/* -*- 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 #include #include #include #include #include #include #include #include #include using ::com::sun::star::uno::Reference; using ::com::sun::star::xml::sax::XFastAttributeList; using namespace ::com::sun::star; using namespace ::com::sun::star::drawing; using namespace ::com::sun::star::geometry; using namespace ::com::sun::star::style; namespace oox { namespace drawingml { /** converts EMUs into 1/100th mmm */ sal_Int32 GetCoordinate( sal_Int32 nValue ) { nValue = o3tl::saturating_add(nValue, 180); return nValue / 360; } /** converts an emu string into 1/100th mmm */ sal_Int32 GetCoordinate( const OUString& sValue ) { sal_Int32 nRet = 0; if( !::sax::Converter::convertNumber( nRet, sValue ) ) nRet = 0; return GetCoordinate( nRet ); } /** converts a ST_Percentage % string into 1/1000th of % */ sal_Int32 GetPercent( const OUString& sValue ) { sal_Int32 nRet = 0; if( !::sax::Converter::convertNumber( nRet, sValue ) ) nRet = 0; return nRet; } double GetPositiveFixedPercentage( const OUString& sValue ) { double fPercent = sValue.toFloat() / 100000.; return fPercent; } /** converts the attributes from an CT_TLPoint into an awt Point with 1/1000% */ awt::Point GetPointPercent( const Reference< XFastAttributeList >& xAttribs ) { return awt::Point(GetPercent(xAttribs->getOptionalValue(XML_x)), GetPercent(xAttribs->getOptionalValue(XML_y))); } /** converts the ST_TextFontSize to point */ float GetTextSize( const OUString& sValue ) { float fRet = 0; sal_Int32 nRet; if( ::sax::Converter::convertNumber( nRet, sValue ) ) fRet = static_cast< float >( static_cast< double >( nRet ) / 100.0 ); return fRet; } /** converts the ST_TextSpacingPoint to 1/100mm */ sal_Int32 GetTextSpacingPoint( const OUString& sValue ) { sal_Int32 nRet; if( ::sax::Converter::convertNumber( nRet, sValue, (SAL_MIN_INT32 + 360) / 254, (SAL_MAX_INT32 - 360) / 254 ) ) nRet = GetTextSpacingPoint( nRet ); return nRet; } sal_Int32 GetTextSpacingPoint(sal_Int32 nValue) { if (nValue > 0) nValue = (nValue * 254 + 360); else if (nValue < 0) nValue = (nValue * 254 - 360); return nValue / 720; } float GetFontHeight( sal_Int32 nHeight ) { // convert 1/100 points to points return static_cast< float >( nHeight / 100.0 ); } sal_Int16 GetFontUnderline( sal_Int32 nToken ) { OSL_ASSERT((nToken & sal_Int32(0xFFFF0000))==0); switch( nToken ) { case XML_none: return awt::FontUnderline::NONE; case XML_dash: return awt::FontUnderline::DASH; case XML_dashHeavy: return awt::FontUnderline::BOLDDASH; case XML_dashLong: return awt::FontUnderline::LONGDASH; case XML_dashLongHeavy: return awt::FontUnderline::BOLDLONGDASH; case XML_dbl: return awt::FontUnderline::DOUBLE; case XML_dotDash: return awt::FontUnderline::DASHDOT; case XML_dotDashHeavy: return awt::FontUnderline::BOLDDASHDOT; case XML_dotDotDash: return awt::FontUnderline::DASHDOTDOT; case XML_dotDotDashHeavy: return awt::FontUnderline::BOLDDASHDOTDOT; case XML_dotted: return awt::FontUnderline::DOTTED; case XML_dottedHeavy: return awt::FontUnderline::BOLDDOTTED; case XML_heavy: return awt::FontUnderline::BOLD; case XML_sng: return awt::FontUnderline::SINGLE; case XML_wavy: return awt::FontUnderline::WAVE; case XML_wavyDbl: return awt::FontUnderline::DOUBLEWAVE; case XML_wavyHeavy: return awt::FontUnderline::BOLDWAVE; // case XML_words: // TODO } return awt::FontUnderline::DONTKNOW; } sal_Int16 GetFontStrikeout( sal_Int32 nToken ) { OSL_ASSERT((nToken & sal_Int32(0xFFFF0000))==0); switch( nToken ) { case XML_dblStrike: return awt::FontStrikeout::DOUBLE; case XML_noStrike: return awt::FontStrikeout::NONE; case XML_sngStrike: return awt::FontStrikeout::SINGLE; } return awt::FontStrikeout::DONTKNOW; } sal_Int16 GetCaseMap( sal_Int32 nToken ) { switch( nToken ) { case XML_all: return CaseMap::UPPERCASE; case XML_small: return CaseMap::SMALLCAPS; } return CaseMap::NONE; } /** converts a paragraph align to a ParaAdjust */ ParagraphAdjust GetParaAdjust( sal_Int32 nAlign ) { OSL_ASSERT((nAlign & sal_Int32(0xFFFF0000))==0); ParagraphAdjust nEnum; switch( nAlign ) { case XML_ctr: nEnum = ParagraphAdjust_CENTER; break; case XML_just: case XML_justLow: nEnum = ParagraphAdjust_BLOCK; break; case XML_r: nEnum = ParagraphAdjust_RIGHT; break; case XML_thaiDist: case XML_dist: nEnum = ParagraphAdjust_STRETCH; break; case XML_l: default: nEnum = ParagraphAdjust_LEFT; break; } return nEnum; } TextVerticalAdjust GetTextVerticalAdjust( sal_Int32 nToken ) { TextVerticalAdjust aVertAdjust; switch( nToken ) { case XML_b: aVertAdjust = TextVerticalAdjust_BOTTOM; break; case XML_dist: case XML_just: case XML_ctr: aVertAdjust = TextVerticalAdjust_CENTER; break; case XML_t: default: aVertAdjust = TextVerticalAdjust_TOP; break; } return aVertAdjust; } const char* GetTextVerticalAdjust( TextVerticalAdjust eAdjust ) { const char* sVerticalAdjust = nullptr; switch( eAdjust ) { case TextVerticalAdjust_BOTTOM: sVerticalAdjust = "b"; break; case TextVerticalAdjust_CENTER: sVerticalAdjust = "ctr"; break; case TextVerticalAdjust_TOP: default: sVerticalAdjust = "t"; break; } return sVerticalAdjust; } TabAlign GetTabAlign( sal_Int32 aToken ) { OSL_ASSERT((aToken & sal_Int32(0xFFFF0000))==0); TabAlign nEnum; switch( aToken ) { case XML_ctr: nEnum = TabAlign_CENTER; break; case XML_dec: nEnum = TabAlign_DECIMAL; break; case XML_l: nEnum = TabAlign_LEFT; break; case XML_r: nEnum = TabAlign_RIGHT; break; default: nEnum = TabAlign_DEFAULT; break; } return nEnum; } const char* GetHatchPattern( const drawing::Hatch& rHatch ) { const char* sPattern = nullptr; const sal_Int32 nAngle = rHatch.Angle > 1800 ? rHatch.Angle - 1800 : rHatch.Angle; // Angle ~ 0° (horizontal) if( (nAngle >= 0 && nAngle < 225) || nAngle >= 1575 ) { switch( rHatch.Style ) { case drawing::HatchStyle_SINGLE: { if( rHatch.Distance < 75 ) sPattern = "ltHorz"; else sPattern = "horz"; break; } case drawing::HatchStyle_DOUBLE: case drawing::HatchStyle_TRIPLE: { if( rHatch.Distance < 75 ) sPattern = "smGrid"; else sPattern = "lgGrid"; break; } default: break; } } // Angle ~ 45° (upward diagonal) else if( nAngle < 675 ) { switch( rHatch.Style ) { case drawing::HatchStyle_SINGLE: { if( rHatch.Distance < 75 ) sPattern = "ltUpDiag"; else sPattern = "wdUpDiag"; break; } case drawing::HatchStyle_DOUBLE: case drawing::HatchStyle_TRIPLE: { if( rHatch.Distance < 75 ) sPattern = "smCheck"; else sPattern = "openDmnd"; break; } default: break; } } // Angle ~ 90° (vertical) else if( nAngle < 1125 ) { switch( rHatch.Style ) { case drawing::HatchStyle_SINGLE: { // dkVert is imported as Distance = 25, ltVert as Distance = 50, export them accordingly. if( rHatch.Distance < 50 ) sPattern = "dkVert"; else if( rHatch.Distance < 75 ) sPattern = "ltVert"; else sPattern = "vert"; break; } case drawing::HatchStyle_DOUBLE: case drawing::HatchStyle_TRIPLE: { if( rHatch.Distance < 75 ) sPattern = "smGrid"; else sPattern = "lgGrid"; break; } default: break; } } // Angle ~ 135° (downward diagonal) else if( nAngle < 1575 ) { switch( rHatch.Style ) { case drawing::HatchStyle_SINGLE: { if( rHatch.Distance < 75 ) sPattern = "ltDnDiag"; else sPattern = "wdDnDiag"; break; } case drawing::HatchStyle_DOUBLE: case drawing::HatchStyle_TRIPLE: { if( rHatch.Distance < 75 ) sPattern = "smCheck"; else sPattern = "openDmnd"; break; } default: break; } } return sPattern; } /** converts the attributes from a CT_RelativeRect to an IntegerRectangle2D */ IntegerRectangle2D GetRelativeRect( const Reference< XFastAttributeList >& xAttribs ) { IntegerRectangle2D r; r.X1 = xAttribs->getOptionalValue( XML_l ).toInt32(); r.Y1 = xAttribs->getOptionalValue( XML_t ).toInt32(); r.X2 = xAttribs->getOptionalValue( XML_r ).toInt32(); r.Y2 = xAttribs->getOptionalValue( XML_b ).toInt32(); return r; } /** converts the attributes from an CT_Size2D into an awt Size with 1/100thmm */ awt::Size GetSize2D( const Reference< XFastAttributeList >& xAttribs ) { return awt::Size( GetCoordinate( xAttribs->getOptionalValue( XML_cx ) ), GetCoordinate( xAttribs->getOptionalValue( XML_cy ) ) ); } IndexRange GetIndexRange( const Reference< XFastAttributeList >& xAttributes ) { IndexRange range; range.start = xAttributes->getOptionalValue( XML_st ).toInt32(); range.end = xAttributes->getOptionalValue( XML_end ).toInt32(); return range; } } // namespace drawingml } // namespace oox /* vim:set shiftwidth=4 softtabstop=4 expandtab: */