/* -*- 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 static bool lcl_IsCharIn(sal_Unicode c, const char* pStr) { while ( *pStr ) { if ( *pStr == c ) return true; pStr++; } return false; } ImplMultiTextLineInfo::ImplMultiTextLineInfo() { } ImplMultiTextLineInfo::~ImplMultiTextLineInfo() { } void ImplMultiTextLineInfo::AddLine( const ImplTextLineInfo& rLine ) { mvLines.push_back(rLine); } void ImplMultiTextLineInfo::Clear() { mvLines.clear(); } namespace vcl { TextLayoutCommon::~TextLayoutCommon() COVERITY_NOEXCEPT_FALSE {} OUString TextLayoutCommon::GetCenterEllipsisString(std::u16string_view rOrigStr, sal_Int32 nIndex, tools::Long nMaxWidth) { OUStringBuffer aTmpStr(rOrigStr); // speed it up by removing all but 1.33x as many as the break pos. sal_Int32 nEraseChars = std::max(4, rOrigStr.size() - (nIndex*4)/3); while(nEraseChars < static_cast(rOrigStr.size()) && GetTextWidth(aTmpStr.toString(), 0, aTmpStr.getLength()) > nMaxWidth) { aTmpStr = rOrigStr; sal_Int32 i = (aTmpStr.getLength() - nEraseChars)/2; aTmpStr.remove(i, nEraseChars++); aTmpStr.insert(i, "..."); } return aTmpStr.makeStringAndClear(); } OUString TextLayoutCommon::GetEndEllipsisString(OUString const& rOrigStr, sal_Int32 nIndex, tools::Long nMaxWidth, bool bClipText) { OUString aStr = rOrigStr; aStr = aStr.copy(0, nIndex); if (nIndex > 1) { aStr += "..."; while (!aStr.isEmpty() && (GetTextWidth(aStr, 0, aStr.getLength()) > nMaxWidth)) { if ((nIndex > 1) || (nIndex == aStr.getLength())) nIndex--; aStr = aStr.replaceAt(nIndex, 1, u""); } } if (aStr.isEmpty() && bClipText) aStr += OUStringChar(rOrigStr[0]); return aStr; } namespace { OUString lcl_GetPathEllipsisString(OUString const& rOrigStr, sal_Int32 nIndex) { OUString aPath(rOrigStr); OUString aAbbreviatedPath; osl_abbreviateSystemPath(aPath.pData, &aAbbreviatedPath.pData, nIndex, nullptr); return aAbbreviatedPath; } } OUString TextLayoutCommon::GetNewsEllipsisString(OUString const& rOrigStr, tools::Long nMaxWidth, DrawTextFlags nStyle) { OUString aStr = rOrigStr; static char const pSepChars[] = "."; // Determine last section sal_Int32 nLastContent = aStr.getLength(); while (nLastContent) { nLastContent--; if (lcl_IsCharIn(aStr[nLastContent], pSepChars)) break; } while (nLastContent && lcl_IsCharIn(aStr[nLastContent-1], pSepChars)) { nLastContent--; } OUString aLastStr = aStr.copy(nLastContent); OUString aTempLastStr1 = "..." + aLastStr; if (GetTextWidth(aTempLastStr1, 0, aTempLastStr1.getLength()) > nMaxWidth) return GetEllipsisString(aStr, nMaxWidth, DrawTextFlags::EndEllipsis); sal_Int32 nFirstContent = 0; while (nFirstContent < nLastContent) { nFirstContent++; if (lcl_IsCharIn(aStr[nFirstContent], pSepChars)) break; } while ((nFirstContent < nLastContent) && lcl_IsCharIn(aStr[nFirstContent], pSepChars)) { nFirstContent++; } if (nFirstContent >= nLastContent) return GetEllipsisString(aStr, nMaxWidth, nStyle | DrawTextFlags::EndEllipsis); if (nFirstContent > 4) nFirstContent = 4; OUString aFirstStr = OUString::Concat(aStr.subView(0, nFirstContent)) + "..."; OUString aTempStr = aFirstStr + aLastStr; if (GetTextWidth(aTempStr, 