); } } void VLegend::changePosition( awt::Rectangle & rOutAvailableSpace, const awt::Size & rPageSize, const css::awt::Size & rDefaultLegendSize ) { if(! m_xShape.is()) return; try { // determine position and alignment depending on default position awt::Size aLegendSize = m_xShape->getSize(); chart2::RelativePosition aRelativePosition; bool bDefaultLegendSize = rDefaultLegendSize.Width != 0 || rDefaultLegendSize.Height != 0; bool bAutoPosition = ! (m_xLegend->getPropertyValue( "RelativePosition") >>= aRelativePosition); LegendPosition ePos = LegendPosition_LINE_END; m_xLegend->getPropertyValue( "AnchorPosition") >>= ePos; bool bOverlay = false; m_xLegend->getPropertyValue("Overlay") >>= bOverlay; //calculate position if( bAutoPosition ) { // auto position: relative to remaining space aRelativePosition = lcl_getDefaultPosition( ePos, rOutAvailableSpace, rPageSize ); awt::Point aPos = lcl_calculatePositionAndRemainingSpace( rOutAvailableSpace, rPageSize, aRelativePosition, ePos, aLegendSize, bOverlay ); m_xShape->setPosition( aPos ); } else { // manual position: relative to whole page awt::Rectangle aAvailableSpace( 0, 0, rPageSize.Width, rPageSize.Height ); awt::Point aPos = lcl_calculatePositionAndRemainingSpace( aAvailableSpace, rPageSize, aRelativePosition, ePos, bDefaultLegendSize ? rDefaultLegendSize : aLegendSize, bOverlay ); m_xShape->setPosition( aPos ); if (!bOverlay) { // calculate remaining space as if having autoposition: aRelativePosition = lcl_getDefaultPosition( ePos, rOutAvailableSpace, rPageSize ); lcl_calculatePositionAndRemainingSpace( rOutAvailableSpace, rPageSize, aRelativePosition, ePos, bDefaultLegendSize ? rDefaultLegendSize : aLegendSize, bOverlay ); } } } catch( const uno::Exception & ) { DBG_UNHANDLED_EXCEPTION("chart2" ); } } } //namespace chart /* vim:set shiftwidth=4 softtabstop=4 expandtab: */