0, aTempStr.getLength() ) > nMaxWidth) return GetEllipsisString(aStr, nMaxWidth, nStyle | DrawTextFlags::EndEllipsis); do { aStr = aTempStr; if (nLastContent > aStr.getLength()) nLastContent = aStr.getLength(); while (nFirstContent < nLastContent) { nLastContent--; if (lcl_IsCharIn(aStr[nLastContent], pSepChars)) break; } while ((nFirstContent < nLastContent) && lcl_IsCharIn(aStr[nLastContent-1], pSepChars)) { nLastContent--; } if (nFirstContent < nLastContent) { std::u16string_view aTempLastStr = aStr.subView(nLastContent); aTempStr = aFirstStr + aTempLastStr; if (GetTextWidth(aTempStr, 0, aTempStr.getLength()) > nMaxWidth) break; } } while (nFirstContent < nLastContent); return aStr; } OUString TextLayoutCommon::GetEllipsisString(OUString const& rOrigStr, tools::Long nMaxWidth, DrawTextFlags nStyle) { OUString aStr = rOrigStr; sal_Int32 nIndex = GetTextBreak( aStr, nMaxWidth, 0, aStr.getLength() ); if (nIndex == -1) return aStr; if ((nStyle & DrawTextFlags::CenterEllipsis) == DrawTextFlags::CenterEllipsis) aStr = GetCenterEllipsisString(rOrigStr, nIndex, nMaxWidth); else if (nStyle & DrawTextFlags::EndEllipsis) aStr = GetEndEllipsisString(rOrigStr, nIndex, nMaxWidth, (nStyle & DrawTextFlags::Clip) == DrawTextFlags::Clip); else if (nStyle & DrawTextFlags::PathEllipsis) aStr = lcl_GetPathEllipsisString(rOrigStr, nIndex); else if ( nStyle & DrawTextFlags::NewsEllipsis ) aStr = GetNewsEllipsisString(rOrigStr, nMaxWidth, nStyle); return aStr; } std::tuple TextLayoutCommon::BreakLine(const tools::Long nWidth, OUString const& rStr, css::uno::Reference< css::linguistic2::XHyphenator > const& xHyph, css::uno::Reference& xBI, const bool bHyphenate, const tools::Long nOrigLineWidth, const sal_Int32 nPos, const sal_Int32 nLen) { if (!xBI.is()) xBI = vcl::unohelper::CreateBreakIterator(); if (!xBI.is()) return BreakLineSimple(nWidth, rStr, nPos, nLen, nOrigLineWidth); const css::lang::Locale& rDefLocale(Application::GetSettings().GetUILanguageTag().getLocale()); sal_Int32 nSoftBreak = GetTextBreak(rStr, nWidth, nPos, nLen - nPos); if (nSoftBreak == -1) nSoftBreak = nPos; SAL_WARN_IF( nSoftBreak >= nLen, "vcl", "Break?!" ); css::i18n::LineBreakHyphenationOptions aHyphOptions( xHyph, css::uno::Sequence (), 1 ); css::i18n::LineBreakUserOptions aUserOptions; css::i18n::LineBreakResults aLBR = xBI->getLineBreak( rStr, nSoftBreak, rDefLocale, nPos, aHyphOptions, aUserOptions ); sal_Int32 nBreakPos = aLBR.breakIndex; if (nBreakPos <= nPos) nBreakPos = nSoftBreak; if (!bHyphenate || !xHyph.is()) return { nBreakPos, GetTextWidth(rStr, nPos, nBreakPos - nPos) }; // Whether hyphen or not: Put the word after the hyphen through // the word boundary. // We run into a problem if the doc is so narrow, that a word // is broken into more than two lines ... css::i18n::Boundary aBoundary = xBI->getWordBoundary( rStr, nBreakPos, rDefLocale, css::i18n::WordType::DICTIONARY_WORD, true ); sal_Int32 nWordStart = nPos; sal_Int32 nWordEnd = aBoundary.endPos; SAL_WARN_IF(nWordEnd <= nWordStart, "vcl", "Start >= End?"); sal_Int32 nWordLen = nWordEnd - nWordStart; if ((nWordEnd < nSoftBreak) || (nWordLen <= 3)) return { nBreakPos, GetTextWidth(rStr, nPos, nBreakPos - nPos) }; OUString aWord = rStr.copy( nWordStart, nWordLen ); sal_Int32 nMinTrail = nWordEnd-nSoftBreak+1; //+1: Before the "broken off" char css::uno::Reference< css::linguistic2::XHyphenatedWord > xHyphWord; if (xHyph.is()) xHyphWord = xHyph->hyphenate( aWord, rDefLocale, aWord.getLength() - nMinTrail, css::uno::Sequence< css::beans::PropertyValue >() ); if (!xHyphWord.is()) return { nBreakPos, GetTextWidth(rStr, nPos, nBreakPos - nPos) }; bool bAlternate = xHyphWord->isAlternativeSpelling(); sal_Int32 _nWordLen = 1 + xHyphWord->getHyphenPos(); if ((_nWordLen < 2 ) || ( (nWordStart + _nWordLen) < 2)) return { nBreakPos, GetTextWidth(rStr, nPos, nBreakPos - nPos) }; if (bAlternate) { nBreakPos = nWordStart + _nWordLen; return { nBreakPos, GetTextWidth(rStr, nPos, nBreakPos - nPos) }; } OUString aAlt( xHyphWord->getHyphenatedWord() ); // We can have two cases: // 1) "packen" turns into "pak-ken" // 2) "Schiffahrt" turns into "Schiff-fahrt" // In case 1 we need to replace a char // In case 2 we add a char // Correct recognition is made harder by words such as // "Schiffahrtsbrennesseln", as the Hyphenator splits all // positions of the word and comes up with "Schifffahrtsbrennnesseln" // Thus, we cannot infer the aWord from the AlternativeWord's // index. // TODO: The whole junk will be made easier by a function in // the Hyphenator, as soon as AMA adds it. sal_Int32 nAltStart = _nWordLen - 1; sal_Int32 nTxtStart = nAltStart - (aAlt.getLength() - aWord.getLength()); sal_Int32 nTxtEnd = nTxtStart; sal_Int32 nAltEnd = nAltStart; // The area between nStart and nEnd is the difference // between AlternativeString and OriginalString while( nTxtEnd < aWord.getLength() && nAltEnd < aAlt.getLength() && aWord[nTxtEnd] != aAlt[nAltEnd] ) { ++nTxtEnd; ++nAltEnd; } // If a char was added, we notice it now: if( nAltEnd > nTxtEnd && nAltStart == nAltEnd && aWord[ nTxtEnd ] == aAlt[nAltEnd] ) { ++nAltEnd; ++nTxtStart; ++nTxtEnd; } SAL_INFO_IF( ( nAltEnd - nAltStart ) != 1, "vcl", "Alternate: Wrong assumption!" ); sal_Unicode cAlternateReplChar = 0; if ( nTxtEnd > nTxtStart ) cAlternateReplChar = aAlt[ nAltStart ]; nBreakPos = nWordStart + nTxtStart; if ( cAlternateReplChar ) nBreakPos++; return { nBreakPos, GetTextWidth(rStr, nPos, nBreakPos - nPos) }; } std::tuple TextLayoutCommon::BreakLineSimple(const tools::Long nWidth, OUString const& rStr, const sal_Int32 nPos, const sal_Int32 nLen, const tools::Long nOrigLineWidth) { sal_Int32 nBreakPos = nLen; tools::Long nLineWidth = nOrigLineWidth; sal_Int32 nSpacePos = rStr.getLength(); tools::Long nW = 0; do { nSpacePos = rStr.lastIndexOf( ' ', nSpacePos ); if( nSpacePos != -1 ) { if( nSpacePos > nPos ) nSpacePos--; nW = GetTextWidth( rStr, nPos, nSpacePos-nPos ); } } while( nW > nWidth ); if( nSpacePos != -1 ) { nBreakPos = nSpacePos; nLineWidth = GetTextWidth( rStr, nPos, nBreakPos-nPos ); if( nBreakPos < rStr.getLength()-1 ) nBreakPos++; } return { nBreakPos, nLineWidth }; } namespace { bool lcl_ShouldBreakWord(const sal_Int32 nLineWidth, const sal_Int32 nWidth, const DrawTextFlags nStyle) { return ((nLineWidth > nWidth) && (nStyle & DrawTextFlags::WordBreak)); } sal_Int32 lcl_GetEndOfLine(std::u16string_view rStr, const sal_Int32 nPos, const sal_Int32 nLen) { sal_Int32 nBreakPos = nPos; while ((nBreakPos < nLen) && (rStr[nBreakPos] != '\r') && (rStr[nBreakPos] != '\n')) { nBreakPos++; } return nBreakPos; } } tools::Long TextLayoutCommon::GetTextLines(tools::Rectangle const& rRect, const tools::Long nTextHeight, ImplMultiTextLineInfo& rLineInfo, tools::Long nWidth, OUString const& rStr, DrawTextFlags nStyle) { SAL_WARN_IF( nWidth <= 0, "vcl", "ImplGetTextLines: nWidth <= 0!" ); if ( nWidth <= 0 ) nWidth = 1; rLineInfo.Clear(); if (rStr.isEmpty()) return 0; tools::Long nMaxLineWidth = 0; const bool bHyphenate = (nStyle & DrawTextFlags::WordBreakHyphenation) == DrawTextFlags::WordBreakHyphenation; css::uno::Reference< css::linguistic2::XHyphenator > xHyph; if (bHyphenate) { // get service provider css::uno::Reference xContext(comphelper::getProcessComponentContext()); css::uno::Reference xLinguMgr = css::linguistic2::LinguServiceManager::create(xContext); xHyph = xLinguMgr->getHyphenator(); } css::uno::Reference xBI; sal_Int32 nPos = 0; sal_Int32 nLen = rStr.getLength(); sal_Int32 nCurrentTextY = 0; while ( nPos < nLen ) { sal_Int32 nBreakPos = lcl_GetEndOfLine(rStr, nPos, nLen); tools::Long nLineWidth = GetTextWidth(rStr, nPos, nBreakPos-nPos); if (lcl_ShouldBreakWord(nLineWidth, nWidth, nStyle)) std::tie(nBreakPos, nLineWidth) = BreakLine(nWidth, rStr, xHyph, xBI, bHyphenate, nLineWidth, nPos, nBreakPos); if ( nLineWidth > nMaxLineWidth ) nMaxLineWidth = nLineWidth; rLineInfo.AddLine( ImplTextLineInfo( nLineWidth, nPos, nBreakPos-nPos ) ); if ( nBreakPos == nPos ) nBreakPos++; nPos = nBreakPos; if ( nPos < nLen && ( ( rStr[ nPos ] == '\r' ) || ( rStr[ nPos ] == '\n' ) ) ) { nPos++; // CR/LF? if ( ( nPos < nLen ) && ( rStr[ nPos ] == '\n' ) && ( rStr[ nPos-1 ] == '\r' ) ) nPos++; } nCurrentTextY += nTextHeight; const bool bClipping = (nStyle & DrawTextFlags::Clip) && !(nStyle & DrawTextFlags::EndEllipsis); if (bClipping && nCurrentTextY > rRect.GetHeight()) break; } #ifdef DBG_UTIL for ( sal_Int32 nL = 0; nL < rLineInfo.Count(); nL++ ) { ImplTextLineInfo& rLine = rLineInfo.GetLine( nL ); OUString aLine = rStr.copy( rLine.GetIndex(), rLine.GetLen() ); SAL_WARN_IF( aLine.indexOf( '\r' ) != -1, "vcl", "ImplGetTextLines - Found CR!" ); SAL_WARN_IF( aLine.indexOf( '\n' ) != -1, "vcl", "ImplGetTextLines - Found LF!" ); } #endif return nMaxLineWidth; } DefaultTextLayout::~DefaultTextLayout() { } tools::Long DefaultTextLayout::GetTextWidth( const OUString& _rText, sal_Int32 _nStartIndex, sal_Int32 _nLength ) const { return m_rTargetDevice.GetTextWidth( _rText, _nStartIndex, _nLength ); } void DefaultTextLayout::DrawText( const Point& _rStartPoint, const OUString& _rText, sal_Int32 _nStartIndex, sal_Int32 _nLength, std::vector< tools::Rectangle >* _pVector, OUString* _pDisplayText ) { m_rTargetDevice.DrawText( _rStartPoint, _rText, _nStartIndex, _nLength, _pVector, _pDisplayText ); } tools::Long DefaultTextLayout::GetTextArray( const OUString& _rText, KernArray* _pDXArray, sal_Int32 _nStartIndex, sal_Int32 _nLength, bool bCaret ) const { return basegfx::fround( m_rTargetDevice.GetTextArray(_rText, _pDXArray, _nStartIndex, _nLength, bCaret).nWidth); } sal_Int32 DefaultTextLayout::GetTextBreak( const OUString& _rText, tools::Long _nMaxTextWidth, sal_Int32 _nStartIndex, sal_Int32 _nLength ) const { return m_rTargetDevice.GetTextBreak( _rText, _nMaxTextWidth, _nStartIndex, _nLength ); } bool DefaultTextLayout::DecomposeTextRectAction() const { return false; } class ReferenceDeviceTextLayout : public TextLayoutCommon { public: ReferenceDeviceTextLayout( const Control& _rControl, OutputDevice& _rTargetDevice, OutputDevice& _rReferenceDevice ); virtual ~ReferenceDeviceTextLayout(); // TextLayoutCommon virtual tools::Long GetTextWidth( const OUString& rStr, sal_Int32 nIndex, sal_Int32 nLen ) const override; virtual void DrawText( const Point& _rStartPoint, const OUString& _rText, sal_Int32 _nStartIndex, sal_Int32 _nLength, std::vector< tools::Rectangle >* _pVector, OUString* _pDisplayText ) override; virtual tools::Long GetTextArray( const OUString& _rText, KernArray* _pDXAry, sal_Int32 _nStartIndex, sal_Int32 _nLength, bool bCaret = false ) const override; virtual sal_Int32 GetTextBreak(const OUString& _rText, tools::Long _nMaxTextWidth, sal_Int32 _nStartIndex, sal_Int32 _nLength) const override; virtual bool DecomposeTextRectAction() const override; public: // equivalents to the respective OutputDevice methods, which take the reference device into account tools::Rectangle DrawText( const tools::Rectangle& _rRect, const OUString& _rText, DrawTextFlags _nStyle, std::vector< tools::Rectangle >* _pVector, OUString* _pDisplayText, const Size* i_pDeviceSize ); tools::Rectangle GetTextRect( const tools::Rectangle& _rRect, const OUString& _rText, DrawTextFlags _nStyle, Size* o_pDeviceSize ); private: OutputDevice& m_rTargetDevice; OutputDevice& m_rReferenceDevice; const bool m_bRTLEnabled; tools::Rectangle m_aCompleteTextRect; }; ReferenceDeviceTextLayout::ReferenceDeviceTextLayout( const Control& _rControl, OutputDevice& _rTargetDevice, OutputDevice& _rReferenceDevice ) :m_rTargetDevice( _rTargetDevice ) ,m_rReferenceDevice( _rReferenceDevice ) ,m_bRTLEnabled( _rControl.IsRTLEnabled() ) { Font const aUnzoomedPointFont( _rControl.GetUnzoomedControlPointFont() ); const Fraction& aZoom( _rControl.GetZoom() ); m_rTargetDevice.Push( PushFlags::MAPMODE | PushFlags::FONT | PushFlags::TEXTLAYOUTMODE ); MapMode aTargetMapMode( m_rTargetDevice.GetMapMode() ); SAL_WARN_IF(aTargetMapMode.GetOrigin() != Point(), "vcl", "uhm, the code below won't work here ..."); // normally, controls simulate "zoom" by "zooming" the font. This is responsible for (part of) the discrepancies // between text in Writer and text in controls in Writer, though both have the same font. // So, if we have a zoom set at the control, then we do not scale the font, but instead modify the map mode // to accommodate for the zoom. aTargetMapMode.SetScaleX( aZoom ); // TODO: shouldn't this be "current_scale * zoom"? aTargetMapMode.SetScaleY( aZoom ); // also, use a higher-resolution map unit than "pixels", which should save us some rounding errors when // translating coordinates between the reference device and the target device. SAL_WARN_IF(aTargetMapMode.GetMapUnit() != MapUnit::MapPixel, "vcl", "this class is not expected to work with such target devices!"); // we *could* adjust all the code in this class to handle this case, but at the moment, it's not necessary const MapUnit eTargetMapUnit = m_rReferenceDevice.GetMapMode().GetMapUnit(); aTargetMapMode.SetMapUnit( eTargetMapUnit ); SAL_WARN_IF(aTargetMapMode.GetMapUnit() == MapUnit::MapPixel, "vcl", "a reference device which has map mode PIXEL?!"); m_rTargetDevice.SetMapMode( aTargetMapMode ); // now that the Zoom is part of the map mode, reset the target device's font to the "unzoomed" version Font aDrawFont( aUnzoomedPointFont ); aDrawFont.SetFontSize( OutputDevice::LogicToLogic(aDrawFont.GetFontSize(), MapMode(MapUnit::MapPoint), MapMode(eTargetMapUnit)) ); _rTargetDevice.SetFont( aDrawFont ); // transfer font to the reference device m_rReferenceDevice.Push( PushFlags::FONT | PushFlags::TEXTLAYOUTMODE ); Font aRefFont( aUnzoomedPointFont ); aRefFont.SetFontSize( OutputDevice::LogicToLogic( aRefFont.GetFontSize(), MapMode(MapUnit::MapPoint), m_rReferenceDevice.GetMapMode()) ); m_rReferenceDevice.SetFont( aRefFont ); } ReferenceDeviceTextLayout::~ReferenceDeviceTextLayout() { m_rReferenceDevice.Pop(); m_rTargetDevice.Pop(); } namespace { bool lcl_normalizeLength( std::u16string_view _rText, const sal_Int32 _nStartIndex, sal_Int32& _io_nLength ) { sal_Int32 nTextLength = _rText.size(); if ( _nStartIndex > nTextLength ) return false; if ( _nStartIndex + _io_nLength > nTextLength ) _io_nLength = nTextLength - _nStartIndex; return true; } } tools::Long ReferenceDeviceTextLayout::GetTextArray( const OUString& _rText, KernArray* _pDXAry, sal_Int32 _nStartIndex, sal_Int32 _nLength, bool bCaret ) const { if ( !lcl_normalizeLength( _rText, _nStartIndex, _nLength ) ) return 0; // retrieve the character widths from the reference device tools::Long nTextWidth = basegfx::fround( m_rReferenceDevice.GetTextArray(_rText, _pDXAry, _nStartIndex, _nLength, bCaret) .nWidth); #if OSL_DEBUG_LEVEL > 1 if ( _pDXAry ) { OStringBuffer aTrace; aTrace.append( "ReferenceDeviceTextLayout::GetTextArray( " ); aTrace.append( OUStringToOString( _rText, RTL_TEXTENCODING_UTF8 ) ); aTrace.append( " ): " ); aTrace.append( nTextWidth ); aTrace.append( " = ( " ); for ( sal_Int32 i=0; i<_nLength; ) { aTrace.append( _pDXAry->get(i) ); if ( ++i < _nLength ) aTrace.append( ", " ); } aTrace.append( ")" ); SAL_INFO( "vcl", aTrace.makeStringAndClear() ); } #endif return nTextWidth; } tools::Long ReferenceDeviceTextLayout::GetTextWidth( const OUString& _rText, sal_Int32 _nStartIndex, sal_Int32 _nLength ) const { return GetTextArray( _rText, nullptr, _nStartIndex, _nLength ); } void ReferenceDeviceTextLayout::DrawText( const Point& _rStartPoint, const OUString& _rText, sal_Int32 _nStartIndex, sal_Int32 _nLength, std::vector< tools::Rectangle >* _pVector, OUString* _pDisplayText ) { if ( !lcl_normalizeLength( _rText, _nStartIndex, _nLength ) ) return; if ( _pVector && _pDisplayText ) { std::vector< tools::Rectangle > aGlyphBounds; m_rReferenceDevice.GetGlyphBoundRects( _rStartPoint, _rText, _nStartIndex, _nLength, aGlyphBounds ); _pVector->insert( _pVector->end(), aGlyphBounds.begin(), aGlyphBounds.end() ); *_pDisplayText += _rText.subView( _nStartIndex, _nLength ); return; } KernArray aCharWidths; tools::Long nTextWidth = GetTextArray( _rText, &aCharWidths, _nStartIndex, _nLength ); m_rTargetDevice.DrawTextArray( _rStartPoint, _rText, aCharWidths, {}, _nStartIndex, _nLength ); m_aCompleteTextRect.Union( tools::Rectangle( _rStartPoint, Size( nTextWidth, m_rTargetDevice.GetTextHeight() ) ) ); } sal_Int32 ReferenceDeviceTextLayout::GetTextBreak( const OUString& _rText, tools::Long _nMaxTextWidth, sal_Int32 _nStartIndex, sal_Int32 _nLength ) const { if ( !lcl_normalizeLength( _rText, _nStartIndex, _nLength ) ) return 0; return m_rReferenceDevice.GetTextBreak( _rText, _nMaxTextWidth, _nStartIndex, _nLength ); } bool ReferenceDeviceTextLayout::DecomposeTextRectAction() const { return true; } tools::Rectangle ReferenceDeviceTextLayout::DrawText( const tools::Rectangle& _rRect, const OUString& _rText, DrawTextFlags _nStyle, std::vector< tools::Rectangle >* _pVector, OUString* _pDisplayText, const Size* i_pDeviceSize ) { if ( _rText.isEmpty() ) return tools::Rectangle(); // determine text layout mode from the RTL-ness of the control whose text we render text::ComplexTextLayoutFlags nTextLayoutMode = m_bRTLEnabled ? text::ComplexTextLayoutFlags::BiDiRtl : text::ComplexTextLayoutFlags::Default; m_rReferenceDevice.SetLayoutMode( nTextLayoutMode ); m_rTargetDevice.SetLayoutMode( nTextLayoutMode | text::ComplexTextLayoutFlags::TextOriginLeft ); // ComplexTextLayoutFlags::TextOriginLeft is because when we do actually draw the text (in DrawText( Point, ... )), then // our caller gives us the left border of the draw position, regardless of script type, text layout, // and the like in our ctor, we set the map mode of the target device from pixel to twip, but our caller doesn't know this, // but passed pixel coordinates. So, adjust the rect. tools::Rectangle aRect( m_rTargetDevice.PixelToLogic( _rRect ) ); if (i_pDeviceSize) { //if i_pDeviceSize is passed in here, it was the original pre logic-to-pixel size of _rRect SAL_WARN_IF(std::abs(_rRect.GetSize().Width() - m_rTargetDevice.LogicToPixel(*i_pDeviceSize).Width()) > 1, "vcl", "DeviceSize width was expected to match Pixel width"); SAL_WARN_IF(std::abs(_rRect.GetSize().Height() - m_rTargetDevice.LogicToPixel(*i_pDeviceSize).Height()) > 1, "vcl", "DeviceSize height was expected to match Pixel height"); aRect.SetSize(*i_pDeviceSize); } m_aCompleteTextRect.SetEmpty(); m_rTargetDevice.DrawText( aRect, _rText, _nStyle, _pVector, _pDisplayText, this ); tools::Rectangle aTextRect = m_aCompleteTextRect; if ( aTextRect.IsEmpty() && !aRect.IsEmpty() ) { // this happens for instance if we're in a PaintToDevice call, where only a MetaFile is recorded, // but no actual painting happens, so our "DrawText( Point, ... )" is never called // In this case, calculate the rect from what OutputDevice::GetTextRect would give us. This has // the disadvantage of less accuracy, compared with the approach to calculate the rect from the // single "DrawText( Point, ... )" calls, since more intermediate arithmetic will translate // from ref- to target-units. aTextRect = m_rTargetDevice.GetTextRect( aRect, _rText, _nStyle, nullptr, this ); } // similar to above, the text rect now contains TWIPs (or whatever unit the ref device has), but the caller // expects pixel coordinates aTextRect = m_rTargetDevice.LogicToPixel( aTextRect ); // convert the metric vector if ( _pVector ) { for ( auto& rCharRect : *_pVector ) { rCharRect = m_rTargetDevice.LogicToPixel( rCharRect ); } } return aTextRect; } tools::Rectangle ReferenceDeviceTextLayout::GetTextRect( const tools::Rectangle& _rRect, const OUString& _rText, DrawTextFlags _nStyle, Size* o_pDeviceSize ) { if ( _rText.isEmpty() ) return tools::Rectangle(); // determine text layout mode from the RTL-ness of the control whose text we render text::ComplexTextLayoutFlags nTextLayoutMode = m_bRTLEnabled ? text::ComplexTextLayoutFlags::BiDiRtl : text::ComplexTextLayoutFlags::Default; m_rReferenceDevice.SetLayoutMode( nTextLayoutMode ); m_rTargetDevice.SetLayoutMode( nTextLayoutMode | text::ComplexTextLayoutFlags::TextOriginLeft ); // ComplexTextLayoutFlags::TextOriginLeft is because when we do actually draw the text (in DrawText( Point, ... )), then // our caller gives us the left border of the draw position, regardless of script type, text layout, // and the like in our ctor, we set the map mode of the target device from pixel to twip, but our caller doesn't know this, // but passed pixel coordinates. So, adjust the rect. tools::Rectangle aRect( m_rTargetDevice.PixelToLogic( _rRect ) ); tools::Rectangle aTextRect = m_rTargetDevice.GetTextRect( aRect, _rText, _nStyle, nullptr, this ); //if o_pDeviceSize is available, stash the pre logic-to-pixel size in it if (o_pDeviceSize) { *o_pDeviceSize = aTextRect.GetSize(); } // similar to above, the text rect now contains TWIPs (or whatever unit the ref device has), but the caller // expects pixel coordinates aTextRect = m_rTargetDevice.LogicToPixel( aTextRect ); return aTextRect; } ControlTextRenderer::ControlTextRenderer( const Control& _rControl, OutputDevice& _rTargetDevice, OutputDevice& _rReferenceDevice ) :m_pImpl( new ReferenceDeviceTextLayout( _rControl, _rTargetDevice, _rReferenceDevice ) ) { } ControlTextRenderer::~ControlTextRenderer() { } tools::Rectangle ControlTextRenderer::DrawText( const tools::Rectangle& _rRect, const OUString& _rText, DrawTextFlags _nStyle, std::vector< tools::Rectangle >* _pVector, OUString* _pDisplayText, const Size* i_pDeviceSize ) { return m_pImpl->DrawText( _rRect, _rText, _nStyle, _pVector, _pDisplayText, i_pDeviceSize ); } tools::Rectangle ControlTextRenderer::GetTextRect( const tools::Rectangle& _rRect, const OUString& _rText, DrawTextFlags _nStyle, Size* o_pDeviceSize = nullptr ) { return m_pImpl->GetTextRect( _rRect, _rText, _nStyle, o_pDeviceSize ); } } // namespace vcl /* vim:set shiftwidth=4 softtabstop=4 expandtab: */